Current Path : /usr/local/lib/ruby/1.8/amd64-freebsd9/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/local/lib/ruby/1.8/amd64-freebsd9/regint.h |
/********************************************************************** regint.h - Oniguruma (regular expression library) Copyright (C) 2002-2005 K.Kosako (sndgk393 AT ybb DOT ne DOT jp) **********************************************************************/ #ifndef REGINT_H #define REGINT_H /* for debug */ /* #define ONIG_DEBUG_PARSE_TREE */ /* #define ONIG_DEBUG_COMPILE */ /* #define ONIG_DEBUG_SEARCH */ /* #define ONIG_DEBUG_MATCH */ /* #define ONIG_DONT_OPTIMIZE */ /* for byte-code statistical data. */ /* #define ONIG_DEBUG_STATISTICS */ #if defined(ONIG_DEBUG_PARSE_TREE) || defined(ONIG_DEBUG_MATCH) || \ defined(ONIG_DEBUG_COMPILE) || defined(ONIG_DEBUG_STATISTICS) #ifndef ONIG_DEBUG #define ONIG_DEBUG #endif #endif #if defined(__i386) || defined(__i386__) || defined(_M_IX86) || \ (defined(__ppc__) && defined(__APPLE__)) || \ defined(__x86_64) || defined(__x86_64__) || \ defined(__mc68020__) #define PLATFORM_UNALIGNED_WORD_ACCESS #endif /* config */ /* spec. config */ #define USE_NAMED_GROUP #define USE_SUBEXP_CALL #define USE_FOLD_MATCH /* ess-tsett etc... */ #define USE_INFINITE_REPEAT_MONOMANIAC_MEM_STATUS_CHECK /* /(?:()|())*\2/ */ #define USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE /* /\n$/ =~ "\n" */ #define USE_WARNING_REDUNDANT_NESTED_REPEAT_OPERATOR /* internal config */ #define USE_RECYCLE_NODE #define USE_OP_PUSH_OR_JUMP_EXACT #define USE_QUALIFIER_PEEK_NEXT #define INIT_MATCH_STACK_SIZE 160 #define DEFAULT_MATCH_STACK_LIMIT_SIZE 0 /* unlimited */ /* interface to external system */ #ifdef NOT_RUBY /* given from Makefile */ #include "config.h" #define USE_VARIABLE_META_CHARS #define USE_WORD_BEGIN_END /* "\<": word-begin, "\>": word-end */ #define USE_POSIX_REGION_OPTION /* needed for POSIX API support */ #define THREAD_ATOMIC_START /* depend on thread system */ #define THREAD_ATOMIC_END /* depend on thread system */ #define THREAD_PASS /* depend on thread system */ #define CHECK_INTERRUPT /* depend on application */ #define xmalloc malloc #define xrealloc realloc #define xfree free #else #include "ruby.h" #include "version.h" #include "rubysig.h" /* for DEFER_INTS, ENABLE_INTS */ #define THREAD_ATOMIC_START DEFER_INTS #define THREAD_ATOMIC_END ENABLE_INTS #define THREAD_PASS rb_thread_schedule() #define CHECK_INTERRUPT do {\ if (rb_trap_pending) {\ if (! rb_prohibit_interrupt) {\ rb_trap_exec();\ }\ }\ } while (0) #define DEFAULT_WARN_FUNCTION onig_rb_warn #define DEFAULT_VERB_WARN_FUNCTION onig_rb_warning #if defined(RUBY_VERSION_MAJOR) #if RUBY_VERSION_MAJOR > 1 || \ (RUBY_VERSION_MAJOR == 1 && \ defined(RUBY_VERSION_MINOR) && RUBY_VERSION_MINOR >= 8) #define USE_ST_HASH_TABLE #endif #endif #endif /* else NOT_RUBY */ #define THREAD_PASS_LIMIT_COUNT 10 #define xmemset memset #define xmemcpy memcpy #define xmemmove memmove #if defined(_WIN32) && !defined(__GNUC__) #define xalloca _alloca #ifdef NOT_RUBY #define vsnprintf _vsnprintf #endif #else #define xalloca alloca #endif #ifdef HAVE_STDLIB_H #include <stdlib.h> #endif #if defined(HAVE_ALLOCA_H) && !defined(__GNUC__) #include <alloca.h> #endif #ifdef HAVE_STRING_H # include <string.h> #else # include <strings.h> #endif #include <ctype.h> #ifdef HAVE_SYS_TYPES_H #ifndef __BORLANDC__ #include <sys/types.h> #endif #endif #ifdef ONIG_DEBUG # include <stdio.h> #endif #include "regenc.h" #include "oniguruma.h" #ifdef MIN #undef MIN #endif #ifdef MAX #undef MAX #endif #define MIN(a,b) (((a)>(b))?(b):(a)) #define MAX(a,b) (((a)<(b))?(b):(a)) #define IS_NULL(p) (((void*)(p)) == (void*)0) #define IS_NOT_NULL(p) (((void*)(p)) != (void*)0) #define CHECK_NULL_RETURN(p) if (IS_NULL(p)) return NULL #define CHECK_NULL_RETURN_VAL(p,val) if (IS_NULL(p)) return (val) #define NULL_UCHARP ((UChar* )0) #ifndef PLATFORM_UNALIGNED_WORD_ACCESS #define WORD_ALIGNMENT_SIZE SIZEOF_INT #define GET_ALIGNMENT_PAD_SIZE(addr,pad_size) do {\ (pad_size) = WORD_ALIGNMENT_SIZE \ - ((unsigned int )(addr) % WORD_ALIGNMENT_SIZE);\ if ((pad_size) == WORD_ALIGNMENT_SIZE) (pad_size) = 0;\ } while (0) #define ALIGNMENT_RIGHT(addr) do {\ (addr) += (WORD_ALIGNMENT_SIZE - 1);\ (addr) -= ((unsigned int )(addr) % WORD_ALIGNMENT_SIZE);\ } while (0) #define B_SHIFT 8 #define B_MASK 0xff #define SERIALIZE_2BYTE_INT(i,p) do {\ *(p) = ((i) >> B_SHIFT) & B_MASK;\ *((p)+1) = (i) & B_MASK;\ } while (0) #define SERIALIZE_4BYTE_INT(i,p) do {\ *(p) = ((i) >> B_SHIFT*3) & B_MASK;\ *((p)+1) = ((i) >> B_SHIFT*2) & B_MASK;\ *((p)+2) = ((i) >> B_SHIFT ) & B_MASK;\ *((p)+3) = (i) & B_MASK;\ } while (0) #define SERIALIZE_8BYTE_INT(i,p) do {\ *(p) = ((i) >> B_SHIFT*7) & B_MASK;\ *((p)+1) = ((i) >> B_SHIFT*6) & B_MASK;\ *((p)+2) = ((i) >> B_SHIFT*5) & B_MASK;\ *((p)+3) = ((i) >> B_SHIFT*4) & B_MASK;\ *((p)+4) = ((i) >> B_SHIFT*3) & B_MASK;\ *((p)+5) = ((i) >> B_SHIFT*2) & B_MASK;\ *((p)+6) = ((i) >> B_SHIFT ) & B_MASK;\ *((p)+7) = (i) & B_MASK;\ } while (0) #define GET_2BYTE_INT_INC(type,i,p) do {\ (i) = (type )(((unsigned int )(*(p)) << B_SHIFT) | (unsigned int )((p)[1]));\ (p) += 2;\ } while (0) #define GET_4BYTE_INT_INC(type,i,p) do {\ (i) = (type )(((unsigned int )((p)[0]) << B_SHIFT*3) | \ ((unsigned int )((p)[1]) << B_SHIFT*2) | \ ((unsigned int )((p)[2]) << B_SHIFT ) | \ ((unsigned int )((p)[3]) )); \ (p) += 4;\ } while (0) #define GET_8BYTE_INT_INC(type,i,p) do {\ (i) = (type )(((unsigned long )((p)[0]) << B_SHIFT*7) | \ ((unsigned long )((p)[1]) << B_SHIFT*6) | \ ((unsigned long )((p)[2]) << B_SHIFT*5) | \ ((unsigned long )((p)[3]) << B_SHIFT*4) | \ ((unsigned long )((p)[4]) << B_SHIFT*3) | \ ((unsigned long )((p)[5]) << B_SHIFT*2) | \ ((unsigned long )((p)[6]) << B_SHIFT ) | \ ((unsigned long )((p)[7]) )); \ (p) += 8;\ } while (0) #if SIZEOF_SHORT == 2 #define GET_SHORT_INC(i,p) GET_2BYTE_INT_INC(short,i,p) #define SERIALIZE_SHORT(i,p) SERIALIZE_2BYTE_INT(i,p) #elif SIZEOF_SHORT == 4 #define GET_SHORT_INC(i,p) GET_4BYTE_INT_INC(short,i,p) #define SERIALIZE_SHORT(i,p) SERIALIZE_4BYTE_INT(i,p) #elif SIZEOF_SHORT == 8 #define GET_SHORT_INC(i,p) GET_8BYTE_INT_INC(short,i,p) #define SERIALIZE_SHORT(i,p) SERIALIZE_8BYTE_INT(i,p) #endif #if SIZEOF_INT == 2 #define GET_INT_INC(i,p) GET_2BYTE_INT_INC(int,i,p) #define GET_UINT_INC(i,p) GET_2BYTE_INT_INC(unsigned,i,p) #define SERIALIZE_INT(i,p) SERIALIZE_2BYTE_INT(i,p) #define SERIALIZE_UINT(i,p) SERIALIZE_2BYTE_INT(i,p) #elif SIZEOF_INT == 4 #define GET_INT_INC(i,p) GET_4BYTE_INT_INC(int,i,p) #define GET_UINT_INC(i,p) GET_4BYTE_INT_INC(unsigned,i,p) #define SERIALIZE_INT(i,p) SERIALIZE_4BYTE_INT(i,p) #define SERIALIZE_UINT(i,p) SERIALIZE_4BYTE_INT(i,p) #elif SIZEOF_INT == 8 #define GET_INT_INC(i,p) GET_8BYTE_INT_INC(int,i,p) #define GET_UINT_INC(i,p) GET_8BYTE_INT_INC(unsigned,i,p) #define SERIALIZE_INT(i,p) SERIALIZE_8BYTE_INT(i,p) #define SERIALIZE_UINT(i,p) SERIALIZE_8BYTE_INT(i,p) #endif #endif /* PLATFORM_UNALIGNED_WORD_ACCESS */ /* stack pop level */ #define STACK_POP_LEVEL_FREE 0 #define STACK_POP_LEVEL_MEM_START 1 #define STACK_POP_LEVEL_ALL 2 /* optimize flags */ #define ONIG_OPTIMIZE_NONE 0 #define ONIG_OPTIMIZE_EXACT 1 /* Slow Search */ #define ONIG_OPTIMIZE_EXACT_BM 2 /* Boyer Moore Search */ #define ONIG_OPTIMIZE_EXACT_BM_NOT_REV 3 /* BM (but not simple match) */ #define ONIG_OPTIMIZE_EXACT_IC 4 /* Slow Search (ignore case) */ #define ONIG_OPTIMIZE_MAP 5 /* char map */ /* bit status */ typedef unsigned int BitStatusType; #define BIT_STATUS_BITS_NUM (sizeof(BitStatusType) * 8) #define BIT_STATUS_CLEAR(stats) (stats) = 0 #define BIT_STATUS_ON_ALL(stats) (stats) = ~((BitStatusType )0) #define BIT_STATUS_AT(stats,n) \ ((n) < BIT_STATUS_BITS_NUM ? ((stats) & (1 << n)) : ((stats) & 1)) #define BIT_STATUS_ON_AT(stats,n) do {\ if ((n) < BIT_STATUS_BITS_NUM)\ (stats) |= (1 << (n));\ else\ (stats) |= 1;\ } while (0) #define BIT_STATUS_ON_AT_SIMPLE(stats,n) do {\ if ((n) < BIT_STATUS_BITS_NUM)\ (stats) |= (1 << (n));\ } while (0) #define INT_MAX_LIMIT ((1UL << (SIZEOF_INT * 8 - 1)) - 1) #define DIGITVAL(code) ((code) - '0') #define ODIGITVAL(code) DIGITVAL(code) #define XDIGITVAL(enc,code) \ (ONIGENC_IS_CODE_DIGIT(enc,code) ? DIGITVAL(code) \ : (ONIGENC_IS_CODE_UPPER(enc,code) ? (code) - 'A' + 10 : (code) - 'a' + 10)) #define IS_SINGLELINE(option) ((option) & ONIG_OPTION_SINGLELINE) #define IS_MULTILINE(option) ((option) & ONIG_OPTION_MULTILINE) #define IS_IGNORECASE(option) ((option) & ONIG_OPTION_IGNORECASE) #define IS_EXTEND(option) ((option) & ONIG_OPTION_EXTEND) #define IS_FIND_LONGEST(option) ((option) & ONIG_OPTION_FIND_LONGEST) #define IS_FIND_NOT_EMPTY(option) ((option) & ONIG_OPTION_FIND_NOT_EMPTY) #define IS_POSIXLINE(option) (IS_SINGLELINE(option) && IS_MULTILINE(option)) #define IS_FIND_CONDITION(option) ((option) & \ (ONIG_OPTION_FIND_LONGEST | ONIG_OPTION_FIND_NOT_EMPTY)) #define IS_NOTBOL(option) ((option) & ONIG_OPTION_NOTBOL) #define IS_NOTEOL(option) ((option) & ONIG_OPTION_NOTEOL) #define IS_POSIX_REGION(option) ((option) & ONIG_OPTION_POSIX_REGION) /* OP_SET_OPTION is required for these options. #define IS_DYNAMIC_OPTION(option) \ (((option) & (ONIG_OPTION_MULTILINE | ONIG_OPTION_IGNORECASE)) != 0) */ /* ignore-case and multibyte status are included in compiled code. */ #define IS_DYNAMIC_OPTION(option) 0 #define REPEAT_INFINITE -1 #define IS_REPEAT_INFINITE(n) ((n) == REPEAT_INFINITE) /* bitset */ #define BITS_PER_BYTE 8 #define SINGLE_BYTE_SIZE (1 << BITS_PER_BYTE) #define BITS_IN_ROOM (sizeof(Bits) * BITS_PER_BYTE) #define BITSET_SIZE (SINGLE_BYTE_SIZE / BITS_IN_ROOM) #ifdef PLATFORM_UNALIGNED_WORD_ACCESS typedef unsigned int Bits; #else typedef unsigned char Bits; #endif typedef Bits BitSet[BITSET_SIZE]; typedef Bits* BitSetRef; #define SIZE_BITSET sizeof(BitSet) #define BITSET_CLEAR(bs) do {\ int i;\ for (i = 0; i < BITSET_SIZE; i++) { (bs)[i] = 0; }\ } while (0) #define BS_ROOM(bs,pos) (bs)[pos / BITS_IN_ROOM] #define BS_BIT(pos) (1 << (pos % BITS_IN_ROOM)) #define BITSET_AT(bs, pos) (BS_ROOM(bs,pos) & BS_BIT(pos)) #define BITSET_SET_BIT(bs, pos) BS_ROOM(bs,pos) |= BS_BIT(pos) #define BITSET_CLEAR_BIT(bs, pos) BS_ROOM(bs,pos) &= ~(BS_BIT(pos)) #define BITSET_INVERT_BIT(bs, pos) BS_ROOM(bs,pos) ^= BS_BIT(pos) /* bytes buffer */ typedef struct _BBuf { UChar* p; unsigned int used; unsigned int alloc; } BBuf; #define BBUF_INIT(buf,size) onig_bbuf_init((BBuf* )(buf), (size)) #define BBUF_SIZE_INC(buf,inc) do{\ (buf)->alloc += (inc);\ (buf)->p = (UChar* )xrealloc((buf)->p, (buf)->alloc);\ if (IS_NULL((buf)->p)) return(ONIGERR_MEMORY);\ } while (0) #define BBUF_EXPAND(buf,low) do{\ do { (buf)->alloc *= 2; } while ((buf)->alloc < (unsigned int )low);\ (buf)->p = (UChar* )xrealloc((buf)->p, (buf)->alloc);\ if (IS_NULL((buf)->p)) return(ONIGERR_MEMORY);\ } while (0) #define BBUF_ENSURE_SIZE(buf,size) do{\ unsigned int new_alloc = (buf)->alloc;\ while (new_alloc < (unsigned int )(size)) { new_alloc *= 2; }\ if ((buf)->alloc != new_alloc) {\ (buf)->p = (UChar* )xrealloc((buf)->p, new_alloc);\ if (IS_NULL((buf)->p)) return(ONIGERR_MEMORY);\ (buf)->alloc = new_alloc;\ }\ } while (0) #define BBUF_WRITE(buf,pos,bytes,n) do{\ int used = (pos) + (n);\ if ((buf)->alloc < (unsigned int )used) BBUF_EXPAND((buf),used);\ xmemcpy((buf)->p + (pos), (bytes), (n));\ if ((buf)->used < (unsigned int )used) (buf)->used = used;\ } while (0) #define BBUF_WRITE1(buf,pos,byte) do{\ int used = (pos) + 1;\ if ((buf)->alloc < (unsigned int )used) BBUF_EXPAND((buf),used);\ (buf)->p[(pos)] = (byte);\ if ((buf)->used < (unsigned int )used) (buf)->used = used;\ } while (0) #define BBUF_ADD(buf,bytes,n) BBUF_WRITE((buf),(buf)->used,(bytes),(n)) #define BBUF_ADD1(buf,byte) BBUF_WRITE1((buf),(buf)->used,(byte)) #define BBUF_GET_ADD_ADDRESS(buf) ((buf)->p + (buf)->used) #define BBUF_GET_OFFSET_POS(buf) ((buf)->used) /* from < to */ #define BBUF_MOVE_RIGHT(buf,from,to,n) do {\ if ((unsigned int )((to)+(n)) > (buf)->alloc) BBUF_EXPAND((buf),(to) + (n));\ xmemmove((buf)->p + (to), (buf)->p + (from), (n));\ if ((unsigned int )((to)+(n)) > (buf)->used) (buf)->used = (to) + (n);\ } while (0) /* from > to */ #define BBUF_MOVE_LEFT(buf,from,to,n) do {\ xmemmove((buf)->p + (to), (buf)->p + (from), (n));\ } while (0) /* from > to */ #define BBUF_MOVE_LEFT_REDUCE(buf,from,to) do {\ xmemmove((buf)->p + (to), (buf)->p + (from), (buf)->used - (from));\ (buf)->used -= (from - to);\ } while (0) #define BBUF_INSERT(buf,pos,bytes,n) do {\ if (pos >= (buf)->used) {\ BBUF_WRITE(buf,pos,bytes,n);\ }\ else {\ BBUF_MOVE_RIGHT((buf),(pos),(pos) + (n),((buf)->used - (pos)));\ xmemcpy((buf)->p + (pos), (bytes), (n));\ }\ } while (0) #define BBUF_GET_BYTE(buf, pos) (buf)->p[(pos)] #define ANCHOR_BEGIN_BUF (1<<0) #define ANCHOR_BEGIN_LINE (1<<1) #define ANCHOR_BEGIN_POSITION (1<<2) #define ANCHOR_END_BUF (1<<3) #define ANCHOR_SEMI_END_BUF (1<<4) #define ANCHOR_END_LINE (1<<5) #define ANCHOR_WORD_BOUND (1<<6) #define ANCHOR_NOT_WORD_BOUND (1<<7) #define ANCHOR_WORD_BEGIN (1<<8) #define ANCHOR_WORD_END (1<<9) #define ANCHOR_PREC_READ (1<<10) #define ANCHOR_PREC_READ_NOT (1<<11) #define ANCHOR_LOOK_BEHIND (1<<12) #define ANCHOR_LOOK_BEHIND_NOT (1<<13) #define ANCHOR_ANYCHAR_STAR (1<<14) /* ".*" optimize info */ #define ANCHOR_ANYCHAR_STAR_ML (1<<15) /* ".*" optimize info (multi-line) */ /* operation code */ enum OpCode { OP_FINISH = 0, /* matching process terminator (no more alternative) */ OP_END = 1, /* pattern code terminator (success end) */ OP_EXACT1 = 2, /* single byte, N = 1 */ OP_EXACT2, /* single byte, N = 2 */ OP_EXACT3, /* single byte, N = 3 */ OP_EXACT4, /* single byte, N = 4 */ OP_EXACT5, /* single byte, N = 5 */ OP_EXACTN, /* single byte */ OP_EXACTMB2N1, /* mb-length = 2 N = 1 */ OP_EXACTMB2N2, /* mb-length = 2 N = 2 */ OP_EXACTMB2N3, /* mb-length = 2 N = 3 */ OP_EXACTMB2N, /* mb-length = 2 */ OP_EXACTMB3N, /* mb-length = 3 */ OP_EXACTMBN, /* other length */ OP_EXACT1_IC, /* single byte, N = 1, ignore case */ OP_EXACTN_IC, /* single byte, ignore case */ OP_CCLASS, OP_CCLASS_MB, OP_CCLASS_MIX, OP_CCLASS_NOT, OP_CCLASS_MB_NOT, OP_CCLASS_MIX_NOT, OP_ANYCHAR, /* "." */ OP_ANYCHAR_ML, /* "." multi-line */ OP_ANYCHAR_STAR, /* ".*" */ OP_ANYCHAR_ML_STAR, /* ".*" multi-line */ OP_ANYCHAR_STAR_PEEK_NEXT, OP_ANYCHAR_ML_STAR_PEEK_NEXT, OP_WORD, OP_NOT_WORD, OP_WORD_SB, OP_WORD_MB, OP_WORD_BOUND, OP_NOT_WORD_BOUND, OP_WORD_BEGIN, OP_WORD_END, OP_BEGIN_BUF, OP_END_BUF, OP_BEGIN_LINE, OP_END_LINE, OP_SEMI_END_BUF, OP_BEGIN_POSITION, OP_BACKREF1, OP_BACKREF2, OP_BACKREF3, OP_BACKREFN, OP_BACKREFN_IC, OP_BACKREF_MULTI, OP_BACKREF_MULTI_IC, OP_MEMORY_START, OP_MEMORY_START_PUSH, /* push back-tracker to stack */ OP_MEMORY_END_PUSH, /* push back-tracker to stack */ OP_MEMORY_END_PUSH_REC, /* push back-tracker to stack */ OP_MEMORY_END, OP_MEMORY_END_REC, /* push marker to stack */ OP_SET_OPTION_PUSH, /* set option and push recover option */ OP_SET_OPTION, /* set option */ OP_FAIL, /* pop stack and move */ OP_JUMP, OP_PUSH, OP_POP, OP_PUSH_OR_JUMP_EXACT1, /* if match exact then push, else jump. */ OP_PUSH_IF_PEEK_NEXT, /* if match exact then push, else none. */ OP_REPEAT, /* {n,m} */ OP_REPEAT_NG, /* {n,m}? (non greedy) */ OP_REPEAT_INC, OP_REPEAT_INC_NG, /* non greedy */ OP_REPEAT_INC_SG, /* search and get in stack */ OP_REPEAT_INC_NG_SG, /* search and get in stack (non greedy) */ OP_NULL_CHECK_START, /* null loop checker start */ OP_NULL_CHECK_END, /* null loop checker end */ OP_NULL_CHECK_END_MEMST, /* null loop checker end (with capture status) */ OP_NULL_CHECK_END_MEMST_PUSH, /* with capture status and push check-end */ OP_PUSH_POS, /* (?=...) start */ OP_POP_POS, /* (?=...) end */ OP_PUSH_POS_NOT, /* (?!...) start */ OP_FAIL_POS, /* (?!...) end */ OP_PUSH_STOP_BT, /* (?>...) start */ OP_POP_STOP_BT, /* (?>...) end */ OP_LOOK_BEHIND, /* (?<=...) start (no needs end opcode) */ OP_PUSH_LOOK_BEHIND_NOT, /* (?<!...) start */ OP_FAIL_LOOK_BEHIND_NOT, /* (?<!...) end */ OP_CALL, /* \g<name> */ OP_RETURN }; /* arguments type */ #define ARG_SPECIAL -1 #define ARG_NON 0 #define ARG_RELADDR 1 #define ARG_ABSADDR 2 #define ARG_LENGTH 3 #define ARG_MEMNUM 4 #define ARG_OPTION 5 typedef int RelAddrType; typedef int AbsAddrType; typedef int LengthType; typedef int RepeatNumType; typedef short int MemNumType; #define SIZE_OPCODE 1 #define SIZE_RELADDR sizeof(RelAddrType) #define SIZE_ABSADDR sizeof(AbsAddrType) #define SIZE_LENGTH sizeof(LengthType) #define SIZE_MEMNUM sizeof(MemNumType) #define SIZE_REPEATNUM sizeof(RepeatNumType) #define SIZE_OPTION sizeof(OnigOptionType) #define SIZE_CODE_POINT sizeof(OnigCodePoint) #ifdef PLATFORM_UNALIGNED_WORD_ACCESS #define PLATFORM_GET_INC(val,p,type) do{\ val = *(type* )p;\ (p) += sizeof(type);\ } while(0) #else #define PLATFORM_GET_INC(val,p,type) do{\ xmemcpy(&val, (p), sizeof(type));\ (p) += sizeof(type);\ } while(0) #endif /* PLATFORM_UNALIGNED_WORD_ACCESS */ #define GET_RELADDR_INC(addr,p) PLATFORM_GET_INC(addr, p, RelAddrType) #define GET_ABSADDR_INC(addr,p) PLATFORM_GET_INC(addr, p, AbsAddrType) #define GET_LENGTH_INC(len,p) PLATFORM_GET_INC(len, p, LengthType) #define GET_MEMNUM_INC(num,p) PLATFORM_GET_INC(num, p, MemNumType) #define GET_REPEATNUM_INC(num,p) PLATFORM_GET_INC(num, p, RepeatNumType) #define GET_OPTION_INC(option,p) PLATFORM_GET_INC(option, p, OnigOptionType) /* code point's address must be aligned address. */ #define GET_CODE_POINT(code,p) code = *((OnigCodePoint* )(p)) #define GET_BYTE_INC(byte,p) do{\ byte = *(p);\ (p)++;\ } while(0) /* op-code + arg size */ #define SIZE_OP_ANYCHAR_STAR SIZE_OPCODE #define SIZE_OP_ANYCHAR_STAR_PEEK_NEXT (SIZE_OPCODE + 1) #define SIZE_OP_JUMP (SIZE_OPCODE + SIZE_RELADDR) #define SIZE_OP_PUSH (SIZE_OPCODE + SIZE_RELADDR) #define SIZE_OP_POP SIZE_OPCODE #define SIZE_OP_PUSH_OR_JUMP_EXACT1 (SIZE_OPCODE + SIZE_RELADDR + 1) #define SIZE_OP_PUSH_IF_PEEK_NEXT (SIZE_OPCODE + SIZE_RELADDR + 1) #define SIZE_OP_REPEAT_INC (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_REPEAT_INC_NG (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_PUSH_POS SIZE_OPCODE #define SIZE_OP_PUSH_POS_NOT (SIZE_OPCODE + SIZE_RELADDR) #define SIZE_OP_POP_POS SIZE_OPCODE #define SIZE_OP_FAIL_POS SIZE_OPCODE #define SIZE_OP_SET_OPTION (SIZE_OPCODE + SIZE_OPTION) #define SIZE_OP_SET_OPTION_PUSH (SIZE_OPCODE + SIZE_OPTION) #define SIZE_OP_FAIL SIZE_OPCODE #define SIZE_OP_MEMORY_START (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_MEMORY_START_PUSH (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_MEMORY_END_PUSH (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_MEMORY_END_PUSH_REC (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_MEMORY_END (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_MEMORY_END_REC (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_PUSH_STOP_BT SIZE_OPCODE #define SIZE_OP_POP_STOP_BT SIZE_OPCODE #define SIZE_OP_NULL_CHECK_START (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_NULL_CHECK_END (SIZE_OPCODE + SIZE_MEMNUM) #define SIZE_OP_LOOK_BEHIND (SIZE_OPCODE + SIZE_LENGTH) #define SIZE_OP_PUSH_LOOK_BEHIND_NOT (SIZE_OPCODE + SIZE_RELADDR + SIZE_LENGTH) #define SIZE_OP_FAIL_LOOK_BEHIND_NOT SIZE_OPCODE #define SIZE_OP_CALL (SIZE_OPCODE + SIZE_ABSADDR) #define SIZE_OP_RETURN SIZE_OPCODE typedef struct { UChar esc; UChar anychar; UChar anytime; UChar zero_or_one_time; UChar one_or_more_time; UChar anychar_anytime; } OnigMetaCharTableType; extern OnigMetaCharTableType OnigMetaCharTable; #define MC_ESC OnigMetaCharTable.esc #define MC_ANYCHAR OnigMetaCharTable.anychar #define MC_ANYTIME OnigMetaCharTable.anytime #define MC_ZERO_OR_ONE_TIME OnigMetaCharTable.zero_or_one_time #define MC_ONE_OR_MORE_TIME OnigMetaCharTable.one_or_more_time #define MC_ANYCHAR_ANYTIME OnigMetaCharTable.anychar_anytime #define SYN_POSIX_COMMON_OP \ ( ONIG_SYN_OP_DOT_ANYCHAR | ONIG_SYN_OP_POSIX_BRACKET | \ ONIG_SYN_OP_DECIMAL_BACKREF | \ ONIG_SYN_OP_BRACKET_CC | ONIG_SYN_OP_ASTERISK_ZERO_INF | \ ONIG_SYN_OP_LINE_ANCHOR | \ ONIG_SYN_OP_ESC_CONTROL_CHARS ) #define SYN_GNU_REGEX_OP \ ( ONIG_SYN_OP_DOT_ANYCHAR | ONIG_SYN_OP_BRACKET_CC | \ ONIG_SYN_OP_POSIX_BRACKET | ONIG_SYN_OP_DECIMAL_BACKREF | \ ONIG_SYN_OP_BRACE_INTERVAL | ONIG_SYN_OP_LPAREN_SUBEXP | \ ONIG_SYN_OP_VBAR_ALT | \ ONIG_SYN_OP_ASTERISK_ZERO_INF | ONIG_SYN_OP_PLUS_ONE_INF | \ ONIG_SYN_OP_QMARK_ZERO_ONE | \ ONIG_SYN_OP_ESC_AZ_BUF_ANCHOR | ONIG_SYN_OP_ESC_CAPITAL_G_BEGIN_ANCHOR | \ ONIG_SYN_OP_ESC_W_WORD | \ ONIG_SYN_OP_ESC_B_WORD_BOUND | ONIG_SYN_OP_ESC_LTGT_WORD_BEGIN_END | \ ONIG_SYN_OP_ESC_S_WHITE_SPACE | ONIG_SYN_OP_ESC_D_DIGIT | \ ONIG_SYN_OP_LINE_ANCHOR ) #define SYN_GNU_REGEX_BV \ ( ONIG_SYN_CONTEXT_INDEP_ANCHORS | ONIG_SYN_CONTEXT_INDEP_REPEAT_OPS | \ ONIG_SYN_CONTEXT_INVALID_REPEAT_OPS | ONIG_SYN_ALLOW_INVALID_INTERVAL | \ ONIG_SYN_BACKSLASH_ESCAPE_IN_CC | ONIG_SYN_ALLOW_DOUBLE_RANGE_OP_IN_CC ) #ifdef ONIG_DEBUG typedef struct { short int opcode; char* name; short int arg_type; } OnigOpInfoType; extern OnigOpInfoType OnigOpInfo[]; extern void onig_print_compiled_byte_code P_((FILE* f, UChar* bp, UChar** nextp)); #ifdef ONIG_DEBUG_STATISTICS extern void onig_statistics_init P_((void)); extern void onig_print_statistics P_((FILE* f)); #endif #endif extern char* onig_error_code_to_format P_((int code)); extern void onig_snprintf_with_pattern PV_((char buf[], int bufsize, OnigEncoding enc, char* pat, char* pat_end, char *fmt, ...)); extern UChar* onig_strdup P_((UChar* s, UChar* end)); extern int onig_bbuf_init P_((BBuf* buf, int size)); extern int onig_alloc_init P_((regex_t** reg, OnigOptionType option, OnigEncoding enc, OnigSyntaxType* syntax)); extern int onig_compile P_((regex_t* reg, UChar* pattern, UChar* pattern_end, OnigErrorInfo* einfo)); extern void onig_chain_reduce P_((regex_t* reg)); extern int onig_is_in_code_range P_((UChar* p, OnigCodePoint code)); #endif /* REGINT_H */