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jerryscript/jerry-core/ecma/operations/ecma-regexp-object.c
Mátyás Mustoha 63ce292173 Reduce code duplication between RegExp.construct and [[Call]] (#2287) 
JerryScript-DCO-1.0-Signed-off-by: Mátyás Mustoha mmatyas@inf.u-szeged.hu
2018-04-20 15:27:33 +02:00

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/* Copyright JS Foundation and other contributors, http://js.foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "ecma-alloc.h"
#include "ecma-array-object.h"
#include "ecma-builtin-helpers.h"
#include "ecma-exceptions.h"
#include "ecma-gc.h"
#include "ecma-globals.h"
#include "ecma-objects.h"
#include "ecma-regexp-object.h"
#include "ecma-try-catch-macro.h"
#include "jrt-libc-includes.h"
#include "lit-char-helpers.h"
#include "re-compiler.h"
#ifndef CONFIG_DISABLE_REGEXP_BUILTIN
#define ECMA_BUILTINS_INTERNAL
#include "ecma-builtins-internal.h"
/** \addtogroup ecma ECMA
* @{
*
* \addtogroup ecmaregexpobject ECMA RegExp object related routines
* @{
*/
/**
* RegExp results are stored in an array of string pointers. If N is the number
* of groups then the length of the array is 2*N, because every group has a start
* and end. We have to handle those pointers.
*
* [0] RE global start
* [1] RE global end
* [2] 1st group start
* [3] 1st group end
* ...
* [n] n/2 th group start
* [n+1] n/2 th group end
*/
#define RE_GLOBAL_START_IDX 0
#define RE_GLOBAL_END_IDX 1
/**
* Check if a RegExp opcode is a capture group or not
*/
#define RE_IS_CAPTURE_GROUP(x) (((x) < RE_OP_NON_CAPTURE_GROUP_START) ? 1 : 0)
/**
* Parse RegExp flags (global, ignoreCase, multiline)
*
* See also: ECMA-262 v5, 15.10.4.1
*
* @return empty ecma value - if parsed successfully
* error ecma value - otherwise
*
* Returned value must be freed with ecma_free_value
*/
ecma_value_t
re_parse_regexp_flags (ecma_string_t *flags_str_p, /**< Input string with flags */
uint16_t *flags_p) /**< [out] parsed flag bits */
{
ecma_value_t ret_value = ECMA_VALUE_EMPTY;
ECMA_STRING_TO_UTF8_STRING (flags_str_p, flags_start_p, flags_start_size);
const lit_utf8_byte_t *flags_str_curr_p = flags_start_p;
const lit_utf8_byte_t *flags_str_end_p = flags_start_p + flags_start_size;
while (flags_str_curr_p < flags_str_end_p
&& ecma_is_value_empty (ret_value))
{
switch (*flags_str_curr_p++)
{
case 'g':
{
if (*flags_p & RE_FLAG_GLOBAL)
{
ret_value = ecma_raise_syntax_error (ECMA_ERR_MSG ("Invalid RegExp flags."));
}
*flags_p |= RE_FLAG_GLOBAL;
break;
}
case 'i':
{
if (*flags_p & RE_FLAG_IGNORE_CASE)
{
ret_value = ecma_raise_syntax_error (ECMA_ERR_MSG ("Invalid RegExp flags."));
}
*flags_p |= RE_FLAG_IGNORE_CASE;
break;
}
case 'm':
{
if (*flags_p & RE_FLAG_MULTILINE)
{
ret_value = ecma_raise_syntax_error (ECMA_ERR_MSG ("Invalid RegExp flags."));
}
*flags_p |= RE_FLAG_MULTILINE;
break;
}
default:
{
ret_value = ecma_raise_syntax_error (ECMA_ERR_MSG ("Invalid RegExp flags."));
break;
}
}
}
ECMA_FINALIZE_UTF8_STRING (flags_start_p, flags_start_size);
return ret_value;
} /* re_parse_regexp_flags */
/**
* Set a data property value for a regexp object.
*/
static void
re_set_data_property (ecma_object_t *re_object_p, /**< RegExp object */
ecma_string_t *property_name_p, /**< property name */
uint8_t prop_attributes, /**< property attributes */
ecma_value_t value) /**< property value */
{
ecma_property_ref_t property_ref;
ecma_property_t property = ecma_op_object_get_own_property (re_object_p,
property_name_p,
&property_ref,
ECMA_PROPERTY_GET_VALUE);
if (property == ECMA_PROPERTY_TYPE_NOT_FOUND)
{
property_ref.value_p = ecma_create_named_data_property (re_object_p,
property_name_p,
prop_attributes,
NULL);
}
else
{
JERRY_ASSERT (ECMA_PROPERTY_GET_TYPE (property) == ECMA_PROPERTY_TYPE_NAMEDDATA
&& !ecma_is_property_configurable (property));
}
ecma_named_data_property_assign_value (re_object_p, property_ref.value_p, value);
} /* re_set_data_property */
/**
* Initializes the source, global, ignoreCase, multiline, and lastIndex properties of RegExp instance.
*/
void
re_initialize_props (ecma_object_t *re_obj_p, /**< RegExp object */
ecma_string_t *source_p, /**< source string */
uint16_t flags) /**< flags */
{
/* Set source property. ECMA-262 v5, 15.10.7.1 */
re_set_data_property (re_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_SOURCE),
ECMA_PROPERTY_FIXED,
ecma_make_string_value (source_p));
/* Set global property. ECMA-262 v5, 15.10.7.2 */
re_set_data_property (re_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_GLOBAL),
ECMA_PROPERTY_FIXED,
ecma_make_boolean_value (flags & RE_FLAG_GLOBAL));
/* Set ignoreCase property. ECMA-262 v5, 15.10.7.3 */
re_set_data_property (re_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_IGNORECASE_UL),
ECMA_PROPERTY_FIXED,
ecma_make_boolean_value (flags & RE_FLAG_IGNORE_CASE));
/* Set multiline property. ECMA-262 v5, 15.10.7.4 */
re_set_data_property (re_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_MULTILINE),
ECMA_PROPERTY_FIXED,
ecma_make_boolean_value (flags & RE_FLAG_MULTILINE));
/* Set lastIndex property. ECMA-262 v5, 15.10.7.5 */
re_set_data_property (re_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_LASTINDEX_UL),
ECMA_PROPERTY_FLAG_WRITABLE,
ecma_make_integer_value (0));
} /* re_initialize_props */
/**
* RegExp object creation operation.
*
* See also: ECMA-262 v5, 15.10.4.1
*
* @return constructed RegExp object
* Returned value must be freed with ecma_free_value
*/
ecma_value_t
ecma_op_create_regexp_object_from_bytecode (re_compiled_code_t *bytecode_p) /**< RegExp bytecode */
{
JERRY_ASSERT (bytecode_p != NULL);
ecma_object_t *re_prototype_obj_p = ecma_builtin_get (ECMA_BUILTIN_ID_REGEXP_PROTOTYPE);
ecma_object_t *object_p = ecma_create_object (re_prototype_obj_p,
sizeof (ecma_extended_object_t),
ECMA_OBJECT_TYPE_CLASS);
ecma_deref_object (re_prototype_obj_p);
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
/* Set the internal [[Class]] property */
ext_object_p->u.class_prop.class_id = LIT_MAGIC_STRING_REGEXP_UL;
/* Set bytecode internal property. */
ECMA_SET_INTERNAL_VALUE_POINTER (ext_object_p->u.class_prop.u.value, bytecode_p);
ecma_bytecode_ref ((ecma_compiled_code_t *) bytecode_p);
/* Initialize RegExp object properties */
re_initialize_props (object_p,
ecma_get_string_from_value (bytecode_p->pattern),
bytecode_p->header.status_flags);
return ecma_make_object_value (object_p);
} /* ecma_op_create_regexp_object_from_bytecode */
/**
* RegExp object creation operation.
*
* See also: ECMA-262 v5, 15.10.4.1
*
* @return constructed RegExp object - if pattern and flags were parsed successfully
* error ecma value - otherwise
*
* Returned value must be freed with ecma_free_value
*/
ecma_value_t
ecma_op_create_regexp_object (ecma_string_t *pattern_p, /**< input pattern */
ecma_string_t *flags_str_p) /**< flags */
{
JERRY_ASSERT (pattern_p != NULL);
ecma_value_t ret_value = ECMA_VALUE_EMPTY;
uint16_t flags = 0;
if (flags_str_p != NULL)
{
ECMA_TRY_CATCH (empty, re_parse_regexp_flags (flags_str_p, &flags), ret_value);
ECMA_FINALIZE (empty);
if (!ecma_is_value_empty (ret_value))
{
return ret_value;
}
}
ecma_object_t *re_prototype_obj_p = ecma_builtin_get (ECMA_BUILTIN_ID_REGEXP_PROTOTYPE);
ecma_object_t *object_p = ecma_create_object (re_prototype_obj_p,
sizeof (ecma_extended_object_t),
ECMA_OBJECT_TYPE_CLASS);
ecma_deref_object (re_prototype_obj_p);
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
ext_object_p->u.class_prop.class_id = LIT_MAGIC_STRING_UNDEFINED;
re_initialize_props (object_p, pattern_p, flags);
/* Compile bytecode. */
const re_compiled_code_t *bc_p = NULL;
ECMA_TRY_CATCH (empty, re_compile_bytecode (&bc_p, pattern_p, flags), ret_value);
/* Set [[Class]] and bytecode internal properties. */
ext_object_p->u.class_prop.class_id = LIT_MAGIC_STRING_REGEXP_UL;
ECMA_SET_INTERNAL_VALUE_POINTER (ext_object_p->u.class_prop.u.value, bc_p);
ret_value = ecma_make_object_value (object_p);
ECMA_FINALIZE (empty);
if (ECMA_IS_VALUE_ERROR (ret_value))
{
ecma_deref_object (object_p);
}
return ret_value;
} /* ecma_op_create_regexp_object */
/**
* RegExp Canonicalize abstract operation
*
* See also: ECMA-262 v5, 15.10.2.8
*
* @return ecma_char_t canonicalized character
*/
inline ecma_char_t __attr_always_inline___
re_canonicalize (ecma_char_t ch, /**< character */
bool is_ignorecase) /**< IgnoreCase flag */
{
ecma_char_t ret_value = ch;
if (is_ignorecase)
{
if (ch < 128)
{
/* ASCII fast path. */
if (ch >= LIT_CHAR_LOWERCASE_A && ch <= LIT_CHAR_LOWERCASE_Z)
{
ret_value = (ecma_char_t) (ch - (LIT_CHAR_LOWERCASE_A - LIT_CHAR_UPPERCASE_A));
}
}
else
{
/* 2. */
ecma_char_t u[LIT_MAXIMUM_OTHER_CASE_LENGTH];
ecma_length_t size = lit_char_to_upper_case (ch, u, LIT_MAXIMUM_OTHER_CASE_LENGTH);
/* 3. */
if (size == 1)
{
/* 4. */
ecma_char_t cu = u[0];
/* 5. */
if (cu >= 128)
{
/* 6. */
ret_value = cu;
}
}
}
}
return ret_value;
} /* re_canonicalize */
/**
* Recursive function for RegExp matching. Tests for a regular expression
* match and returns a MatchResult value.
*
* See also:
* ECMA-262 v5, 15.10.2.1
*
* @return true - if matched
* false - otherwise
*
* May raise error, so returned value must be freed with ecma_free_value
*/
static ecma_value_t
re_match_regexp (re_matcher_ctx_t *re_ctx_p, /**< RegExp matcher context */
uint8_t *bc_p, /**< pointer to the current RegExp bytecode */
const lit_utf8_byte_t *str_p, /**< input string pointer */
const lit_utf8_byte_t **out_str_p) /**< [out] matching substring iterator */
{
ecma_value_t ret_value = ECMA_VALUE_EMPTY;
re_opcode_t op;
const lit_utf8_byte_t *str_curr_p = str_p;
while ((op = re_get_opcode (&bc_p)))
{
switch (op)
{
case RE_OP_MATCH:
{
JERRY_TRACE_MSG ("Execute RE_OP_MATCH: match\n");
*out_str_p = str_curr_p;
ret_value = ECMA_VALUE_TRUE;
return ret_value; /* match */
}
case RE_OP_CHAR:
{
if (str_curr_p >= re_ctx_p->input_end_p)
{
return ECMA_VALUE_FALSE; /* fail */
}
bool is_ignorecase = re_ctx_p->flags & RE_FLAG_IGNORE_CASE;
ecma_char_t ch1 = (ecma_char_t) re_get_char (&bc_p); /* Already canonicalized. */
ecma_char_t ch2 = re_canonicalize (lit_utf8_read_next (&str_curr_p), is_ignorecase);
JERRY_TRACE_MSG ("Character matching %d to %d: ", ch1, ch2);
if (ch1 != ch2)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
case RE_OP_PERIOD:
{
if (str_curr_p >= re_ctx_p->input_end_p)
{
return ECMA_VALUE_FALSE; /* fail */
}
ecma_char_t ch = lit_utf8_read_next (&str_curr_p);
JERRY_TRACE_MSG ("Period matching '.' to %u: ", (unsigned int) ch);
if (lit_char_is_line_terminator (ch))
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
case RE_OP_ASSERT_START:
{
JERRY_TRACE_MSG ("Execute RE_OP_ASSERT_START: ");
if (str_curr_p <= re_ctx_p->input_start_p)
{
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
if (!(re_ctx_p->flags & RE_FLAG_MULTILINE))
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
if (lit_char_is_line_terminator (lit_utf8_peek_prev (str_curr_p)))
{
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
case RE_OP_ASSERT_END:
{
JERRY_TRACE_MSG ("Execute RE_OP_ASSERT_END: ");
if (str_curr_p >= re_ctx_p->input_end_p)
{
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
if (!(re_ctx_p->flags & RE_FLAG_MULTILINE))
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
if (lit_char_is_line_terminator (lit_utf8_peek_next (str_curr_p)))
{
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
case RE_OP_ASSERT_WORD_BOUNDARY:
case RE_OP_ASSERT_NOT_WORD_BOUNDARY:
{
bool is_wordchar_left, is_wordchar_right;
if (str_curr_p <= re_ctx_p->input_start_p)
{
is_wordchar_left = false; /* not a wordchar */
}
else
{
is_wordchar_left = lit_char_is_word_char (lit_utf8_peek_prev (str_curr_p));
}
if (str_curr_p >= re_ctx_p->input_end_p)
{
is_wordchar_right = false; /* not a wordchar */
}
else
{
is_wordchar_right = lit_char_is_word_char (lit_utf8_peek_next (str_curr_p));
}
if (op == RE_OP_ASSERT_WORD_BOUNDARY)
{
JERRY_TRACE_MSG ("Execute RE_OP_ASSERT_WORD_BOUNDARY: ");
if (is_wordchar_left == is_wordchar_right)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
}
else
{
JERRY_ASSERT (op == RE_OP_ASSERT_NOT_WORD_BOUNDARY);
JERRY_TRACE_MSG ("Execute RE_OP_ASSERT_NOT_WORD_BOUNDARY: ");
if (is_wordchar_left != is_wordchar_right)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
}
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
case RE_OP_LOOKAHEAD_POS:
case RE_OP_LOOKAHEAD_NEG:
{
ecma_value_t match_value = ECMA_VALUE_EMPTY;
const lit_utf8_byte_t *sub_str_p = NULL;
uint32_t array_size = re_ctx_p->num_of_captures + re_ctx_p->num_of_non_captures;
JMEM_DEFINE_LOCAL_ARRAY (saved_bck_p, array_size, lit_utf8_byte_t *);
size_t size = (size_t) (array_size) * sizeof (lit_utf8_byte_t *);
memcpy (saved_bck_p, re_ctx_p->saved_p, size);
do
{
uint32_t offset = re_get_value (&bc_p);
if (!sub_str_p)
{
match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ECMA_IS_VALUE_ERROR (match_value))
{
break;
}
}
bc_p += offset;
}
while (re_get_opcode (&bc_p) == RE_OP_ALTERNATIVE);
if (!ECMA_IS_VALUE_ERROR (match_value))
{
JERRY_TRACE_MSG ("Execute RE_OP_LOOKAHEAD_POS/NEG: ");
ecma_free_value (match_value);
if ((op == RE_OP_LOOKAHEAD_POS && sub_str_p)
|| (op == RE_OP_LOOKAHEAD_NEG && !sub_str_p))
{
JERRY_TRACE_MSG ("match\n");
match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
}
else
{
JERRY_TRACE_MSG ("fail\n");
match_value = ECMA_VALUE_FALSE; /* fail */
}
}
if (!ECMA_IS_VALUE_ERROR (match_value))
{
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
}
else
{
JERRY_ASSERT (ecma_is_value_boolean (match_value));
/* restore saved */
memcpy (re_ctx_p->saved_p, saved_bck_p, size);
}
}
JMEM_FINALIZE_LOCAL_ARRAY (saved_bck_p);
return match_value;
}
case RE_OP_CHAR_CLASS:
case RE_OP_INV_CHAR_CLASS:
{
uint32_t num_of_ranges;
bool is_match;
JERRY_TRACE_MSG ("Execute RE_OP_CHAR_CLASS/RE_OP_INV_CHAR_CLASS, ");
if (str_curr_p >= re_ctx_p->input_end_p)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
bool is_ignorecase = re_ctx_p->flags & RE_FLAG_IGNORE_CASE;
ecma_char_t curr_ch = re_canonicalize (lit_utf8_read_next (&str_curr_p), is_ignorecase);
num_of_ranges = re_get_value (&bc_p);
is_match = false;
while (num_of_ranges)
{
ecma_char_t ch1 = re_canonicalize (re_get_char (&bc_p), is_ignorecase);
ecma_char_t ch2 = re_canonicalize (re_get_char (&bc_p), is_ignorecase);
JERRY_TRACE_MSG ("num_of_ranges=%u, ch1=%u, ch2=%u, curr_ch=%u; ",
(unsigned int) num_of_ranges, (unsigned int) ch1,
(unsigned int) ch2, (unsigned int) curr_ch);
if (curr_ch >= ch1 && curr_ch <= ch2)
{
/* We must read all the ranges from bytecode. */
is_match = true;
}
num_of_ranges--;
}
if (op == RE_OP_CHAR_CLASS)
{
if (!is_match)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
}
else
{
JERRY_ASSERT (op == RE_OP_INV_CHAR_CLASS);
if (is_match)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
}
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
case RE_OP_BACKREFERENCE:
{
uint32_t backref_idx;
backref_idx = re_get_value (&bc_p);
JERRY_TRACE_MSG ("Execute RE_OP_BACKREFERENCE (idx: %u): ", (unsigned int) backref_idx);
backref_idx *= 2; /* backref n -> saved indices [n*2, n*2+1] */
JERRY_ASSERT (backref_idx >= 2 && backref_idx + 1 < re_ctx_p->num_of_captures);
if (!re_ctx_p->saved_p[backref_idx] || !re_ctx_p->saved_p[backref_idx + 1])
{
JERRY_TRACE_MSG ("match\n");
break; /* capture is 'undefined', always matches! */
}
const lit_utf8_byte_t *sub_str_p = re_ctx_p->saved_p[backref_idx];
while (sub_str_p < re_ctx_p->saved_p[backref_idx + 1])
{
ecma_char_t ch1, ch2;
if (str_curr_p >= re_ctx_p->input_end_p)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
ch1 = lit_utf8_read_next (&sub_str_p);
ch2 = lit_utf8_read_next (&str_curr_p);
if (ch1 != ch2)
{
JERRY_TRACE_MSG ("fail\n");
return ECMA_VALUE_FALSE; /* fail */
}
}
JERRY_TRACE_MSG ("match\n");
break; /* tail merge */
}
case RE_OP_SAVE_AT_START:
{
uint8_t *old_bc_p;
JERRY_TRACE_MSG ("Execute RE_OP_SAVE_AT_START\n");
const lit_utf8_byte_t *old_start_p = re_ctx_p->saved_p[RE_GLOBAL_START_IDX];
re_ctx_p->saved_p[RE_GLOBAL_START_IDX] = str_curr_p;
do
{
uint32_t offset = re_get_value (&bc_p);
const lit_utf8_byte_t *sub_str_p = NULL;
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
bc_p += offset;
old_bc_p = bc_p;
}
while (re_get_opcode (&bc_p) == RE_OP_ALTERNATIVE);
bc_p = old_bc_p;
re_ctx_p->saved_p[RE_GLOBAL_START_IDX] = old_start_p;
return ECMA_VALUE_FALSE; /* fail */
}
case RE_OP_SAVE_AND_MATCH:
{
JERRY_TRACE_MSG ("End of pattern is reached: match\n");
re_ctx_p->saved_p[RE_GLOBAL_END_IDX] = str_curr_p;
*out_str_p = str_curr_p;
return ECMA_VALUE_TRUE; /* match */
}
case RE_OP_ALTERNATIVE:
{
/*
* Alternatives should be jump over, when alternative opcode appears.
*/
uint32_t offset = re_get_value (&bc_p);
JERRY_TRACE_MSG ("Execute RE_OP_ALTERNATIVE");
bc_p += offset;
while (*bc_p == RE_OP_ALTERNATIVE)
{
JERRY_TRACE_MSG (", jump: %u", (unsigned int) offset);
bc_p++;
offset = re_get_value (&bc_p);
bc_p += offset;
}
JERRY_TRACE_MSG ("\n");
break; /* tail merge */
}
case RE_OP_CAPTURE_NON_GREEDY_ZERO_GROUP_START:
case RE_OP_NON_CAPTURE_NON_GREEDY_ZERO_GROUP_START:
{
/*
* On non-greedy iterations we have to execute the bytecode
* after the group first, if zero iteration is allowed.
*/
uint32_t start_idx, iter_idx, offset;
const lit_utf8_byte_t *old_start_p = NULL;
const lit_utf8_byte_t *sub_str_p = NULL;
uint8_t *old_bc_p;
old_bc_p = bc_p; /* save the bytecode start position of the group start */
start_idx = re_get_value (&bc_p);
offset = re_get_value (&bc_p);
if (RE_IS_CAPTURE_GROUP (op))
{
JERRY_ASSERT (start_idx <= re_ctx_p->num_of_captures / 2);
iter_idx = start_idx - 1;
start_idx *= 2;
old_start_p = re_ctx_p->saved_p[start_idx];
re_ctx_p->saved_p[start_idx] = str_curr_p;
}
else
{
JERRY_ASSERT (start_idx < re_ctx_p->num_of_non_captures);
iter_idx = start_idx + (re_ctx_p->num_of_captures / 2) - 1;
start_idx += re_ctx_p->num_of_captures;
}
re_ctx_p->num_of_iterations_p[iter_idx] = 0;
/* Jump all over to the end of the END opcode. */
bc_p += offset;
/* Try to match after the close paren if zero is allowed */
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
if (RE_IS_CAPTURE_GROUP (op))
{
re_ctx_p->saved_p[start_idx] = old_start_p;
}
bc_p = old_bc_p;
/* FALLTHRU */
}
case RE_OP_CAPTURE_GROUP_START:
case RE_OP_CAPTURE_GREEDY_ZERO_GROUP_START:
case RE_OP_NON_CAPTURE_GROUP_START:
case RE_OP_NON_CAPTURE_GREEDY_ZERO_GROUP_START:
{
uint32_t start_idx, iter_idx, old_iteration_cnt, offset;
const lit_utf8_byte_t *sub_str_p = NULL;
uint8_t *old_bc_p;
uint8_t *end_bc_p = NULL;
start_idx = re_get_value (&bc_p);
if (op != RE_OP_CAPTURE_GROUP_START
&& op != RE_OP_NON_CAPTURE_GROUP_START)
{
offset = re_get_value (&bc_p);
end_bc_p = bc_p + offset;
}
if (RE_IS_CAPTURE_GROUP (op))
{
JERRY_ASSERT (start_idx <= re_ctx_p->num_of_captures / 2);
iter_idx = start_idx - 1;
start_idx *= 2;
}
else
{
JERRY_ASSERT (start_idx < re_ctx_p->num_of_non_captures);
iter_idx = start_idx + (re_ctx_p->num_of_captures / 2) - 1;
start_idx += re_ctx_p->num_of_captures;
}
const lit_utf8_byte_t *old_start_p = re_ctx_p->saved_p[start_idx];
old_iteration_cnt = re_ctx_p->num_of_iterations_p[iter_idx];
re_ctx_p->saved_p[start_idx] = str_curr_p;
re_ctx_p->num_of_iterations_p[iter_idx] = 0;
do
{
offset = re_get_value (&bc_p);
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
bc_p += offset;
old_bc_p = bc_p;
}
while (re_get_opcode (&bc_p) == RE_OP_ALTERNATIVE);
bc_p = old_bc_p;
re_ctx_p->num_of_iterations_p[iter_idx] = old_iteration_cnt;
/* Try to match after the close paren if zero is allowed. */
if (op == RE_OP_CAPTURE_GREEDY_ZERO_GROUP_START
|| op == RE_OP_NON_CAPTURE_GREEDY_ZERO_GROUP_START)
{
JERRY_ASSERT (end_bc_p);
ecma_value_t match_value = re_match_regexp (re_ctx_p, end_bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
}
re_ctx_p->saved_p[start_idx] = old_start_p;
return ECMA_VALUE_FALSE; /* fail */
}
case RE_OP_CAPTURE_NON_GREEDY_GROUP_END:
case RE_OP_NON_CAPTURE_NON_GREEDY_GROUP_END:
{
uint32_t end_idx, iter_idx, min, max;
uint8_t *old_bc_p;
/*
* On non-greedy iterations we have to execute the bytecode
* after the group first. Try to iterate only if it fails.
*/
old_bc_p = bc_p; /* save the bytecode start position of the group end */
end_idx = re_get_value (&bc_p);
min = re_get_value (&bc_p);
max = re_get_value (&bc_p);
re_get_value (&bc_p); /* start offset */
if (RE_IS_CAPTURE_GROUP (op))
{
JERRY_ASSERT (end_idx <= re_ctx_p->num_of_captures / 2);
iter_idx = end_idx - 1;
end_idx = (end_idx * 2) + 1;
}
else
{
JERRY_ASSERT (end_idx <= re_ctx_p->num_of_non_captures);
iter_idx = end_idx + (re_ctx_p->num_of_captures / 2) - 1;
end_idx += re_ctx_p->num_of_captures;
}
re_ctx_p->num_of_iterations_p[iter_idx]++;
if (re_ctx_p->num_of_iterations_p[iter_idx] >= min
&& re_ctx_p->num_of_iterations_p[iter_idx] <= max)
{
const lit_utf8_byte_t *old_end_p = re_ctx_p->saved_p[end_idx];
re_ctx_p->saved_p[end_idx] = str_curr_p;
const lit_utf8_byte_t *sub_str_p = NULL;
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
re_ctx_p->saved_p[end_idx] = old_end_p;
}
re_ctx_p->num_of_iterations_p[iter_idx]--;
bc_p = old_bc_p;
/* If non-greedy fails and try to iterate... */
/* FALLTHRU */
}
case RE_OP_CAPTURE_GREEDY_GROUP_END:
case RE_OP_NON_CAPTURE_GREEDY_GROUP_END:
{
uint32_t start_idx, end_idx, iter_idx, min, max, offset;
const lit_utf8_byte_t *old_start_p = NULL;
const lit_utf8_byte_t *old_end_p = NULL;
const lit_utf8_byte_t *sub_str_p = NULL;
uint8_t *old_bc_p;
end_idx = re_get_value (&bc_p);
min = re_get_value (&bc_p);
max = re_get_value (&bc_p);
offset = re_get_value (&bc_p);
if (RE_IS_CAPTURE_GROUP (op))
{
JERRY_ASSERT (end_idx <= re_ctx_p->num_of_captures / 2);
iter_idx = end_idx - 1;
start_idx = end_idx * 2;
end_idx = start_idx + 1;
}
else
{
JERRY_ASSERT (end_idx <= re_ctx_p->num_of_non_captures);
iter_idx = end_idx + (re_ctx_p->num_of_captures / 2) - 1;
end_idx += re_ctx_p->num_of_captures;
start_idx = end_idx;
}
/* Check the empty iteration if the minimum number of iterations is reached. */
if (re_ctx_p->num_of_iterations_p[iter_idx] >= min
&& str_curr_p== re_ctx_p->saved_p[start_idx])
{
return ECMA_VALUE_FALSE; /* fail */
}
re_ctx_p->num_of_iterations_p[iter_idx]++;
old_bc_p = bc_p; /* Save the bytecode end position of the END opcodes for matching after it. */
old_end_p = re_ctx_p->saved_p[end_idx];
re_ctx_p->saved_p[end_idx] = str_curr_p;
if (re_ctx_p->num_of_iterations_p[iter_idx] < max)
{
bc_p -= offset;
offset = re_get_value (&bc_p);
old_start_p = re_ctx_p->saved_p[start_idx];
re_ctx_p->saved_p[start_idx] = str_curr_p;
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
re_ctx_p->saved_p[start_idx] = old_start_p;
/* Try to match alternatives if any. */
bc_p += offset;
while (*bc_p == RE_OP_ALTERNATIVE)
{
bc_p++; /* RE_OP_ALTERNATIVE */
offset = re_get_value (&bc_p);
old_start_p = re_ctx_p->saved_p[start_idx];
re_ctx_p->saved_p[start_idx] = str_curr_p;
match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
re_ctx_p->saved_p[start_idx] = old_start_p;
bc_p += offset;
}
}
if (re_ctx_p->num_of_iterations_p[iter_idx] >= min
&& re_ctx_p->num_of_iterations_p[iter_idx] <= max)
{
/* Try to match the rest of the bytecode. */
ecma_value_t match_value = re_match_regexp (re_ctx_p, old_bc_p, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
}
/* restore if fails */
re_ctx_p->saved_p[end_idx] = old_end_p;
re_ctx_p->num_of_iterations_p[iter_idx]--;
return ECMA_VALUE_FALSE; /* fail */
}
case RE_OP_NON_GREEDY_ITERATOR:
{
uint32_t min, max, offset, num_of_iter;
const lit_utf8_byte_t *sub_str_p = NULL;
min = re_get_value (&bc_p);
max = re_get_value (&bc_p);
offset = re_get_value (&bc_p);
JERRY_TRACE_MSG ("Non-greedy iterator, min=%lu, max=%lu, offset=%ld\n",
(unsigned long) min, (unsigned long) max, (long) offset);
num_of_iter = 0;
while (num_of_iter <= max)
{
if (num_of_iter >= min)
{
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p + offset, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
}
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (!ecma_is_value_true (match_value))
{
if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
break;
}
str_curr_p = sub_str_p;
num_of_iter++;
}
return ECMA_VALUE_FALSE; /* fail */
}
case RE_OP_GREEDY_ITERATOR:
{
uint32_t min, max, offset, num_of_iter;
const lit_utf8_byte_t *sub_str_p = NULL;
min = re_get_value (&bc_p);
max = re_get_value (&bc_p);
offset = re_get_value (&bc_p);
JERRY_TRACE_MSG ("Greedy iterator, min=%lu, max=%lu, offset=%ld\n",
(unsigned long) min, (unsigned long) max, (long) offset);
num_of_iter = 0;
while (num_of_iter < max)
{
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p, str_curr_p, &sub_str_p);
if (!ecma_is_value_true (match_value))
{
if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
break;
}
str_curr_p = sub_str_p;
num_of_iter++;
}
while (num_of_iter >= min)
{
ecma_value_t match_value = re_match_regexp (re_ctx_p, bc_p + offset, str_curr_p, &sub_str_p);
if (ecma_is_value_true (match_value))
{
*out_str_p = sub_str_p;
return match_value; /* match */
}
else if (ECMA_IS_VALUE_ERROR (match_value))
{
return match_value;
}
if (num_of_iter == min)
{
break;
}
lit_utf8_read_prev (&str_curr_p);
num_of_iter--;
}
return ECMA_VALUE_FALSE; /* fail */
}
default:
{
JERRY_TRACE_MSG ("UNKNOWN opcode (%u)!\n", (unsigned int) op);
return ecma_raise_common_error (ECMA_ERR_MSG ("Unknown RegExp opcode."));
}
}
}
JERRY_UNREACHABLE ();
return ECMA_VALUE_FALSE; /* fail */
} /* re_match_regexp */
/**
* Define the necessary properties for the result array (index, input, length).
*/
void
re_set_result_array_properties (ecma_object_t *array_obj_p, /**< result array */
ecma_string_t *input_str_p, /**< input string */
uint32_t num_of_elements, /**< Number of array elements */
int32_t index) /**< index of matching */
{
/* Set index property of the result array */
ecma_builtin_helper_def_prop (array_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_INDEX),
ecma_make_int32_value (index),
true, /* Writable */
true, /* Enumerable */
true, /* Configurable */
true); /* Failure handling */
/* Set input property of the result array */
ecma_builtin_helper_def_prop (array_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_INPUT),
ecma_make_string_value (input_str_p),
true, /* Writable */
true, /* Enumerable */
true, /* Configurable */
true); /* Failure handling */
/* Set length property of the result array */
{
ecma_property_descriptor_t array_item_prop_desc = ecma_make_empty_property_descriptor ();
array_item_prop_desc.is_value_defined = true;
array_item_prop_desc.value = ecma_make_uint32_value (num_of_elements);
ecma_op_object_define_own_property (array_obj_p,
ecma_get_magic_string (LIT_MAGIC_STRING_LENGTH),
&array_item_prop_desc,
true);
}
} /* re_set_result_array_properties */
/**
* RegExp helper function to start the recursive matching algorithm
* and create the result Array object
*
* See also:
* ECMA-262 v5, 15.10.6.2
*
* @return array object - if matched
* null - otherwise
*
* May raise error.
* Returned value must be freed with ecma_free_value
*/
ecma_value_t
ecma_regexp_exec_helper (ecma_value_t regexp_value, /**< RegExp object */
ecma_value_t input_string, /**< input string */
bool ignore_global) /**< ignore global flag */
{
ecma_value_t ret_value = ECMA_VALUE_EMPTY;
JERRY_ASSERT (ecma_is_value_object (regexp_value));
JERRY_ASSERT (ecma_is_value_string (input_string));
ecma_object_t *regexp_object_p = ecma_get_object_from_value (regexp_value);
JERRY_ASSERT (ecma_object_class_is (regexp_object_p, LIT_MAGIC_STRING_REGEXP_UL));
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) regexp_object_p;
re_compiled_code_t *bc_p = ECMA_GET_INTERNAL_VALUE_ANY_POINTER (re_compiled_code_t,
ext_object_p->u.class_prop.u.value);
if (bc_p == NULL)
{
return ecma_raise_type_error (ECMA_ERR_MSG ("Incompatible type"));
}
ecma_string_t *input_string_p = ecma_get_string_from_value (input_string);
ECMA_STRING_TO_UTF8_STRING (input_string_p, input_buffer_p, input_buffer_size);
re_matcher_ctx_t re_ctx;
const lit_utf8_byte_t *input_curr_p = input_buffer_p;
re_ctx.input_start_p = input_curr_p;
const lit_utf8_byte_t *input_end_p = re_ctx.input_start_p + input_buffer_size;
re_ctx.input_end_p = input_end_p;
/* 1. Read bytecode header and init regexp matcher context. */
re_ctx.flags = bc_p->header.status_flags;
if (ignore_global)
{
re_ctx.flags &= (uint16_t) ~RE_FLAG_GLOBAL;
}
JERRY_TRACE_MSG ("Exec with flags [global: %d, ignoreCase: %d, multiline: %d]\n",
re_ctx.flags & RE_FLAG_GLOBAL,
re_ctx.flags & RE_FLAG_IGNORE_CASE,
re_ctx.flags & RE_FLAG_MULTILINE);
re_ctx.num_of_captures = bc_p->num_of_captures;
JERRY_ASSERT (re_ctx.num_of_captures % 2 == 0);
re_ctx.num_of_non_captures = bc_p->num_of_non_captures;
JMEM_DEFINE_LOCAL_ARRAY (saved_p, re_ctx.num_of_captures + re_ctx.num_of_non_captures, const lit_utf8_byte_t *);
for (uint32_t i = 0; i < re_ctx.num_of_captures + re_ctx.num_of_non_captures; i++)
{
saved_p[i] = NULL;
}
re_ctx.saved_p = saved_p;
uint32_t num_of_iter_length = (re_ctx.num_of_captures / 2) + (re_ctx.num_of_non_captures - 1);
JMEM_DEFINE_LOCAL_ARRAY (num_of_iter_p, num_of_iter_length, uint32_t);
for (uint32_t i = 0; i < num_of_iter_length; i++)
{
num_of_iter_p[i] = 0u;
}
bool is_match = false;
re_ctx.num_of_iterations_p = num_of_iter_p;
int32_t index = 0;
ecma_length_t input_str_len;
input_str_len = lit_utf8_string_length (input_buffer_p, input_buffer_size);
if (input_buffer_p && (re_ctx.flags & RE_FLAG_GLOBAL))
{
ecma_string_t *magic_str_p = ecma_get_magic_string (LIT_MAGIC_STRING_LASTINDEX_UL);
ecma_value_t lastindex_value = ecma_op_object_get_own_data_prop (regexp_object_p, magic_str_p);
ECMA_OP_TO_NUMBER_TRY_CATCH (lastindex_num, lastindex_value, ret_value)
index = ecma_number_to_int32 (lastindex_num);
if (input_curr_p < input_end_p
&& index <= (int32_t) input_str_len
&& index > 0)
{
for (int i = 0; i < index; i++)
{
lit_utf8_incr (&input_curr_p);
}
}
ECMA_OP_TO_NUMBER_FINALIZE (lastindex_num);
ecma_fast_free_value (lastindex_value);
}
/* 2. Try to match */
const lit_utf8_byte_t *sub_str_p = NULL;
uint8_t *bc_start_p = (uint8_t *) (bc_p + 1);
while (ecma_is_value_empty (ret_value))
{
if (index < 0 || index > (int32_t) input_str_len)
{
if (re_ctx.flags & RE_FLAG_GLOBAL)
{
ecma_op_object_put (regexp_object_p,
ecma_get_magic_string (LIT_MAGIC_STRING_LASTINDEX_UL),
ecma_make_integer_value (0),
true);
}
is_match = false;
break;
}
else
{
ECMA_TRY_CATCH (match_value, re_match_regexp (&re_ctx,
bc_start_p,
input_curr_p,
&sub_str_p),
ret_value);
if (ecma_is_value_true (match_value))
{
is_match = true;
break;
}
if (input_curr_p < input_end_p)
{
lit_utf8_incr (&input_curr_p);
}
index++;
ECMA_FINALIZE (match_value);
}
}
if (input_curr_p && (re_ctx.flags & RE_FLAG_GLOBAL))
{
ecma_number_t lastindex_num;
if (sub_str_p != NULL
&& input_buffer_p != NULL)
{
lastindex_num = (ecma_number_t) lit_utf8_string_length (input_buffer_p,
(lit_utf8_size_t) (sub_str_p - input_buffer_p));
}
else
{
lastindex_num = ECMA_NUMBER_ZERO;
}
ecma_op_object_put (regexp_object_p,
ecma_get_magic_string (LIT_MAGIC_STRING_LASTINDEX_UL),
ecma_make_number_value (lastindex_num),
true);
}
/* 3. Fill the result array or return with 'undefiend' */
if (ecma_is_value_empty (ret_value))
{
if (is_match)
{
ecma_value_t result_array = ecma_op_create_array_object (0, 0, false);
ecma_object_t *result_array_obj_p = ecma_get_object_from_value (result_array);
ecma_string_t *input_str_p = ecma_new_ecma_string_from_utf8 (input_buffer_p, input_buffer_size);
re_set_result_array_properties (result_array_obj_p, input_str_p, re_ctx.num_of_captures / 2, index);
ecma_deref_ecma_string (input_str_p);
for (uint32_t i = 0; i < re_ctx.num_of_captures; i += 2)
{
ecma_string_t *index_str_p = ecma_new_ecma_string_from_uint32 (i / 2);
ecma_value_t capture_value = ECMA_VALUE_UNDEFINED;
if (((re_ctx.saved_p[i] && re_ctx.saved_p[i + 1])
&& re_ctx.saved_p[i + 1] >= re_ctx.saved_p[i]))
{
ecma_length_t capture_str_len;
capture_str_len = (ecma_length_t) (re_ctx.saved_p[i + 1] - re_ctx.saved_p[i]);
ecma_string_t *capture_str_p;
if (capture_str_len > 0)
{
capture_str_p = ecma_new_ecma_string_from_utf8 (re_ctx.saved_p[i], capture_str_len);
}
else
{
capture_str_p = ecma_get_magic_string (LIT_MAGIC_STRING__EMPTY);
}
capture_value = ecma_make_string_value (capture_str_p);
}
ecma_property_value_t *prop_value_p;
prop_value_p = ecma_create_named_data_property (result_array_obj_p,
index_str_p,
ECMA_PROPERTY_CONFIGURABLE_ENUMERABLE_WRITABLE,
NULL);
prop_value_p->value = capture_value;
JERRY_ASSERT (!ecma_is_value_object (capture_value));
ecma_deref_ecma_string (index_str_p);
}
ret_value = result_array;
}
else
{
ret_value = ECMA_VALUE_NULL;
}
}
JMEM_FINALIZE_LOCAL_ARRAY (num_of_iter_p);
JMEM_FINALIZE_LOCAL_ARRAY (saved_p);
ECMA_FINALIZE_UTF8_STRING (input_buffer_p, input_buffer_size);
return ret_value;
} /* ecma_regexp_exec_helper */
/**
* Helper function for converting a RegExp pattern parameter to string.
*
* See also:
* RegExp.compile
* RegExp dispatch call
*
* @return empty value if success, error value otherwise
* Returned value must be freed with ecma_free_value.
*/
ecma_value_t
ecma_regexp_read_pattern_str_helper (ecma_value_t pattern_arg, /**< the RegExp pattern */
ecma_string_t **pattern_string_p) /**< [out] ptr to the pattern string ptr */
{
if (!ecma_is_value_undefined (pattern_arg))
{
ecma_value_t regexp_str_value = ecma_op_to_string (pattern_arg);
if (ECMA_IS_VALUE_ERROR (regexp_str_value))
{
return regexp_str_value;
}
*pattern_string_p = ecma_get_string_from_value (regexp_str_value);
if (!ecma_string_is_empty (*pattern_string_p))
{
ecma_ref_ecma_string (*pattern_string_p);
}
ecma_free_value (regexp_str_value); // must be freed *after* ecma_ref_ecma_string
}
if (!*pattern_string_p || ecma_string_is_empty (*pattern_string_p))
{
*pattern_string_p = ecma_get_magic_string (LIT_MAGIC_STRING_EMPTY_NON_CAPTURE_GROUP);
}
return ECMA_VALUE_EMPTY;
} /* ecma_regexp_read_pattern_str_helper */
/**
* @}
* @}
*/
#endif /* !CONFIG_DISABLE_REGEXP_BUILTIN */
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