* License or the Artistic License, as specified in the README file.
*
*/
+
+#ifndef PERL_REGCOMP_H_
+#define PERL_REGCOMP_H_
+
#include "regcharclass.h"
/* Convert branch sequences to more efficient trie ops? */
#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
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
data that the regops need. Often the ARG field of
a regop is an index into this structure */
struct reg_code_blocks *code_blocks;/* positions of literal (?{}) */
+ int name_list_idx; /* Optional data index of an array of paren names */
regnode program[1]; /* Unwarranted chumminess with compiler. */
} regexp_internal;
char string[1];
};
+struct regnode_lstring { /* Constructed this way to keep the string aligned. */
+ U8 flags;
+ U8 type;
+ U16 next_off;
+ U32 str_len; /* Only 18 bits allowed before would overflow 'next_off' */
+ char string[1];
+};
+
+struct regnode_anyofhs { /* Constructed this way to keep the string aligned. */
+ U8 str_len;
+ U8 type;
+ U16 next_off;
+ U32 arg1; /* set by set_ANYOF_arg() */
+ char string[1];
+};
+
/* Argument bearing node - workhorse,
arg1 is often for the data field */
struct regnode_1 {
U32 arg1;
};
+/* Node whose argument is 'void *', a pointer to void. This needs to be used
+ * very carefully in situations where pointers won't become invalid because of,
+ * say re-mallocs */
+struct regnode_p {
+ U8 flags;
+ U8 type;
+ U16 next_off;
+ void * arg1;
+};
+
/* Similar to a regnode_1 but with an extra signed argument */
struct regnode_2L {
U8 flags;
U16 arg2;
};
-/* This give the number of code points that can be in the bitmap of an ANYOF
- * node. The shift number must currently be one of: 8..12. It can't be less
- * than 8 (256) because some code relies on it being at least that. Above 12
- * (4096), and you start running into warnings that some data structure widths
- * have been exceeded, though the test suite as of this writing still passes
- * for up through 16, which is as high as anyone would ever want to go,
- * encompassing all of the Unicode BMP, and thus including all the economically
- * important world scripts. At 12 most of them are: including Arabic,
- * Cyrillic, Greek, Hebrew, Indian subcontinent, Latin, and Thai; but not Han,
- * Japanese, nor Korean. (The regarglen structure in regnodes.h is a U8, and
- * the trie types TRIEC and AHOCORASICKC are larger than U8 for shift values
- * below above 12.) Be sure to benchmark before changing, as larger sizes do
- * significantly slow down the test suite */
-#define NUM_ANYOF_CODE_POINTS (1 << 8)
-
#define ANYOF_BITMAP_SIZE (NUM_ANYOF_CODE_POINTS / 8) /* 8 bits/Byte */
/* Note that these form structs which are supersets of the next smaller one, by
};
/* has runtime (locale) \d, \w, ..., [:posix:] classes */
-struct regnode_charclass_class {
+struct regnode_charclass_posixl {
U8 flags; /* ANYOF_MATCHES_POSIXL bit must go here */
U8 type;
U16 next_off;
#undef ARG2
#define ARG(p) ARG_VALUE(ARG_LOC(p))
+#define ARGp(p) ARG_VALUE(ARGp_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 ARGp_SET(p, val) ARG__SET(ARGp_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 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)
+#define STR_LENs(p) (__ASSERT_(OP(p) != LEXACT && OP(p) != LEXACT_REQ8) \
+ ((struct regnode_string *)p)->str_len)
+#define STRINGs(p) (__ASSERT_(OP(p) != LEXACT && OP(p) != LEXACT_REQ8) \
+ ((struct regnode_string *)p)->string)
+#define OPERANDs(p) STRINGs(p)
+
+/* Long strings. Currently limited to length 18 bits, which handles a 262000
+ * byte string. The limiting factor is the 16 bit 'next_off' field, which
+ * points to the next regnode, so the furthest away it can be is 2**16. On
+ * most architectures, regnodes are 2**2 bytes long, so that yields 2**18
+ * bytes. Should a longer string be desired, we could increase it to 26 bits
+ * fairly easily, by changing this node to have longj type which causes the ARG
+ * field to be used for the link to the next regnode (although code would have
+ * to be changed to account for this), and then use a combination of the flags
+ * and next_off fields for the length. To get 34 bit length, also change the
+ * node to be an ARG2L, using the second 32 bit field for the length, and not
+ * using the flags nor next_off fields at all. One could have an llstring node
+ * and even an lllstring type. */
+#define STR_LENl(p) (__ASSERT_(OP(p) == LEXACT || OP(p) == LEXACT_REQ8) \
+ (((struct regnode_lstring *)p)->str_len))
+#define STRINGl(p) (__ASSERT_(OP(p) == LEXACT || OP(p) == LEXACT_REQ8) \
+ (((struct regnode_lstring *)p)->string))
+#define OPERANDl(p) STRINGl(p)
+
+#define STR_LEN(p) ((OP(p) == LEXACT || OP(p) == LEXACT_REQ8) \
+ ? STR_LENl(p) : STR_LENs(p))
+#define STRING(p) ((OP(p) == LEXACT || OP(p) == LEXACT_REQ8) \
+ ? STRINGl(p) : STRINGs(p))
+#define OPERAND(p) STRING(p)
+
+/* The number of (smallest) regnode equivalents that a string of length l bytes
+ * occupies */
+#define STR_SZ(l) (((l) + sizeof(regnode) - 1) / sizeof(regnode))
+
+/* The number of (smallest) regnode equivalents that the EXACTISH node 'p'
+ * occupies */
+#define NODE_SZ_STR(p) (STR_SZ(STR_LEN(p)) + 1 + regarglen[(p)->type])
+
+#define setSTR_LEN(p,v) \
+ STMT_START{ \
+ if (OP(p) == LEXACT || OP(p) == LEXACT_REQ8) \
+ ((struct regnode_lstring *)(p))->str_len = (v); \
+ else \
+ ((struct regnode_string *)(p))->str_len = (v); \
+ } STMT_END
+
+#define ANYOFR_BASE_BITS 20
+#define ANYOFRbase(p) (ARG(p) & ((1 << ANYOFR_BASE_BITS) - 1))
+#define ANYOFRdelta(p) (ARG(p) >> ANYOFR_BASE_BITS)
#undef NODE_ALIGN
#undef ARG_LOC
#define NODE_ALIGN(node)
#define ARG_LOC(p) (((struct regnode_1 *)p)->arg1)
+#define ARGp_LOC(p) (((struct regnode_p *)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_NODE(ptr, op) \
- STMT_START { \
- OP(ptr) = op; \
- NEXT_OFF(ptr) = 0; \
+#define FILL_NODE(offset, op) \
+ STMT_START { \
+ OP(REGNODE_p(offset)) = op; \
+ NEXT_OFF(REGNODE_p(offset)) = 0; \
+ } STMT_END
+#define FILL_ADVANCE_NODE(offset, op) \
+ STMT_START { \
+ FILL_NODE(offset, op); \
+ (offset)++; \
} STMT_END
-#define FILL_ADVANCE_NODE(ptr, op) \
- STMT_START { \
- FILL_NODE(ptr, op); \
- (ptr)++; \
+#define FILL_ADVANCE_NODE_ARG(offset, op, arg) \
+ STMT_START { \
+ ARG_SET(REGNODE_p(offset), arg); \
+ FILL_ADVANCE_NODE(offset, op); \
+ /* This is used generically for other operations \
+ * that have a longer argument */ \
+ (offset) += regarglen[op]; \
} STMT_END
-#define FILL_ADVANCE_NODE_ARG(ptr, op, arg) \
- STMT_START { \
- ARG_SET(ptr, arg); \
- FILL_ADVANCE_NODE(ptr, op); \
- (ptr) += 1; \
+#define FILL_ADVANCE_NODE_ARGp(offset, op, arg) \
+ STMT_START { \
+ ARGp_SET(REGNODE_p(offset), arg); \
+ FILL_ADVANCE_NODE(offset, op); \
+ (offset) += regarglen[op]; \
} STMT_END
-#define FILL_ADVANCE_NODE_2L_ARG(ptr, op, arg1, arg2) \
- STMT_START { \
- ARG_SET(ptr, arg1); \
- ARG2L_SET(ptr, arg2); \
- FILL_ADVANCE_NODE(ptr, op); \
- (ptr) += 2; \
+#define FILL_ADVANCE_NODE_2L_ARG(offset, op, arg1, arg2) \
+ STMT_START { \
+ ARG_SET(REGNODE_p(offset), arg1); \
+ ARG2L_SET(REGNODE_p(offset), arg2); \
+ FILL_ADVANCE_NODE(offset, op); \
+ (offset) += 2; \
} STMT_END
#define REG_MAGIC 0234
-#define SIZE_ONLY cBOOL(RExC_emit == (regnode *) & RExC_emit_dummy)
-#define PASS1 SIZE_ONLY
-#define PASS2 (! SIZE_ONLY)
-
/* An ANYOF node is basically a bitmap with the index being a code point. If
* the bit for that code point is 1, the code point matches; if 0, it doesn't
* match (complemented if inverted). There is an additional mechanism to deal
*
* 1) The bitmap has a compiled-in very finite size. So something else needs
* to be used to specify if a code point that is too large for the bitmap
- * actually matches. The mechanism currently is a swash or inversion
+ * actually matches. The mechanism currently is an inversion
* list. ANYOF_ONLY_HAS_BITMAP, described above, being TRUE indicates
* there are no matches of too-large code points. But if it is FALSE,
* then almost certainly there are matches too large for the bitmap. (The
* 2) A subset of item 1) is if all possible code points outside the bitmap
* match. This is a common occurrence when the class is complemented,
* like /[^ij]/. Therefore a bit is reserved to indicate this,
- * rather than having an expensive swash created,
+ * rather than having an inversion list created,
* ANYOF_MATCHES_ALL_ABOVE_BITMAP.
* 3) Under /d rules, it can happen that code points that are in the upper
* latin1 range (\x80-\xFF or their equivalents on EBCDIC platforms) match
* handled. But it can be a shared flag: see 5) below.
* 4) Also under /d rules, something like /[\Wfoo]/ will match everything in
* the \x80-\xFF range, unless the string being matched against is UTF-8.
- * A swash could be created for this case, but this is relatively common,
- * and it turns out that it's all or nothing: if any one of these code
- * points matches, they all do. Hence a single bit suffices. We use a
- * shared flag that doesn't take up space by itself:
- * ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER.
- * This also implies 1), with one exception: [:^cntrl:].
+ * An inversion list could be created for this case, but this is
+ * relatively common, and it turns out that it's all or nothing: if any
+ * one of these code points matches, they all do. Hence a single bit
+ * suffices. We use a shared flag that doesn't take up space by itself:
+ * ANYOF_SHARED_d_MATCHES_ALL_NON_UTF8_NON_ASCII_non_d_WARN_SUPER. This
+ * also implies 1), with one exception: [:^cntrl:].
* 5) A user-defined \p{} property may not have been defined by the time the
* regex is compiled. In this case, we don't know until runtime what it
* will match, so we have to assume it could match anything, including
* handler function, as the macro REGINCLASS in regexec.c does now for other
* cases.
*
- * Another possibility is to instead (or additionally) rename the ANYOF_POSIXL
- * flag to be ANYOFL_LARGE, to mean that the ANYOF node has an extra 32 bits
- * beyond what a regular one does. That's what it effectively means now, with
- * the extra space all for the POSIX class flags. But those classes actually
- * only occupy 30 bits, so the ANYOFL_FOLD and
- * ANYOFL_SHARED_UTF8_LOCALE_fold_HAS_MATCHES_nonfold_REQD flags could be moved
- * to that extra space. The 30 bits in the extra word would indicate if a
- * posix class should be looked up or not. The downside of this is that ANYOFL
- * nodes with folding would always have to have the extra space allocated, even
- * if they didn't use the 30 posix bits. There isn't an SSC problem as all
- * SSCs are this large anyway.
+ * Another possibility is based on the fact that ANYOF_MATCHES_POSIXL is
+ * redundant with the node type ANYOFPOSIXL. That flag could be removed, but
+ * at the expense of extra code in regexec.c. The flag has been retained
+ * because it allows us to see if we need to call reginsert, or just use the
+ * bitmap in one test.
*
- * One could completely remove ANYOFL_LARGE and make all ANYOFL nodes large.
- * REGINCLASS would have to be modified so that if the node type were this, it
- * would call reginclass(), as the flag bit that indicates to do this now would
- * be gone.
+ * If this is done, an extension would be to make all ANYOFL nodes contain the
+ * extra 32 bits that ANYOFPOSIXL ones do. The posix flags only occupy 30
+ * bits, so the ANYOFL_SHARED_UTF8_LOCALE_fold_HAS_MATCHES_nonfold_REQD flags
+ * and ANYOFL_FOLD could be moved to that extra space, but it would mean extra
+ * instructions, as there are currently places in the code that assume those
+ * two bits are zero.
*
* All told, 5 bits could be available for other uses if all of the above were
* done.
#define ANYOFL_FOLD 0x04
/* Shared bit set only with ANYOFL and SSC nodes:
- * If ANYOFL_FOLD is set, this means there are potential matches valid
- * only if the locale is a UTF-8 one.
- * If ANYOFL_FOLD is NOT set, this means to warn if the runtime locale
+ * If ANYOFL_FOLD is set, this flag indicates there are potential matches
+ * valid only if the locale is a UTF-8 one.
+ * If ANYOFL_FOLD is NOT set, this flag means to warn if the runtime locale
* isn't a UTF-8 one (and the generated node assumes a UTF-8 locale).
* None of INVERT, POSIXL,
* ANYOF_SHARED_d_UPPER_LATIN1_UTF8_STRING_MATCHES_non_d_RUNTIME_USER_PROP
/* Shared bit:
* Under /d it means the ANYOFD node matches more things if the target
* string is encoded in UTF-8; any such things will be non-ASCII,
- * characters that are < 256, and can be accessed via the swash.
+ * characters that are < 256, and can be accessed via the inversion
+ * list.
* When not under /d, it means the ANYOF node contains a user-defined
* property that wasn't yet defined at the time the regex was compiled,
- * and so must be looked up at runtime, by creating a swash
+ * and so must be looked up at runtime, by creating an inversion list.
* (These uses are mutually exclusive because a user-defined property is
* specified by \p{}, and \p{} implies /u which deselects /d). The long macro
* name is to make sure that you are cautioned about its shared nature. Only
#define ANYOF_BIT(c) (1U << ((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 POSIXL_SET(field, c) ((field) |= (1U << (c)))
+#define ANYOF_POSIXL_SET(p, c) POSIXL_SET(((regnode_charclass_posixl*) (p))->classflags, (c))
+
+#define POSIXL_CLEAR(field, c) ((field) &= ~ (1U <<(c)))
+#define ANYOF_POSIXL_CLEAR(p, c) POSIXL_CLEAR(((regnode_charclass_posixl*) (p))->classflags, (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 POSIXL_TEST(field, c) ((field) & (1U << (c)))
+#define ANYOF_POSIXL_TEST(p, c) POSIXL_TEST(((regnode_charclass_posixl*) (p))->classflags, (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 POSIXL_ZERO(field) STMT_START { (field) = 0; } STMT_END
+#define ANYOF_POSIXL_ZERO(ret) POSIXL_ZERO(((regnode_charclass_posixl*) (ret))->classflags)
-#define ANYOF_POSIXL_ZERO(ret) STMT_START { ((regnode_charclass_posixl*) (ret))->classflags = 0; } STMT_END
-#define ANYOF_CLASS_ZERO(ret) ANYOF_POSIXL_ZERO(ret)
+#define ANYOF_POSIXL_SET_TO_BITMAP(p, bits) \
+ STMT_START { \
+ ((regnode_charclass_posixl*) (p))->classflags = (bits); \
+ } STMT_END
/* 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_BITMAP_CLEARALL(p) \
Zero (ANYOF_BITMAP(p), ANYOF_BITMAP_SIZE)
-#define ANYOF_SKIP (EXTRA_SIZE(regnode_charclass) \
- - EXTRA_SIZE(struct regnode_1))
-#define ANYOF_POSIXL_SKIP (EXTRA_SIZE(regnode_charclass_posixl) \
- - EXTRA_SIZE(struct regnode_1))
-
/*
* Utility definitions.
*/
# define UCHARAT(p) ((int)*(p)&CHARMASK)
#endif
+/* Number of regnode equivalents that 'guy' occupies beyond the size of the
+ * smallest regnode. */
#define EXTRA_SIZE(guy) ((sizeof(guy)-1)/sizeof(struct regnode))
#define REG_ZERO_LEN_SEEN 0x00000001
* 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
+ * s - inversion list 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
#define RE_TRIE_MAXBUF_NAME "\022E_TRIE_MAXBUF"
#define RE_DEBUG_FLAGS "\022E_DEBUG_FLAGS"
+#define RE_COMPILE_RECURSION_INIT 1000
+#define RE_COMPILE_RECURSION_LIMIT "\022E_COMPILE_RECURSION_LIMIT"
+
/*
RE_DEBUG_FLAGS is used to control what debug output is emitted
#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
+#define RE_DEBUG_EXTRA_MASK 0x3FF0000
+#define RE_DEBUG_EXTRA_TRIE 0x0010000
+#define RE_DEBUG_EXTRA_OFFSETS 0x0020000
+#define RE_DEBUG_EXTRA_OFFDEBUG 0x0040000
+#define RE_DEBUG_EXTRA_STATE 0x0080000
+#define RE_DEBUG_EXTRA_OPTIMISE 0x0100000
+#define RE_DEBUG_EXTRA_BUFFERS 0x0400000
+#define RE_DEBUG_EXTRA_GPOS 0x0800000
+#define RE_DEBUG_EXTRA_DUMP_PRE_OPTIMIZE 0x1000000
+#define RE_DEBUG_EXTRA_WILDCARD 0x2000000
/* combined */
-#define RE_DEBUG_EXTRA_STACK 0x280000
+#define RE_DEBUG_EXTRA_STACK 0x0280000
-#define RE_DEBUG_FLAG(x) (re_debug_flags & x)
+#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 )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_COMPILE_MASK)) x )
#define DEBUG_PARSE_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_COMPILE_PARSE) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(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 )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_COMPILE_OPTIMISE)) x )
#define DEBUG_DUMP_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_COMPILE_DUMP) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_COMPILE_DUMP)) x )
#define DEBUG_TRIE_COMPILE_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_COMPILE_TRIE) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_COMPILE_TRIE)) x )
#define DEBUG_FLAGS_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_COMPILE_FLAGS) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_COMPILE_FLAGS)) x )
#define DEBUG_TEST_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_COMPILE_TEST) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_COMPILE_TEST)) x )
/* Execute */
#define DEBUG_EXECUTE_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXECUTE_MASK) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXECUTE_MASK)) x )
#define DEBUG_INTUIT_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXECUTE_INTUIT) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXECUTE_INTUIT)) x )
#define DEBUG_MATCH_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXECUTE_MATCH) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXECUTE_MATCH)) x )
#define DEBUG_TRIE_EXECUTE_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXECUTE_TRIE) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXECUTE_TRIE)) x )
/* Extra */
#define DEBUG_EXTRA_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXTRA_MASK) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_MASK)) x )
#define DEBUG_OFFSETS_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXTRA_OFFSETS) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_OFFSETS)) x )
#define DEBUG_STATE_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXTRA_STATE) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_STATE)) x )
#define DEBUG_STACK_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXTRA_STACK) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_STACK)) x )
#define DEBUG_BUFFERS_r(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXTRA_BUFFERS) x )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(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 )
+ if (DEBUG_v_TEST || ((RE_DEBUG_EXTRA_OPTIMISE|RE_DEBUG_COMPILE_OPTIMISE) == \
+ RE_DEBUG_FLAG(RE_DEBUG_EXTRA_OPTIMISE|RE_DEBUG_COMPILE_OPTIMISE))) x )
#define MJD_OFFSET_DEBUG(x) DEBUG_r( \
- if (re_debug_flags & RE_DEBUG_EXTRA_OFFDEBUG) \
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(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 )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(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 )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_TRIE)) x )
#define DEBUG_TRIE_r(x) DEBUG_r( \
- if (re_debug_flags & (RE_DEBUG_COMPILE_TRIE \
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(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 )
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_GPOS)) x )
+
+#define DEBUG_DUMP_PRE_OPTIMIZE_r(x) DEBUG_r( \
+ if (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_DUMP_PRE_OPTIMIZE)) x )
/* initialization */
-/* get_sv() can return NULL during global destruction. */
-#define GET_RE_DEBUG_FLAGS DEBUG_r({ \
- SV * re_debug_flags_sv = NULL; \
+/* Get the debug flags for code not in regcomp.c nor regexec.c. This doesn't
+ * initialize the variable if it isn't already there, instead it just assumes
+ * the flags are 0 */
+#define DECLARE_AND_GET_RE_DEBUG_FLAGS_NON_REGEX \
+ volatile IV re_debug_flags = 0; PERL_UNUSED_VAR(re_debug_flags); \
+ STMT_START { \
+ SV * re_debug_flags_sv = NULL; \
+ /* get_sv() can return NULL during global destruction. */ \
re_debug_flags_sv = PL_curcop ? get_sv(RE_DEBUG_FLAGS, GV_ADD) : NULL; \
- 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); \
- }\
-})
+ if (re_debug_flags_sv && SvIOK(re_debug_flags_sv)) \
+ re_debug_flags=SvIV(re_debug_flags_sv); \
+ } STMT_END
+
#ifdef DEBUGGING
-#define GET_RE_DEBUG_FLAGS_DECL volatile IV re_debug_flags = 0; \
- PERL_UNUSED_VAR(re_debug_flags); GET_RE_DEBUG_FLAGS;
+/* For use in regcomp.c and regexec.c, Get the debug flags, and initialize to
+ * the defaults if not done already */
+#define DECLARE_AND_GET_RE_DEBUG_FLAGS \
+ volatile IV re_debug_flags = 0; PERL_UNUSED_VAR(re_debug_flags); \
+ STMT_START { \
+ SV * re_debug_flags_sv = NULL; \
+ /* get_sv() can return NULL during global destruction. */ \
+ re_debug_flags_sv = PL_curcop ? get_sv(RE_DEBUG_FLAGS, GV_ADD) : NULL; \
+ if (re_debug_flags_sv) { \
+ if (!SvIOK(re_debug_flags_sv)) /* If doesnt exist set to default */\
+ sv_setuv(re_debug_flags_sv, \
+ /* These defaults should be kept in sync with re.pm */ \
+ RE_DEBUG_COMPILE_DUMP | RE_DEBUG_EXECUTE_MASK ); \
+ re_debug_flags=SvIV(re_debug_flags_sv); \
+ } \
+ } STMT_END
+
+#define isDEBUG_WILDCARD (DEBUG_v_TEST || RE_DEBUG_FLAG(RE_DEBUG_EXTRA_WILDCARD))
#define RE_PV_COLOR_DECL(rpv,rlen,isuni,dsv,pv,l,m,c1,c2) \
const char * const rpv = \
#else /* if not DEBUGGING */
-#define GET_RE_DEBUG_FLAGS_DECL
+#define DECLARE_AND_GET_RE_DEBUG_FLAGS
#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)
+#define isDEBUG_WILDCARD 0
#endif /* DEBUG RELATED DEFINES */
WB_BOUND
} bound_type;
+/* This unpacks the FLAGS field of ANYOF[HR]x nodes. The value it contains
+ * gives the strict lower bound for the UTF-8 start byte of any code point
+ * matchable by the node, and a loose upper bound as well.
+ *
+ * The low bound is stored in the upper 6 bits, plus 0xC0.
+ * The loose upper bound is determined from the lowest 2 bits and the low bound
+ * (called x) as follows:
+ *
+ * 11 The upper limit of the range can be as much as (EF - x) / 8
+ * 10 The upper limit of the range can be as much as (EF - x) / 4
+ * 01 The upper limit of the range can be as much as (EF - x) / 2
+ * 00 The upper limit of the range can be as much as EF
+ *
+ * For motivation of this design, see commit message in
+ * 3146c00a633e9cbed741e10146662fbcedfdb8d3 */
+#ifdef EBCDIC
+# define MAX_ANYOF_HRx_BYTE 0xF4
+#else
+# define MAX_ANYOF_HRx_BYTE 0xEF
+#endif
+#define LOWEST_ANYOF_HRx_BYTE(b) (((b) >> 2) + 0xC0)
+#define HIGHEST_ANYOF_HRx_BYTE(b) \
+ (LOWEST_ANYOF_HRx_BYTE(b) \
+ + ((MAX_ANYOF_HRx_BYTE - LOWEST_ANYOF_HRx_BYTE(b)) >> ((b) & 3)))
+
+#endif /* PERL_REGCOMP_H_ */
+
/*
* ex: set ts=8 sts=4 sw=4 et:
*/