ruby/regparse.c

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112 KiB
C
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/**********************************************************************
regparse.c - Oniguruma (regular expression library)
**********************************************************************/
/*-
* Copyright (c) 2002-2005 K.Kosako <sndgk393 AT ybb DOT ne DOT jp>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include "regparse.h"
#define WARN_BUFSIZE 256
OnigSyntaxType OnigSyntaxRuby = {
(( SYN_GNU_REGEX_OP | ONIG_SYN_OP_QMARK_NON_GREEDY |
ONIG_SYN_OP_ESC_OCTAL3 | ONIG_SYN_OP_ESC_X_HEX2 |
ONIG_SYN_OP_ESC_X_BRACE_HEX8 | ONIG_SYN_OP_ESC_CONTROL_CHARS |
ONIG_SYN_OP_ESC_C_CONTROL )
& ~ONIG_SYN_OP_ESC_LTGT_WORD_BEGIN_END )
, ( ONIG_SYN_OP2_QMARK_GROUP_EFFECT |
ONIG_SYN_OP2_OPTION_RUBY |
ONIG_SYN_OP2_QMARK_LT_NAMED_GROUP | ONIG_SYN_OP2_ESC_K_NAMED_BACKREF |
ONIG_SYN_OP2_ESC_G_SUBEXP_CALL |
ONIG_SYN_OP2_PLUS_POSSESSIVE_REPEAT |
ONIG_SYN_OP2_CCLASS_SET_OP | ONIG_SYN_OP2_ESC_CAPITAL_C_BAR_CONTROL |
ONIG_SYN_OP2_ESC_CAPITAL_M_BAR_META | ONIG_SYN_OP2_ESC_V_VTAB |
ONIG_SYN_OP2_ESC_H_XDIGIT )
, ( SYN_GNU_REGEX_BV |
ONIG_SYN_ALLOW_INTERVAL_LOW_ABBREV |
ONIG_SYN_DIFFERENT_LEN_ALT_LOOK_BEHIND |
ONIG_SYN_CAPTURE_ONLY_NAMED_GROUP |
ONIG_SYN_ALLOW_MULTIPLEX_DEFINITION_NAME |
ONIG_SYN_FIXED_INTERVAL_IS_GREEDY_ONLY |
ONIG_SYN_WARN_CC_OP_NOT_ESCAPED |
ONIG_SYN_WARN_REDUNDANT_NESTED_REPEAT )
, ONIG_OPTION_NONE
};
OnigSyntaxType* OnigDefaultSyntax = ONIG_SYNTAX_RUBY;
extern void onig_null_warn(char* s) { }
#ifdef DEFAULT_WARN_FUNCTION
static OnigWarnFunc onig_warn = (OnigWarnFunc )DEFAULT_WARN_FUNCTION;
#else
static OnigWarnFunc onig_warn = onig_null_warn;
#endif
#ifdef DEFAULT_VERB_WARN_FUNCTION
static OnigWarnFunc onig_verb_warn = (OnigWarnFunc )DEFAULT_VERB_WARN_FUNCTION;
#else
static OnigWarnFunc onig_verb_warn = onig_null_warn;
#endif
extern void onig_set_warn_func(OnigWarnFunc f)
{
onig_warn = f;
}
extern void onig_set_verb_warn_func(OnigWarnFunc f)
{
onig_verb_warn = f;
}
static void
bbuf_free(BBuf* bbuf)
{
if (IS_NOT_NULL(bbuf)) {
if (IS_NOT_NULL(bbuf->p)) xfree(bbuf->p);
xfree(bbuf);
}
}
static int
bbuf_clone(BBuf** rto, BBuf* from)
{
int r;
BBuf *to;
*rto = to = (BBuf* )xmalloc(sizeof(BBuf));
CHECK_NULL_RETURN_VAL(to, ONIGERR_MEMORY);
r = BBUF_INIT(to, from->alloc);
if (r != 0) return r;
to->used = from->used;
xmemcpy(to->p, from->p, from->used);
return 0;
}
#define ONOFF(v,f,negative) (negative) ? ((v) &= ~(f)) : ((v) |= (f))
#define MBCODE_START_POS(enc) \
(OnigCodePoint )(ONIGENC_MBC_MINLEN(enc) > 1 ? 0 : 0x80)
#define SET_ALL_MULTI_BYTE_RANGE(enc, pbuf) \
add_code_range_to_buf(pbuf, MBCODE_START_POS(enc), ~((OnigCodePoint )0))
#define ADD_ALL_MULTI_BYTE_RANGE(enc, mbuf) do {\
if (! ONIGENC_IS_SINGLEBYTE(enc)) {\
r = SET_ALL_MULTI_BYTE_RANGE(enc, &(mbuf));\
if (r) return r;\
}\
} while (0)
#define BITSET_IS_EMPTY(bs,empty) do {\
int i;\
empty = 1;\
for (i = 0; i < BITSET_SIZE; i++) {\
if ((bs)[i] != 0) {\
empty = 0; break;\
}\
}\
} while (0)
static void
bitset_set_range(BitSetRef bs, int from, int to)
{
int i;
for (i = from; i <= to && i < SINGLE_BYTE_SIZE; i++) {
BITSET_SET_BIT(bs, i);
}
}
#if 0
static void
bitset_set_all(BitSetRef bs)
{
int i;
for (i = 0; i < BITSET_SIZE; i++) {
bs[i] = ~((Bits )0);
}
}
#endif
static void
bitset_invert(BitSetRef bs)
{
int i;
for (i = 0; i < BITSET_SIZE; i++) {
bs[i] = ~(bs[i]);
}
}
static void
bitset_invert_to(BitSetRef from, BitSetRef to)
{
int i;
for (i = 0; i < BITSET_SIZE; i++) {
to[i] = ~(from[i]);
}
}
static void
bitset_and(BitSetRef dest, BitSetRef bs)
{
int i;
for (i = 0; i < BITSET_SIZE; i++) {
dest[i] &= bs[i];
}
}
static void
bitset_or(BitSetRef dest, BitSetRef bs)
{
int i;
for (i = 0; i < BITSET_SIZE; i++) {
dest[i] |= bs[i];
}
}
static void
bitset_copy(BitSetRef dest, BitSetRef bs)
{
int i;
for (i = 0; i < BITSET_SIZE; i++) {
dest[i] = bs[i];
}
}
extern int
onig_strncmp(UChar* s1, UChar* s2, int n)
{
int x;
while (n-- > 0) {
x = *s2++ - *s1++;
if (x) return x;
}
return 0;
}
static void
k_strcpy(UChar* dest, UChar* src, UChar* end)
{
int len = end - src;
if (len > 0) {
xmemcpy(dest, src, len);
dest[len] = (UChar )0;
}
}
static UChar*
strdup_with_null(OnigEncoding enc, UChar* s, UChar* end)
{
int slen, term_len, i;
UChar *r;
slen = end - s;
term_len = ONIGENC_MBC_MINLEN(enc);
r = (UChar* )xmalloc(slen + term_len);
CHECK_NULL_RETURN(r);
xmemcpy(r, s, slen);
for (i = 0; i < term_len; i++)
r[slen + i] = (UChar )0;
return r;
}
/* scan pattern methods */
#define PEND_VALUE 0
#define PFETCH_READY UChar* pfetch_prev
#define PEND (p < end ? 0 : 1)
#define PUNFETCH p = pfetch_prev
#define PINC do { \
pfetch_prev = p; \
p += ONIGENC_MBC_ENC_LEN(enc, p); \
} while (0)
#define PFETCH(c) do { \
c = ONIGENC_MBC_TO_CODE(enc, p, end); \
pfetch_prev = p; \
p += ONIGENC_MBC_ENC_LEN(enc, p); \
} while (0)
#define PPEEK (p < end ? ONIGENC_MBC_TO_CODE(enc, p, end) : PEND_VALUE)
#define PPEEK_IS(c) (PPEEK == (OnigCodePoint )c)
static UChar*
k_strcat_capa(UChar* dest, UChar* dest_end, UChar* src, UChar* src_end,
int capa)
{
UChar* r;
if (dest)
r = (UChar* )xrealloc(dest, capa + 1);
else
r = (UChar* )xmalloc(capa + 1);
CHECK_NULL_RETURN(r);
k_strcpy(r + (dest_end - dest), src, src_end);
return r;
}
/* dest on static area */
static UChar*
strcat_capa_from_static(UChar* dest, UChar* dest_end,
UChar* src, UChar* src_end, int capa)
{
UChar* r;
r = (UChar* )xmalloc(capa + 1);
CHECK_NULL_RETURN(r);
k_strcpy(r, dest, dest_end);
k_strcpy(r + (dest_end - dest), src, src_end);
return r;
}
#ifdef USE_NAMED_GROUP
#define INIT_NAME_BACKREFS_ALLOC_NUM 8
typedef struct {
UChar* name;
int name_len; /* byte length */
int back_num; /* number of backrefs */
int back_alloc;
int back_ref1;
int* back_refs;
} NameEntry;
#ifdef USE_ST_HASH_TABLE
#include "st.h"
typedef st_table NameTable;
typedef st_data_t HashDataType; /* 1.6 st.h doesn't define st_data_t type */
#define NAMEBUF_SIZE 24
#define NAMEBUF_SIZE_1 25
#ifdef ONIG_DEBUG
static int
i_print_name_entry(UChar* key, NameEntry* e, void* arg)
{
int i;
FILE* fp = (FILE* )arg;
fprintf(fp, "%s: ", e->name);
if (e->back_num == 0)
fputs("-", fp);
else if (e->back_num == 1)
fprintf(fp, "%d", e->back_ref1);
else {
for (i = 0; i < e->back_num; i++) {
if (i > 0) fprintf(fp, ", ");
fprintf(fp, "%d", e->back_refs[i]);
}
}
fputs("\n", fp);
return ST_CONTINUE;
}
extern int
onig_print_names(FILE* fp, regex_t* reg)
{
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) {
fprintf(fp, "name table\n");
onig_st_foreach(t, i_print_name_entry, (HashDataType )fp);
fputs("\n", fp);
}
return 0;
}
#endif
static int
i_free_name_entry(UChar* key, NameEntry* e, void* arg)
{
xfree(e->name); /* == key */
if (IS_NOT_NULL(e->back_refs)) xfree(e->back_refs);
return ST_DELETE;
}
static int
names_clear(regex_t* reg)
{
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) {
onig_st_foreach(t, i_free_name_entry, 0);
}
return 0;
}
extern int
onig_names_free(regex_t* reg)
{
int r;
NameTable* t;
r = names_clear(reg);
if (r) return r;
t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) onig_st_free_table(t);
reg->name_table = (void* )NULL;
return 0;
}
static NameEntry*
name_find(regex_t* reg, UChar* name, UChar* name_end)
{
NameEntry* e;
NameTable* t = (NameTable* )reg->name_table;
e = (NameEntry* )NULL;
if (IS_NOT_NULL(t)) {
onig_st_lookup_strend(t, name, name_end, (HashDataType* )((void* )(&e)));
}
return e;
}
typedef struct {
int (*func)(UChar*,UChar*,int,int*,regex_t*,void*);
regex_t* reg;
void* arg;
int ret;
OnigEncoding enc;
} INamesArg;
static int
i_names(UChar* key, NameEntry* e, INamesArg* arg)
{
int r = (*(arg->func))(e->name,
/*e->name + onigenc_str_bytelen_null(arg->enc, e->name), */
e->name + e->name_len,
e->back_num,
(e->back_num > 1 ? e->back_refs : &(e->back_ref1)),
arg->reg, arg->arg);
if (r != 0) {
arg->ret = r;
return ST_STOP;
}
return ST_CONTINUE;
}
extern int
onig_foreach_name(regex_t* reg,
int (*func)(UChar*,UChar*,int,int*,regex_t*,void*),
void* arg)
{
INamesArg narg;
NameTable* t = (NameTable* )reg->name_table;
narg.ret = 0;
if (IS_NOT_NULL(t)) {
narg.func = func;
narg.reg = reg;
narg.arg = arg;
narg.enc = reg->enc; /* should be pattern encoding. */
onig_st_foreach(t, i_names, (HashDataType )&narg);
}
return narg.ret;
}
static int
i_renumber_name(UChar* key, NameEntry* e, GroupNumRemap* map)
{
int i;
if (e->back_num > 1) {
for (i = 0; i < e->back_num; i++) {
e->back_refs[i] = map[e->back_refs[i]].new_val;
}
}
else if (e->back_num == 1) {
e->back_ref1 = map[e->back_ref1].new_val;
}
return ST_CONTINUE;
}
extern int
onig_renumber_name_table(regex_t* reg, GroupNumRemap* map)
{
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) {
onig_st_foreach(t, i_renumber_name, (HashDataType )map);
}
return 0;
}
extern int
onig_number_of_names(regex_t* reg)
{
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t))
return t->num_entries;
else
return 0;
}
#else /* USE_ST_HASH_TABLE */
#define INIT_NAMES_ALLOC_NUM 8
typedef struct {
NameEntry* e;
int num;
int alloc;
} NameTable;
#ifdef ONIG_DEBUG
extern int
onig_print_names(FILE* fp, regex_t* reg)
{
int i, j;
NameEntry* e;
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t) && t->num > 0) {
fprintf(fp, "name table\n");
for (i = 0; i < t->num; i++) {
e = &(t->e[i]);
fprintf(fp, "%s: ", e->name);
if (e->back_num == 0) {
fputs("-", fp);
}
else if (e->back_num == 1) {
fprintf(fp, "%d", e->back_ref1);
}
else {
for (j = 0; j < e->back_num; j++) {
if (j > 0) fprintf(fp, ", ");
fprintf(fp, "%d", e->back_refs[j]);
}
}
fputs("\n", fp);
}
fputs("\n", fp);
}
return 0;
}
#endif
static int
names_clear(regex_t* reg)
{
int i;
NameEntry* e;
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) {
for (i = 0; i < t->num; i++) {
e = &(t->e[i]);
if (IS_NOT_NULL(e->name)) {
xfree(e->name);
e->name = NULL;
e->name_len = 0;
e->back_num = 0;
e->back_alloc = 0;
if (IS_NOT_NULL(e->back_refs)) xfree(e->back_refs);
e->back_refs = (int* )NULL;
}
}
if (IS_NOT_NULL(t->e)) {
xfree(t->e);
t->e = NULL;
}
t->num = 0;
}
return 0;
}
extern int
onig_names_free(regex_t* reg)
{
int r;
NameTable* t;
r = names_clear(reg);
if (r) return r;
t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) xfree(t);
reg->name_table = NULL;
return 0;
}
static NameEntry*
name_find(regex_t* reg, UChar* name, UChar* name_end)
{
int i, len;
NameEntry* e;
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) {
len = name_end - name;
for (i = 0; i < t->num; i++) {
e = &(t->e[i]);
if (len == e->name_len && onig_strncmp(name, e->name, len) == 0)
return e;
}
}
return (NameEntry* )NULL;
}
extern int
onig_foreach_name(regex_t* reg,
int (*func)(UChar*,UChar*,int,int*,regex_t*,void*),
void* arg)
{
int i, r;
NameEntry* e;
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t)) {
for (i = 0; i < t->num; i++) {
e = &(t->e[i]);
r = (*func)(e->name, e->name + e->name_len, e->back_num,
(e->back_num > 1 ? e->back_refs : &(e->back_ref1)),
reg, arg);
if (r != 0) return r;
}
}
return 0;
}
extern int
onig_number_of_names(regex_t* reg)
{
NameTable* t = (NameTable* )reg->name_table;
if (IS_NOT_NULL(t))
return t->num;
else
return 0;
}
#endif /* else USE_ST_HASH_TABLE */
static int
name_add(regex_t* reg, UChar* name, UChar* name_end, int backref, ScanEnv* env)
{
int alloc;
NameEntry* e;
NameTable* t = (NameTable* )reg->name_table;
if (name_end - name <= 0)
return ONIGERR_EMPTY_GROUP_NAME;
e = name_find(reg, name, name_end);
if (IS_NULL(e)) {
#ifdef USE_ST_HASH_TABLE
if (IS_NULL(t)) {
t = onig_st_init_strend_table_with_size(5);
reg->name_table = (void* )t;
}
e = (NameEntry* )xmalloc(sizeof(NameEntry));
CHECK_NULL_RETURN_VAL(e, ONIGERR_MEMORY);
e->name = strdup_with_null(reg->enc, name, name_end);
if (IS_NULL(e->name)) return ONIGERR_MEMORY;
onig_st_insert_strend(t, e->name, (e->name + (name_end - name)),
(HashDataType )e);
e->name_len = name_end - name;
e->back_num = 0;
e->back_alloc = 0;
e->back_refs = (int* )NULL;
#else
if (IS_NULL(t)) {
alloc = INIT_NAMES_ALLOC_NUM;
t = (NameTable* )xmalloc(sizeof(NameTable));
CHECK_NULL_RETURN_VAL(t, ONIGERR_MEMORY);
t->e = NULL;
t->alloc = 0;
t->num = 0;
t->e = (NameEntry* )xmalloc(sizeof(NameEntry) * alloc);
if (IS_NULL(t->e)) {
xfree(t);
return ONIGERR_MEMORY;
}
t->alloc = alloc;
reg->name_table = t;
goto clear;
}
else if (t->num == t->alloc) {
int i;
alloc = t->alloc * 2;
t->e = (NameEntry* )xrealloc(t->e, sizeof(NameEntry) * alloc);
CHECK_NULL_RETURN_VAL(t->e, ONIGERR_MEMORY);
t->alloc = alloc;
clear:
for (i = t->num; i < t->alloc; i++) {
t->e[i].name = NULL;
t->e[i].name_len = 0;
t->e[i].back_num = 0;
t->e[i].back_alloc = 0;
t->e[i].back_refs = (int* )NULL;
}
}
e = &(t->e[t->num]);
t->num++;
e->name = strdup_with_null(reg->enc, name, name_end);
e->name_len = name_end - name;
#endif
}
if (e->back_num >= 1 &&
! IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_MULTIPLEX_DEFINITION_NAME)) {
onig_scan_env_set_error_string(env, ONIGERR_MULTIPLEX_DEFINED_NAME,
name, name_end);
return ONIGERR_MULTIPLEX_DEFINED_NAME;
}
e->back_num++;
if (e->back_num == 1) {
e->back_ref1 = backref;
}
else {
if (e->back_num == 2) {
alloc = INIT_NAME_BACKREFS_ALLOC_NUM;
e->back_refs = (int* )xmalloc(sizeof(int) * alloc);
CHECK_NULL_RETURN_VAL(e->back_refs, ONIGERR_MEMORY);
e->back_alloc = alloc;
e->back_refs[0] = e->back_ref1;
e->back_refs[1] = backref;
}
else {
if (e->back_num > e->back_alloc) {
alloc = e->back_alloc * 2;
e->back_refs = (int* )xrealloc(e->back_refs, sizeof(int) * alloc);
CHECK_NULL_RETURN_VAL(e->back_refs, ONIGERR_MEMORY);
e->back_alloc = alloc;
}
e->back_refs[e->back_num - 1] = backref;
}
}
return 0;
}
extern int
onig_name_to_group_numbers(regex_t* reg, UChar* name, UChar* name_end,
int** nums)
{
NameEntry* e;
e = name_find(reg, name, name_end);
if (IS_NULL(e)) return ONIGERR_UNDEFINED_NAME_REFERENCE;
switch (e->back_num) {
case 0:
break;
case 1:
*nums = &(e->back_ref1);
break;
default:
*nums = e->back_refs;
break;
}
return e->back_num;
}
extern int
onig_name_to_backref_number(regex_t* reg, UChar* name, UChar* name_end,
OnigRegion *region)
{
int i, n, *nums;
n = onig_name_to_group_numbers(reg, name, name_end, &nums);
if (n < 0)
return n;
else if (n == 0)
return ONIGERR_PARSER_BUG;
else if (n == 1)
return nums[0];
else {
if (IS_NOT_NULL(region)) {
for (i = n - 1; i >= 0; i--) {
if (region->beg[nums[i]] != ONIG_REGION_NOTPOS)
return nums[i];
}
}
return nums[n - 1];
}
}
#else /* USE_NAMED_GROUP */
extern int
onig_name_to_group_numbers(regex_t* reg, UChar* name, UChar* name_end,
int** nums)
{
return ONIG_NO_SUPPORT_CONFIG;
}
extern int
onig_name_to_backref_number(regex_t* reg, UChar* name, UChar* name_end,
OnigRegion* region)
{
return ONIG_NO_SUPPORT_CONFIG;
}
extern int
onig_foreach_name(regex_t* reg,
int (*func)(UChar*,UChar*,int,int*,regex_t*,void*),
void* arg)
{
return ONIG_NO_SUPPORT_CONFIG;
}
extern int
onig_number_of_names(regex_t* reg)
{
return 0;
}
#endif /* else USE_NAMED_GROUP */
#define INIT_SCANENV_MEMNODES_ALLOC_SIZE 16
static void
scan_env_clear(ScanEnv* env)
{
int i;
BIT_STATUS_CLEAR(env->capture_history);
BIT_STATUS_CLEAR(env->bt_mem_start);
BIT_STATUS_CLEAR(env->bt_mem_end);
BIT_STATUS_CLEAR(env->backrefed_mem);
env->error = (UChar* )NULL;
env->error_end = (UChar* )NULL;
env->num_call = 0;
env->num_mem = 0;
#ifdef USE_NAMED_GROUP
env->num_named = 0;
#endif
env->mem_alloc = 0;
env->mem_nodes_dynamic = (Node** )NULL;
for (i = 0; i < SCANENV_MEMNODES_SIZE; i++)
env->mem_nodes_static[i] = NULL_NODE;
}
static int
scan_env_add_mem_entry(ScanEnv* env)
{
int i, need, alloc;
Node** p;
need = env->num_mem + 1;
if (need >= SCANENV_MEMNODES_SIZE) {
if (env->mem_alloc <= need) {
if (IS_NULL(env->mem_nodes_dynamic)) {
alloc = INIT_SCANENV_MEMNODES_ALLOC_SIZE;
p = (Node** )xmalloc(sizeof(Node*) * alloc);
xmemcpy(p, env->mem_nodes_static,
sizeof(Node*) * SCANENV_MEMNODES_SIZE);
}
else {
alloc = env->mem_alloc * 2;
p = (Node** )xrealloc(env->mem_nodes_dynamic, sizeof(Node*) * alloc);
}
CHECK_NULL_RETURN_VAL(p, ONIGERR_MEMORY);
for (i = env->num_mem + 1; i < alloc; i++)
p[i] = NULL_NODE;
env->mem_nodes_dynamic = p;
env->mem_alloc = alloc;
}
}
env->num_mem++;
return env->num_mem;
}
static int
scan_env_set_mem_node(ScanEnv* env, int num, Node* node)
{
if (env->num_mem >= num)
SCANENV_MEM_NODES(env)[num] = node;
else
return ONIGERR_PARSER_BUG;
return 0;
}
#ifdef USE_RECYCLE_NODE
typedef struct _FreeNode {
struct _FreeNode* next;
} FreeNode;
static FreeNode* FreeNodeList = (FreeNode* )NULL;
#endif
extern void
onig_node_free(Node* node)
{
start:
if (IS_NULL(node)) return ;
switch (NTYPE(node)) {
case N_STRING:
if (IS_NOT_NULL(NSTRING(node).s) && NSTRING(node).s != NSTRING(node).buf) {
xfree(NSTRING(node).s);
}
break;
case N_LIST:
case N_ALT:
onig_node_free(NCONS(node).left);
/* onig_node_free(NCONS(node).right); */
{
Node* next_node = NCONS(node).right;
#ifdef USE_RECYCLE_NODE
{
FreeNode* n = (FreeNode* )node;
THREAD_ATOMIC_START;
n->next = FreeNodeList;
FreeNodeList = n;
THREAD_ATOMIC_END;
}
#else
xfree(node);
#endif
node = next_node;
goto start;
}
break;
case N_CCLASS:
{
CClassNode* cc = &(NCCLASS(node));
if (IS_CCLASS_SHARE(cc))
return ;
if (cc->mbuf)
bbuf_free(cc->mbuf);
}
break;
case N_QUALIFIER:
if (NQUALIFIER(node).target)
onig_node_free(NQUALIFIER(node).target);
break;
case N_EFFECT:
if (NEFFECT(node).target)
onig_node_free(NEFFECT(node).target);
break;
case N_BACKREF:
if (IS_NOT_NULL(NBACKREF(node).back_dynamic))
xfree(NBACKREF(node).back_dynamic);
break;
case N_ANCHOR:
if (NANCHOR(node).target)
onig_node_free(NANCHOR(node).target);
break;
}
#ifdef USE_RECYCLE_NODE
{
FreeNode* n = (FreeNode* )node;
THREAD_ATOMIC_START;
n->next = FreeNodeList;
FreeNodeList = n;
THREAD_ATOMIC_END;
}
#else
xfree(node);
#endif
}
#ifdef USE_RECYCLE_NODE
extern int
onig_free_node_list()
{
FreeNode* n;
THREAD_ATOMIC_START;
while (FreeNodeList) {
n = FreeNodeList;
FreeNodeList = FreeNodeList->next;
xfree(n);
}
THREAD_ATOMIC_END;
return 0;
}
#endif
static Node*
node_new()
{
Node* node;
#ifdef USE_RECYCLE_NODE
if (IS_NOT_NULL(FreeNodeList)) {
THREAD_ATOMIC_START;
node = (Node* )FreeNodeList;
FreeNodeList = FreeNodeList->next;
THREAD_ATOMIC_END;
return node;
}
#endif
node = (Node* )xmalloc(sizeof(Node));
return node;
}
static void
initialize_cclass(CClassNode* cc)
{
BITSET_CLEAR(cc->bs);
cc->flags = 0;
cc->mbuf = NULL;
}
static Node*
node_new_cclass()
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_CCLASS;
initialize_cclass(&(NCCLASS(node)));
return node;
}
extern Node*
node_new_cclass_by_codepoint_range(int not,
OnigCodePoint sbr[], OnigCodePoint mbr[])
{
CClassNode* cc;
int n, i, j;
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_CCLASS;
cc = &(NCCLASS(node));
cc->flags = 0;
if (not != 0) CCLASS_SET_NOT(cc);
BITSET_CLEAR(cc->bs);
if (IS_NOT_NULL(sbr)) {
n = ONIGENC_CODE_RANGE_NUM(sbr);
for (i = 0; i < n; i++) {
for (j = ONIGENC_CODE_RANGE_FROM(sbr, i);
j <= (int )ONIGENC_CODE_RANGE_TO(sbr, i); j++) {
BITSET_SET_BIT(cc->bs, j);
}
}
}
if (IS_NULL(mbr)) {
is_null:
cc->mbuf = NULL;
}
else {
BBuf* bbuf;
n = ONIGENC_CODE_RANGE_NUM(mbr);
if (n == 0) goto is_null;
bbuf = (BBuf* )xmalloc(sizeof(BBuf));
CHECK_NULL_RETURN_VAL(bbuf, NULL);
bbuf->alloc = n + 1;
bbuf->used = n + 1;
bbuf->p = (UChar* )((void* )mbr);
cc->mbuf = bbuf;
}
return node;
}
static Node*
node_new_ctype(int type)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_CTYPE;
NCTYPE(node).type = type;
return node;
}
static Node*
node_new_anychar()
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_ANYCHAR;
return node;
}
static Node*
node_new_list(Node* left, Node* right)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_LIST;
NCONS(node).left = left;
NCONS(node).right = right;
return node;
}
extern Node*
onig_node_new_list(Node* left, Node* right)
{
return node_new_list(left, right);
}
static Node*
node_new_alt(Node* left, Node* right)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_ALT;
NCONS(node).left = left;
NCONS(node).right = right;
return node;
}
extern Node*
onig_node_new_anchor(int type)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_ANCHOR;
NANCHOR(node).type = type;
NANCHOR(node).target = NULL;
NANCHOR(node).char_len = -1;
return node;
}
static Node*
node_new_backref(int back_num, int* backrefs, int by_name, ScanEnv* env)
{
int i;
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_BACKREF;
NBACKREF(node).state = 0;
NBACKREF(node).back_num = back_num;
NBACKREF(node).back_dynamic = (int* )NULL;
if (by_name != 0)
NBACKREF(node).state |= NST_NAME_REF;
for (i = 0; i < back_num; i++) {
if (backrefs[i] <= env->num_mem &&
IS_NULL(SCANENV_MEM_NODES(env)[backrefs[i]])) {
NBACKREF(node).state |= NST_RECURSION; /* /...(\1).../ */
break;
}
}
if (back_num <= NODE_BACKREFS_SIZE) {
for (i = 0; i < back_num; i++)
NBACKREF(node).back_static[i] = backrefs[i];
}
else {
int* p = (int* )xmalloc(sizeof(int) * back_num);
if (IS_NULL(p)) {
onig_node_free(node);
return NULL;
}
NBACKREF(node).back_dynamic = p;
for (i = 0; i < back_num; i++)
p[i] = backrefs[i];
}
return node;
}
#ifdef USE_SUBEXP_CALL
static Node*
node_new_call(UChar* name, UChar* name_end)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_CALL;
NCALL(node).state = 0;
NCALL(node).ref_num = CALLNODE_REFNUM_UNDEF;
NCALL(node).target = NULL_NODE;
NCALL(node).name = name;
NCALL(node).name_end = name_end;
return node;
}
#endif
static Node*
node_new_qualifier(int lower, int upper, int by_number)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_QUALIFIER;
NQUALIFIER(node).state = 0;
NQUALIFIER(node).target = NULL;
NQUALIFIER(node).lower = lower;
NQUALIFIER(node).upper = upper;
NQUALIFIER(node).greedy = 1;
NQUALIFIER(node).by_number = by_number;
NQUALIFIER(node).target_empty_info = NQ_TARGET_ISNOT_EMPTY;
NQUALIFIER(node).head_exact = NULL_NODE;
NQUALIFIER(node).next_head_exact = NULL_NODE;
NQUALIFIER(node).is_refered = 0;
return node;
}
static Node*
node_new_effect(int type)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_EFFECT;
NEFFECT(node).type = type;
NEFFECT(node).state = 0;
NEFFECT(node).regnum = 0;
NEFFECT(node).option = 0;
NEFFECT(node).target = NULL;
NEFFECT(node).call_addr = -1;
NEFFECT(node).opt_count = 0;
return node;
}
extern Node*
onig_node_new_effect(int type)
{
return node_new_effect(type);
}
static Node*
node_new_effect_memory(OnigOptionType option, int is_named)
{
Node* node = node_new_effect(EFFECT_MEMORY);
CHECK_NULL_RETURN(node);
if (is_named != 0)
SET_EFFECT_STATUS(node, NST_NAMED_GROUP);
#ifdef USE_SUBEXP_CALL
NEFFECT(node).option = option;
#endif
return node;
}
static Node*
node_new_option(OnigOptionType option)
{
Node* node = node_new_effect(EFFECT_OPTION);
CHECK_NULL_RETURN(node);
NEFFECT(node).option = option;
return node;
}
extern int
onig_node_str_cat(Node* node, UChar* s, UChar* end)
{
int addlen = end - s;
if (addlen > 0) {
int len = NSTRING(node).end - NSTRING(node).s;
if (NSTRING(node).capa > 0 || (len + addlen > NODE_STR_BUF_SIZE - 1)) {
UChar* p;
int capa = len + addlen + NODE_STR_MARGIN;
if (capa <= NSTRING(node).capa) {
k_strcpy(NSTRING(node).s + len, s, end);
}
else {
if (NSTRING(node).s == NSTRING(node).buf)
p = strcat_capa_from_static(NSTRING(node).s, NSTRING(node).end,
s, end, capa);
else
p = k_strcat_capa(NSTRING(node).s, NSTRING(node).end, s, end, capa);
CHECK_NULL_RETURN_VAL(p, ONIGERR_MEMORY);
NSTRING(node).s = p;
NSTRING(node).capa = capa;
}
}
else {
k_strcpy(NSTRING(node).s + len, s, end);
}
NSTRING(node).end = NSTRING(node).s + len + addlen;
}
return 0;
}
static int
node_str_cat_char(Node* node, UChar c)
{
UChar s[1];
s[0] = c;
return onig_node_str_cat(node, s, s + 1);
}
extern void
onig_node_conv_to_str_node(Node* node, int flag)
{
node->type = N_STRING;
NSTRING(node).flag = flag;
NSTRING(node).capa = 0;
NSTRING(node).s = NSTRING(node).buf;
NSTRING(node).end = NSTRING(node).buf;
}
extern void
onig_node_str_clear(Node* node)
{
if (NSTRING(node).capa != 0 &&
IS_NOT_NULL(NSTRING(node).s) && NSTRING(node).s != NSTRING(node).buf) {
xfree(NSTRING(node).s);
}
NSTRING(node).capa = 0;
NSTRING(node).flag = 0;
NSTRING(node).s = NSTRING(node).buf;
NSTRING(node).end = NSTRING(node).buf;
}
static Node*
node_new_str(UChar* s, UChar* end)
{
Node* node = node_new();
CHECK_NULL_RETURN(node);
node->type = N_STRING;
NSTRING(node).capa = 0;
NSTRING(node).flag = 0;
NSTRING(node).s = NSTRING(node).buf;
NSTRING(node).end = NSTRING(node).buf;
if (onig_node_str_cat(node, s, end)) {
onig_node_free(node);
return NULL;
}
return node;
}
extern Node*
onig_node_new_str(UChar* s, UChar* end)
{
return node_new_str(s, end);
}
static Node*
node_new_str_raw(UChar* s, UChar* end)
{
Node* node = node_new_str(s, end);
NSTRING_SET_RAW(node);
return node;
}
static Node*
node_new_empty()
{
return node_new_str(NULL, NULL);
}
static Node*
node_new_str_raw_char(UChar c)
{
UChar p[1];
p[0] = c;
return node_new_str_raw(p, p + 1);
}
static Node*
str_node_split_last_char(StrNode* sn, OnigEncoding enc)
{
UChar *p;
Node* n = NULL_NODE;
if (sn->end > sn->s) {
p = onigenc_get_prev_char_head(enc, sn->s, sn->end);
if (p && p > sn->s) { /* can be splitted. */
n = node_new_str(p, sn->end);
if ((sn->flag & NSTR_RAW) != 0)
NSTRING_SET_RAW(n);
sn->end = p;
}
}
return n;
}
static int
str_node_can_be_split(StrNode* sn, OnigEncoding enc)
{
if (sn->end > sn->s) {
return ((enc_len(enc, sn->s) < sn->end - sn->s) ? 1 : 0);
}
return 0;
}
extern int
onig_scan_unsigned_number(UChar** src, UChar* end, OnigEncoding enc)
{
unsigned int num, val;
OnigCodePoint c;
UChar* p = *src;
PFETCH_READY;
num = 0;
while (!PEND) {
PFETCH(c);
if (ONIGENC_IS_CODE_DIGIT(enc, c)) {
val = (unsigned int )DIGITVAL(c);
if ((INT_MAX_LIMIT - val) / 10UL < num)
return -1; /* overflow */
num = num * 10 + val;
}
else {
PUNFETCH;
break;
}
}
*src = p;
return num;
}
static int
scan_unsigned_hexadecimal_number(UChar** src, UChar* end, int maxlen,
OnigEncoding enc)
{
OnigCodePoint c;
unsigned int num, val;
UChar* p = *src;
PFETCH_READY;
num = 0;
while (!PEND && maxlen-- != 0) {
PFETCH(c);
if (ONIGENC_IS_CODE_XDIGIT(enc, c)) {
val = (unsigned int )XDIGITVAL(enc,c);
if ((INT_MAX_LIMIT - val) / 16UL < num)
return -1; /* overflow */
num = (num << 4) + XDIGITVAL(enc,c);
}
else {
PUNFETCH;
break;
}
}
*src = p;
return num;
}
static int
scan_unsigned_octal_number(UChar** src, UChar* end, int maxlen,
OnigEncoding enc)
{
OnigCodePoint c;
unsigned int num, val;
UChar* p = *src;
PFETCH_READY;
num = 0;
while (!PEND && maxlen-- != 0) {
PFETCH(c);
if (ONIGENC_IS_CODE_DIGIT(enc, c) && c < '8') {
val = ODIGITVAL(c);
if ((INT_MAX_LIMIT - val) / 8UL < num)
return -1; /* overflow */
num = (num << 3) + val;
}
else {
PUNFETCH;
break;
}
}
*src = p;
return num;
}
#define BBUF_WRITE_CODE_POINT(bbuf,pos,code) \
BBUF_WRITE(bbuf, pos, &(code), SIZE_CODE_POINT)
/* data format:
[n][from-1][to-1][from-2][to-2] ... [from-n][to-n]
(all data size is OnigCodePoint)
*/
static int
new_code_range(BBuf** pbuf)
{
#define INIT_MULTI_BYTE_RANGE_SIZE (SIZE_CODE_POINT * 5)
int r;
OnigCodePoint n;
BBuf* bbuf;
bbuf = *pbuf = (BBuf* )xmalloc(sizeof(BBuf));
CHECK_NULL_RETURN_VAL(*pbuf, ONIGERR_MEMORY);
r = BBUF_INIT(*pbuf, INIT_MULTI_BYTE_RANGE_SIZE);
if (r) return r;
n = 0;
BBUF_WRITE_CODE_POINT(bbuf, 0, n);
return 0;
}
static int
add_code_range_to_buf(BBuf** pbuf, OnigCodePoint from, OnigCodePoint to)
{
int r, inc_n, pos;
int low, high, bound, x;
OnigCodePoint n, *data;
BBuf* bbuf;
if (from > to) {
n = from; from = to; to = n;
}
if (IS_NULL(*pbuf)) {
r = new_code_range(pbuf);
if (r) return r;
bbuf = *pbuf;
n = 0;
}
else {
bbuf = *pbuf;
GET_CODE_POINT(n, bbuf->p);
}
data = (OnigCodePoint* )(bbuf->p);
data++;
for (low = 0, bound = n; low < bound; ) {
x = (low + bound) >> 1;
if (from > data[x*2 + 1])
low = x + 1;
else
bound = x;
}
for (high = low, bound = n; high < bound; ) {
x = (high + bound) >> 1;
if (to >= data[x*2] - 1)
high = x + 1;
else
bound = x;
}
inc_n = low + 1 - high;
if (n + inc_n > ONIG_MAX_MULTI_BYTE_RANGES_NUM)
return ONIGERR_TOO_MANY_MULTI_BYTE_RANGES;
if (inc_n != 1) {
if (from > data[low*2])
from = data[low*2];
if (to < data[(high - 1)*2 + 1])
to = data[(high - 1)*2 + 1];
}
if (inc_n != 0 && (OnigCodePoint )high < n) {
int from_pos = SIZE_CODE_POINT * (1 + high * 2);
int to_pos = SIZE_CODE_POINT * (1 + (low + 1) * 2);
int size = (n - high) * 2 * SIZE_CODE_POINT;
if (inc_n > 0) {
BBUF_MOVE_RIGHT(bbuf, from_pos, to_pos, size);
}
else {
BBUF_MOVE_LEFT_REDUCE(bbuf, from_pos, to_pos);
}
}
pos = SIZE_CODE_POINT * (1 + low * 2);
BBUF_ENSURE_SIZE(bbuf, pos + SIZE_CODE_POINT * 2);
BBUF_WRITE_CODE_POINT(bbuf, pos, from);
BBUF_WRITE_CODE_POINT(bbuf, pos + SIZE_CODE_POINT, to);
n += inc_n;
BBUF_WRITE_CODE_POINT(bbuf, 0, n);
return 0;
}
static int
add_code_range(BBuf** pbuf, ScanEnv* env, OnigCodePoint from, OnigCodePoint to)
{
if (from > to) {
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_EMPTY_RANGE_IN_CC))
return 0;
else
return ONIGERR_EMPTY_RANGE_IN_CHAR_CLASS;
}
return add_code_range_to_buf(pbuf, from, to);
}
static int
not_code_range_buf(OnigEncoding enc, BBuf* bbuf, BBuf** pbuf)
{
int r, i, n;
OnigCodePoint pre, from, *data, to = 0;
*pbuf = (BBuf* )NULL;
if (IS_NULL(bbuf)) {
set_all:
return SET_ALL_MULTI_BYTE_RANGE(enc, pbuf);
}
data = (OnigCodePoint* )(bbuf->p);
GET_CODE_POINT(n, data);
data++;
if (n <= 0) goto set_all;
r = 0;
pre = MBCODE_START_POS(enc);
for (i = 0; i < n; i++) {
from = data[i*2];
to = data[i*2+1];
if (pre <= from - 1) {
r = add_code_range_to_buf(pbuf, pre, from - 1);
if (r != 0) return r;
}
if (to == ~((OnigCodePoint )0)) break;
pre = to + 1;
}
if (to < ~((OnigCodePoint )0)) {
r = add_code_range_to_buf(pbuf, to + 1, ~((OnigCodePoint )0));
}
return r;
}
#define SWAP_BBUF_NOT(bbuf1, not1, bbuf2, not2) do {\
BBuf *tbuf; \
int tnot; \
tnot = not1; not1 = not2; not2 = tnot; \
tbuf = bbuf1; bbuf1 = bbuf2; bbuf2 = tbuf; \
} while (0)
static int
or_code_range_buf(OnigEncoding enc, BBuf* bbuf1, int not1,
BBuf* bbuf2, int not2, BBuf** pbuf)
{
int r;
OnigCodePoint i, n1, *data1;
OnigCodePoint from, to;
*pbuf = (BBuf* )NULL;
if (IS_NULL(bbuf1) && IS_NULL(bbuf2)) {
if (not1 != 0 || not2 != 0)
return SET_ALL_MULTI_BYTE_RANGE(enc, pbuf);
return 0;
}
r = 0;
if (IS_NULL(bbuf2))
SWAP_BBUF_NOT(bbuf1, not1, bbuf2, not2);
if (IS_NULL(bbuf1)) {
if (not1 != 0) {
return SET_ALL_MULTI_BYTE_RANGE(enc, pbuf);
}
else {
if (not2 == 0) {
return bbuf_clone(pbuf, bbuf2);
}
else {
return not_code_range_buf(enc, bbuf2, pbuf);
}
}
}
if (not1 != 0)
SWAP_BBUF_NOT(bbuf1, not1, bbuf2, not2);
data1 = (OnigCodePoint* )(bbuf1->p);
GET_CODE_POINT(n1, data1);
data1++;
if (not2 == 0 && not1 == 0) { /* 1 OR 2 */
r = bbuf_clone(pbuf, bbuf2);
}
else if (not1 == 0) { /* 1 OR (not 2) */
r = not_code_range_buf(enc, bbuf2, pbuf);
}
if (r != 0) return r;
for (i = 0; i < n1; i++) {
from = data1[i*2];
to = data1[i*2+1];
r = add_code_range_to_buf(pbuf, from, to);
if (r != 0) return r;
}
return 0;
}
static int
and_code_range1(BBuf** pbuf, OnigCodePoint from1, OnigCodePoint to1,
OnigCodePoint* data, int n)
{
int i, r;
OnigCodePoint from2, to2;
for (i = 0; i < n; i++) {
from2 = data[i*2];
to2 = data[i*2+1];
if (from2 < from1) {
if (to2 < from1) continue;
else {
from1 = to2 + 1;
}
}
else if (from2 <= to1) {
if (to2 < to1) {
if (from1 <= from2 - 1) {
r = add_code_range_to_buf(pbuf, from1, from2-1);
if (r != 0) return r;
}
from1 = to2 + 1;
}
else {
to1 = from2 - 1;
}
}
else {
from1 = from2;
}
if (from1 > to1) break;
}
if (from1 <= to1) {
r = add_code_range_to_buf(pbuf, from1, to1);
if (r != 0) return r;
}
return 0;
}
static int
and_code_range_buf(BBuf* bbuf1, int not1, BBuf* bbuf2, int not2, BBuf** pbuf)
{
int r;
OnigCodePoint i, j, n1, n2, *data1, *data2;
OnigCodePoint from, to, from1, to1, from2, to2;
*pbuf = (BBuf* )NULL;
if (IS_NULL(bbuf1)) {
if (not1 != 0 && IS_NOT_NULL(bbuf2)) /* not1 != 0 -> not2 == 0 */
return bbuf_clone(pbuf, bbuf2);
return 0;
}
else if (IS_NULL(bbuf2)) {
if (not2 != 0)
return bbuf_clone(pbuf, bbuf1);
return 0;
}
if (not1 != 0)
SWAP_BBUF_NOT(bbuf1, not1, bbuf2, not2);
data1 = (OnigCodePoint* )(bbuf1->p);
data2 = (OnigCodePoint* )(bbuf2->p);
GET_CODE_POINT(n1, data1);
GET_CODE_POINT(n2, data2);
data1++;
data2++;
if (not2 == 0 && not1 == 0) { /* 1 AND 2 */
for (i = 0; i < n1; i++) {
from1 = data1[i*2];
to1 = data1[i*2+1];
for (j = 0; j < n2; j++) {
from2 = data2[j*2];
to2 = data2[j*2+1];
if (from2 > to1) break;
if (to2 < from1) continue;
from = MAX(from1, from2);
to = MIN(to1, to2);
r = add_code_range_to_buf(pbuf, from, to);
if (r != 0) return r;
}
}
}
else if (not1 == 0) { /* 1 AND (not 2) */
for (i = 0; i < n1; i++) {
from1 = data1[i*2];
to1 = data1[i*2+1];
r = and_code_range1(pbuf, from1, to1, data2, n2);
if (r != 0) return r;
}
}
return 0;
}
static int
clear_not_flag_cclass(CClassNode* cc, OnigEncoding enc)
{
BBuf *tbuf;
int r;
if (IS_CCLASS_NOT(cc)) {
bitset_invert(cc->bs);
if (! ONIGENC_IS_SINGLEBYTE(enc)) {
r = not_code_range_buf(enc, cc->mbuf, &tbuf);
if (r != 0) return r;
bbuf_free(cc->mbuf);
cc->mbuf = tbuf;
}
CCLASS_CLEAR_NOT(cc);
}
return 0;
}
static int
and_cclass(CClassNode* dest, CClassNode* cc, OnigEncoding enc)
{
int r, not1, not2;
BBuf *buf1, *buf2, *pbuf;
BitSetRef bsr1, bsr2;
BitSet bs1, bs2;
not1 = IS_CCLASS_NOT(dest);
bsr1 = dest->bs;
buf1 = dest->mbuf;
not2 = IS_CCLASS_NOT(cc);
bsr2 = cc->bs;
buf2 = cc->mbuf;
if (not1 != 0) {
bitset_invert_to(bsr1, bs1);
bsr1 = bs1;
}
if (not2 != 0) {
bitset_invert_to(bsr2, bs2);
bsr2 = bs2;
}
bitset_and(bsr1, bsr2);
if (bsr1 != dest->bs) {
bitset_copy(dest->bs, bsr1);
bsr1 = dest->bs;
}
if (not1 != 0) {
bitset_invert(dest->bs);
}
if (! ONIGENC_IS_SINGLEBYTE(enc)) {
if (not1 != 0 && not2 != 0) {
r = or_code_range_buf(enc, buf1, 0, buf2, 0, &pbuf);
}
else {
r = and_code_range_buf(buf1, not1, buf2, not2, &pbuf);
if (r == 0 && not1 != 0) {
BBuf *tbuf;
r = not_code_range_buf(enc, pbuf, &tbuf);
if (r != 0) {
bbuf_free(pbuf);
return r;
}
bbuf_free(pbuf);
pbuf = tbuf;
}
}
if (r != 0) return r;
dest->mbuf = pbuf;
bbuf_free(buf1);
return r;
}
return 0;
}
static int
or_cclass(CClassNode* dest, CClassNode* cc, OnigEncoding enc)
{
int r, not1, not2;
BBuf *buf1, *buf2, *pbuf;
BitSetRef bsr1, bsr2;
BitSet bs1, bs2;
not1 = IS_CCLASS_NOT(dest);
bsr1 = dest->bs;
buf1 = dest->mbuf;
not2 = IS_CCLASS_NOT(cc);
bsr2 = cc->bs;
buf2 = cc->mbuf;
if (not1 != 0) {
bitset_invert_to(bsr1, bs1);
bsr1 = bs1;
}
if (not2 != 0) {
bitset_invert_to(bsr2, bs2);
bsr2 = bs2;
}
bitset_or(bsr1, bsr2);
if (bsr1 != dest->bs) {
bitset_copy(dest->bs, bsr1);
bsr1 = dest->bs;
}
if (not1 != 0) {
bitset_invert(dest->bs);
}
if (! ONIGENC_IS_SINGLEBYTE(enc)) {
if (not1 != 0 && not2 != 0) {
r = and_code_range_buf(buf1, 0, buf2, 0, &pbuf);
}
else {
r = or_code_range_buf(enc, buf1, not1, buf2, not2, &pbuf);
if (r == 0 && not1 != 0) {
BBuf *tbuf;
r = not_code_range_buf(enc, pbuf, &tbuf);
if (r != 0) {
bbuf_free(pbuf);
return r;
}
bbuf_free(pbuf);
pbuf = tbuf;
}
}
if (r != 0) return r;
dest->mbuf = pbuf;
bbuf_free(buf1);
return r;
}
else
return 0;
}
static int
conv_backslash_value(int c, ScanEnv* env)
{
if (IS_SYNTAX_OP(env->syntax, ONIG_SYN_OP_ESC_CONTROL_CHARS)) {
switch (c) {
case 'n': return '\n';
case 't': return '\t';
case 'r': return '\r';
case 'f': return '\f';
case 'a': return '\007';
case 'b': return '\010';
case 'e': return '\033';
case 'v':
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_ESC_V_VTAB))
return '\v';
break;
default:
break;
}
}
return c;
}
static int
is_invalid_qualifier_target(Node* node)
{
switch (NTYPE(node)) {
case N_ANCHOR:
return 1;
break;
case N_EFFECT:
if (NEFFECT(node).type == EFFECT_OPTION)
return is_invalid_qualifier_target(NEFFECT(node).target);
break;
case N_LIST: /* ex. (?:\G\A)* */
do {
if (! is_invalid_qualifier_target(NCONS(node).left)) return 0;
} while (IS_NOT_NULL(node = NCONS(node).right));
return 0;
break;
case N_ALT: /* ex. (?:abc|\A)* */
do {
if (is_invalid_qualifier_target(NCONS(node).left)) return 1;
} while (IS_NOT_NULL(node = NCONS(node).right));
break;
default:
break;
}
return 0;
}
/* ?:0, *:1, +:2, ??:3, *?:4, +?:5 */
static int
popular_qualifier_num(QualifierNode* qf)
{
if (qf->greedy) {
if (qf->lower == 0) {
if (qf->upper == 1) return 0;
else if (IS_REPEAT_INFINITE(qf->upper)) return 1;
}
else if (qf->lower == 1) {
if (IS_REPEAT_INFINITE(qf->upper)) return 2;
}
}
else {
if (qf->lower == 0) {
if (qf->upper == 1) return 3;
else if (IS_REPEAT_INFINITE(qf->upper)) return 4;
}
else if (qf->lower == 1) {
if (IS_REPEAT_INFINITE(qf->upper)) return 5;
}
}
return -1;
}
enum ReduceType {
RQ_ASIS = 0, /* as is */
RQ_DEL = 1, /* delete parent */
RQ_A, /* to '*' */
RQ_AQ, /* to '*?' */
RQ_QQ, /* to '??' */
RQ_P_QQ, /* to '+)??' */
RQ_PQ_Q, /* to '+?)?' */
};
static enum ReduceType ReduceTypeTable[6][6] = {
{RQ_DEL, RQ_A, RQ_A, RQ_QQ, RQ_AQ, RQ_ASIS}, /* '?' */
{RQ_DEL, RQ_DEL, RQ_DEL, RQ_P_QQ, RQ_P_QQ, RQ_DEL}, /* '*' */
{RQ_A, RQ_A, RQ_DEL, RQ_ASIS, RQ_P_QQ, RQ_DEL}, /* '+' */
{RQ_DEL, RQ_AQ, RQ_AQ, RQ_DEL, RQ_AQ, RQ_AQ}, /* '??' */
{RQ_DEL, RQ_DEL, RQ_DEL, RQ_DEL, RQ_DEL, RQ_DEL}, /* '*?' */
{RQ_ASIS, RQ_PQ_Q, RQ_DEL, RQ_AQ, RQ_AQ, RQ_DEL} /* '+?' */
};
extern void
onig_reduce_nested_qualifier(Node* pnode, Node* cnode)
{
int pnum, cnum;
QualifierNode *p, *c;
p = &(NQUALIFIER(pnode));
c = &(NQUALIFIER(cnode));
pnum = popular_qualifier_num(p);
cnum = popular_qualifier_num(c);
switch(ReduceTypeTable[cnum][pnum]) {
case RQ_DEL:
*p = *c;
break;
case RQ_A:
p->target = c->target;
p->lower = 0; p->upper = REPEAT_INFINITE; p->greedy = 1;
break;
case RQ_AQ:
p->target = c->target;
p->lower = 0; p->upper = REPEAT_INFINITE; p->greedy = 0;
break;
case RQ_QQ:
p->target = c->target;
p->lower = 0; p->upper = 1; p->greedy = 0;
break;
case RQ_P_QQ:
p->target = cnode;
p->lower = 0; p->upper = 1; p->greedy = 0;
c->lower = 1; c->upper = REPEAT_INFINITE; c->greedy = 1;
return ;
break;
case RQ_PQ_Q:
p->target = cnode;
p->lower = 0; p->upper = 1; p->greedy = 1;
c->lower = 1; c->upper = REPEAT_INFINITE; c->greedy = 0;
return ;
break;
case RQ_ASIS:
p->target = cnode;
return ;
break;
}
c->target = NULL_NODE;
onig_node_free(cnode);
}
enum TokenSyms {
TK_EOT = 0, /* end of token */
TK_RAW_BYTE = 1,
TK_CHAR,
TK_STRING,
TK_CODE_POINT,
TK_ANYCHAR,
TK_CHAR_TYPE,
TK_BACKREF,
TK_CALL,
TK_ANCHOR,
TK_OP_REPEAT,
TK_INTERVAL,
TK_ANYCHAR_ANYTIME, /* SQL '%' == .* */
TK_ALT,
TK_SUBEXP_OPEN,
TK_SUBEXP_CLOSE,
TK_CC_OPEN,
TK_QUOTE_OPEN,
TK_CHAR_PROPERTY, /* \p{...}, \P{...} */
/* in cc */
TK_CC_CLOSE,
TK_CC_RANGE,
TK_POSIX_BRACKET_OPEN,
TK_CC_AND, /* && */
TK_CC_CC_OPEN /* [ */
};
typedef struct {
enum TokenSyms type;
int escaped;
int base; /* is number: 8, 16 (used in [....]) */
UChar* backp;
union {
UChar* s;
int c;
OnigCodePoint code;
int anchor;
int subtype;
struct {
int lower;
int upper;
int greedy;
int possessive;
} repeat;
struct {
int num;
int ref1;
int* refs;
int by_name;
} backref;
struct {
UChar* name;
UChar* name_end;
} call;
struct {
int not;
} prop;
} u;
} OnigToken;
static int
fetch_range_qualifier(UChar** src, UChar* end, OnigToken* tok, ScanEnv* env)
{
int low, up, syn_allow, non_low = 0;
int r = 0;
OnigCodePoint c;
OnigEncoding enc = env->enc;
UChar* p = *src;
PFETCH_READY;
syn_allow = IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_INVALID_INTERVAL);
if (PEND) {
if (syn_allow)
return 1; /* "....{" : OK! */
else
return ONIGERR_END_PATTERN_AT_LEFT_BRACE; /* "....{" syntax error */
}
if (! syn_allow) {
c = PPEEK;
if (c == ')' || c == '(' || c == '|') {
return ONIGERR_END_PATTERN_AT_LEFT_BRACE;
}
}
low = onig_scan_unsigned_number(&p, end, env->enc);
if (low < 0) return ONIGERR_TOO_BIG_NUMBER_FOR_REPEAT_RANGE;
if (low > ONIG_MAX_REPEAT_NUM)
return ONIGERR_TOO_BIG_NUMBER_FOR_REPEAT_RANGE;
if (p == *src) { /* can't read low */
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_INTERVAL_LOW_ABBREV)) {
/* allow {,n} as {0,n} */
low = 0;
non_low = 1;
}
else
goto invalid;
}
if (PEND) goto invalid;
PFETCH(c);
if (c == ',') {
UChar* prev = p;
up = onig_scan_unsigned_number(&p, end, env->enc);
if (up < 0) return ONIGERR_TOO_BIG_NUMBER_FOR_REPEAT_RANGE;
if (up > ONIG_MAX_REPEAT_NUM)
return ONIGERR_TOO_BIG_NUMBER_FOR_REPEAT_RANGE;
if (p == prev) {
if (non_low != 0)
goto invalid;
up = REPEAT_INFINITE; /* {n,} : {n,infinite} */
}
}
else {
if (non_low != 0)
goto invalid;
PUNFETCH;
up = low; /* {n} : exact n times */
r = 2; /* fixed */
}
if (PEND) goto invalid;
PFETCH(c);
if (IS_SYNTAX_OP(env->syntax, ONIG_SYN_OP_ESC_BRACE_INTERVAL)) {
if (c != MC_ESC(enc)) goto invalid;
PFETCH(c);
}
if (c != '}') goto invalid;
if (!IS_REPEAT_INFINITE(up) && low > up) {
return ONIGERR_UPPER_SMALLER_THAN_LOWER_IN_REPEAT_RANGE;
}
tok->type = TK_INTERVAL;
tok->u.repeat.lower = low;
tok->u.repeat.upper = up;
*src = p;
return r; /* 0: normal {n,m}, 2: fixed {n} */
invalid:
if (syn_allow)
return 1; /* OK */
else
return ONIGERR_INVALID_REPEAT_RANGE_PATTERN;
}
/* \M-, \C-, \c, or \... */
static int
fetch_escaped_value(UChar** src, UChar* end, ScanEnv* env)
{
int v;
OnigCodePoint c;
OnigEncoding enc = env->enc;
UChar* p = *src;
PFETCH_READY;
if (PEND) return ONIGERR_END_PATTERN_AT_ESCAPE;
PFETCH(c);
switch (c) {
case 'M':
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_ESC_CAPITAL_M_BAR_META)) {
if (PEND) return ONIGERR_END_PATTERN_AT_META;
PFETCH(c);
if (c != '-') return ONIGERR_META_CODE_SYNTAX;
if (PEND) return ONIGERR_END_PATTERN_AT_META;
PFETCH(c);
if (c == MC_ESC(enc)) {
v = fetch_escaped_value(&p, end, env);
if (v < 0) return v;
c = (OnigCodePoint )v;
}
c = ((c & 0xff) | 0x80);
}
else
goto backslash;
break;
case 'C':
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_ESC_CAPITAL_C_BAR_CONTROL)) {
if (PEND) return ONIGERR_END_PATTERN_AT_CONTROL;
PFETCH(c);
if (c != '-') return ONIGERR_CONTROL_CODE_SYNTAX;
goto control;
}
else
goto backslash;
case 'c':
if (IS_SYNTAX_OP(env->syntax, ONIG_SYN_OP_ESC_C_CONTROL)) {
control:
if (PEND) return ONIGERR_END_PATTERN_AT_CONTROL;
PFETCH(c);
if (c == MC_ESC(enc)) {
v = fetch_escaped_value(&p, end, env);
if (v < 0) return v;
c = (OnigCodePoint )v;
}
else if (c == '?')
c = 0177;
else
c &= 0x9f;
break;
}
/* fall through */
default:
{
backslash:
c = conv_backslash_value(c, env);
}
break;
}
*src = p;
return c;
}
static int fetch_token(OnigToken* tok, UChar** src, UChar* end, ScanEnv* env);
#ifdef USE_NAMED_GROUP
/*
def: 0 -> define name (don't allow number name)
1 -> reference name (allow number name)
*/
static int
fetch_name(UChar** src, UChar* end, UChar** rname_end, ScanEnv* env, int ref)
{
int r, is_num;
OnigCodePoint c = 0;
OnigCodePoint first_code;
OnigEncoding enc = env->enc;
UChar *name_end;
UChar *p = *src;
PFETCH_READY;
name_end = end;
r = 0;
is_num = 0;
if (PEND) {
return ONIGERR_EMPTY_GROUP_NAME;
}
else {
PFETCH(c);
first_code = c;
if (c == '>')
return ONIGERR_EMPTY_GROUP_NAME;
if (ONIGENC_IS_CODE_DIGIT(enc, c)) {
if (ref == 1)
is_num = 1;
else {
r = ONIGERR_INVALID_GROUP_NAME;
}
}
else if (!ONIGENC_IS_CODE_WORD(enc, c)) {
r = ONIGERR_INVALID_CHAR_IN_GROUP_NAME;
}
}
while (!PEND) {
name_end = p;
PFETCH(c);
if (c == '>' || c == ')') break;
if (is_num == 1) {
if (! ONIGENC_IS_CODE_DIGIT(enc, c)) {
if (!ONIGENC_IS_CODE_WORD(enc, c))
r = ONIGERR_INVALID_CHAR_IN_GROUP_NAME;
else
r = ONIGERR_INVALID_GROUP_NAME;
}
}
else {
if (!ONIGENC_IS_CODE_WORD(enc, c)) {
r = ONIGERR_INVALID_CHAR_IN_GROUP_NAME;
}
}
}
if (c != '>') {
r = ONIGERR_INVALID_GROUP_NAME;
name_end = end;
}
else {
if (ONIGENC_IS_CODE_ASCII(first_code) &&
ONIGENC_IS_CODE_UPPER(enc, first_code))
r = ONIGERR_INVALID_GROUP_NAME;
}
if (r == 0) {
*rname_end = name_end;
*src = p;
return 0;
}
else {
onig_scan_env_set_error_string(env, r, *src, name_end);
return r;
}
}
#else
static int
fetch_name(UChar** src, UChar* end, UChar** rname_end, ScanEnv* env, int ref)
{
int r, len;
OnigCodePoint c = 0;
UChar *name_end;
OnigEncoding enc = env->enc;
UChar *p = *src;
PFETCH_READY;
r = 0;
while (!PEND) {
name_end = p;
if (enc_len(enc, p) > 1)
r = ONIGERR_INVALID_CHAR_IN_GROUP_NAME;
PFETCH(c);
if (c == '>' || c == ')') break;
if (! ONIGENC_IS_CODE_DIGIT(enc, c))
r = ONIGERR_INVALID_CHAR_IN_GROUP_NAME;
}
if (c != '>') {
r = ONIGERR_INVALID_GROUP_NAME;
name_end = end;
}
if (r == 0) {
*rname_end = name_end;
*src = p;
return 0;
}
else {
err:
onig_scan_env_set_error_string(env, r, *src, name_end);
return r;
}
}
#endif
static void
CC_ESC_WARN(ScanEnv* env, UChar *c)
{
if (onig_warn == onig_null_warn) return ;
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_WARN_CC_OP_NOT_ESCAPED) &&
IS_SYNTAX_BV(env->syntax, ONIG_SYN_BACKSLASH_ESCAPE_IN_CC)) {
char buf[WARN_BUFSIZE];
onig_snprintf_with_pattern(buf, WARN_BUFSIZE, env->enc,
env->pattern, env->pattern_end,
"character class has '%s' without escape", c);
(*onig_warn)(buf);
}
}
static void
CCEND_ESC_WARN(ScanEnv* env, UChar* c)
{
if (onig_warn == onig_null_warn) return ;
if (IS_SYNTAX_BV((env)->syntax, ONIG_SYN_WARN_CC_OP_NOT_ESCAPED)) {
char buf[WARN_BUFSIZE];
onig_snprintf_with_pattern(buf, WARN_BUFSIZE, (env)->enc,
(env)->pattern, (env)->pattern_end,
"regular expression has '%s' without escape", c);
(*onig_warn)(buf);
}
}
static UChar*
find_str_position(OnigCodePoint s[], int n, UChar* from, UChar* to,
UChar **next, OnigEncoding enc)
{
int i;
OnigCodePoint x;
UChar *q;
UChar *p = from;
while (p < to) {
x = ONIGENC_MBC_TO_CODE(enc, p, to);
q = p + enc_len(enc, p);
if (x == s[0]) {
for (i = 1; i < n && q < to; i++) {
x = ONIGENC_MBC_TO_CODE(enc, q, to);
if (x != s[i]) break;
q += enc_len(enc, q);
}
if (i >= n) {
if (IS_NOT_NULL(next))
*next = q;
return p;
}
}
p = q;
}
return NULL_UCHARP;
}
static int
str_exist_check_with_esc(OnigCodePoint s[], int n, UChar* from, UChar* to,
OnigCodePoint bad, OnigEncoding enc)
{
int i, in_esc;
OnigCodePoint x;
UChar *q;
UChar *p = from;
in_esc = 0;
while (p < to) {
if (in_esc) {
in_esc = 0;
p += enc_len(enc, p);
}
else {
x = ONIGENC_MBC_TO_CODE(enc, p, to);
q = p + enc_len(enc, p);
if (x == s[0]) {
for (i = 1; i < n && q < to; i++) {
x = ONIGENC_MBC_TO_CODE(enc, q, to);
if (x != s[i]) break;
q += enc_len(enc, q);
}
if (i >= n) return 1;
p += enc_len(enc, p);
}
else {
x = ONIGENC_MBC_TO_CODE(enc, p, to);
if (x == bad) return 0;
else if (x == MC_ESC(enc)) in_esc = 1;
p = q;
}
}
}
return 0;
}
static int
fetch_token_in_cc(OnigToken* tok, UChar** src, UChar* end, ScanEnv* env)
{
int num;
OnigCodePoint c, c2;
OnigSyntaxType* syn = env->syntax;
OnigEncoding enc = env->enc;
UChar* prev;
UChar* p = *src;
PFETCH_READY;
if (PEND) {
tok->type = TK_EOT;
return tok->type;
}
PFETCH(c);
tok->type = TK_CHAR;
tok->base = 0;
tok->u.c = c;
if (c == ']') {
tok->type = TK_CC_CLOSE;
}
else if (c == '-') {
tok->type = TK_CC_RANGE;
}
else if (c == MC_ESC(enc)) {
if (! IS_SYNTAX_BV(syn, ONIG_SYN_BACKSLASH_ESCAPE_IN_CC))
goto end;
if (PEND) return ONIGERR_END_PATTERN_AT_ESCAPE;
PFETCH(c);
tok->escaped = 1;
tok->u.c = c;
switch (c) {
case 'w':
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_WORD;
break;
case 'W':
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_WORD;
break;
case 'd':
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_DIGIT;
break;
case 'D':
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_DIGIT;
break;
case 's':
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_WHITE_SPACE;
break;
case 'S':
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_WHITE_SPACE;
break;
case 'h':
if (! IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_H_XDIGIT)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_XDIGIT;
break;
case 'H':
if (! IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_H_XDIGIT)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_XDIGIT;
break;
case 'p':
case 'P':
c2 = PPEEK;
if (c2 == '{' &&
IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_P_BRACE_CHAR_PROPERTY)) {
PINC;
tok->type = TK_CHAR_PROPERTY;
tok->u.prop.not = (c == 'P' ? 1 : 0);
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_P_BRACE_CIRCUMFLEX_NOT)) {
PFETCH(c2);
if (c2 == '^') {
tok->u.prop.not = (tok->u.prop.not == 0 ? 1 : 0);
}
else
PUNFETCH;
}
}
break;
case 'x':
if (PEND) break;
prev = p;
if (PPEEK_IS('{') && IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_X_BRACE_HEX8)) {
PINC;
num = scan_unsigned_hexadecimal_number(&p, end, 8, enc);
if (num < 0) return ONIGERR_TOO_BIG_WIDE_CHAR_VALUE;
if (!PEND) {
c2 = PPEEK;
if (ONIGENC_IS_CODE_XDIGIT(enc, c2))
return ONIGERR_TOO_LONG_WIDE_CHAR_VALUE;
}
if (p > prev + enc_len(enc, prev) && !PEND && (PPEEK_IS('}'))) {
PINC;
tok->type = TK_CODE_POINT;
tok->base = 16;
tok->u.code = (OnigCodePoint )num;
}
else {
/* can't read nothing or invalid format */
p = prev;
}
}
else if (IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_X_HEX2)) {
num = scan_unsigned_hexadecimal_number(&p, end, 2, enc);
if (num < 0) return ONIGERR_TOO_BIG_NUMBER;
if (p == prev) { /* can't read nothing. */
num = 0; /* but, it's not error */
}
tok->type = TK_RAW_BYTE;
tok->base = 16;
tok->u.c = num;
}
break;
case 'u':
if (PEND) break;
prev = p;
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_U_HEX4)) {
num = scan_unsigned_hexadecimal_number(&p, end, 4, enc);
if (num < 0) return ONIGERR_TOO_BIG_NUMBER;
if (p == prev) { /* can't read nothing. */
num = 0; /* but, it's not error */
}
tok->type = TK_CODE_POINT;
tok->base = 16;
tok->u.code = (OnigCodePoint )num;
}
break;
case '0':
case '1': case '2': case '3': case '4': case '5': case '6': case '7':
if (IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_OCTAL3)) {
PUNFETCH;
prev = p;
num = scan_unsigned_octal_number(&p, end, 3, enc);
if (num < 0) return ONIGERR_TOO_BIG_NUMBER;
if (p == prev) { /* can't read nothing. */
num = 0; /* but, it's not error */
}
tok->type = TK_RAW_BYTE;
tok->base = 8;
tok->u.c = num;
}
break;
default:
PUNFETCH;
num = fetch_escaped_value(&p, end, env);
if (num < 0) return num;
if (tok->u.c != num) {
tok->u.code = (OnigCodePoint )num;
tok->type = TK_CODE_POINT;
}
break;
}
}
else if (c == '[') {
if (IS_SYNTAX_OP(syn, ONIG_SYN_OP_POSIX_BRACKET) && (PPEEK_IS(':'))) {
OnigCodePoint send[] = { (OnigCodePoint )':', (OnigCodePoint )']' };
tok->backp = p; /* point at '[' is readed */
PINC;
if (str_exist_check_with_esc(send, 2, p, end,
(OnigCodePoint )']', enc)) {
tok->type = TK_POSIX_BRACKET_OPEN;
}
else {
PUNFETCH;
goto cc_in_cc;
}
}
else {
cc_in_cc:
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_CCLASS_SET_OP)) {
tok->type = TK_CC_CC_OPEN;
}
else {
CC_ESC_WARN(env, "[");
}
}
}
else if (c == '&') {
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_CCLASS_SET_OP) &&
!PEND && (PPEEK_IS('&'))) {
PINC;
tok->type = TK_CC_AND;
}
}
end:
*src = p;
return tok->type;
}
static int
fetch_token(OnigToken* tok, UChar** src, UChar* end, ScanEnv* env)
{
int r, num;
OnigCodePoint c;
OnigEncoding enc = env->enc;
OnigSyntaxType* syn = env->syntax;
UChar* prev;
UChar* p = *src;
PFETCH_READY;
start:
if (PEND) {
tok->type = TK_EOT;
return tok->type;
}
tok->type = TK_STRING;
tok->base = 0;
tok->backp = p;
PFETCH(c);
if (c == MC_ESC(enc)) {
if (PEND) return ONIGERR_END_PATTERN_AT_ESCAPE;
tok->backp = p;
PFETCH(c);
tok->u.c = c;
tok->escaped = 1;
switch (c) {
case '*':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_ASTERISK_ZERO_INF)) break;
tok->type = TK_OP_REPEAT;
tok->u.repeat.lower = 0;
tok->u.repeat.upper = REPEAT_INFINITE;
goto greedy_check;
break;
case '+':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_PLUS_ONE_INF)) break;
tok->type = TK_OP_REPEAT;
tok->u.repeat.lower = 1;
tok->u.repeat.upper = REPEAT_INFINITE;
goto greedy_check;
break;
case '?':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_QMARK_ZERO_ONE)) break;
tok->type = TK_OP_REPEAT;
tok->u.repeat.lower = 0;
tok->u.repeat.upper = 1;
greedy_check:
if (!PEND && PPEEK_IS('?') &&
IS_SYNTAX_OP(syn, ONIG_SYN_OP_QMARK_NON_GREEDY)) {
PFETCH(c);
tok->u.repeat.greedy = 0;
tok->u.repeat.possessive = 0;
}
else {
possessive_check:
if (!PEND && PPEEK_IS('+') &&
((IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_PLUS_POSSESSIVE_REPEAT) &&
tok->type != TK_INTERVAL) ||
(IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_PLUS_POSSESSIVE_INTERVAL) &&
tok->type == TK_INTERVAL))) {
PFETCH(c);
tok->u.repeat.greedy = 1;
tok->u.repeat.possessive = 1;
}
else {
tok->u.repeat.greedy = 1;
tok->u.repeat.possessive = 0;
}
}
break;
case '{':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_BRACE_INTERVAL)) break;
r = fetch_range_qualifier(&p, end, tok, env);
if (r < 0) return r; /* error */
if (r == 0) goto greedy_check;
else if (r == 2) { /* {n} */
if (IS_SYNTAX_BV(syn, ONIG_SYN_FIXED_INTERVAL_IS_GREEDY_ONLY))
goto possessive_check;
goto greedy_check;
}
/* r == 1 : normal char */
break;
case '|':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_VBAR_ALT)) break;
tok->type = TK_ALT;
break;
case '(':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_LPAREN_SUBEXP)) break;
tok->type = TK_SUBEXP_OPEN;
break;
case ')':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_LPAREN_SUBEXP)) break;
tok->type = TK_SUBEXP_CLOSE;
break;
case 'w':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_W_WORD)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_WORD;
break;
case 'W':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_W_WORD)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_WORD;
break;
case 'b':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_B_WORD_BOUND)) break;
tok->type = TK_ANCHOR;
tok->u.anchor = ANCHOR_WORD_BOUND;
break;
case 'B':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_B_WORD_BOUND)) break;
tok->type = TK_ANCHOR;
tok->u.anchor = ANCHOR_NOT_WORD_BOUND;
break;
#ifdef USE_WORD_BEGIN_END
case '<':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_LTGT_WORD_BEGIN_END)) break;
tok->type = TK_ANCHOR;
tok->u.anchor = ANCHOR_WORD_BEGIN;
break;
case '>':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_LTGT_WORD_BEGIN_END)) break;
tok->type = TK_ANCHOR;
tok->u.anchor = ANCHOR_WORD_END;
break;
#endif
case 's':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_S_WHITE_SPACE)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_WHITE_SPACE;
break;
case 'S':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_S_WHITE_SPACE)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_WHITE_SPACE;
break;
case 'd':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_D_DIGIT)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_DIGIT;
break;
case 'D':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_D_DIGIT)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_DIGIT;
break;
case 'h':
if (! IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_H_XDIGIT)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_XDIGIT;
break;
case 'H':
if (! IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_H_XDIGIT)) break;
tok->type = TK_CHAR_TYPE;
tok->u.subtype = CTYPE_NOT_XDIGIT;
break;
case 'A':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_AZ_BUF_ANCHOR)) break;
begin_buf:
tok->type = TK_ANCHOR;
tok->u.subtype = ANCHOR_BEGIN_BUF;
break;
case 'Z':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_AZ_BUF_ANCHOR)) break;
tok->type = TK_ANCHOR;
tok->u.subtype = ANCHOR_SEMI_END_BUF;
break;
case 'z':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_AZ_BUF_ANCHOR)) break;
end_buf:
tok->type = TK_ANCHOR;
tok->u.subtype = ANCHOR_END_BUF;
break;
case 'G':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_CAPITAL_G_BEGIN_ANCHOR)) break;
tok->type = TK_ANCHOR;
tok->u.subtype = ANCHOR_BEGIN_POSITION;
break;
case '`':
if (! IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_GNU_BUF_ANCHOR)) break;
goto begin_buf;
break;
case '\'':
if (! IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_GNU_BUF_ANCHOR)) break;
goto end_buf;
break;
case 'x':
if (PEND) break;
prev = p;
if (PPEEK_IS('{') && IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_X_BRACE_HEX8)) {
PINC;
num = scan_unsigned_hexadecimal_number(&p, end, 8, enc);
if (num < 0) return ONIGERR_TOO_BIG_WIDE_CHAR_VALUE;
if (!PEND) {
if (ONIGENC_IS_CODE_XDIGIT(enc, PPEEK))
return ONIGERR_TOO_LONG_WIDE_CHAR_VALUE;
}
if ((p > prev + enc_len(enc, prev)) && !PEND && PPEEK_IS('}')) {
PINC;
tok->type = TK_CODE_POINT;
tok->u.code = (OnigCodePoint )num;
}
else {
/* can't read nothing or invalid format */
p = prev;
}
}
else if (IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_X_HEX2)) {
num = scan_unsigned_hexadecimal_number(&p, end, 2, enc);
if (num < 0) return ONIGERR_TOO_BIG_NUMBER;
if (p == prev) { /* can't read nothing. */
num = 0; /* but, it's not error */
}
tok->type = TK_RAW_BYTE;
tok->base = 16;
tok->u.c = num;
}
break;
case 'u':
if (PEND) break;
prev = p;
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_U_HEX4)) {
num = scan_unsigned_hexadecimal_number(&p, end, 4, enc);
if (num < 0) return ONIGERR_TOO_BIG_NUMBER;
if (p == prev) { /* can't read nothing. */
num = 0; /* but, it's not error */
}
tok->type = TK_CODE_POINT;
tok->base = 16;
tok->u.code = (OnigCodePoint )num;
}
break;
case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
PUNFETCH;
prev = p;
num = onig_scan_unsigned_number(&p, end, enc);
if (num < 0 || num > ONIG_MAX_BACKREF_NUM) {
goto skip_backref;
}
if (IS_SYNTAX_OP(syn, ONIG_SYN_OP_DECIMAL_BACKREF) &&
(num <= env->num_mem || num <= 9)) { /* This spec. from GNU regex */
if (IS_SYNTAX_BV(syn, ONIG_SYN_STRICT_CHECK_BACKREF)) {
if (num > env->num_mem || IS_NULL(SCANENV_MEM_NODES(env)[num]))
return ONIGERR_INVALID_BACKREF;
}
tok->type = TK_BACKREF;
tok->u.backref.num = 1;
tok->u.backref.ref1 = num;
tok->u.backref.by_name = 0;
break;
}
skip_backref:
if (c == '8' || c == '9') {
/* normal char */
p = prev; PINC;
break;
}
p = prev;
/* fall through */
case '0':
if (IS_SYNTAX_OP(syn, ONIG_SYN_OP_ESC_OCTAL3)) {
prev = p;
num = scan_unsigned_octal_number(&p, end, (c == '0' ? 2:3), enc);
if (num < 0) return ONIGERR_TOO_BIG_NUMBER;
if (p == prev) { /* can't read nothing. */
num = 0; /* but, it's not error */
}
tok->type = TK_RAW_BYTE;
tok->base = 8;
tok->u.c = num;
}
else if (c != '0') {
PINC;
}
break;
#ifdef USE_NAMED_GROUP
case 'k':
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_K_NAMED_BACKREF)) {
PFETCH(c);
if (c == '<') {
UChar* name_end;
int* backs;
prev = p;
r = fetch_name(&p, end, &name_end, env, 1);
if (r < 0) return r;
num = onig_name_to_group_numbers(env->reg, prev, name_end, &backs);
if (num <= 0) {
onig_scan_env_set_error_string(env,
ONIGERR_UNDEFINED_NAME_REFERENCE, prev, name_end);
return ONIGERR_UNDEFINED_NAME_REFERENCE;
}
if (IS_SYNTAX_BV(syn, ONIG_SYN_STRICT_CHECK_BACKREF)) {
int i;
for (i = 0; i < num; i++) {
if (backs[i] > env->num_mem ||
IS_NULL(SCANENV_MEM_NODES(env)[backs[i]]))
return ONIGERR_INVALID_BACKREF;
}
}
tok->type = TK_BACKREF;
tok->u.backref.by_name = 1;
if (num == 1) {
tok->u.backref.num = 1;
tok->u.backref.ref1 = backs[0];
}
else {
tok->u.backref.num = num;
tok->u.backref.refs = backs;
}
}
else
PUNFETCH;
}
break;
#endif
#ifdef USE_SUBEXP_CALL
case 'g':
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_G_SUBEXP_CALL)) {
PFETCH(c);
if (c == '<') {
UChar* name_end;
prev = p;
r = fetch_name(&p, end, &name_end, env, 1);
if (r < 0) return r;
tok->type = TK_CALL;
tok->u.call.name = prev;
tok->u.call.name_end = name_end;
}
else
PUNFETCH;
}
break;
#endif
case 'Q':
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_CAPITAL_Q_QUOTE)) {
tok->type = TK_QUOTE_OPEN;
}
break;
case 'p':
case 'P':
if (PPEEK_IS('{') &&
IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_P_BRACE_CHAR_PROPERTY)) {
PINC;
tok->type = TK_CHAR_PROPERTY;
tok->u.prop.not = (c == 'P' ? 1 : 0);
if (IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_ESC_P_BRACE_CIRCUMFLEX_NOT)) {
PFETCH(c);
if (c == '^') {
tok->u.prop.not = (tok->u.prop.not == 0 ? 1 : 0);
}
else
PUNFETCH;
}
}
break;
default:
PUNFETCH;
num = fetch_escaped_value(&p, end, env);
if (num < 0) return num;
/* set_raw: */
if (tok->u.c != num) {
tok->type = TK_CODE_POINT;
tok->u.code = (OnigCodePoint )num;
}
else { /* string */
p = tok->backp + enc_len(enc, tok->backp);
}
break;
}
}
else {
tok->u.c = c;
tok->escaped = 0;
#ifdef USE_VARIABLE_META_CHARS
if ((c != ONIG_INEFFECTIVE_META_CHAR) &&
IS_SYNTAX_OP(syn, ONIG_SYN_OP_VARIABLE_META_CHARACTERS)) {
if (c == MC_ANYCHAR(enc))
goto any_char;
else if (c == MC_ANYTIME(enc))
goto anytime;
else if (c == MC_ZERO_OR_ONE_TIME(enc))
goto zero_or_one_time;
else if (c == MC_ONE_OR_MORE_TIME(enc))
goto one_or_more_time;
else if (c == MC_ANYCHAR_ANYTIME(enc)) {
tok->type = TK_ANYCHAR_ANYTIME;
goto out;
}
}
#endif
switch (c) {
case '.':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_DOT_ANYCHAR)) break;
any_char:
tok->type = TK_ANYCHAR;
break;
case '*':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_ASTERISK_ZERO_INF)) break;
anytime:
tok->type = TK_OP_REPEAT;
tok->u.repeat.lower = 0;
tok->u.repeat.upper = REPEAT_INFINITE;
goto greedy_check;
break;
case '+':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_PLUS_ONE_INF)) break;
one_or_more_time:
tok->type = TK_OP_REPEAT;
tok->u.repeat.lower = 1;
tok->u.repeat.upper = REPEAT_INFINITE;
goto greedy_check;
break;
case '?':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_QMARK_ZERO_ONE)) break;
zero_or_one_time:
tok->type = TK_OP_REPEAT;
tok->u.repeat.lower = 0;
tok->u.repeat.upper = 1;
goto greedy_check;
break;
case '{':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_BRACE_INTERVAL)) break;
r = fetch_range_qualifier(&p, end, tok, env);
if (r < 0) return r; /* error */
if (r == 0) goto greedy_check;
else if (r == 2) { /* {n} */
if (IS_SYNTAX_BV(syn, ONIG_SYN_FIXED_INTERVAL_IS_GREEDY_ONLY))
goto possessive_check;
goto greedy_check;
}
/* r == 1 : normal char */
break;
case '|':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_VBAR_ALT)) break;
tok->type = TK_ALT;
break;
case '(':
if (PPEEK_IS('?') &&
IS_SYNTAX_OP2(syn, ONIG_SYN_OP2_QMARK_GROUP_EFFECT)) {
PINC;
if (PPEEK_IS('#')) {
PFETCH(c);
while (1) {
if (PEND) return ONIGERR_END_PATTERN_IN_GROUP;
PFETCH(c);
if (c == MC_ESC(enc)) {
if (!PEND) PFETCH(c);
}
else {
if (c == ')') break;
}
}
goto start;
}
PUNFETCH;
}
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_LPAREN_SUBEXP)) break;
tok->type = TK_SUBEXP_OPEN;
break;
case ')':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_LPAREN_SUBEXP)) break;
tok->type = TK_SUBEXP_CLOSE;
break;
case '^':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_LINE_ANCHOR)) break;
tok->type = TK_ANCHOR;
tok->u.subtype = (IS_SINGLELINE(env->option)
? ANCHOR_BEGIN_BUF : ANCHOR_BEGIN_LINE);
break;
case '$':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_LINE_ANCHOR)) break;
tok->type = TK_ANCHOR;
tok->u.subtype = (IS_SINGLELINE(env->option)
? ANCHOR_END_BUF : ANCHOR_END_LINE);
break;
case '[':
if (! IS_SYNTAX_OP(syn, ONIG_SYN_OP_BRACKET_CC)) break;
tok->type = TK_CC_OPEN;
break;
case ']':
if (*src > env->pattern) /* /].../ is allowed. */
CCEND_ESC_WARN(env, "]");
break;
case '#':
if (IS_EXTEND(env->option)) {
while (!PEND) {
PFETCH(c);
if (ONIGENC_IS_CODE_NEWLINE(enc, c))
break;
}
goto start;
break;
}
break;
case ' ': case '\t': case '\n': case '\r': case '\f':
if (IS_EXTEND(env->option))
goto start;
break;
default:
/* string */
break;
}
}
out:
*src = p;
return tok->type;
}
static int
add_ctype_to_cc_by_range(CClassNode* cc, int ctype, int not, OnigEncoding enc,
OnigCodePoint sbr[], OnigCodePoint mbr[])
{
int i, r;
OnigCodePoint j;
int nsb = ONIGENC_CODE_RANGE_NUM(sbr);
int nmb = ONIGENC_CODE_RANGE_NUM(mbr);
if (not == 0) {
for (i = 0; i < nsb; i++) {
for (j = ONIGENC_CODE_RANGE_FROM(sbr, i);
j <= ONIGENC_CODE_RANGE_TO(sbr, i); j++) {
BITSET_SET_BIT(cc->bs, j);
}
}
for (i = 0; i < nmb; i++) {
r = add_code_range_to_buf(&(cc->mbuf),
ONIGENC_CODE_RANGE_FROM(mbr, i),
ONIGENC_CODE_RANGE_TO(mbr, i));
if (r != 0) return r;
}
}
else {
OnigCodePoint prev = 0;
if (ONIGENC_MBC_MINLEN(enc) == 1) {
for (i = 0; i < nsb; i++) {
for (j = prev;
j < ONIGENC_CODE_RANGE_FROM(sbr, i); j++) {
BITSET_SET_BIT(cc->bs, j);
}
prev = ONIGENC_CODE_RANGE_TO(sbr, i) + 1;
}
if (prev < 0x7f) {
for (j = prev; j < 0x7f; j++) {
BITSET_SET_BIT(cc->bs, j);
}
}
prev = 0x80;
}
for (i = 0; i < nmb; i++) {
if (prev < ONIGENC_CODE_RANGE_FROM(mbr, i)) {
r = add_code_range_to_buf(&(cc->mbuf), prev,
ONIGENC_CODE_RANGE_FROM(mbr, i) - 1);
if (r != 0) return r;
}
prev = ONIGENC_CODE_RANGE_TO(mbr, i) + 1;
}
if (prev < 0x7fffffff) {
r = add_code_range_to_buf(&(cc->mbuf), prev, 0x7fffffff);
if (r != 0) return r;
}
}
return 0;
}
static int
add_ctype_to_cc(CClassNode* cc, int ctype, int not, ScanEnv* env)
{
int c, r;
OnigCodePoint *sbr, *mbr;
OnigEncoding enc = env->enc;
r = ONIGENC_GET_CTYPE_CODE_RANGE(enc, ctype, &sbr, &mbr);
if (r == 0) {
return add_ctype_to_cc_by_range(cc, ctype, not, env->enc, sbr, mbr);
}
else if (r != ONIG_NO_SUPPORT_CONFIG) {
return r;
}
r = 0;
switch (ctype) {
case ONIGENC_CTYPE_ALPHA:
case ONIGENC_CTYPE_BLANK:
case ONIGENC_CTYPE_CNTRL:
case ONIGENC_CTYPE_DIGIT:
case ONIGENC_CTYPE_LOWER:
case ONIGENC_CTYPE_PUNCT:
case ONIGENC_CTYPE_SPACE:
case ONIGENC_CTYPE_UPPER:
case ONIGENC_CTYPE_XDIGIT:
case ONIGENC_CTYPE_ASCII:
case ONIGENC_CTYPE_ALNUM:
if (not != 0) {
for (c = 0; c < SINGLE_BYTE_SIZE; c++) {
if (! ONIGENC_IS_CODE_CTYPE(enc, (OnigCodePoint )c, ctype))
BITSET_SET_BIT(cc->bs, c);
}
ADD_ALL_MULTI_BYTE_RANGE(enc, cc->mbuf);
}
else {
for (c = 0; c < SINGLE_BYTE_SIZE; c++) {
if (ONIGENC_IS_CODE_CTYPE(enc, (OnigCodePoint )c, ctype))
BITSET_SET_BIT(cc->bs, c);
}
}
break;
case ONIGENC_CTYPE_GRAPH:
case ONIGENC_CTYPE_PRINT:
if (not != 0) {
for (c = 0; c < SINGLE_BYTE_SIZE; c++) {
if (! ONIGENC_IS_CODE_CTYPE(enc, (OnigCodePoint )c, ctype))
BITSET_SET_BIT(cc->bs, c);
}
}
else {
for (c = 0; c < SINGLE_BYTE_SIZE; c++) {
if (ONIGENC_IS_CODE_CTYPE(enc, (OnigCodePoint )c, ctype))
BITSET_SET_BIT(cc->bs, c);
}
ADD_ALL_MULTI_BYTE_RANGE(enc, cc->mbuf);
}
break;
case ONIGENC_CTYPE_WORD:
if (not == 0) {
for (c = 0; c < SINGLE_BYTE_SIZE; c++) {
if (ONIGENC_IS_CODE_SB_WORD(enc, c)) BITSET_SET_BIT(cc->bs, c);
}
ADD_ALL_MULTI_BYTE_RANGE(enc, cc->mbuf);
}
else {
for (c = 0; c < SINGLE_BYTE_SIZE; c++) {
if ((ONIGENC_CODE_TO_MBCLEN(enc, c) > 0) /* 0: invalid code point */
&& ! ONIGENC_IS_CODE_WORD(enc, c))
BITSET_SET_BIT(cc->bs, c);
}
}
break;
default:
return ONIGERR_PARSER_BUG;
break;
}
return r;
}
static int
parse_ctype_to_enc_ctype(int pctype, int* not)
{
int ctype;
switch (pctype) {
case CTYPE_WORD:
ctype = ONIGENC_CTYPE_WORD;
*not = 0;
break;
case CTYPE_NOT_WORD:
ctype = ONIGENC_CTYPE_WORD;
*not = 1;
break;
case CTYPE_WHITE_SPACE:
ctype = ONIGENC_CTYPE_SPACE;
*not = 0;
break;
case CTYPE_NOT_WHITE_SPACE:
ctype = ONIGENC_CTYPE_SPACE;
*not = 1;
break;
case CTYPE_DIGIT:
ctype = ONIGENC_CTYPE_DIGIT;
*not = 0;
break;
case CTYPE_NOT_DIGIT:
ctype = ONIGENC_CTYPE_DIGIT;
*not = 1;
break;
case CTYPE_XDIGIT:
ctype = ONIGENC_CTYPE_XDIGIT;
*not = 0;
break;
case CTYPE_NOT_XDIGIT:
ctype = ONIGENC_CTYPE_XDIGIT;
*not = 1;
break;
default:
return ONIGERR_PARSER_BUG;
break;
}
return ctype;
}
typedef struct {
UChar *name;
int ctype;
short int len;
} PosixBracketEntryType;
static int
parse_posix_bracket(CClassNode* cc, UChar** src, UChar* end, ScanEnv* env)
{
#define POSIX_BRACKET_CHECK_LIMIT_LENGTH 20
#define POSIX_BRACKET_NAME_MAX_LEN 6
static PosixBracketEntryType PBS[] = {
{ "alnum", ONIGENC_CTYPE_ALNUM, 5 },
{ "alpha", ONIGENC_CTYPE_ALPHA, 5 },
{ "blank", ONIGENC_CTYPE_BLANK, 5 },
{ "cntrl", ONIGENC_CTYPE_CNTRL, 5 },
{ "digit", ONIGENC_CTYPE_DIGIT, 5 },
{ "graph", ONIGENC_CTYPE_GRAPH, 5 },
{ "lower", ONIGENC_CTYPE_LOWER, 5 },
{ "print", ONIGENC_CTYPE_PRINT, 5 },
{ "punct", ONIGENC_CTYPE_PUNCT, 5 },
{ "space", ONIGENC_CTYPE_SPACE, 5 },
{ "upper", ONIGENC_CTYPE_UPPER, 5 },
{ "xdigit", ONIGENC_CTYPE_XDIGIT, 6 },
{ "ascii", ONIGENC_CTYPE_ASCII, 5 }, /* I don't know origin. Perl? */
{ (UChar* )NULL, -1, 0 }
};
PosixBracketEntryType *pb;
int not, i, r;
OnigCodePoint c;
OnigEncoding enc = env->enc;
UChar *p = *src;
PFETCH_READY;
if (PPEEK_IS('^')) {
PINC;
not = 1;
}
else
not = 0;
if (onigenc_strlen(enc, p, end) < POSIX_BRACKET_NAME_MAX_LEN + 2)
goto not_posix_bracket;
for (pb = PBS; IS_NOT_NULL(pb->name); pb++) {
if (onigenc_with_ascii_strncmp(enc, p, end, pb->name, pb->len) == 0) {
p = onigenc_step(enc, p, end, pb->len);
if (onigenc_with_ascii_strncmp(enc, p, end, ":]", 2) != 0)
return ONIGERR_INVALID_POSIX_BRACKET_TYPE;
r = add_ctype_to_cc(cc, pb->ctype, not, env);
if (r != 0) return r;
PINC; PINC;
*src = p;
return 0;
}
}
not_posix_bracket:
c = 0;
i = 0;
while (!PEND && ((c = PPEEK) != ':') && c != ']') {
PINC;
if (++i > POSIX_BRACKET_CHECK_LIMIT_LENGTH) break;
}
if (c == ':' && ! PEND) {
PINC;
if (! PEND) {
PFETCH(c);
if (c == ']')
return ONIGERR_INVALID_POSIX_BRACKET_TYPE;
}
}
return 1; /* 1: is not POSIX bracket, but no error. */
}
static int
property_name_to_ctype(UChar* p, UChar* end, OnigEncoding enc)
{
static PosixBracketEntryType PBS[] = {
{ "Alnum", ONIGENC_CTYPE_ALNUM, 5 },
{ "Alpha", ONIGENC_CTYPE_ALPHA, 5 },
{ "Blank", ONIGENC_CTYPE_BLANK, 5 },
{ "Cntrl", ONIGENC_CTYPE_CNTRL, 5 },
{ "Digit", ONIGENC_CTYPE_DIGIT, 5 },
{ "Graph", ONIGENC_CTYPE_GRAPH, 5 },
{ "Lower", ONIGENC_CTYPE_LOWER, 5 },
{ "Print", ONIGENC_CTYPE_PRINT, 5 },
{ "Punct", ONIGENC_CTYPE_PUNCT, 5 },
{ "Space", ONIGENC_CTYPE_SPACE, 5 },
{ "Upper", ONIGENC_CTYPE_UPPER, 5 },
{ "XDigit", ONIGENC_CTYPE_XDIGIT, 6 },
{ "ASCII", ONIGENC_CTYPE_ASCII, 5 },
{ (UChar* )NULL, -1, 0 }
};
PosixBracketEntryType *pb;
int len;
len = onigenc_strlen(enc, p, end);
for (pb = PBS; IS_NOT_NULL(pb->name); pb++) {
if (len == pb->len &&
onigenc_with_ascii_strncmp(enc, p, end, pb->name, pb->len) == 0)
return pb->ctype;
}
return -1;
}
static int
fetch_char_property_to_ctype(UChar** src, UChar* end, ScanEnv* env)
{
int ctype;
OnigCodePoint c;
OnigEncoding enc = env->enc;
UChar *prev, *start, *p = *src;
PFETCH_READY;
/* 'IsXXXX' => 'XXXX' */
if (!PEND &&
IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_CHAR_PROPERTY_PREFIX_IS)) {
c = PPEEK;
if (c == 'I') {
PINC;
if (! PEND) {
c = PPEEK;
if (c == 's')
PINC;
else
PUNFETCH;
}
}
}
start = prev = p;
while (!PEND) {
prev = p;
PFETCH(c);
if (c == '}') {
ctype = property_name_to_ctype(start, prev, enc);
if (ctype < 0) break;
*src = p;
return ctype;
}
else if (c == '(' || c == ')' || c == '{' || c == '|')
break;
}
onig_scan_env_set_error_string(env, ONIGERR_INVALID_CHAR_PROPERTY_NAME,
*src, prev);
return ONIGERR_INVALID_CHAR_PROPERTY_NAME;
}
static int
parse_char_property(Node** np, OnigToken* tok, UChar** src, UChar* end,
ScanEnv* env)
{
int r, ctype;
CClassNode* cc;
ctype = fetch_char_property_to_ctype(src, end, env);
if (ctype < 0) return ctype;
*np = node_new_cclass();
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
cc = &(NCCLASS(*np));
r = add_ctype_to_cc(cc, ctype, 0, env);
if (r != 0) return r;
if (tok->u.prop.not != 0) CCLASS_SET_NOT(cc);
return 0;
}
enum CCSTATE {
CCS_VALUE,
CCS_RANGE,
CCS_COMPLETE,
CCS_START
};
enum CCVALTYPE {
CCV_SB,
CCV_CODE_POINT,
CCV_CLASS
};
static int
next_state_class(CClassNode* cc, OnigCodePoint* vs, enum CCVALTYPE* type,
enum CCSTATE* state, ScanEnv* env)
{
int r;
if (*state == CCS_RANGE)
return ONIGERR_CHAR_CLASS_VALUE_AT_END_OF_RANGE;
if (*state == CCS_VALUE && *type != CCV_CLASS) {
if (*type == CCV_SB)
BITSET_SET_BIT(cc->bs, (int )(*vs));
else if (*type == CCV_CODE_POINT) {
r = add_code_range(&(cc->mbuf), env, *vs, *vs);
if (r < 0) return r;
}
}
*state = CCS_VALUE;
*type = CCV_CLASS;
return 0;
}
static int
next_state_val(CClassNode* cc, OnigCodePoint *vs, OnigCodePoint v,
int* vs_israw, int v_israw,
enum CCVALTYPE intype, enum CCVALTYPE* type,
enum CCSTATE* state, ScanEnv* env)
{
int r;
switch (*state) {
case CCS_VALUE:
if (*type == CCV_SB)
BITSET_SET_BIT(cc->bs, (int )(*vs));
else if (*type == CCV_CODE_POINT) {
r = add_code_range(&(cc->mbuf), env, *vs, *vs);
if (r < 0) return r;
}
break;
case CCS_RANGE:
if (intype == *type) {
if (intype == CCV_SB) {
if (*vs > 0xff || v > 0xff)
return ONIGERR_INVALID_WIDE_CHAR_VALUE;
if (*vs > v) {
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_EMPTY_RANGE_IN_CC))
goto ccs_range_end;
else
return ONIGERR_EMPTY_RANGE_IN_CHAR_CLASS;
}
bitset_set_range(cc->bs, (int )*vs, (int )v);
}
else {
r = add_code_range(&(cc->mbuf), env, *vs, v);
if (r < 0) return r;
}
}
else {
#if 0
if (intype == CCV_CODE_POINT && *type == CCV_SB) {
#endif
if (*vs > v) {
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_EMPTY_RANGE_IN_CC))
goto ccs_range_end;
else
return ONIGERR_EMPTY_RANGE_IN_CHAR_CLASS;
}
bitset_set_range(cc->bs, (int )*vs, (int )(v < 0xff ? v : 0xff));
r = add_code_range(&(cc->mbuf), env, (OnigCodePoint )*vs, v);
if (r < 0) return r;
#if 0
}
else
return ONIGERR_MISMATCH_CODE_LENGTH_IN_CLASS_RANGE;
#endif
}
ccs_range_end:
*state = CCS_COMPLETE;
break;
case CCS_COMPLETE:
case CCS_START:
*state = CCS_VALUE;
break;
default:
break;
}
*vs_israw = v_israw;
*vs = v;
*type = intype;
return 0;
}
static int
code_exist_check(OnigCodePoint c, UChar* from, UChar* end, int ignore_escaped,
OnigEncoding enc)
{
int in_esc;
OnigCodePoint code;
UChar* p = from;
PFETCH_READY;
in_esc = 0;
while (! PEND) {
if (ignore_escaped && in_esc) {
in_esc = 0;
}
else {
PFETCH(code);
if (code == c) return 1;
if (code == MC_ESC(enc)) in_esc = 1;
}
}
return 0;
}
static int
parse_char_class(Node** np, OnigToken* tok, UChar** src, UChar* end,
ScanEnv* env)
{
int r, neg, len, fetched, and_start;
OnigCodePoint v, vs;
UChar *p;
Node* node;
CClassNode *cc, *prev_cc;
CClassNode work_cc;
enum CCSTATE state;
enum CCVALTYPE val_type, in_type;
int val_israw, in_israw;
prev_cc = (CClassNode* )NULL;
*np = NULL_NODE;
r = fetch_token_in_cc(tok, src, end, env);
if (r == TK_CHAR && tok->u.c == '^' && tok->escaped == 0) {
neg = 1;
r = fetch_token_in_cc(tok, src, end, env);
}
else {
neg = 0;
}
if (r < 0) return r;
if (r == TK_CC_CLOSE) {
if (! code_exist_check((OnigCodePoint )']',
*src, env->pattern_end, 1, env->enc))
return ONIGERR_EMPTY_CHAR_CLASS;
CC_ESC_WARN(env, "]");
r = tok->type = TK_CHAR; /* allow []...] */
}
*np = node = node_new_cclass();
CHECK_NULL_RETURN_VAL(node, ONIGERR_MEMORY);
cc = &(NCCLASS(node));
and_start = 0;
state = CCS_START;
p = *src;
while (r != TK_CC_CLOSE) {
fetched = 0;
switch (r) {
case TK_CHAR:
len = ONIGENC_CODE_TO_MBCLEN(env->enc, tok->u.c);
if (len > 1) {
in_type = CCV_CODE_POINT;
}
else {
sb_char:
in_type = CCV_SB;
}
v = (OnigCodePoint )tok->u.c;
in_israw = 0;
goto val_entry2;
break;
case TK_RAW_BYTE:
/* tok->base != 0 : octal or hexadec. */
if (! ONIGENC_IS_SINGLEBYTE(env->enc) && tok->base != 0) {
UChar buf[ONIGENC_CODE_TO_MBC_MAXLEN];
UChar* bufe = buf + ONIGENC_CODE_TO_MBC_MAXLEN;
UChar* psave = p;
int i, base = tok->base;
buf[0] = tok->u.c;
for (i = 1; i < ONIGENC_MBC_MAXLEN(env->enc); i++) {
r = fetch_token_in_cc(tok, &p, end, env);
if (r < 0) goto err;
if (r != TK_RAW_BYTE || tok->base != base) {
fetched = 1;
break;
}
buf[i] = tok->u.c;
}
if (i < ONIGENC_MBC_MINLEN(env->enc)) {
r = ONIGERR_TOO_SHORT_MULTI_BYTE_STRING;
goto err;
}
len = enc_len(env->enc, buf);
if (i < len) {
r = ONIGERR_TOO_SHORT_MULTI_BYTE_STRING;
goto err;
}
else if (i > len) { /* fetch back */
p = psave;
for (i = 1; i < len; i++) {
r = fetch_token_in_cc(tok, &p, end, env);
}
fetched = 0;
}
if (i == 1) {
v = (OnigCodePoint )buf[0];
goto raw_single;
}
else {
v = ONIGENC_MBC_TO_CODE(env->enc, buf, bufe);
in_type = CCV_CODE_POINT;
}
}
else {
v = (OnigCodePoint )tok->u.c;
raw_single:
in_type = CCV_SB;
}
in_israw = 1;
goto val_entry2;
break;
case TK_CODE_POINT:
v = tok->u.code;
in_israw = 1;
val_entry:
len = ONIGENC_CODE_TO_MBCLEN(env->enc, v);
if (len < 0) {
r = len;
goto err;
}
in_type = (len == 1 ? CCV_SB : CCV_CODE_POINT);
val_entry2:
r = next_state_val(cc, &vs, v, &val_israw, in_israw, in_type, &val_type,
&state, env);
if (r != 0) goto err;
break;
case TK_POSIX_BRACKET_OPEN:
r = parse_posix_bracket(cc, &p, end, env);
if (r < 0) goto err;
if (r == 1) { /* is not POSIX bracket */
CC_ESC_WARN(env, "[");
p = tok->backp;
v = (OnigCodePoint )tok->u.c;
in_israw = 0;
goto val_entry;
}
goto next_class;
break;
case TK_CHAR_TYPE:
{
int ctype, not;
ctype = parse_ctype_to_enc_ctype(tok->u.subtype, &not);
r = add_ctype_to_cc(cc, ctype, not, env);
if (r != 0) return r;
}
next_class:
r = next_state_class(cc, &vs, &val_type, &state, env);
if (r != 0) goto err;
break;
case TK_CHAR_PROPERTY:
{
int ctype;
ctype = fetch_char_property_to_ctype(&p, end, env);
if (ctype < 0) return ctype;
r = add_ctype_to_cc(cc, ctype, tok->u.prop.not, env);
if (r != 0) return r;
goto next_class;
}
break;
case TK_CC_RANGE:
if (state == CCS_VALUE) {
r = fetch_token_in_cc(tok, &p, end, env);
if (r < 0) goto err;
fetched = 1;
if (r == TK_CC_CLOSE) { /* allow [x-] */
range_end_val:
v = (OnigCodePoint )'-';
in_israw = 0;
goto val_entry;
}
else if (r == TK_CC_AND) {
CC_ESC_WARN(env, "-");
goto range_end_val;
}
state = CCS_RANGE;
}
else if (state == CCS_START) {
/* [-xa] is allowed */
v = (OnigCodePoint )tok->u.c;
in_israw = 0;
r = fetch_token_in_cc(tok, &p, end, env);
if (r < 0) goto err;
fetched = 1;
/* [--x] or [a&&-x] is warned. */
if (r == TK_CC_RANGE || and_start != 0)
CC_ESC_WARN(env, "-");
goto val_entry;
}
else if (state == CCS_RANGE) {
CC_ESC_WARN(env, "-");
goto sb_char; /* [!--x] is allowed */
}
else { /* CCS_COMPLETE */
r = fetch_token_in_cc(tok, &p, end, env);
if (r < 0) goto err;
fetched = 1;
if (r == TK_CC_CLOSE) goto range_end_val; /* allow [a-b-] */
else if (r == TK_CC_AND) {
CC_ESC_WARN(env, "-");
goto range_end_val;
}
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_DOUBLE_RANGE_OP_IN_CC)) {
CC_ESC_WARN(env, "-");
goto sb_char; /* [0-9-a] is allowed as [0-9\-a] */
}
r = ONIGERR_UNMATCHED_RANGE_SPECIFIER_IN_CHAR_CLASS;
goto err;
}
break;
case TK_CC_CC_OPEN: /* [ */
{
Node *anode;
CClassNode* acc;
r = parse_char_class(&anode, tok, &p, end, env);
if (r != 0) goto cc_open_err;
acc = &(NCCLASS(anode));
r = or_cclass(cc, acc, env->enc);
onig_node_free(anode);
cc_open_err:
if (r != 0) goto err;
}
break;
case TK_CC_AND: /* && */
{
if (state == CCS_VALUE) {
r = next_state_val(cc, &vs, 0, &val_israw, 0, val_type,
&val_type, &state, env);
if (r != 0) goto err;
}
/* initialize local variables */
and_start = 1;
state = CCS_START;
if (IS_NOT_NULL(prev_cc)) {
r = and_cclass(prev_cc, cc, env->enc);
if (r != 0) goto err;
bbuf_free(cc->mbuf);
}
else {
prev_cc = cc;
cc = &work_cc;
}
initialize_cclass(cc);
}
break;
case TK_EOT:
r = ONIGERR_PREMATURE_END_OF_CHAR_CLASS;
goto err;
break;
default:
r = ONIGERR_PARSER_BUG;
goto err;
break;
}
if (fetched)
r = tok->type;
else {
r = fetch_token_in_cc(tok, &p, end, env);
if (r < 0) goto err;
}
}
if (state == CCS_VALUE) {
r = next_state_val(cc, &vs, 0, &val_israw, 0, val_type,
&val_type, &state, env);
if (r != 0) goto err;
}
if (IS_NOT_NULL(prev_cc)) {
r = and_cclass(prev_cc, cc, env->enc);
if (r != 0) goto err;
bbuf_free(cc->mbuf);
cc = prev_cc;
}
if (neg != 0)
CCLASS_SET_NOT(cc);
else
CCLASS_CLEAR_NOT(cc);
if (IS_CCLASS_NOT(cc) &&
IS_SYNTAX_BV(env->syntax, ONIG_SYN_NOT_NEWLINE_IN_NEGATIVE_CC)) {
int is_empty;
is_empty = (IS_NULL(cc->mbuf) ? 1 : 0);
if (is_empty != 0)
BITSET_IS_EMPTY(cc->bs, is_empty);
if (is_empty == 0) {
#define NEWLINE_CODE 0x0a
if (ONIGENC_IS_CODE_NEWLINE(env->enc, NEWLINE_CODE)) {
if (ONIGENC_CODE_TO_MBCLEN(env->enc, NEWLINE_CODE) == 1)
BITSET_SET_BIT(cc->bs, NEWLINE_CODE);
else
add_code_range(&(cc->mbuf), env, NEWLINE_CODE, NEWLINE_CODE);
}
}
}
*src = p;
return 0;
err:
if (cc != &(NCCLASS(*np)))
bbuf_free(cc->mbuf);
onig_node_free(*np);
return r;
}
static int parse_subexp(Node** top, OnigToken* tok, int term,
UChar** src, UChar* end, ScanEnv* env);
static int
parse_effect(Node** np, OnigToken* tok, int term, UChar** src, UChar* end,
ScanEnv* env)
{
int r, num;
int list_capture;
Node *target;
OnigOptionType option;
OnigEncoding enc = env->enc;
OnigCodePoint c;
UChar* p = *src;
PFETCH_READY;
*np = NULL;
if (PEND) return ONIGERR_END_PATTERN_WITH_UNMATCHED_PARENTHESIS;
option = env->option;
if (PPEEK_IS('?') &&
IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_QMARK_GROUP_EFFECT)) {
PINC;
if (PEND) return ONIGERR_END_PATTERN_IN_GROUP;
PFETCH(c);
switch (c) {
case ':': /* (?:...) grouping only */
group:
r = fetch_token(tok, &p, end, env);
if (r < 0) return r;
r = parse_subexp(np, tok, term, &p, end, env);
if (r < 0) return r;
*src = p;
return 1; /* group */
break;
case '=':
*np = onig_node_new_anchor(ANCHOR_PREC_READ);
break;
case '!': /* preceding read */
*np = onig_node_new_anchor(ANCHOR_PREC_READ_NOT);
break;
case '>': /* (?>...) stop backtrack */
*np = node_new_effect(EFFECT_STOP_BACKTRACK);
break;
case '<': /* look behind (?<=...), (?<!...) */
PFETCH(c);
if (c == '=')
*np = onig_node_new_anchor(ANCHOR_LOOK_BEHIND);
else if (c == '!')
*np = onig_node_new_anchor(ANCHOR_LOOK_BEHIND_NOT);
#ifdef USE_NAMED_GROUP
else if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_QMARK_LT_NAMED_GROUP)) {
UChar *name;
UChar *name_end;
PUNFETCH;
list_capture = 0;
named_group:
name = p;
r = fetch_name(&p, end, &name_end, env, 0);
if (r < 0) return r;
num = scan_env_add_mem_entry(env);
if (num < 0) return num;
if (list_capture != 0 && num >= BIT_STATUS_BITS_NUM)
return ONIGERR_GROUP_NUMBER_OVER_FOR_CAPTURE_HISTORY;
r = name_add(env->reg, name, name_end, num, env);
if (r != 0) return r;
*np = node_new_effect_memory(env->option, 1);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
NEFFECT(*np).regnum = num;
if (list_capture != 0)
BIT_STATUS_ON_AT_SIMPLE(env->capture_history, num);
env->num_named++;
}
#endif
else
return ONIGERR_UNDEFINED_GROUP_OPTION;
break;
case '@':
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_ATMARK_CAPTURE_HISTORY)) {
#ifdef USE_NAMED_GROUP
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_QMARK_LT_NAMED_GROUP)) {
PFETCH(c);
if (c == '<') {
list_capture = 1;
goto named_group; /* (?@<name>...) */
}
PUNFETCH;
}
#endif
*np = node_new_effect_memory(env->option, 0);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
num = scan_env_add_mem_entry(env);
if (num < 0) {
onig_node_free(*np);
return num;
}
else if (num >= BIT_STATUS_BITS_NUM) {
onig_node_free(*np);
return ONIGERR_GROUP_NUMBER_OVER_FOR_CAPTURE_HISTORY;
}
NEFFECT(*np).regnum = num;
BIT_STATUS_ON_AT_SIMPLE(env->capture_history, num);
}
else {
return ONIGERR_UNDEFINED_GROUP_OPTION;
}
break;
#ifdef USE_POSIXLINE_OPTION
case 'p':
#endif
case '-': case 'i': case 'm': case 's': case 'x':
{
int neg = 0;
while (1) {
switch (c) {
case ':':
case ')':
break;
case '-': neg = 1; break;
case 'x': ONOFF(option, ONIG_OPTION_EXTEND, neg); break;
case 'i': ONOFF(option, ONIG_OPTION_IGNORECASE, neg); break;
case 's':
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_OPTION_PERL)) {
ONOFF(option, ONIG_OPTION_MULTILINE, neg);
}
else
return ONIGERR_UNDEFINED_GROUP_OPTION;
break;
case 'm':
if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_OPTION_PERL)) {
ONOFF(option, ONIG_OPTION_SINGLELINE, (neg == 0 ? 1 : 0));
}
else if (IS_SYNTAX_OP2(env->syntax, ONIG_SYN_OP2_OPTION_RUBY)) {
ONOFF(option, ONIG_OPTION_MULTILINE, neg);
}
else
return ONIGERR_UNDEFINED_GROUP_OPTION;
break;
#ifdef USE_POSIXLINE_OPTION
case 'p':
ONOFF(option, ONIG_OPTION_MULTILINE|ONIG_OPTION_SINGLELINE, neg);
break;
#endif
default:
return ONIGERR_UNDEFINED_GROUP_OPTION;
}
if (c == ')') {
*np = node_new_option(option);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
*src = p;
return 2; /* option only */
}
else if (c == ':') {
OnigOptionType prev = env->option;
env->option = option;
r = fetch_token(tok, &p, end, env);
if (r < 0) return r;
r = parse_subexp(&target, tok, term, &p, end, env);
env->option = prev;
if (r < 0) return r;
*np = node_new_option(option);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
NEFFECT(*np).target = target;
*src = p;
return 0;
}
if (PEND) return ONIGERR_END_PATTERN_IN_GROUP;
PFETCH(c);
}
}
break;
default:
return ONIGERR_UNDEFINED_GROUP_OPTION;
}
}
else {
#ifdef USE_NAMED_GROUP
if (ONIG_IS_OPTION_ON(env->option, ONIG_OPTION_DONT_CAPTURE_GROUP))
goto group;
#endif
*np = node_new_effect_memory(env->option, 0);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
num = scan_env_add_mem_entry(env);
if (num < 0) return num;
NEFFECT(*np).regnum = num;
}
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
r = fetch_token(tok, &p, end, env);
if (r < 0) return r;
r = parse_subexp(&target, tok, term, &p, end, env);
if (r < 0) return r;
if (NTYPE(*np) == N_ANCHOR)
NANCHOR(*np).target = target;
else {
NEFFECT(*np).target = target;
if (NEFFECT(*np).type == EFFECT_MEMORY) {
/* Don't move this to previous of parse_subexp() */
r = scan_env_set_mem_node(env, NEFFECT(*np).regnum, *np);
if (r != 0) return r;
}
}
*src = p;
return 0;
}
static char* PopularQStr[] = {
"?", "*", "+", "??", "*?", "+?"
};
static char* ReduceQStr[] = {
"", "", "*", "*?", "??", "+ and ??", "+? and ?"
};
static int
set_qualifier(Node* qnode, Node* target, int group, ScanEnv* env)
{
QualifierNode* qn;
qn = &(NQUALIFIER(qnode));
if (qn->lower == 1 && qn->upper == 1) {
return 1;
}
switch (NTYPE(target)) {
case N_STRING:
if (! group) {
StrNode* sn = &(NSTRING(target));
if (str_node_can_be_split(sn, env->enc)) {
Node* n = str_node_split_last_char(sn, env->enc);
if (IS_NOT_NULL(n)) {
qn->target = n;
return 2;
}
}
}
break;
case N_QUALIFIER:
{ /* check redundant double repeat. */
/* verbose warn (?:.?)? etc... but not warn (.?)? etc... */
QualifierNode* qnt = &(NQUALIFIER(target));
#ifdef USE_WARNING_REDUNDANT_NESTED_REPEAT_OPERATOR
if (qn->by_number == 0 && qnt->by_number == 0 &&
IS_SYNTAX_BV(env->syntax, ONIG_SYN_WARN_REDUNDANT_NESTED_REPEAT)) {
int nestq_num, targetq_num;
char buf[WARN_BUFSIZE];
nestq_num = popular_qualifier_num(qn);
targetq_num = popular_qualifier_num(qnt);
switch(ReduceTypeTable[targetq_num][nestq_num]) {
case RQ_ASIS:
break;
case RQ_DEL:
if (onig_verb_warn != onig_null_warn) {
onig_snprintf_with_pattern(buf, WARN_BUFSIZE, env->enc,
env->pattern, env->pattern_end,
"redundant nested repeat operator");
(*onig_verb_warn)(buf);
}
goto warn_exit;
break;
default:
if (onig_verb_warn != onig_null_warn) {
onig_snprintf_with_pattern(buf, WARN_BUFSIZE, env->enc,
env->pattern, env->pattern_end,
"nested repeat operator %s and %s was replaced with '%s'",
PopularQStr[targetq_num], PopularQStr[nestq_num],
ReduceQStr[ReduceTypeTable[targetq_num][nestq_num]]);
(*onig_verb_warn)(buf);
}
goto warn_exit;
break;
}
}
warn_exit:
#endif
if (popular_qualifier_num(qnt) >= 0 && popular_qualifier_num(qn) >= 0) {
onig_reduce_nested_qualifier(qnode, target);
goto q_exit;
}
}
break;
default:
break;
}
qn->target = target;
q_exit:
return 0;
}
static int
make_compound_alt_node_from_cc(OnigAmbigType ambig_flag, OnigEncoding enc,
CClassNode* cc, Node** root)
{
int r, i, j, k, clen, len, ncode, n;
UChar buf[ONIGENC_CODE_TO_MBC_MAXLEN];
Node **ptail, *snode = NULL_NODE;
OnigCompAmbigCodes* ccs;
OnigCompAmbigCodeItem* ci;
OnigAmbigType amb;
n = 0;
*root = NULL_NODE;
ptail = root;
for (amb = 0x01; amb <= ONIGENC_AMBIGUOUS_MATCH_LIMIT; amb <<= 1) {
if ((amb & ambig_flag) == 0) continue;
ncode = ONIGENC_GET_ALL_COMP_AMBIG_CODES(enc, amb, &ccs);
for (i = 0; i < ncode; i++) {
if (onig_is_code_in_cc(enc, ccs[i].code, cc)) {
for (j = 0; j < ccs[i].n; j++) {
ci = &(ccs[i].items[j]);
if (ci->len > 1) { /* compound only */
if (IS_CCLASS_NOT(cc)) clear_not_flag_cclass(cc, enc);
clen = ci->len;
for (k = 0; k < clen; k++) {
len = ONIGENC_CODE_TO_MBC(enc, ci->code[k], buf);
if (k == 0) {
snode = node_new_str_raw(buf, buf + len);
CHECK_NULL_RETURN_VAL(snode, ONIGERR_MEMORY);
}
else {
r = onig_node_str_cat(snode, buf, buf + len);
if (r < 0) return r;
}
}
*ptail = node_new_alt(snode, NULL_NODE);
CHECK_NULL_RETURN_VAL(*ptail, ONIGERR_MEMORY);
ptail = &(NCONS(*ptail).right);
n++;
}
}
}
}
}
return n;
}
#ifdef USE_SHARED_CCLASS_TABLE
#define THRESHOLD_RANGE_NUM_FOR_SHARE_CCLASS 8
/* for ctype node hash table */
typedef struct {
OnigEncoding enc;
int not;
int type;
} type_cclass_key;
static int type_cclass_cmp(type_cclass_key* x, type_cclass_key* y)
{
if (x->type != y->type) return 1;
if (x->enc != y->enc) return 1;
if (x->not != y->not) return 1;
return 0;
}
static int type_cclass_hash(type_cclass_key* key)
{
int i, val;
unsigned char *p;
val = 0;
p = (unsigned char* )&(key->enc);
for (i = 0; i < sizeof(key->enc); i++) {
val = val * 997 + (int )*p++;
}
p = (unsigned char* )(&key->type);
for (i = 0; i < sizeof(key->type); i++) {
val = val * 997 + (int )*p++;
}
val += key->not;
return val + (val >> 5);
}
static int type_cclass_key_free(st_data_t x)
{
xfree((void* )x);
return 0;
}
static st_data_t type_cclass_key_clone(st_data_t x)
{
type_cclass_key* new_key;
type_cclass_key* key = (type_cclass_key* )x;
new_key = (type_cclass_key* )xmalloc(sizeof(type_cclass_key));
*new_key = *key;
return (st_data_t )new_key;
}
static struct st_hash_type type_type_cclass_hash = {
type_cclass_cmp,
type_cclass_hash,
type_cclass_key_free,
type_cclass_key_clone
};
static st_table* OnigTypeCClassTable;
static int
i_free_shared_class(type_cclass_key* key, Node* node, void* arg)
{
if (IS_NOT_NULL(node)) {
CClassNode* cc = &(NCCLASS(node));
if (IS_NOT_NULL(cc->mbuf)) xfree(cc->mbuf);
xfree(node);
}
return ST_DELETE;
}
extern int
onig_free_shared_cclass_table()
{
if (IS_NOT_NULL(OnigTypeCClassTable)) {
onig_st_foreach(OnigTypeCClassTable, i_free_shared_class, 0);
}
return 0;
}
#endif /* USE_SHARED_CCLASS_TABLE */
static int
parse_exp(Node** np, OnigToken* tok, int term,
UChar** src, UChar* end, ScanEnv* env)
{
int r, len, group = 0;
Node* qn;
Node** targetp;
*np = NULL;
if (tok->type == term)
goto end_of_token;
switch (tok->type) {
case TK_ALT:
case TK_EOT:
end_of_token:
*np = node_new_empty();
return tok->type;
break;
case TK_SUBEXP_OPEN:
r = parse_effect(np, tok, TK_SUBEXP_CLOSE, src, end, env);
if (r < 0) return r;
if (r == 1) group = 1;
else if (r == 2) { /* option only */
Node* target;
OnigOptionType prev = env->option;
env->option = NEFFECT(*np).option;
r = fetch_token(tok, src, end, env);
if (r < 0) return r;
r = parse_subexp(&target, tok, term, src, end, env);
env->option = prev;
if (r < 0) return r;
NEFFECT(*np).target = target;
return tok->type;
}
break;
case TK_SUBEXP_CLOSE:
if (! IS_SYNTAX_BV(env->syntax, ONIG_SYN_ALLOW_UNMATCHED_CLOSE_SUBEXP))
return ONIGERR_UNMATCHED_CLOSE_PARENTHESIS;
if (tok->escaped) goto tk_raw_byte;
else goto tk_byte;
break;
case TK_STRING:
tk_byte:
{
*np = node_new_str(tok->backp, *src);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
while (1) {
r = fetch_token(tok, src, end, env);
if (r < 0) return r;
if (r != TK_STRING) break;
r = onig_node_str_cat(*np, tok->backp, *src);
if (r < 0) return r;
}
string_end:
targetp = np;
goto repeat;
}
break;
case TK_RAW_BYTE:
tk_raw_byte:
{
*np = node_new_str_raw_char((UChar )tok->u.c);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
len = 1;
while (1) {
r = fetch_token(tok, src, end, env);
if (r < 0) return r;
if (r != TK_RAW_BYTE) {
#ifndef NUMBERED_CHAR_IS_NOT_CASE_AMBIG
if (len >= enc_len(env->enc, NSTRING(*np).s)) {
NSTRING_CLEAR_RAW(*np);
}
#endif
goto string_end;
}
r = node_str_cat_char(*np, (UChar )tok->u.c);
if (r < 0) return r;
len++;
}
}
break;
case TK_CODE_POINT:
{
UChar buf[ONIGENC_CODE_TO_MBC_MAXLEN];
int num = ONIGENC_CODE_TO_MBC(env->enc, tok->u.code, buf);
if (num < 0) return num;
#ifdef NUMBERED_CHAR_IS_NOT_CASE_AMBIG
*np = node_new_str_raw(buf, buf + num);
#else
*np = node_new_str(buf, buf + num);
#endif
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
}
break;
case TK_QUOTE_OPEN:
{
OnigCodePoint end_op[2];
UChar *qstart, *qend, *nextp;
end_op[0] = (OnigCodePoint )MC_ESC(env->enc);
end_op[1] = (OnigCodePoint )'E';
qstart = *src;
qend = find_str_position(end_op, 2, qstart, end, &nextp, env->enc);
if (IS_NULL(qend)) {
nextp = qend = end;
}
*np = node_new_str(qstart, qend);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
*src = nextp;
}
break;
case TK_CHAR_TYPE:
{
switch (tok->u.subtype) {
case CTYPE_WORD:
case CTYPE_NOT_WORD:
*np = node_new_ctype(tok->u.subtype);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
break;
case CTYPE_WHITE_SPACE:
case CTYPE_NOT_WHITE_SPACE:
case CTYPE_DIGIT:
case CTYPE_NOT_DIGIT:
case CTYPE_XDIGIT:
case CTYPE_NOT_XDIGIT:
{
CClassNode* cc;
int ctype, not;
#ifdef USE_SHARED_CCLASS_TABLE
OnigCodePoint *sbr, *mbr;
ctype = parse_ctype_to_enc_ctype(tok->u.subtype, &not);
r = ONIGENC_GET_CTYPE_CODE_RANGE(env->enc, ctype, &sbr, &mbr);
if (r == 0 &&
ONIGENC_CODE_RANGE_NUM(mbr)
>= THRESHOLD_RANGE_NUM_FOR_SHARE_CCLASS) {
type_cclass_key key;
type_cclass_key* new_key;
key.enc = env->enc;
key.not = not;
key.type = ctype;
THREAD_ATOMIC_START;
if (IS_NULL(OnigTypeCClassTable)) {
OnigTypeCClassTable
= onig_st_init_table_with_size(&type_type_cclass_hash, 10);
if (IS_NULL(OnigTypeCClassTable)) {
THREAD_ATOMIC_END;
return ONIGERR_MEMORY;
}
}
else {
if (onig_st_lookup(OnigTypeCClassTable, (st_data_t )&key,
(st_data_t* )np)) {
THREAD_ATOMIC_END;
break;
}
}
*np = node_new_cclass_by_codepoint_range(not, sbr, mbr);
if (IS_NULL(*np)) {
THREAD_ATOMIC_END;
return ONIGERR_MEMORY;
}
CCLASS_SET_SHARE(&(NCCLASS(*np)));
new_key = (type_cclass_key* )xmalloc(sizeof(type_cclass_key));
onig_st_add_direct(OnigTypeCClassTable, (st_data_t )new_key,
(st_data_t )*np);
THREAD_ATOMIC_END;
}
else {
#endif
ctype = parse_ctype_to_enc_ctype(tok->u.subtype, &not);
*np = node_new_cclass();
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
cc = &(NCCLASS(*np));
add_ctype_to_cc(cc, ctype, 0, env);
if (not != 0) CCLASS_SET_NOT(cc);
#ifdef USE_SHARED_CCLASS_TABLE
}
#endif
}
break;
default:
return ONIGERR_PARSER_BUG;
break;
}
}
break;
case TK_CHAR_PROPERTY:
r = parse_char_property(np, tok, src, end, env);
if (r != 0) return r;
break;
case TK_CC_OPEN:
{
CClassNode* cc;
r = parse_char_class(np, tok, src, end, env);
if (r != 0) return r;
cc = &(NCCLASS(*np));
if (IS_IGNORECASE(env->option)) {
int i, n, in_cc;
OnigPairAmbigCodes* ccs;
BitSetRef bs = cc->bs;
OnigAmbigType amb;
for (amb = 0x01; amb <= ONIGENC_AMBIGUOUS_MATCH_LIMIT; amb <<= 1) {
if ((amb & env->ambig_flag) == 0) continue;
n = ONIGENC_GET_ALL_PAIR_AMBIG_CODES(env->enc, amb, &ccs);
for (i = 0; i < n; i++) {
in_cc = onig_is_code_in_cc(env->enc, ccs[i].from, cc);
if ((in_cc != 0 && !IS_CCLASS_NOT(cc)) ||
(in_cc == 0 && IS_CCLASS_NOT(cc))) {
if (ONIGENC_MBC_MINLEN(env->enc) > 1 ||
ccs[i].from >= SINGLE_BYTE_SIZE) {
/* if (cc->not) clear_not_flag_cclass(cc, env->enc); */
add_code_range(&(cc->mbuf), env, ccs[i].to, ccs[i].to);
}
else {
if (BITSET_AT(bs, ccs[i].from)) {
/* /(?i:[^A-C])/.match("a") ==> fail. */
BITSET_SET_BIT(bs, ccs[i].to);
}
if (BITSET_AT(bs, ccs[i].to)) {
BITSET_SET_BIT(bs, ccs[i].from);
}
}
}
}
}
}
if (IS_IGNORECASE(env->option) &&
(env->ambig_flag & ONIGENC_AMBIGUOUS_MATCH_COMPOUND) != 0) {
int res;
Node *alt_root, *work;
res = make_compound_alt_node_from_cc(env->ambig_flag, env->enc,
cc, &alt_root);
if (res < 0) return res;
if (res > 0) {
work = node_new_alt(*np, alt_root);
if (IS_NULL(work)) {
onig_node_free(alt_root);
return ONIGERR_MEMORY;
}
*np = work;
}
}
}
break;
case TK_ANYCHAR:
*np = node_new_anychar();
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
break;
case TK_ANYCHAR_ANYTIME:
*np = node_new_anychar();
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
qn = node_new_qualifier(0, REPEAT_INFINITE, 0);
CHECK_NULL_RETURN_VAL(qn, ONIGERR_MEMORY);
NQUALIFIER(qn).target = *np;
*np = qn;
break;
case TK_BACKREF:
len = tok->u.backref.num;
*np = node_new_backref(len,
(len > 1 ? tok->u.backref.refs : &(tok->u.backref.ref1)),
tok->u.backref.by_name, env);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
break;
#ifdef USE_SUBEXP_CALL
case TK_CALL:
*np = node_new_call(tok->u.call.name, tok->u.call.name_end);
CHECK_NULL_RETURN_VAL(*np, ONIGERR_MEMORY);
env->num_call++;
break;
#endif
case TK_ANCHOR:
*np = onig_node_new_anchor(tok->u.anchor);
break;
case TK_OP_REPEAT:
case TK_INTERVAL:
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_CONTEXT_INDEP_REPEAT_OPS)) {
if (IS_SYNTAX_BV(env->syntax, ONIG_SYN_CONTEXT_INVALID_REPEAT_OPS))
return ONIGERR_TARGET_OF_REPEAT_OPERATOR_NOT_SPECIFIED;
else
*np = node_new_empty();
}
else {
goto tk_byte;
}
break;
default:
return ONIGERR_PARSER_BUG;
break;
}
{
targetp = np;
re_entry:
r = fetch_token(tok, src, end, env);
if (r < 0) return r;
repeat:
if (r == TK_OP_REPEAT || r == TK_INTERVAL) {
if (is_invalid_qualifier_target(*targetp))
return ONIGERR_TARGET_OF_REPEAT_OPERATOR_INVALID;
qn = node_new_qualifier(tok->u.repeat.lower, tok->u.repeat.upper,
(r == TK_INTERVAL ? 1 : 0));
CHECK_NULL_RETURN_VAL(qn, ONIGERR_MEMORY);
NQUALIFIER(qn).greedy = tok->u.repeat.greedy;
r = set_qualifier(qn, *targetp, group, env);
if (r < 0) return r;
if (tok->u.repeat.possessive != 0) {
Node* en;
en = node_new_effect(EFFECT_STOP_BACKTRACK);
CHECK_NULL_RETURN_VAL(en, ONIGERR_MEMORY);
NEFFECT(en).target = qn;
qn = en;
}
if (r == 0) {
*targetp = qn;
}
else if (r == 2) { /* split case: /abc+/ */
Node *tmp;
*targetp = node_new_list(*targetp, NULL);
CHECK_NULL_RETURN_VAL(*targetp, ONIGERR_MEMORY);
tmp = NCONS(*targetp).right = node_new_list(qn, NULL);
CHECK_NULL_RETURN_VAL(tmp, ONIGERR_MEMORY);
targetp = &(NCONS(tmp).left);
}
goto re_entry;
}
}
return r;
}
static int
parse_branch(Node** top, OnigToken* tok, int term,
UChar** src, UChar* end, ScanEnv* env)
{
int r;
Node *node, **headp;
*top = NULL;
r = parse_exp(&node, tok, term, src, end, env);
if (r < 0) return r;
if (r == TK_EOT || r == term || r == TK_ALT) {
*top = node;
}
else {
*top = node_new_list(node, NULL);
headp = &(NCONS(*top).right);
while (r != TK_EOT && r != term && r != TK_ALT) {
r = parse_exp(&node, tok, term, src, end, env);
if (r < 0) return r;
if (NTYPE(node) == N_LIST) {
*headp = node;
while (IS_NOT_NULL(NCONS(node).right)) node = NCONS(node).right;
headp = &(NCONS(node).right);
}
else {
*headp = node_new_list(node, NULL);
headp = &(NCONS(*headp).right);
}
}
}
return r;
}
/* term_tok: TK_EOT or TK_SUBEXP_CLOSE */
static int
parse_subexp(Node** top, OnigToken* tok, int term,
UChar** src, UChar* end, ScanEnv* env)
{
int r;
Node *node, **headp;
*top = NULL;
r = parse_branch(&node, tok, term, src, end, env);
if (r < 0) {
onig_node_free(node);
return r;
}
if (r == term) {
*top = node;
}
else if (r == TK_ALT) {
*top = node_new_alt(node, NULL);
headp = &(NCONS(*top).right);
while (r == TK_ALT) {
r = fetch_token(tok, src, end, env);
if (r < 0) return r;
r = parse_branch(&node, tok, term, src, end, env);
if (r < 0) return r;
*headp = node_new_alt(node, NULL);
headp = &(NCONS(*headp).right);
}
if (tok->type != term)
goto err;
}
else {
err:
if (term == TK_SUBEXP_CLOSE)
return ONIGERR_END_PATTERN_WITH_UNMATCHED_PARENTHESIS;
else
return ONIGERR_PARSER_BUG;
}
return r;
}
static int
parse_regexp(Node** top, UChar** src, UChar* end, ScanEnv* env)
{
int r;
OnigToken tok;
r = fetch_token(&tok, src, end, env);
if (r < 0) return r;
r = parse_subexp(top, &tok, TK_EOT, src, end, env);
if (r < 0) return r;
return 0;
}
extern int
onig_parse_make_tree(Node** root, UChar* pattern, UChar* end, regex_t* reg,
ScanEnv* env)
{
int r;
UChar* p;
#ifdef USE_NAMED_GROUP
names_clear(reg);
#endif
scan_env_clear(env);
env->option = reg->options;
env->ambig_flag = reg->ambig_flag;
env->enc = reg->enc;
env->syntax = reg->syntax;
env->pattern = pattern;
env->pattern_end = end;
env->reg = reg;
*root = NULL;
p = pattern;
r = parse_regexp(root, &p, end, env);
reg->num_mem = env->num_mem;
return r;
}
extern void
onig_scan_env_set_error_string(ScanEnv* env, int ecode,
UChar* arg, UChar* arg_end)
{
env->error = arg;
env->error_end = arg_end;
}