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|
/* regcomp.h
*
* Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
* 2000, 2001, 2002, 2003, 2005, 2006, 2007, by Larry Wall and others
*
* You may distribute under the terms of either the GNU General Public
* License or the Artistic License, as specified in the README file.
*
*/
#include "regcharclass.h"
/* Convert branch sequences to more efficient trie ops? */
#define PERL_ENABLE_TRIE_OPTIMISATION 1
/* Be really aggressive about optimising patterns with trie sequences? */
#define PERL_ENABLE_EXTENDED_TRIE_OPTIMISATION 1
/* Should the optimiser take positive assertions into account? */
#define PERL_ENABLE_POSITIVE_ASSERTION_STUDY 0
/* Not for production use: */
#define PERL_ENABLE_EXPERIMENTAL_REGEX_OPTIMISATIONS 0
/* Activate offsets code - set to if 1 to enable */
#ifdef DEBUGGING
#define RE_TRACK_PATTERN_OFFSETS
#endif
/*
* The "internal use only" fields in regexp.h are present to pass info from
* compile to execute that permits the execute phase to run lots faster on
* simple cases. They are:
*
* regstart sv that must begin a match; NULL if none obvious
* reganch is the match anchored (at beginning-of-line only)?
* regmust string (pointer into program) that match must include, or NULL
* [regmust changed to SV* for bminstr()--law]
* regmlen length of regmust string
* [regmlen not used currently]
*
* Regstart and reganch permit very fast decisions on suitable starting points
* for a match, cutting down the work a lot. Regmust permits fast rejection
* of lines that cannot possibly match. The regmust tests are costly enough
* that pregcomp() supplies a regmust only if the r.e. contains something
* potentially expensive (at present, the only such thing detected is * or +
* at the start of the r.e., which can involve a lot of backup). Regmlen is
* supplied because the test in pregexec() needs it and pregcomp() is computing
* it anyway.
* [regmust is now supplied always. The tests that use regmust have a
* heuristic that disables the test if it usually matches.]
*
* [In fact, we now use regmust in many cases to locate where the search
* starts in the string, so if regback is >= 0, the regmust search is never
* wasted effort. The regback variable says how many characters back from
* where regmust matched is the earliest possible start of the match.
* For instance, /[a-z].foo/ has a regmust of 'foo' and a regback of 2.]
*/
/*
* Structure for regexp "program". This is essentially a linear encoding
* of a nondeterministic finite-state machine (aka syntax charts or
* "railroad normal form" in parsing technology). Each node is an opcode
* plus a "next" pointer, possibly plus an operand. "Next" pointers of
* all nodes except BRANCH implement concatenation; a "next" pointer with
* a BRANCH on both ends of it is connecting two alternatives. (Here we
* have one of the subtle syntax dependencies: an individual BRANCH (as
* opposed to a collection of them) is never concatenated with anything
* because of operator precedence.) The operand of some types of node is
* a literal string; for others, it is a node leading into a sub-FSM. In
* particular, the operand of a BRANCH node is the first node of the branch.
* (NB this is *not* a tree structure: the tail of the branch connects
* to the thing following the set of BRANCHes.) The opcodes are defined
* in regnodes.h which is generated from regcomp.sym by regcomp.pl.
*/
/*
* A node is one char of opcode followed by two chars of "next" pointer.
* "Next" pointers are stored as two 8-bit pieces, high order first. The
* value is a positive offset from the opcode of the node containing it.
* An operand, if any, simply follows the node. (Note that much of the
* code generation knows about this implicit relationship.)
*
* Using two bytes for the "next" pointer is vast overkill for most things,
* but allows patterns to get big without disasters.
*
* [The "next" pointer is always aligned on an even
* boundary, and reads the offset directly as a short. Also, there is no
* special test to reverse the sign of BACK pointers since the offset is
* stored negative.]
*/
/* This is the stuff that used to live in regexp.h that was truly
private to the engine itself. It now lives here. */
typedef struct regexp_internal {
int name_list_idx; /* Optional data index of an array of paren names */
union {
U32 *offsets; /* offset annotations 20001228 MJD
data about mapping the program to the
string -
offsets[0] is proglen when this is used
*/
U32 proglen;
} u;
regnode *regstclass; /* Optional startclass as identified or constructed
by the optimiser */
struct reg_data *data; /* Additional miscellaneous data used by the program.
Used to make it easier to clone and free arbitrary
data that the regops need. Often the ARG field of
a regop is an index into this structure */
struct reg_code_block *code_blocks;/* positions of literal (?{}) */
int num_code_blocks; /* size of code_blocks[] */
regnode program[1]; /* Unwarranted chumminess with compiler. */
} regexp_internal;
#define RXi_SET(x,y) (x)->pprivate = (void*)(y)
#define RXi_GET(x) ((regexp_internal *)((x)->pprivate))
#define RXi_GET_DECL(r,ri) regexp_internal *ri = RXi_GET(r)
/*
* Flags stored in regexp->intflags
* These are used only internally to the regexp engine
*
* See regexp.h for flags used externally to the regexp engine
*/
#define RXp_INTFLAGS(rx) ((rx)->intflags)
#define RX_INTFLAGS(prog) RXp_INTFLAGS(ReANY(prog))
#define PREGf_SKIP 0x00000001
#define PREGf_IMPLICIT 0x00000002 /* Converted .* to ^.* */
#define PREGf_NAUGHTY 0x00000004 /* how exponential is this pattern? */
#define PREGf_VERBARG_SEEN 0x00000008
#define PREGf_CUTGROUP_SEEN 0x00000010
#define PREGf_USE_RE_EVAL 0x00000020 /* compiled with "use re 'eval'" */
/* these used to be extflags, but are now intflags */
#define PREGf_NOSCAN 0x00000040
#define PREGf_CANY_SEEN 0x00000080
#define PREGf_GPOS_SEEN 0x00000100
#define PREGf_GPOS_FLOAT 0x00000200
#define PREGf_ANCH_BOL 0x00000400
#define PREGf_ANCH_MBOL 0x00000800
#define PREGf_ANCH_SBOL 0x00001000
#define PREGf_ANCH_GPOS 0x00002000
#define PREGf_ANCH (PREGf_ANCH_SBOL | PREGf_ANCH_GPOS | \
PREGf_ANCH_MBOL | PREGf_ANCH_BOL )
/* this is where the old regcomp.h started */
struct regnode_string {
U8 str_len;
U8 type;
U16 next_off;
char string[1];
};
/* Argument bearing node - workhorse,
arg1 is often for the data field */
struct regnode_1 {
U8 flags;
U8 type;
U16 next_off;
U32 arg1;
};
/* Similar to a regnode_1 but with an extra signed argument */
struct regnode_2L {
U8 flags;
U8 type;
U16 next_off;
U32 arg1;
I32 arg2;
};
/* 'Two field' -- Two 16 bit unsigned args */
struct regnode_2 {
U8 flags;
U8 type;
U16 next_off;
U16 arg1;
U16 arg2;
};
#define ANYOF_BITMAP_SIZE (256 / 8) /* 8 bits/Byte */
/* also used by trie */
struct regnode_charclass {
U8 flags;
U8 type;
U16 next_off;
U32 arg1;
char bitmap[ANYOF_BITMAP_SIZE]; /* only compile-time */
};
/* has runtime (locale) \d, \w, ..., [:posix:] classes */
struct regnode_charclass_class {
U8 flags; /* ANYOF_POSIXL bit must go here */
U8 type;
U16 next_off;
U32 arg1;
char bitmap[ANYOF_BITMAP_SIZE]; /* both compile-time */
U32 classflags; /* and run-time */
};
/* like above, but also has folds that are used only if the runtime locale is
* UTF-8. */
struct regnode_charclass_posixl_fold {
U8 flags; /* ANYOF_POSIXL bit must go here */
U8 type;
U16 next_off;
U32 arg1;
char bitmap[ANYOF_BITMAP_SIZE]; /* both compile-time */
U32 classflags; /* and run-time */
SV* utf8_locale_list; /* list of code points matched by folds
in a UTF-8 locale */
};
/* A synthetic start class; is a regnode_charclass_posixl_fold, plus an extra
* SV*, used only during its construction and which is not used by regexec.c.
* Note that the 'next_off' field is unused, as the SSC stands alone, so there
* is never a next node. */
struct regnode_ssc {
U8 flags; /* ANYOF_POSIXL bit must go here */
U8 type;
U16 next_off;
U32 arg1;
char bitmap[ANYOF_BITMAP_SIZE]; /* both compile-time */
U32 classflags; /* and run-time */
SV* utf8_locale_list; /* list of code points matched by folds
in a UTF-8 locale */
SV* invlist; /* list of code points matched */
};
/* We take advantage of 'next_off' not otherwise being used in the SSC by
* actually using it: by setting it to 1. This allows us to test and
* distinguish between an SSC and other ANYOF node types, as 'next_off' cannot
* otherwise be 1, because it is the offset to the next regnode expressed in
* units of regnodes. Since an ANYOF node contains extra fields, it adds up
* to 12 regnode units on 32-bit systems, (hence the minimum this can be (if
* not 0) is 11 there. Even if things get tightly packed on a 64-bit system,
* it still would be more than 1. */
#define set_ANYOF_SYNTHETIC(n) STMT_START{ OP(n) = ANYOF; \
NEXT_OFF(n) = 1; \
} STMT_END
#define is_ANYOF_SYNTHETIC(n) (OP(n) == ANYOF && NEXT_OFF(n) == 1)
/* XXX fix this description.
Impose a limit of REG_INFTY on various pattern matching operations
to limit stack growth and to avoid "infinite" recursions.
*/
/* The default size for REG_INFTY is I16_MAX, which is the same as
SHORT_MAX (see perl.h). Unfortunately I16 isn't necessarily 16 bits
(see handy.h). On the Cray C90, sizeof(short)==4 and hence I16_MAX is
((1<<31)-1), while on the Cray T90, sizeof(short)==8 and I16_MAX is
((1<<63)-1). To limit stack growth to reasonable sizes, supply a
smaller default.
--Andy Dougherty 11 June 1998
*/
#if SHORTSIZE > 2
# ifndef REG_INFTY
# define REG_INFTY ((1<<15)-1)
# endif
#endif
#ifndef REG_INFTY
# define REG_INFTY I16_MAX
#endif
#define ARG_VALUE(arg) (arg)
#define ARG__SET(arg,val) ((arg) = (val))
#undef ARG
#undef ARG1
#undef ARG2
#define ARG(p) ARG_VALUE(ARG_LOC(p))
#define ARG1(p) ARG_VALUE(ARG1_LOC(p))
#define ARG2(p) ARG_VALUE(ARG2_LOC(p))
#define ARG2L(p) ARG_VALUE(ARG2L_LOC(p))
#define ARG_SET(p, val) ARG__SET(ARG_LOC(p), (val))
#define ARG1_SET(p, val) ARG__SET(ARG1_LOC(p), (val))
#define ARG2_SET(p, val) ARG__SET(ARG2_LOC(p), (val))
#define ARG2L_SET(p, val) ARG__SET(ARG2L_LOC(p), (val))
#undef NEXT_OFF
#undef NODE_ALIGN
#define NEXT_OFF(p) ((p)->next_off)
#define NODE_ALIGN(node)
#define NODE_ALIGN_FILL(node) ((node)->flags = 0xde) /* deadbeef */
#define SIZE_ALIGN NODE_ALIGN
#undef OP
#undef OPERAND
#undef MASK
#undef STRING
#define OP(p) ((p)->type)
#define FLAGS(p) ((p)->flags) /* Caution: Doesn't apply to all \
regnode types. For some, it's the \
character set of the regnode */
#define OPERAND(p) (((struct regnode_string *)p)->string)
#define MASK(p) ((char*)OPERAND(p))
#define STR_LEN(p) (((struct regnode_string *)p)->str_len)
#define STRING(p) (((struct regnode_string *)p)->string)
#define STR_SZ(l) ((l + sizeof(regnode) - 1) / sizeof(regnode))
#define NODE_SZ_STR(p) (STR_SZ(STR_LEN(p))+1)
#undef NODE_ALIGN
#undef ARG_LOC
#undef NEXTOPER
#undef PREVOPER
#define NODE_ALIGN(node)
#define ARG_LOC(p) (((struct regnode_1 *)p)->arg1)
#define ARG1_LOC(p) (((struct regnode_2 *)p)->arg1)
#define ARG2_LOC(p) (((struct regnode_2 *)p)->arg2)
#define ARG2L_LOC(p) (((struct regnode_2L *)p)->arg2)
#define NODE_STEP_REGNODE 1 /* sizeof(regnode)/sizeof(regnode) */
#define EXTRA_STEP_2ARGS EXTRA_SIZE(struct regnode_2)
#define NODE_STEP_B 4
#define NEXTOPER(p) ((p) + NODE_STEP_REGNODE)
#define PREVOPER(p) ((p) - NODE_STEP_REGNODE)
#define FILL_ADVANCE_NODE(ptr, op) STMT_START { \
(ptr)->type = op; (ptr)->next_off = 0; (ptr)++; } STMT_END
#define FILL_ADVANCE_NODE_ARG(ptr, op, arg) STMT_START { \
ARG_SET(ptr, arg); FILL_ADVANCE_NODE(ptr, op); (ptr) += 1; } STMT_END
#define REG_MAGIC 0234
#define SIZE_ONLY (RExC_emit == (regnode *) & RExC_emit_dummy)
#define PASS1 SIZE_ONLY
#define PASS2 (! SIZE_ONLY)
/* If the bitmap doesn't fully represent what this ANYOF node can match, the
* ARG is set to this special value (since 0, 1, ... are legal, but will never
* reach this high). */
#define ANYOF_NONBITMAP_EMPTY ((U32) -1)
/* Flags for node->flags of ANYOF. These are in short supply, with none
* currently available. The ABOVE_LATIN1_ALL bit could be freed up
* by resorting to creating a swash containing everything above 255. This
* introduces a performance penalty. An option that wouldn't slow things down
* would be to split one of the two LOC flags out into a separate
* node, like what was done with ANYOF_NON_UTF8_NON_ASCII_ALL in commit
* 34fdef848b1687b91892ba55e9e0c3430e0770f6 (but which was reverted because it
* wasn't the best option available at the time), and using a LOC flag is
* probably better than that commit anyway. But it could be reinstated if we
* need a bit. The LOC flags are only for /l nodes; the reverted commit was
* only for /d, so there are no combinatorial issues. The LOC flag to use is
* probably the POSIXL one.
* Several flags are not used in synthetic start class (SSC) nodes, so could be
* shared should new flags be needed for SSCs, like ANYOF_EMPTY_STRING now. */
/* regexec.c is expecting this to be in the low bit */
#define ANYOF_INVERT 0x01
/* For the SSC node only, which cannot be inverted, so is shared with that bit.
* This means "Does this SSC match an empty string?" This is used only during
* regex compilation. */
#define ANYOF_EMPTY_STRING ANYOF_INVERT
/* Are there things that will match only if the target string is encoded in
* UTF-8? (This is not set if ANYOF_AOVE_LATIN1_ALL is set) */
#define ANYOF_UTF8 0x02
/* The fold is calculated and stored in the bitmap where possible at compile
* time. However under locale, the actual folding varies depending on
* what the locale is at the time of execution, so it has to be deferred until
* then */
#define ANYOF_LOC_FOLD 0x04
/* Set if this is a regnode_charclass_posixl vs a regnode_charclass. This
* is used for runtime \d, \w, [:posix:], ..., which are used only in locale
* and the optimizer's synthetic start class. Non-locale \d, etc are resolved
* at compile-time */
#define ANYOF_POSIXL 0x08
#define ANYOF_CLASS ANYOF_POSIXL
#define ANYOF_LARGE ANYOF_POSIXL
/* Should we raise a warning if matching against an above-Unicode code point?
* */
#define ANYOF_WARN_SUPER 0x10
/* Can match something outside the bitmap that isn't in utf8 */
#define ANYOF_NONBITMAP_NON_UTF8 0x20
/* Matches every code point 0x100 and above*/
#define ANYOF_ABOVE_LATIN1_ALL 0x40
#define ANYOF_UNICODE_ALL ANYOF_ABOVE_LATIN1_ALL
/* Match all Latin1 characters that aren't ASCII when the target string is not
* in utf8. */
#define ANYOF_NON_UTF8_NON_ASCII_ALL 0x80
#define ANYOF_FLAGS_ALL (0xff)
#define ANYOF_LOCALE_FLAGS (ANYOF_LOC_FOLD | ANYOF_POSIXL)
/* These are the flags that apply to both regular ANYOF nodes and synthetic
* start class nodes during construction of the SSC. During finalization of
* the SSC, other of the flags could be added to it */
#define ANYOF_COMMON_FLAGS (ANYOF_WARN_SUPER|ANYOF_UTF8)
/* Character classes for node->classflags of ANYOF */
/* Should be synchronized with a table in regprop() */
/* 2n should be the normal one, paired with its complement at 2n+1 */
#define ANYOF_ALPHA ((_CC_ALPHA) * 2)
#define ANYOF_NALPHA ((ANYOF_ALPHA) + 1)
#define ANYOF_ALPHANUMERIC ((_CC_ALPHANUMERIC) * 2) /* [[:alnum:]] isalnum(3), utf8::IsAlnum */
#define ANYOF_NALPHANUMERIC ((ANYOF_ALPHANUMERIC) + 1)
#define ANYOF_ASCII ((_CC_ASCII) * 2)
#define ANYOF_NASCII ((ANYOF_ASCII) + 1)
#define ANYOF_BLANK ((_CC_BLANK) * 2) /* GNU extension: space and tab: non-vertical space */
#define ANYOF_NBLANK ((ANYOF_BLANK) + 1)
#define ANYOF_CASED ((_CC_CASED) * 2) /* Pseudo class for [:lower:] or
[:upper:] under /i */
#define ANYOF_NCASED ((ANYOF_CASED) + 1)
#define ANYOF_CNTRL ((_CC_CNTRL) * 2)
#define ANYOF_NCNTRL ((ANYOF_CNTRL) + 1)
#define ANYOF_DIGIT ((_CC_DIGIT) * 2) /* \d */
#define ANYOF_NDIGIT ((ANYOF_DIGIT) + 1)
#define ANYOF_GRAPH ((_CC_GRAPH) * 2)
#define ANYOF_NGRAPH ((ANYOF_GRAPH) + 1)
#define ANYOF_LOWER ((_CC_LOWER) * 2)
#define ANYOF_NLOWER ((ANYOF_LOWER) + 1)
#define ANYOF_PRINT ((_CC_PRINT) * 2)
#define ANYOF_NPRINT ((ANYOF_PRINT) + 1)
#define ANYOF_PSXSPC ((_CC_PSXSPC) * 2) /* POSIX space: \s plus the vertical tab */
#define ANYOF_NPSXSPC ((ANYOF_PSXSPC) + 1)
#define ANYOF_PUNCT ((_CC_PUNCT) * 2)
#define ANYOF_NPUNCT ((ANYOF_PUNCT) + 1)
#define ANYOF_SPACE ((_CC_SPACE) * 2) /* \s */
#define ANYOF_NSPACE ((ANYOF_SPACE) + 1)
#define ANYOF_UPPER ((_CC_UPPER) * 2)
#define ANYOF_NUPPER ((ANYOF_UPPER) + 1)
#define ANYOF_WORDCHAR ((_CC_WORDCHAR) * 2) /* \w, PL_utf8_alnum, utf8::IsWord, ALNUM */
#define ANYOF_NWORDCHAR ((ANYOF_WORDCHAR) + 1)
#define ANYOF_XDIGIT ((_CC_XDIGIT) * 2)
#define ANYOF_NXDIGIT ((ANYOF_XDIGIT) + 1)
/* pseudo classes below this, not stored in the class bitmap, but used as flags
during compilation of char classes */
#define ANYOF_VERTWS ((_CC_VERTSPACE) * 2)
#define ANYOF_NVERTWS ((ANYOF_VERTWS)+1)
/* It is best if this is the last one, as all above it are stored as bits in a
* bitmap, and it isn't part of that bitmap */
#if _CC_VERTSPACE != _HIGHEST_REGCOMP_DOT_H_SYNC
# error Problem with handy.h _HIGHEST_REGCOMP_DOT_H_SYNC #define
#endif
#define ANYOF_POSIXL_MAX (ANYOF_VERTWS) /* So upper loop limit is written:
* '< ANYOF_MAX'
* Hence doesn't include VERTWS, as that
* is a pseudo class */
#define ANYOF_MAX ANYOF_POSIXL_MAX
#if (ANYOF_POSIXL_MAX > 32) /* Must fit in 32-bit word */
# error Problem with handy.h _CC_foo #defines
#endif
#define ANYOF_HORIZWS ((ANYOF_POSIXL_MAX)+2) /* = (ANYOF_NVERTWS + 1) */
#define ANYOF_NHORIZWS ((ANYOF_POSIXL_MAX)+3)
#define ANYOF_UNIPROP ((ANYOF_POSIXL_MAX)+4) /* Used to indicate a Unicode
property: \p{} or \P{} */
/* Backward source code compatibility. */
#define ANYOF_ALNUML ANYOF_ALNUM
#define ANYOF_NALNUML ANYOF_NALNUM
#define ANYOF_SPACEL ANYOF_SPACE
#define ANYOF_NSPACEL ANYOF_NSPACE
#define ANYOF_ALNUM ANYOF_WORDCHAR
#define ANYOF_NALNUM ANYOF_NWORDCHAR
/* Utility macros for the bitmap and classes of ANYOF */
#define ANYOF_SIZE (sizeof(struct regnode_charclass))
#define ANYOF_POSIXL_SIZE (sizeof(regnode_charclass_posixl))
#define ANYOF_CLASS_SIZE ANYOF_POSIXL_SIZE
#define ANYOF_POSIXL_FOLD_SIZE (sizeof(regnode_charclass_posixl_fold))
#define ANYOF_FLAGS(p) ((p)->flags)
#define ANYOF_BIT(c) (1 << ((c) & 7))
#define ANYOF_POSIXL_SET(p, c) (((regnode_charclass_posixl*) (p))->classflags |= (1U << (c)))
#define ANYOF_CLASS_SET(p, c) ANYOF_POSIXL_SET((p), (c))
#define ANYOF_POSIXL_CLEAR(p, c) (((regnode_charclass_posixl*) (p))->classflags &= ~ (1U <<(c)))
#define ANYOF_CLASS_CLEAR(p, c) ANYOF_POSIXL_CLEAR((p), (c))
#define ANYOF_POSIXL_TEST(p, c) (((regnode_charclass_posixl*) (p))->classflags & (1U << (c)))
#define ANYOF_CLASS_TEST(p, c) ANYOF_POSIXL_TEST((p), (c))
#define ANYOF_POSIXL_ZERO(ret) STMT_START { ((regnode_charclass_posixl*) (ret))->classflags = 0; } STMT_END
#define ANYOF_CLASS_ZERO(ret) ANYOF_POSIXL_ZERO(ret)
/* Shifts a bit to get, eg. 0x4000_0000, then subtracts 1 to get 0x3FFF_FFFF */
#define ANYOF_POSIXL_SETALL(ret) STMT_START { ((regnode_charclass_posixl*) (ret))->classflags = ((1U << ((ANYOF_POSIXL_MAX) - 1))) - 1; } STMT_END
#define ANYOF_CLASS_SETALL(ret) ANYOF_POSIXL_SETALL(ret)
#define ANYOF_POSIXL_TEST_ANY_SET(p) \
((ANYOF_FLAGS(p) & ANYOF_POSIXL) \
&& (((regnode_charclass_posixl*)(p))->classflags))
#define ANYOF_CLASS_TEST_ANY_SET(p) ANYOF_POSIXL_TEST_ANY_SET(p)
/* Since an SSC always has this field, we don't have to test for that; nor do
* we want to because the bit isn't set for SSC during its construction */
#define ANYOF_POSIXL_SSC_TEST_ANY_SET(p) \
cBOOL(((regnode_ssc*)(p))->classflags)
#define ANYOF_POSIXL_SSC_TEST_ALL_SET(p) /* Are all bits set? */ \
(((regnode_ssc*) (p))->classflags \
== ((1U << ((ANYOF_POSIXL_MAX) - 1))) - 1)
#define ANYOF_POSIXL_TEST_ALL_SET(p) \
((ANYOF_FLAGS(p) & ANYOF_POSIXL) \
&& ((regnode_charclass_posixl*) (p))->classflags \
== ((1U << ((ANYOF_POSIXL_MAX) - 1))) - 1)
#define ANYOF_POSIXL_OR(source, dest) STMT_START { (dest)->classflags |= (source)->classflags ; } STMT_END
#define ANYOF_CLASS_OR(source, dest) ANYOF_POSIXL_OR((source), (dest))
#define ANYOF_POSIXL_AND(source, dest) STMT_START { (dest)->classflags &= (source)->classflags ; } STMT_END
#define ANYOF_BITMAP_ZERO(ret) Zero(((struct regnode_charclass*)(ret))->bitmap, ANYOF_BITMAP_SIZE, char)
#define ANYOF_BITMAP(p) (((struct regnode_charclass*)(p))->bitmap)
#define ANYOF_BITMAP_BYTE(p, c) (ANYOF_BITMAP(p)[(((U8)(c)) >> 3) & 31])
#define ANYOF_BITMAP_SET(p, c) (ANYOF_BITMAP_BYTE(p, c) |= ANYOF_BIT(c))
#define ANYOF_BITMAP_CLEAR(p,c) (ANYOF_BITMAP_BYTE(p, c) &= ~ANYOF_BIT(c))
#define ANYOF_BITMAP_TEST(p, c) (ANYOF_BITMAP_BYTE(p, c) & ANYOF_BIT(c))
#define ANYOF_BITMAP_SETALL(p) \
memset (ANYOF_BITMAP(p), 255, ANYOF_BITMAP_SIZE)
#define ANYOF_BITMAP_CLEARALL(p) \
Zero (ANYOF_BITMAP(p), ANYOF_BITMAP_SIZE)
/* Check that all 256 bits are all set. Used in S_cl_is_anything() */
#define ANYOF_BITMAP_TESTALLSET(p) /* Assumes sizeof(p) == 32 */ \
memEQ (ANYOF_BITMAP(p), "\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377\377", ANYOF_BITMAP_SIZE)
#define ANYOF_SKIP ((ANYOF_SIZE - 1)/sizeof(regnode))
#define ANYOF_POSIXL_SKIP ((ANYOF_POSIXL_SIZE - 1)/sizeof(regnode))
#define ANYOF_POSIXL_FOLD_SKIP ((ANYOF_POSIXL_FOLD_SIZE - 1)/sizeof(regnode))
#define ANYOF_CLASS_SKIP ANYOF_POSIXL_SKIP
#define ANYOF_UTF8_LOCALE_INVLIST(node) (((regnode_charclass_posixl_fold*) (node))->utf8_locale_list)
/*
* Utility definitions.
*/
#ifndef CHARMASK
# define UCHARAT(p) ((int)*(const U8*)(p))
#else
# define UCHARAT(p) ((int)*(p)&CHARMASK)
#endif
#define EXTRA_SIZE(guy) ((sizeof(guy)-1)/sizeof(struct regnode))
#define REG_ZERO_LEN_SEEN 0x00000001
#define REG_LOOKBEHIND_SEEN 0x00000002
#define REG_GPOS_SEEN 0x00000004
/* spare */
#define REG_CANY_SEEN 0x00000010
#define REG_RECURSE_SEEN 0x00000020
#define REG_TOP_LEVEL_BRANCHES_SEEN 0x00000040
#define REG_VERBARG_SEEN 0x00000080
#define REG_CUTGROUP_SEEN 0x00000100
#define REG_RUN_ON_COMMENT_SEEN 0x00000200
#define REG_UNFOLDED_MULTI_SEEN 0x00000400
#define REG_GOSTART_SEEN 0x00000800
#define REG_UNBOUNDED_QUANTIFIER_SEEN 0x00001000
START_EXTERN_C
#ifdef PLUGGABLE_RE_EXTENSION
#include "re_nodes.h"
#else
#include "regnodes.h"
#endif
#ifndef PLUGGABLE_RE_EXTENSION
#ifndef DOINIT
EXTCONST regexp_engine PL_core_reg_engine;
#else /* DOINIT */
EXTCONST regexp_engine PL_core_reg_engine = {
Perl_re_compile,
Perl_regexec_flags,
Perl_re_intuit_start,
Perl_re_intuit_string,
Perl_regfree_internal,
Perl_reg_numbered_buff_fetch,
Perl_reg_numbered_buff_store,
Perl_reg_numbered_buff_length,
Perl_reg_named_buff,
Perl_reg_named_buff_iter,
Perl_reg_qr_package,
#if defined(USE_ITHREADS)
Perl_regdupe_internal,
#endif
Perl_re_op_compile
};
#endif /* DOINIT */
#endif /* PLUGGABLE_RE_EXTENSION */
END_EXTERN_C
/* .what is a character array with one character for each member of .data
* The character describes the function of the corresponding .data item:
* a - AV for paren_name_list under DEBUGGING
* f - start-class data for regstclass optimization
* l - start op for literal (?{EVAL}) item
* L - start op for literal (?{EVAL}) item, with separate CV (qr//)
* r - pointer to an embedded code-containing qr, e.g. /ab$qr/
* s - swash for Unicode-style character class, and the multicharacter
* strings resulting from casefolding the single-character entries
* in the character class
* t - trie struct
* u - trie struct's widecharmap (a HV, so can't share, must dup)
* also used for revcharmap and words under DEBUGGING
* T - aho-trie struct
* S - sv for named capture lookup
* 20010712 mjd@plover.com
* (Remember to update re_dup() and pregfree() if you add any items.)
*/
struct reg_data {
U32 count;
U8 *what;
void* data[1];
};
/* Code in S_to_utf8_substr() and S_to_byte_substr() in regexec.c accesses
anchored* and float* via array indexes 0 and 1. */
#define anchored_substr substrs->data[0].substr
#define anchored_utf8 substrs->data[0].utf8_substr
#define anchored_offset substrs->data[0].min_offset
#define anchored_end_shift substrs->data[0].end_shift
#define float_substr substrs->data[1].substr
#define float_utf8 substrs->data[1].utf8_substr
#define float_min_offset substrs->data[1].min_offset
#define float_max_offset substrs->data[1].max_offset
#define float_end_shift substrs->data[1].end_shift
#define check_substr substrs->data[2].substr
#define check_utf8 substrs->data[2].utf8_substr
#define check_offset_min substrs->data[2].min_offset
#define check_offset_max substrs->data[2].max_offset
#define check_end_shift substrs->data[2].end_shift
#define RX_ANCHORED_SUBSTR(rx) (ReANY(rx)->anchored_substr)
#define RX_ANCHORED_UTF8(rx) (ReANY(rx)->anchored_utf8)
#define RX_FLOAT_SUBSTR(rx) (ReANY(rx)->float_substr)
#define RX_FLOAT_UTF8(rx) (ReANY(rx)->float_utf8)
/* trie related stuff */
/* a transition record for the state machine. the
check field determines which state "owns" the
transition. the char the transition is for is
determined by offset from the owning states base
field. the next field determines which state
is to be transitioned to if any.
*/
struct _reg_trie_trans {
U32 next;
U32 check;
};
/* a transition list element for the list based representation */
struct _reg_trie_trans_list_elem {
U16 forid;
U32 newstate;
};
typedef struct _reg_trie_trans_list_elem reg_trie_trans_le;
/* a state for compressed nodes. base is an offset
into an array of reg_trie_trans array. If wordnum is
nonzero the state is accepting. if base is zero then
the state has no children (and will be accepting)
*/
struct _reg_trie_state {
U16 wordnum;
union {
U32 base;
reg_trie_trans_le* list;
} trans;
};
/* info per word; indexed by wordnum */
typedef struct {
U16 prev; /* previous word in acceptance chain; eg in
* zzz|abc|ab/ after matching the chars abc, the
* accepted word is #2, and the previous accepted
* word is #3 */
U32 len; /* how many chars long is this word? */
U32 accept; /* accept state for this word */
} reg_trie_wordinfo;
typedef struct _reg_trie_state reg_trie_state;
typedef struct _reg_trie_trans reg_trie_trans;
/* anything in here that needs to be freed later
should be dealt with in pregfree.
refcount is first in both this and _reg_ac_data to allow a space
optimisation in Perl_regdupe. */
struct _reg_trie_data {
U32 refcount; /* number of times this trie is referenced */
U32 lasttrans; /* last valid transition element */
U16 *charmap; /* byte to charid lookup array */
reg_trie_state *states; /* state data */
reg_trie_trans *trans; /* array of transition elements */
char *bitmap; /* stclass bitmap */
U16 *jump; /* optional 1 indexed array of offsets before tail
for the node following a given word. */
reg_trie_wordinfo *wordinfo; /* array of info per word */
U16 uniquecharcount; /* unique chars in trie (width of trans table) */
U32 startstate; /* initial state - used for common prefix optimisation */
STRLEN minlen; /* minimum length of words in trie - build/opt only? */
STRLEN maxlen; /* maximum length of words in trie - build/opt only? */
U32 prefixlen; /* #chars in common prefix */
U32 statecount; /* Build only - number of states in the states array
(including the unused zero state) */
U32 wordcount; /* Build only */
#ifdef DEBUGGING
STRLEN charcount; /* Build only */
#endif
};
/* There is one (3 under DEBUGGING) pointers that logically belong in this
structure, but are held outside as they need duplication on thread cloning,
whereas the rest of the structure can be read only:
HV *widecharmap; code points > 255 to charid
#ifdef DEBUGGING
AV *words; Array of words contained in trie, for dumping
AV *revcharmap; Map of each charid back to its character representation
#endif
*/
#define TRIE_WORDS_OFFSET 2
typedef struct _reg_trie_data reg_trie_data;
/* refcount is first in both this and _reg_trie_data to allow a space
optimisation in Perl_regdupe. */
struct _reg_ac_data {
U32 refcount;
U32 trie;
U32 *fail;
reg_trie_state *states;
};
typedef struct _reg_ac_data reg_ac_data;
/* ANY_BIT doesn't use the structure, so we can borrow it here.
This is simpler than refactoring all of it as wed end up with
three different sets... */
#define TRIE_BITMAP(p) (((reg_trie_data *)(p))->bitmap)
#define TRIE_BITMAP_BYTE(p, c) (TRIE_BITMAP(p)[(((U8)(c)) >> 3) & 31])
#define TRIE_BITMAP_SET(p, c) (TRIE_BITMAP_BYTE(p, c) |= ANYOF_BIT((U8)c))
#define TRIE_BITMAP_CLEAR(p,c) (TRIE_BITMAP_BYTE(p, c) &= ~ANYOF_BIT((U8)c))
#define TRIE_BITMAP_TEST(p, c) (TRIE_BITMAP_BYTE(p, c) & ANYOF_BIT((U8)c))
#define IS_ANYOF_TRIE(op) ((op)==TRIEC || (op)==AHOCORASICKC)
#define IS_TRIE_AC(op) ((op)>=AHOCORASICK)
#define BITMAP_BYTE(p, c) (((U8*)p)[(((U8)(c)) >> 3) & 31])
#define BITMAP_TEST(p, c) (BITMAP_BYTE(p, c) & ANYOF_BIT((U8)c))
/* these defines assume uniquecharcount is the correct variable, and state may be evaluated twice */
#define TRIE_NODENUM(state) (((state)-1)/(trie->uniquecharcount)+1)
#define SAFE_TRIE_NODENUM(state) ((state) ? (((state)-1)/(trie->uniquecharcount)+1) : (state))
#define TRIE_NODEIDX(state) ((state) ? (((state)-1)*(trie->uniquecharcount)+1) : (state))
#ifdef DEBUGGING
#define TRIE_CHARCOUNT(trie) ((trie)->charcount)
#else
#define TRIE_CHARCOUNT(trie) (trie_charcount)
#endif
#define RE_TRIE_MAXBUF_INIT 65536
#define RE_TRIE_MAXBUF_NAME "\022E_TRIE_MAXBUF"
#define RE_DEBUG_FLAGS "\022E_DEBUG_FLAGS"
/*
RE_DEBUG_FLAGS is used to control what debug output is emitted
its divided into three groups of options, some of which interact.
The three groups are: Compile, Execute, Extra. There is room for a
further group, as currently only the low three bytes are used.
Compile Options:
PARSE
PEEP
TRIE
PROGRAM
OFFSETS
Execute Options:
INTUIT
MATCH
TRIE
Extra Options
TRIE
OFFSETS
If you modify any of these make sure you make corresponding changes to
re.pm, especially to the documentation.
*/
/* Compile */
#define RE_DEBUG_COMPILE_MASK 0x0000FF
#define RE_DEBUG_COMPILE_PARSE 0x000001
#define RE_DEBUG_COMPILE_OPTIMISE 0x000002
#define RE_DEBUG_COMPILE_TRIE 0x000004
#define RE_DEBUG_COMPILE_DUMP 0x000008
#define RE_DEBUG_COMPILE_FLAGS 0x000010
/* Execute */
#define RE_DEBUG_EXECUTE_MASK 0x00FF00
#define RE_DEBUG_EXECUTE_INTUIT 0x000100
#define RE_DEBUG_EXECUTE_MATCH 0x000200
#define RE_DEBUG_EXECUTE_TRIE 0x000400
/* Extra */
#define RE_DEBUG_EXTRA_MASK 0xFF0000
#define RE_DEBUG_EXTRA_TRIE 0x010000
#define RE_DEBUG_EXTRA_OFFSETS 0x020000
#define RE_DEBUG_EXTRA_OFFDEBUG 0x040000
#define RE_DEBUG_EXTRA_STATE 0x080000
#define RE_DEBUG_EXTRA_OPTIMISE 0x100000
#define RE_DEBUG_EXTRA_BUFFERS 0x400000
#define RE_DEBUG_EXTRA_GPOS 0x800000
/* combined */
#define RE_DEBUG_EXTRA_STACK 0x280000
#define RE_DEBUG_FLAG(x) (re_debug_flags & x)
/* Compile */
#define DEBUG_COMPILE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_MASK) x )
#define DEBUG_PARSE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_PARSE) x )
#define DEBUG_OPTIMISE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_OPTIMISE) x )
#define DEBUG_PARSE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_PARSE) x )
#define DEBUG_DUMP_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_DUMP) x )
#define DEBUG_TRIE_COMPILE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_TRIE) x )
#define DEBUG_FLAGS_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_COMPILE_FLAGS) x )
/* Execute */
#define DEBUG_EXECUTE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXECUTE_MASK) x )
#define DEBUG_INTUIT_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXECUTE_INTUIT) x )
#define DEBUG_MATCH_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXECUTE_MATCH) x )
#define DEBUG_TRIE_EXECUTE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXECUTE_TRIE) x )
/* Extra */
#define DEBUG_EXTRA_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_MASK) x )
#define DEBUG_OFFSETS_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_OFFSETS) x )
#define DEBUG_STATE_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_STATE) x )
#define DEBUG_STACK_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_STACK) x )
#define DEBUG_BUFFERS_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_BUFFERS) x )
#define DEBUG_OPTIMISE_MORE_r(x) DEBUG_r( \
if ((RE_DEBUG_EXTRA_OPTIMISE|RE_DEBUG_COMPILE_OPTIMISE) == \
(re_debug_flags & (RE_DEBUG_EXTRA_OPTIMISE|RE_DEBUG_COMPILE_OPTIMISE)) ) x )
#define MJD_OFFSET_DEBUG(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_OFFDEBUG) \
Perl_warn_nocontext x )
#define DEBUG_TRIE_COMPILE_MORE_r(x) DEBUG_TRIE_COMPILE_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_TRIE) x )
#define DEBUG_TRIE_EXECUTE_MORE_r(x) DEBUG_TRIE_EXECUTE_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_TRIE) x )
#define DEBUG_TRIE_r(x) DEBUG_r( \
if (re_debug_flags & (RE_DEBUG_COMPILE_TRIE \
| RE_DEBUG_EXECUTE_TRIE )) x )
#define DEBUG_GPOS_r(x) DEBUG_r( \
if (re_debug_flags & RE_DEBUG_EXTRA_GPOS) x )
/* initialization */
/* get_sv() can return NULL during global destruction. */
#define GET_RE_DEBUG_FLAGS DEBUG_r({ \
SV * re_debug_flags_sv = NULL; \
re_debug_flags_sv = get_sv(RE_DEBUG_FLAGS, 1); \
if (re_debug_flags_sv) { \
if (!SvIOK(re_debug_flags_sv)) \
sv_setuv(re_debug_flags_sv, RE_DEBUG_COMPILE_DUMP | RE_DEBUG_EXECUTE_MASK ); \
re_debug_flags=SvIV(re_debug_flags_sv); \
}\
})
#ifdef DEBUGGING
#define GET_RE_DEBUG_FLAGS_DECL VOL IV re_debug_flags = 0; \
PERL_UNUSED_VAR(re_debug_flags); GET_RE_DEBUG_FLAGS;
#define RE_PV_COLOR_DECL(rpv,rlen,isuni,dsv,pv,l,m,c1,c2) \
const char * const rpv = \
pv_pretty((dsv), (pv), (l), (m), \
PL_colors[(c1)],PL_colors[(c2)], \
PERL_PV_ESCAPE_RE|PERL_PV_ESCAPE_NONASCII |((isuni) ? PERL_PV_ESCAPE_UNI : 0) ); \
const int rlen = SvCUR(dsv)
#define RE_SV_ESCAPE(rpv,isuni,dsv,sv,m) \
const char * const rpv = \
pv_pretty((dsv), (SvPV_nolen_const(sv)), (SvCUR(sv)), (m), \
PL_colors[(c1)],PL_colors[(c2)], \
PERL_PV_ESCAPE_RE|PERL_PV_ESCAPE_NONASCII |((isuni) ? PERL_PV_ESCAPE_UNI : 0) )
#define RE_PV_QUOTED_DECL(rpv,isuni,dsv,pv,l,m) \
const char * const rpv = \
pv_pretty((dsv), (pv), (l), (m), \
PL_colors[0], PL_colors[1], \
( PERL_PV_PRETTY_QUOTE | PERL_PV_ESCAPE_RE | PERL_PV_ESCAPE_NONASCII | PERL_PV_PRETTY_ELLIPSES | \
((isuni) ? PERL_PV_ESCAPE_UNI : 0)) \
)
#define RE_SV_DUMPLEN(ItEm) (SvCUR(ItEm) - (SvTAIL(ItEm)!=0))
#define RE_SV_TAIL(ItEm) (SvTAIL(ItEm) ? "$" : "")
#else /* if not DEBUGGING */
#define GET_RE_DEBUG_FLAGS_DECL
#define RE_PV_COLOR_DECL(rpv,rlen,isuni,dsv,pv,l,m,c1,c2)
#define RE_SV_ESCAPE(rpv,isuni,dsv,sv,m)
#define RE_PV_QUOTED_DECL(rpv,isuni,dsv,pv,l,m)
#define RE_SV_DUMPLEN(ItEm)
#define RE_SV_TAIL(ItEm)
#endif /* DEBUG RELATED DEFINES */
/*
* Local variables:
* c-indentation-style: bsd
* c-basic-offset: 4
* indent-tabs-mode: nil
* End:
*
* ex: set ts=8 sts=4 sw=4 et:
*/
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