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jerryscript/jerry-core/parser/js/js-parser.c
Szilagyi Adam 53b61c1f6f
Implement ECMAScript 2022 class static block (#4841) 
Co-authored-by: Martin Negyokru negyokru@inf.u-szeged.hu
JerryScript-DCO-1.0-Signed-off-by: Adam Szilagyi aszilagy@inf.u-szeged.hu
2021-12-15 15:45:53 +01:00

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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-exceptions.h"
#include "ecma-extended-info.h"
#include "ecma-helpers.h"
#include "ecma-literal-storage.h"
#include "ecma-module.h"
#include "debugger.h"
#include "jcontext.h"
#include "js-parser-internal.h"
#include "lit-char-helpers.h"
#if JERRY_PARSER
JERRY_STATIC_ASSERT ((int) ECMA_PARSE_STRICT_MODE == (int) PARSER_IS_STRICT,
ecma_parse_strict_mode_must_be_equal_to_parser_is_strict);
#if JERRY_ESNEXT
JERRY_STATIC_ASSERT (PARSER_SAVE_STATUS_FLAGS (PARSER_ALLOW_SUPER) == 0x1, incorrect_saving_of_ecma_parse_allow_super);
JERRY_STATIC_ASSERT (PARSER_RESTORE_STATUS_FLAGS (ECMA_PARSE_ALLOW_SUPER) == PARSER_ALLOW_SUPER,
incorrect_restoring_of_ecma_parse_allow_super);
JERRY_STATIC_ASSERT (PARSER_RESTORE_STATUS_FLAGS (ECMA_PARSE_FUNCTION_CONTEXT) == 0,
ecma_parse_function_context_must_not_be_transformed);
#endif /* JERRY_ESNEXT */
/** \addtogroup parser Parser
* @{
*
* \addtogroup jsparser JavaScript
* @{
*
* \addtogroup jsparser_parser Parser
* @{
*/
/**
* Compute real literal indicies.
*
* @return length of the prefix opcodes
*/
static void
parser_compute_indicies (parser_context_t *context_p, /**< context */
uint16_t *ident_end, /**< end of the identifier group */
uint16_t *const_literal_end) /**< end of the const literal group */
{
parser_list_iterator_t literal_iterator;
lexer_literal_t *literal_p;
uint16_t ident_count = 0;
uint16_t const_literal_count = 0;
uint16_t ident_index;
uint16_t const_literal_index;
uint16_t literal_index;
/* First phase: count the number of items in each group. */
parser_list_iterator_init (&context_p->literal_pool, &literal_iterator);
while ((literal_p = (lexer_literal_t *) parser_list_iterator_next (&literal_iterator)))
{
switch (literal_p->type)
{
case LEXER_IDENT_LITERAL:
{
if (literal_p->status_flags & LEXER_FLAG_USED)
{
ident_count++;
break;
}
else if (!(literal_p->status_flags & LEXER_FLAG_SOURCE_PTR))
{
jmem_heap_free_block ((void *) literal_p->u.char_p, literal_p->prop.length);
/* This literal should not be freed even if an error is encountered later. */
literal_p->status_flags |= LEXER_FLAG_SOURCE_PTR;
}
continue;
}
case LEXER_STRING_LITERAL:
{
const_literal_count++;
break;
}
case LEXER_NUMBER_LITERAL:
{
const_literal_count++;
continue;
}
case LEXER_FUNCTION_LITERAL:
case LEXER_REGEXP_LITERAL:
{
continue;
}
default:
{
JERRY_ASSERT (literal_p->type == LEXER_UNUSED_LITERAL);
continue;
}
}
const uint8_t *char_p = literal_p->u.char_p;
uint32_t status_flags = context_p->status_flags;
if ((literal_p->status_flags & LEXER_FLAG_SOURCE_PTR) && literal_p->prop.length < 0xfff)
{
size_t bytes_to_end = (size_t) (context_p->source_end_p - char_p);
if (bytes_to_end < 0xfffff)
{
literal_p->u.source_data = ((uint32_t) bytes_to_end) | (((uint32_t) literal_p->prop.length) << 20);
literal_p->status_flags |= LEXER_FLAG_LATE_INIT;
status_flags |= PARSER_HAS_LATE_LIT_INIT;
context_p->status_flags = status_flags;
char_p = NULL;
}
}
if (char_p != NULL)
{
literal_p->u.value = ecma_find_or_create_literal_string (char_p,
literal_p->prop.length,
(literal_p->status_flags & LEXER_FLAG_ASCII) != 0);
if (!(literal_p->status_flags & LEXER_FLAG_SOURCE_PTR))
{
jmem_heap_free_block ((void *) char_p, literal_p->prop.length);
/* This literal should not be freed even if an error is encountered later. */
literal_p->status_flags |= LEXER_FLAG_SOURCE_PTR;
}
}
}
ident_index = context_p->register_count;
const_literal_index = (uint16_t) (ident_index + ident_count);
literal_index = (uint16_t) (const_literal_index + const_literal_count);
/* Second phase: Assign an index to each literal. */
parser_list_iterator_init (&context_p->literal_pool, &literal_iterator);
while ((literal_p = (lexer_literal_t *) parser_list_iterator_next (&literal_iterator)))
{
switch (literal_p->type)
{
case LEXER_IDENT_LITERAL:
{
if (literal_p->status_flags & LEXER_FLAG_USED)
{
literal_p->prop.index = ident_index;
ident_index++;
}
break;
}
case LEXER_STRING_LITERAL:
case LEXER_NUMBER_LITERAL:
{
JERRY_ASSERT ((literal_p->status_flags & ~(LEXER_FLAG_SOURCE_PTR | LEXER_FLAG_LATE_INIT)) == 0);
literal_p->prop.index = const_literal_index;
const_literal_index++;
break;
}
case LEXER_FUNCTION_LITERAL:
case LEXER_REGEXP_LITERAL:
{
JERRY_ASSERT (literal_p->status_flags == 0);
literal_p->prop.index = literal_index;
literal_index++;
break;
}
default:
{
JERRY_ASSERT (literal_p->type == LEXER_UNUSED_LITERAL
&& literal_p->status_flags == LEXER_FLAG_FUNCTION_ARGUMENT);
break;
}
}
}
JERRY_ASSERT (ident_index == context_p->register_count + ident_count);
JERRY_ASSERT (const_literal_index == ident_index + const_literal_count);
JERRY_ASSERT (literal_index <= context_p->register_count + context_p->literal_count);
context_p->literal_count = literal_index;
*ident_end = ident_index;
*const_literal_end = const_literal_index;
} /* parser_compute_indicies */
/**
* Initialize literal pool.
*/
static void
parser_init_literal_pool (parser_context_t *context_p, /**< context */
ecma_value_t *literal_pool_p) /**< start of literal pool */
{
parser_list_iterator_t literal_iterator;
lexer_literal_t *literal_p;
parser_list_iterator_init (&context_p->literal_pool, &literal_iterator);
while ((literal_p = (lexer_literal_t *) parser_list_iterator_next (&literal_iterator)))
{
switch (literal_p->type)
{
case LEXER_IDENT_LITERAL:
{
if (!(literal_p->status_flags & LEXER_FLAG_USED))
{
break;
}
/* FALLTHRU */
}
case LEXER_STRING_LITERAL:
{
ecma_value_t lit_value = literal_p->u.value;
JERRY_ASSERT (literal_p->prop.index >= context_p->register_count);
literal_pool_p[literal_p->prop.index] = lit_value;
break;
}
case LEXER_NUMBER_LITERAL:
{
JERRY_ASSERT (literal_p->prop.index >= context_p->register_count);
literal_pool_p[literal_p->prop.index] = literal_p->u.value;
break;
}
case LEXER_FUNCTION_LITERAL:
case LEXER_REGEXP_LITERAL:
{
JERRY_ASSERT (literal_p->prop.index >= context_p->register_count);
ECMA_SET_INTERNAL_VALUE_POINTER (literal_pool_p[literal_p->prop.index], literal_p->u.bytecode_p);
break;
}
default:
{
JERRY_ASSERT (literal_p->type == LEXER_UNUSED_LITERAL);
break;
}
}
}
} /* parser_init_literal_pool */
/*
* During byte code post processing certain bytes are not
* copied into the final byte code buffer. For example, if
* one byte is enough for encoding a literal index, the
* second byte is not copied. However, when a byte is skipped,
* the offsets of those branches which crosses (jumps over)
* that byte code should also be decreased by one. Instead
* of finding these jumps every time when a byte is skipped,
* all branch offset updates are computed in one step.
*
* Branch offset mapping example:
*
* Let's assume that each parser_mem_page of the byte_code
* buffer is 8 bytes long and only 4 bytes are kept for a
* given page:
*
* +---+---+---+---+---+---+---+---+
* | X | 1 | 2 | 3 | X | 4 | X | X |
* +---+---+---+---+---+---+---+---+
*
* X marks those bytes which are removed. The resulting
* offset mapping is the following:
*
* +---+---+---+---+---+---+---+---+
* | 0 | 1 | 2 | 3 | 3 | 4 | 4 | 4 |
* +---+---+---+---+---+---+---+---+
*
* Each X is simply replaced by the index of the previous
* index starting from zero. This shows the number of
* copied bytes before a given byte including the byte
* itself. The last byte always shows the number of bytes
* copied from this page.
*
* This mapping allows recomputing all branch targets,
* since mapping[to] - mapping[from] is the new argument
* for forward branches. As for backward branches, the
* equation is reversed to mapping[from] - mapping[to].
*
* The mapping is relative to one page, so distance
* computation affecting multiple pages requires a loop.
* We should also note that only argument bytes can
* be skipped, so removed bytes cannot be targeted by
* branches. Valid branches always target instruction
* starts only.
*/
/**
* Recompute the argument of a forward branch.
*
* @return the new distance
*/
static size_t
parser_update_forward_branch (parser_mem_page_t *page_p, /**< current page */
size_t full_distance, /**< full distance */
uint8_t bytes_copied_before_jump) /**< bytes copied before jump */
{
size_t new_distance = 0;
while (full_distance > PARSER_CBC_STREAM_PAGE_SIZE)
{
new_distance += page_p->bytes[PARSER_CBC_STREAM_PAGE_SIZE - 1] & CBC_LOWER_SEVEN_BIT_MASK;
full_distance -= PARSER_CBC_STREAM_PAGE_SIZE;
page_p = page_p->next_p;
}
new_distance += page_p->bytes[full_distance - 1] & CBC_LOWER_SEVEN_BIT_MASK;
return new_distance - bytes_copied_before_jump;
} /* parser_update_forward_branch */
/**
* Recompute the argument of a backward branch.
*
* @return the new distance
*/
static size_t
parser_update_backward_branch (parser_mem_page_t *page_p, /**< current page */
size_t full_distance, /**< full distance */
uint8_t bytes_copied_before_jump) /**< bytes copied before jump */
{
size_t new_distance = bytes_copied_before_jump;
while (full_distance >= PARSER_CBC_STREAM_PAGE_SIZE)
{
JERRY_ASSERT (page_p != NULL);
new_distance += page_p->bytes[PARSER_CBC_STREAM_PAGE_SIZE - 1] & CBC_LOWER_SEVEN_BIT_MASK;
full_distance -= PARSER_CBC_STREAM_PAGE_SIZE;
page_p = page_p->next_p;
}
if (full_distance > 0)
{
size_t offset = PARSER_CBC_STREAM_PAGE_SIZE - full_distance;
JERRY_ASSERT (page_p != NULL);
new_distance += page_p->bytes[PARSER_CBC_STREAM_PAGE_SIZE - 1] & CBC_LOWER_SEVEN_BIT_MASK;
new_distance -= page_p->bytes[offset - 1] & CBC_LOWER_SEVEN_BIT_MASK;
}
return new_distance;
} /* parser_update_backward_branch */
/**
* Update targets of all branches in one step.
*/
static void
parse_update_branches (parser_context_t *context_p, /**< context */
uint8_t *byte_code_p) /**< byte code */
{
parser_mem_page_t *page_p = context_p->byte_code.first_p;
parser_mem_page_t *prev_page_p = NULL;
parser_mem_page_t *last_page_p = context_p->byte_code.last_p;
size_t last_position = context_p->byte_code.last_position;
size_t offset = 0;
size_t bytes_copied = 0;
if (last_position >= PARSER_CBC_STREAM_PAGE_SIZE)
{
last_page_p = NULL;
last_position = 0;
}
while (page_p != last_page_p || offset < last_position)
{
/* Branch instructions are marked to improve search speed. */
if (page_p->bytes[offset] & CBC_HIGHEST_BIT_MASK)
{
uint8_t *bytes_p = byte_code_p + bytes_copied;
uint8_t flags;
uint8_t bytes_copied_before_jump = 0;
size_t branch_argument_length;
size_t target_distance;
size_t length;
if (offset > 0)
{
bytes_copied_before_jump = page_p->bytes[offset - 1] & CBC_LOWER_SEVEN_BIT_MASK;
}
bytes_p += bytes_copied_before_jump;
if (*bytes_p == CBC_EXT_OPCODE)
{
bytes_p++;
flags = cbc_ext_flags[*bytes_p];
}
else
{
flags = cbc_flags[*bytes_p];
}
JERRY_ASSERT (flags & CBC_HAS_BRANCH_ARG);
branch_argument_length = CBC_BRANCH_OFFSET_LENGTH (*bytes_p);
bytes_p++;
/* Decoding target. */
length = branch_argument_length;
target_distance = 0;
do
{
target_distance = (target_distance << 8) | *bytes_p;
bytes_p++;
} while (--length > 0);
if (CBC_BRANCH_IS_FORWARD (flags))
{
/* Branch target was not set. */
JERRY_ASSERT (target_distance > 0);
target_distance = parser_update_forward_branch (page_p, offset + target_distance, bytes_copied_before_jump);
}
else
{
if (target_distance < offset)
{
uint8_t bytes_copied_before_target = page_p->bytes[offset - target_distance - 1];
bytes_copied_before_target = bytes_copied_before_target & CBC_LOWER_SEVEN_BIT_MASK;
target_distance = (size_t) (bytes_copied_before_jump - bytes_copied_before_target);
}
else if (target_distance == offset)
{
target_distance = bytes_copied_before_jump;
}
else
{
target_distance =
parser_update_backward_branch (prev_page_p, target_distance - offset, bytes_copied_before_jump);
}
}
/* Encoding target again. */
do
{
bytes_p--;
*bytes_p = (uint8_t) (target_distance & 0xff);
target_distance >>= 8;
} while (--branch_argument_length > 0);
}
offset++;
if (offset >= PARSER_CBC_STREAM_PAGE_SIZE)
{
parser_mem_page_t *next_p = page_p->next_p;
/* We reverse the pages before the current page. */
page_p->next_p = prev_page_p;
prev_page_p = page_p;
bytes_copied += page_p->bytes[PARSER_CBC_STREAM_PAGE_SIZE - 1] & CBC_LOWER_SEVEN_BIT_MASK;
page_p = next_p;
offset = 0;
}
}
/* After this point the pages of the byte code stream are
* not used anymore. However, they needs to be freed during
* cleanup, so the first and last pointers of the stream
* descriptor are reversed as well. */
if (last_page_p != NULL)
{
JERRY_ASSERT (last_page_p == context_p->byte_code.last_p);
last_page_p->next_p = prev_page_p;
}
else
{
last_page_p = context_p->byte_code.last_p;
}
context_p->byte_code.last_p = context_p->byte_code.first_p;
context_p->byte_code.first_p = last_page_p;
} /* parse_update_branches */
#if JERRY_DEBUGGER
/**
* Send current breakpoint list.
*/
static void
parser_send_breakpoints (parser_context_t *context_p, /**< context */
jerry_debugger_header_type_t type) /**< message type */
{
JERRY_ASSERT (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED);
JERRY_ASSERT (context_p->breakpoint_info_count > 0);
jerry_debugger_send_data (type,
context_p->breakpoint_info,
context_p->breakpoint_info_count * sizeof (parser_breakpoint_info_t));
context_p->breakpoint_info_count = 0;
} /* parser_send_breakpoints */
/**
* Append a breakpoint info.
*/
void
parser_append_breakpoint_info (parser_context_t *context_p, /**< context */
jerry_debugger_header_type_t type, /**< message type */
uint32_t value) /**< line or offset of the breakpoint */
{
JERRY_ASSERT (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED);
context_p->status_flags |= PARSER_DEBUGGER_BREAKPOINT_APPENDED;
if (context_p->breakpoint_info_count >= JERRY_DEBUGGER_SEND_MAX (parser_breakpoint_info_t))
{
parser_send_breakpoints (context_p, type);
}
context_p->breakpoint_info[context_p->breakpoint_info_count].value = value;
context_p->breakpoint_info_count = (uint16_t) (context_p->breakpoint_info_count + 1);
} /* parser_append_breakpoint_info */
#endif /* JERRY_DEBUGGER */
/**
* Forward iterator: move to the next byte code
*
* @param page_p page
* @param offset offset
*/
#define PARSER_NEXT_BYTE(page_p, offset) \
do \
{ \
if (++(offset) >= PARSER_CBC_STREAM_PAGE_SIZE) \
{ \
offset = 0; \
page_p = page_p->next_p; \
} \
} while (0)
/**
* Forward iterator: move to the next byte code. Also updates the offset of the previous byte code.
*
* @param page_p page
* @param offset offset
* @param real_offset real offset
*/
#define PARSER_NEXT_BYTE_UPDATE(page_p, offset, real_offset) \
do \
{ \
page_p->bytes[offset] = real_offset; \
if (++(offset) >= PARSER_CBC_STREAM_PAGE_SIZE) \
{ \
offset = 0; \
real_offset = 0; \
page_p = page_p->next_p; \
} \
} while (0)
/**
* Post processing main function.
*
* @return compiled code
*/
static ecma_compiled_code_t *
parser_post_processing (parser_context_t *context_p) /**< context */
{
uint16_t literal_one_byte_limit;
uint16_t ident_end;
uint16_t const_literal_end;
parser_mem_page_t *page_p;
parser_mem_page_t *last_page_p;
size_t last_position;
size_t offset;
size_t length;
size_t literal_length;
size_t total_size;
uint8_t real_offset;
uint8_t *byte_code_p;
bool needs_uint16_arguments;
cbc_opcode_t last_opcode = CBC_EXT_OPCODE;
ecma_compiled_code_t *compiled_code_p;
ecma_value_t *literal_pool_p;
uint8_t *dst_p;
#if JERRY_ESNEXT
if ((context_p->status_flags & (PARSER_IS_FUNCTION | PARSER_LEXICAL_BLOCK_NEEDED))
== (PARSER_IS_FUNCTION | PARSER_LEXICAL_BLOCK_NEEDED))
{
PARSER_MINUS_EQUAL_U16 (context_p->stack_depth, PARSER_BLOCK_CONTEXT_STACK_ALLOCATION);
#ifndef JERRY_NDEBUG
PARSER_MINUS_EQUAL_U16 (context_p->context_stack_depth, PARSER_BLOCK_CONTEXT_STACK_ALLOCATION);
#endif /* !JERRY_NDEBUG */
context_p->status_flags &= (uint32_t) ~PARSER_LEXICAL_BLOCK_NEEDED;
parser_emit_cbc (context_p, CBC_CONTEXT_END);
parser_branch_t branch;
parser_stack_pop (context_p, &branch, sizeof (parser_branch_t));
parser_set_branch_to_current_position (context_p, &branch);
JERRY_ASSERT (!(context_p->status_flags & PARSER_NO_END_LABEL));
}
if (PARSER_IS_NORMAL_ASYNC_FUNCTION (context_p->status_flags))
{
PARSER_MINUS_EQUAL_U16 (context_p->stack_depth, PARSER_TRY_CONTEXT_STACK_ALLOCATION);
#ifndef JERRY_NDEBUG
PARSER_MINUS_EQUAL_U16 (context_p->context_stack_depth, PARSER_TRY_CONTEXT_STACK_ALLOCATION);
#endif /* !JERRY_NDEBUG */
if (context_p->stack_limit < PARSER_FINALLY_CONTEXT_STACK_ALLOCATION)
{
context_p->stack_limit = PARSER_FINALLY_CONTEXT_STACK_ALLOCATION;
}
parser_branch_t branch;
parser_stack_pop (context_p, &branch, sizeof (parser_branch_t));
parser_set_branch_to_current_position (context_p, &branch);
JERRY_ASSERT (!(context_p->status_flags & PARSER_NO_END_LABEL));
}
#endif /* JERRY_ESNEXT */
#if JERRY_LINE_INFO
JERRY_ASSERT (context_p->line_info_p != NULL);
#endif /* JERRY_LINE_INFO */
JERRY_ASSERT (context_p->stack_depth == 0);
#ifndef JERRY_NDEBUG
JERRY_ASSERT (context_p->context_stack_depth == 0);
#endif /* !JERRY_NDEBUG */
if ((size_t) context_p->stack_limit + (size_t) context_p->register_count > PARSER_MAXIMUM_STACK_LIMIT)
{
parser_raise_error (context_p, PARSER_ERR_STACK_LIMIT_REACHED);
}
if (JERRY_UNLIKELY (context_p->script_p->refs_and_type >= CBC_SCRIPT_REF_MAX))
{
/* This is probably never happens in practice. */
jerry_fatal (ERR_REF_COUNT_LIMIT);
}
context_p->script_p->refs_and_type += CBC_SCRIPT_REF_ONE;
JERRY_ASSERT (context_p->literal_count <= PARSER_MAXIMUM_NUMBER_OF_LITERALS);
#if JERRY_DEBUGGER
if ((JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
&& !(context_p->status_flags & PARSER_DEBUGGER_BREAKPOINT_APPENDED))
{
/* Always provide at least one breakpoint. */
parser_emit_cbc (context_p, CBC_BREAKPOINT_DISABLED);
parser_flush_cbc (context_p);
parser_append_breakpoint_info (context_p, JERRY_DEBUGGER_BREAKPOINT_LIST, context_p->token.line);
context_p->last_breakpoint_line = context_p->token.line;
}
if ((JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED) && context_p->breakpoint_info_count > 0)
{
parser_send_breakpoints (context_p, JERRY_DEBUGGER_BREAKPOINT_LIST);
JERRY_ASSERT (context_p->breakpoint_info_count == 0);
}
#endif /* JERRY_DEBUGGER */
parser_compute_indicies (context_p, &ident_end, &const_literal_end);
if (context_p->literal_count <= CBC_MAXIMUM_SMALL_VALUE)
{
literal_one_byte_limit = CBC_MAXIMUM_BYTE_VALUE - 1;
}
else
{
literal_one_byte_limit = CBC_LOWER_SEVEN_BIT_MASK;
}
last_page_p = context_p->byte_code.last_p;
last_position = context_p->byte_code.last_position;
if (last_position >= PARSER_CBC_STREAM_PAGE_SIZE)
{
last_page_p = NULL;
last_position = 0;
}
page_p = context_p->byte_code.first_p;
offset = 0;
length = 0;
while (page_p != last_page_p || offset < last_position)
{
uint8_t *opcode_p;
uint8_t flags;
size_t branch_offset_length;
opcode_p = page_p->bytes + offset;
last_opcode = (cbc_opcode_t) (*opcode_p);
PARSER_NEXT_BYTE (page_p, offset);
branch_offset_length = CBC_BRANCH_OFFSET_LENGTH (last_opcode);
flags = cbc_flags[last_opcode];
length++;
switch (last_opcode)
{
case CBC_EXT_OPCODE:
{
cbc_ext_opcode_t ext_opcode;
ext_opcode = (cbc_ext_opcode_t) page_p->bytes[offset];
branch_offset_length = CBC_BRANCH_OFFSET_LENGTH (ext_opcode);
flags = cbc_ext_flags[ext_opcode];
PARSER_NEXT_BYTE (page_p, offset);
length++;
break;
}
case CBC_POST_DECR:
{
*opcode_p = CBC_PRE_DECR;
break;
}
case CBC_POST_INCR:
{
*opcode_p = CBC_PRE_INCR;
break;
}
case CBC_POST_DECR_IDENT:
{
*opcode_p = CBC_PRE_DECR_IDENT;
break;
}
case CBC_POST_INCR_IDENT:
{
*opcode_p = CBC_PRE_INCR_IDENT;
break;
}
default:
{
break;
}
}
while (flags & (CBC_HAS_LITERAL_ARG | CBC_HAS_LITERAL_ARG2))
{
uint8_t *first_byte = page_p->bytes + offset;
uint32_t literal_index = *first_byte;
PARSER_NEXT_BYTE (page_p, offset);
length++;
literal_index |= ((uint32_t) page_p->bytes[offset]) << 8;
if (literal_index >= PARSER_REGISTER_START)
{
literal_index -= PARSER_REGISTER_START;
}
else
{
literal_index = (PARSER_GET_LITERAL (literal_index))->prop.index;
}
if (literal_index <= literal_one_byte_limit)
{
*first_byte = (uint8_t) literal_index;
}
else
{
if (context_p->literal_count <= CBC_MAXIMUM_SMALL_VALUE)
{
JERRY_ASSERT (literal_index <= CBC_MAXIMUM_SMALL_VALUE);
*first_byte = CBC_MAXIMUM_BYTE_VALUE;
page_p->bytes[offset] = (uint8_t) (literal_index - CBC_MAXIMUM_BYTE_VALUE);
length++;
}
else
{
JERRY_ASSERT (literal_index <= CBC_MAXIMUM_FULL_VALUE);
*first_byte = (uint8_t) ((literal_index >> 8) | CBC_HIGHEST_BIT_MASK);
page_p->bytes[offset] = (uint8_t) (literal_index & 0xff);
length++;
}
}
PARSER_NEXT_BYTE (page_p, offset);
if (flags & CBC_HAS_LITERAL_ARG2)
{
if (flags & CBC_HAS_LITERAL_ARG)
{
flags = CBC_HAS_LITERAL_ARG;
}
else
{
flags = CBC_HAS_LITERAL_ARG | CBC_HAS_LITERAL_ARG2;
}
}
else
{
break;
}
}
if (flags & CBC_HAS_BYTE_ARG)
{
/* This argument will be copied without modification. */
PARSER_NEXT_BYTE (page_p, offset);
length++;
}
if (flags & CBC_HAS_BRANCH_ARG)
{
bool prefix_zero = true;
/* The leading zeroes are dropped from the stream.
* Although dropping these zeroes for backward
* branches are unnecessary, we use the same
* code path for simplicity. */
JERRY_ASSERT (branch_offset_length > 0 && branch_offset_length <= 3);
while (--branch_offset_length > 0)
{
uint8_t byte = page_p->bytes[offset];
if (byte > 0 || !prefix_zero)
{
prefix_zero = false;
length++;
}
else
{
JERRY_ASSERT (CBC_BRANCH_IS_FORWARD (flags));
}
PARSER_NEXT_BYTE (page_p, offset);
}
if (last_opcode == (cbc_opcode_t) (CBC_JUMP_FORWARD + PARSER_MAX_BRANCH_LENGTH - 1) && prefix_zero
&& page_p->bytes[offset] == PARSER_MAX_BRANCH_LENGTH + 1)
{
/* Uncoditional jumps which jump right after the instruction
* are effectively NOPs. These jumps are removed from the
* stream. The 1 byte long CBC_JUMP_FORWARD form marks these
* instructions, since this form is constructed during post
* processing and cannot be emitted directly. */
*opcode_p = CBC_JUMP_FORWARD;
length--;
}
else
{
/* Other last bytes are always copied. */
length++;
}
PARSER_NEXT_BYTE (page_p, offset);
}
}
if (!(context_p->status_flags & PARSER_NO_END_LABEL) || !(PARSER_OPCODE_IS_RETURN (last_opcode)))
{
context_p->status_flags &= (uint32_t) ~PARSER_NO_END_LABEL;
#if JERRY_ESNEXT
if (PARSER_IS_NORMAL_ASYNC_FUNCTION (context_p->status_flags))
{
length++;
}
#endif /* JERRY_ESNEXT */
length++;
}
needs_uint16_arguments = false;
total_size = sizeof (cbc_uint8_arguments_t);
if (context_p->stack_limit > CBC_MAXIMUM_BYTE_VALUE || context_p->register_count > CBC_MAXIMUM_BYTE_VALUE
|| context_p->literal_count > CBC_MAXIMUM_BYTE_VALUE)
{
needs_uint16_arguments = true;
total_size = sizeof (cbc_uint16_arguments_t);
}
literal_length = (size_t) (context_p->literal_count - context_p->register_count) * sizeof (ecma_value_t);
total_size += literal_length + length;
if (PARSER_NEEDS_MAPPED_ARGUMENTS (context_p->status_flags))
{
total_size += context_p->argument_count * sizeof (ecma_value_t);
}
#if JERRY_ESNEXT
/* function.name */
if (!(context_p->status_flags & PARSER_CLASS_CONSTRUCTOR))
{
total_size += sizeof (ecma_value_t);
}
if (context_p->tagged_template_literal_cp != JMEM_CP_NULL)
{
total_size += sizeof (ecma_value_t);
}
#endif /* JERRY_ESNEXT */
#if JERRY_LINE_INFO
total_size += sizeof (ecma_value_t);
#endif /* JERRY_LINE_INFO */
#if JERRY_ESNEXT || JERRY_FUNCTION_TO_STRING
uint8_t extended_info = 0;
#endif /* JERRY_ESNEXT || JERRY_FUNCTION_TO_STRING */
#if JERRY_ESNEXT
if (context_p->argument_length != UINT16_MAX)
{
extended_info |= CBC_EXTENDED_CODE_FLAGS_HAS_ARGUMENT_LENGTH;
total_size += ecma_extended_info_get_encoded_length (context_p->argument_length);
}
#endif /* JERRY_ESNEXT */
#if JERRY_FUNCTION_TO_STRING
if (context_p->last_context_p != NULL)
{
extended_info |= CBC_EXTENDED_CODE_FLAGS_HAS_SOURCE_CODE_RANGE;
const uint8_t *start_p = context_p->source_start_p;
const uint8_t *function_start_p = context_p->last_context_p->function_start_p;
if (function_start_p < start_p || function_start_p >= start_p + context_p->source_size)
{
JERRY_ASSERT (context_p->arguments_start_p != NULL && function_start_p >= context_p->arguments_start_p
&& function_start_p < context_p->arguments_start_p + context_p->arguments_size);
start_p = context_p->arguments_start_p;
extended_info |= CBC_EXTENDED_CODE_FLAGS_SOURCE_CODE_IN_ARGUMENTS;
}
total_size += ecma_extended_info_get_encoded_length ((uint32_t) (function_start_p - start_p));
total_size += ecma_extended_info_get_encoded_length ((uint32_t) (context_p->function_end_p - function_start_p));
}
#endif /* JERRY_FUNCTION_TO_STRING */
#if JERRY_ESNEXT || JERRY_FUNCTION_TO_STRING
if (extended_info != 0)
{
total_size += sizeof (uint8_t);
}
#endif /* JERRY_ESNEXT || JERRY_FUNCTION_TO_STRING */
total_size = JERRY_ALIGNUP (total_size, JMEM_ALIGNMENT);
compiled_code_p = (ecma_compiled_code_t *) parser_malloc (context_p, total_size);
#if JERRY_SNAPSHOT_SAVE || JERRY_PARSER_DUMP_BYTE_CODE
// Avoid getting junk bytes
memset (compiled_code_p, 0, total_size);
#endif /* JERRY_SNAPSHOT_SAVE || JERRY_PARSER_DUMP_BYTE_CODE */
#if JERRY_MEM_STATS
jmem_stats_allocate_byte_code_bytes (total_size);
#endif /* JERRY_MEM_STATS */
byte_code_p = (uint8_t *) compiled_code_p;
compiled_code_p->size = (uint16_t) (total_size >> JMEM_ALIGNMENT_LOG);
compiled_code_p->refs = 1;
compiled_code_p->status_flags = 0;
#if JERRY_ESNEXT
if (context_p->status_flags & PARSER_FUNCTION_HAS_REST_PARAM)
{
JERRY_ASSERT (context_p->argument_count > 0);
context_p->argument_count--;
}
#endif /* JERRY_ESNEXT */
if (needs_uint16_arguments)
{
cbc_uint16_arguments_t *args_p = (cbc_uint16_arguments_t *) compiled_code_p;
args_p->stack_limit = context_p->stack_limit;
args_p->script_value = context_p->script_value;
args_p->argument_end = context_p->argument_count;
args_p->register_end = context_p->register_count;
args_p->ident_end = ident_end;
args_p->const_literal_end = const_literal_end;
args_p->literal_end = context_p->literal_count;
compiled_code_p->status_flags |= CBC_CODE_FLAGS_UINT16_ARGUMENTS;
byte_code_p += sizeof (cbc_uint16_arguments_t);
}
else
{
cbc_uint8_arguments_t *args_p = (cbc_uint8_arguments_t *) compiled_code_p;
args_p->stack_limit = (uint8_t) context_p->stack_limit;
args_p->argument_end = (uint8_t) context_p->argument_count;
args_p->script_value = context_p->script_value;
args_p->register_end = (uint8_t) context_p->register_count;
args_p->ident_end = (uint8_t) ident_end;
args_p->const_literal_end = (uint8_t) const_literal_end;
args_p->literal_end = (uint8_t) context_p->literal_count;
byte_code_p += sizeof (cbc_uint8_arguments_t);
}
uint16_t encoding_limit;
uint16_t encoding_delta;
if (context_p->literal_count > CBC_MAXIMUM_SMALL_VALUE)
{
compiled_code_p->status_flags |= CBC_CODE_FLAGS_FULL_LITERAL_ENCODING;
encoding_limit = CBC_FULL_LITERAL_ENCODING_LIMIT;
encoding_delta = CBC_FULL_LITERAL_ENCODING_DELTA;
}
else
{
encoding_limit = CBC_SMALL_LITERAL_ENCODING_LIMIT;
encoding_delta = CBC_SMALL_LITERAL_ENCODING_DELTA;
}
if (context_p->status_flags & PARSER_IS_STRICT)
{
compiled_code_p->status_flags |= CBC_CODE_FLAGS_STRICT_MODE;
}
if ((context_p->status_flags & PARSER_ARGUMENTS_NEEDED) && PARSER_NEEDS_MAPPED_ARGUMENTS (context_p->status_flags))
{
compiled_code_p->status_flags |= CBC_CODE_FLAGS_MAPPED_ARGUMENTS_NEEDED;
}
if (!(context_p->status_flags & PARSER_LEXICAL_ENV_NEEDED))
{
compiled_code_p->status_flags |= CBC_CODE_FLAGS_LEXICAL_ENV_NOT_NEEDED;
}
uint16_t function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_NORMAL);
if (context_p->status_flags & (PARSER_IS_PROPERTY_GETTER | PARSER_IS_PROPERTY_SETTER))
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_ACCESSOR);
}
else if (!(context_p->status_flags & PARSER_IS_FUNCTION))
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_SCRIPT);
}
#if JERRY_ESNEXT
else if (context_p->status_flags & PARSER_IS_ARROW_FUNCTION)
{
if (context_p->status_flags & PARSER_IS_ASYNC_FUNCTION)
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_ASYNC_ARROW);
}
else
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_ARROW);
}
}
else if (context_p->status_flags & PARSER_IS_GENERATOR_FUNCTION)
{
if (context_p->status_flags & PARSER_IS_ASYNC_FUNCTION)
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_ASYNC_GENERATOR);
}
else
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_GENERATOR);
}
}
else if (context_p->status_flags & PARSER_IS_ASYNC_FUNCTION)
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_ASYNC);
}
else if (context_p->status_flags & PARSER_CLASS_CONSTRUCTOR)
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_CONSTRUCTOR);
}
else if (context_p->status_flags & PARSER_IS_METHOD)
{
function_type = CBC_FUNCTION_TO_TYPE_BITS (CBC_FUNCTION_METHOD);
}
if (context_p->status_flags & PARSER_LEXICAL_BLOCK_NEEDED)
{
JERRY_ASSERT (!(context_p->status_flags & PARSER_IS_FUNCTION));
compiled_code_p->status_flags |= CBC_CODE_FLAGS_LEXICAL_BLOCK_NEEDED;
}
#endif /* JERRY_ESNEXT */
compiled_code_p->status_flags |= function_type;
#if JERRY_LINE_INFO
compiled_code_p->status_flags |= CBC_CODE_FLAGS_HAS_LINE_INFO;
#endif /* JERRY_LINE_INFO */
literal_pool_p = ((ecma_value_t *) byte_code_p) - context_p->register_count;
byte_code_p += literal_length;
dst_p = byte_code_p;
parser_init_literal_pool (context_p, literal_pool_p);
page_p = context_p->byte_code.first_p;
offset = 0;
real_offset = 0;
uint8_t last_register_index =
(uint8_t) JERRY_MIN (context_p->register_count, (PARSER_MAXIMUM_NUMBER_OF_REGISTERS - 1));
while (page_p != last_page_p || offset < last_position)
{
uint8_t flags;
uint8_t *opcode_p;
uint8_t *branch_mark_p;
cbc_opcode_t opcode;
size_t branch_offset_length;
opcode_p = dst_p;
branch_mark_p = page_p->bytes + offset;
opcode = (cbc_opcode_t) (*branch_mark_p);
branch_offset_length = CBC_BRANCH_OFFSET_LENGTH (opcode);
if (opcode == CBC_JUMP_FORWARD)
{
/* These opcodes are deleted from the stream. */
size_t counter = PARSER_MAX_BRANCH_LENGTH + 1;
do
{
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
} while (--counter > 0);
continue;
}
/* Storing the opcode */
*dst_p++ = (uint8_t) opcode;
real_offset++;
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
flags = cbc_flags[opcode];
#if JERRY_DEBUGGER
if (opcode == CBC_BREAKPOINT_DISABLED)
{
uint32_t bp_offset = (uint32_t) (((uint8_t *) dst_p) - ((uint8_t *) compiled_code_p) - 1);
parser_append_breakpoint_info (context_p, JERRY_DEBUGGER_BREAKPOINT_OFFSET_LIST, bp_offset);
}
#endif /* JERRY_DEBUGGER */
if (opcode == CBC_EXT_OPCODE)
{
cbc_ext_opcode_t ext_opcode;
ext_opcode = (cbc_ext_opcode_t) page_p->bytes[offset];
flags = cbc_ext_flags[ext_opcode];
branch_offset_length = CBC_BRANCH_OFFSET_LENGTH (ext_opcode);
/* Storing the extended opcode */
*dst_p++ = (uint8_t) ext_opcode;
opcode_p++;
real_offset++;
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
}
/* Only literal and call arguments can be combined. */
JERRY_ASSERT (!(flags & CBC_HAS_BRANCH_ARG) || !(flags & (CBC_HAS_BYTE_ARG | CBC_HAS_LITERAL_ARG)));
while (flags & (CBC_HAS_LITERAL_ARG | CBC_HAS_LITERAL_ARG2))
{
uint16_t first_byte = page_p->bytes[offset];
uint8_t *opcode_pos_p = dst_p - 1;
*dst_p++ = (uint8_t) first_byte;
real_offset++;
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
if (first_byte > literal_one_byte_limit)
{
*dst_p++ = page_p->bytes[offset];
if (first_byte >= encoding_limit)
{
first_byte = (uint16_t) (((first_byte << 8) | dst_p[-1]) - encoding_delta);
}
real_offset++;
}
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
if (flags & CBC_HAS_LITERAL_ARG2)
{
if (flags & CBC_HAS_LITERAL_ARG)
{
flags = CBC_HAS_LITERAL_ARG;
}
else
{
flags = CBC_HAS_LITERAL_ARG | CBC_HAS_LITERAL_ARG2;
}
}
else
{
if (opcode == CBC_ASSIGN_SET_IDENT && JERRY_LIKELY (first_byte < last_register_index))
{
*opcode_pos_p = CBC_MOV_IDENT;
}
break;
}
}
if (flags & CBC_HAS_BYTE_ARG)
{
/* This argument will be copied without modification. */
*dst_p++ = page_p->bytes[offset];
real_offset++;
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
continue;
}
if (flags & CBC_HAS_BRANCH_ARG)
{
*branch_mark_p |= CBC_HIGHEST_BIT_MASK;
bool prefix_zero = true;
/* The leading zeroes are dropped from the stream. */
JERRY_ASSERT (branch_offset_length > 0 && branch_offset_length <= 3);
while (--branch_offset_length > 0)
{
uint8_t byte = page_p->bytes[offset];
if (byte > 0 || !prefix_zero)
{
prefix_zero = false;
*dst_p++ = page_p->bytes[offset];
real_offset++;
}
else
{
/* When a leading zero is dropped, the branch
* offset length must be decreased as well. */
(*opcode_p)--;
}
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
}
*dst_p++ = page_p->bytes[offset];
real_offset++;
PARSER_NEXT_BYTE_UPDATE (page_p, offset, real_offset);
continue;
}
}
#if JERRY_DEBUGGER
if ((JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED) && context_p->breakpoint_info_count > 0)
{
parser_send_breakpoints (context_p, JERRY_DEBUGGER_BREAKPOINT_OFFSET_LIST);
JERRY_ASSERT (context_p->breakpoint_info_count == 0);
}
#endif /* JERRY_DEBUGGER */
if (!(context_p->status_flags & PARSER_NO_END_LABEL))
{
*dst_p++ = CBC_RETURN_FUNCTION_END;
#if JERRY_ESNEXT
if (PARSER_IS_NORMAL_ASYNC_FUNCTION (context_p->status_flags))
{
dst_p[-1] = CBC_EXT_OPCODE;
dst_p[0] = CBC_EXT_ASYNC_EXIT;
dst_p++;
}
#endif /* JERRY_ESNEXT */
}
JERRY_ASSERT (dst_p == byte_code_p + length);
#if JERRY_LINE_INFO
uint8_t *line_info_p = parser_line_info_generate (context_p);
#endif /* JERRY_LINE_INFO */
parse_update_branches (context_p, byte_code_p);
parser_cbc_stream_free (&context_p->byte_code);
if (context_p->status_flags & PARSER_HAS_LATE_LIT_INIT)
{
parser_list_iterator_t literal_iterator;
lexer_literal_t *literal_p;
uint16_t register_count = context_p->register_count;
parser_list_iterator_init (&context_p->literal_pool, &literal_iterator);
while ((literal_p = (lexer_literal_t *) parser_list_iterator_next (&literal_iterator)))
{
if ((literal_p->status_flags & LEXER_FLAG_LATE_INIT) && literal_p->prop.index >= register_count)
{
uint32_t source_data = literal_p->u.source_data;
const uint8_t *char_p = context_p->source_end_p - (source_data & 0xfffff);
ecma_value_t lit_value = ecma_find_or_create_literal_string (char_p,
source_data >> 20,
(literal_p->status_flags & LEXER_FLAG_ASCII) != 0);
literal_pool_p[literal_p->prop.index] = lit_value;
}
}
}
ecma_value_t *base_p = (ecma_value_t *) (((uint8_t *) compiled_code_p) + total_size);
if (PARSER_NEEDS_MAPPED_ARGUMENTS (context_p->status_flags))
{
parser_list_iterator_t literal_iterator;
uint16_t argument_count = 0;
uint16_t register_count = context_p->register_count;
base_p -= context_p->argument_count;
parser_list_iterator_init (&context_p->literal_pool, &literal_iterator);
while (argument_count < context_p->argument_count)
{
lexer_literal_t *literal_p;
literal_p = (lexer_literal_t *) parser_list_iterator_next (&literal_iterator);
JERRY_ASSERT (literal_p != NULL);
if (!(literal_p->status_flags & LEXER_FLAG_FUNCTION_ARGUMENT))
{
continue;
}
/* All arguments must be moved to initialized registers. */
if (literal_p->type == LEXER_UNUSED_LITERAL)
{
base_p[argument_count] = ECMA_VALUE_EMPTY;
argument_count++;
continue;
}
JERRY_ASSERT (literal_p->type == LEXER_IDENT_LITERAL);
JERRY_ASSERT (literal_p->prop.index >= register_count);
base_p[argument_count] = literal_pool_p[literal_p->prop.index];
argument_count++;
}
}
#if JERRY_ESNEXT
if (!(context_p->status_flags & PARSER_CLASS_CONSTRUCTOR))
{
*(--base_p) = ecma_make_magic_string_value (LIT_MAGIC_STRING__EMPTY);
}
if (context_p->tagged_template_literal_cp != JMEM_CP_NULL)
{
compiled_code_p->status_flags |= CBC_CODE_FLAGS_HAS_TAGGED_LITERALS;
*(--base_p) = (ecma_value_t) context_p->tagged_template_literal_cp;
}
#endif /* JERRY_ESNEXT */
#if JERRY_LINE_INFO
ECMA_SET_INTERNAL_VALUE_POINTER (base_p[-1], line_info_p);
#endif /* JERRY_LINE_INFO */
#if JERRY_ESNEXT || JERRY_FUNCTION_TO_STRING
if (extended_info != 0)
{
#if JERRY_LINE_INFO
base_p--;
#endif /* JERRY_LINE_INFO */
uint8_t *extended_info_p = ((uint8_t *) base_p) - 1;
compiled_code_p->status_flags |= CBC_CODE_FLAGS_HAS_EXTENDED_INFO;
*extended_info_p = extended_info;
#if JERRY_ESNEXT
if (context_p->argument_length != UINT16_MAX)
{
ecma_extended_info_encode_vlq (&extended_info_p, context_p->argument_length);
}
#endif /* JERRY_ESNEXT */
#if JERRY_FUNCTION_TO_STRING
if (context_p->last_context_p != NULL)
{
const uint8_t *start_p = context_p->source_start_p;
if (extended_info & CBC_EXTENDED_CODE_FLAGS_SOURCE_CODE_IN_ARGUMENTS)
{
start_p = context_p->arguments_start_p;
}
const uint8_t *function_start_p = context_p->last_context_p->function_start_p;
ecma_extended_info_encode_vlq (&extended_info_p, (uint32_t) (function_start_p - start_p));
ecma_extended_info_encode_vlq (&extended_info_p, (uint32_t) (context_p->function_end_p - function_start_p));
}
#endif /* JERRY_FUNCTION_TO_STRING */
}
#endif /* JERRY_ESNEXT || JERRY_FUNCTION_TO_STRING */
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
util_print_cbc (compiled_code_p);
JERRY_DEBUG_MSG ("\nByte code size: %d bytes\n", (int) length);
context_p->total_byte_code_size += (uint32_t) length;
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_function_cp (JERRY_DEBUGGER_BYTE_CODE_CP, compiled_code_p);
}
#endif /* JERRY_DEBUGGER */
return compiled_code_p;
} /* parser_post_processing */
#undef PARSER_NEXT_BYTE
#undef PARSER_NEXT_BYTE_UPDATE
#if JERRY_ESNEXT
/**
* Resolve private identifier in direct eval context
*/
static bool
parser_resolve_private_identifier_eval (parser_context_t *context_p) /**< context */
{
ecma_string_t *search_key_p;
uint8_t *destination_p = (uint8_t *) parser_malloc (context_p, context_p->token.lit_location.length);
lexer_convert_ident_to_cesu8 (destination_p,
context_p->token.lit_location.char_p,
context_p->token.lit_location.length);
search_key_p = ecma_new_ecma_string_from_utf8 (destination_p, context_p->token.lit_location.length);
parser_free (destination_p, context_p->token.lit_location.length);
ecma_object_t *lex_env_p = JERRY_CONTEXT (vm_top_context_p)->lex_env_p;
while (true)
{
JERRY_ASSERT (lex_env_p != NULL);
if (ecma_get_lex_env_type (lex_env_p) == ECMA_LEXICAL_ENVIRONMENT_CLASS
&& (lex_env_p->type_flags_refs & ECMA_OBJECT_FLAG_LEXICAL_ENV_HAS_DATA) != 0
&& !ECMA_LEX_ENV_CLASS_IS_MODULE (lex_env_p))
{
ecma_object_t *class_object_p = ((ecma_lexical_environment_class_t *) lex_env_p)->object_p;
ecma_string_t *internal_string_p = ecma_get_internal_string (LIT_INTERNAL_MAGIC_STRING_CLASS_PRIVATE_ELEMENTS);
ecma_property_t *prop_p = ecma_find_named_property (class_object_p, internal_string_p);
if (prop_p != NULL)
{
ecma_value_t *collection_p =
ECMA_GET_INTERNAL_VALUE_POINTER (ecma_value_t, ECMA_PROPERTY_VALUE_PTR (prop_p)->value);
ecma_value_t *current_p = collection_p + 1;
ecma_value_t *end_p = ecma_compact_collection_end (collection_p);
while (current_p < end_p)
{
current_p++; /* skip kind */
ecma_string_t *private_key_p = ecma_get_prop_name_from_value (*current_p++);
current_p++; /* skip value */
JERRY_ASSERT (ecma_prop_name_is_symbol (private_key_p));
ecma_string_t *private_key_desc_p =
ecma_get_string_from_value (((ecma_extended_string_t *) private_key_p)->u.symbol_descriptor);
if (ecma_compare_ecma_strings (private_key_desc_p, search_key_p))
{
ecma_deref_ecma_string (search_key_p);
lexer_construct_literal_object (context_p, &context_p->token.lit_location, LEXER_STRING_LITERAL);
return true;
}
}
}
}
if (lex_env_p->u2.outer_reference_cp == JMEM_CP_NULL)
{
break;
}
lex_env_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, lex_env_p->u2.outer_reference_cp);
}
ecma_deref_ecma_string (search_key_p);
return false;
} /* parser_resolve_private_identifier_eval */
/**
* Resolve private identifier
*/
void
parser_resolve_private_identifier (parser_context_t *context_p) /**< context */
{
if ((context_p->global_status_flags & ECMA_PARSE_DIRECT_EVAL) && parser_resolve_private_identifier_eval (context_p))
{
return;
}
parser_private_context_t *context_iter_p = context_p->private_context_p;
while (context_iter_p)
{
if (context_iter_p == NULL || !(context_iter_p->opts & SCANNER_PRIVATE_FIELD_ACTIVE))
{
parser_raise_error (context_p, PARSER_ERR_UNDECLARED_PRIVATE_FIELD);
}
if (!(context_iter_p->opts & SCANNER_SUCCESSFUL_CLASS_SCAN))
{
return;
}
parser_private_context_t *private_context_p = context_iter_p;
if (private_context_p == NULL)
{
parser_raise_error (context_p, PARSER_ERR_UNDECLARED_PRIVATE_FIELD);
}
scanner_class_private_member_t *ident_iter = private_context_p->members_p;
while (ident_iter)
{
if (lexer_compare_identifiers (context_p, &context_p->token.lit_location, &ident_iter->loc))
{
lexer_construct_literal_object (context_p, &context_p->token.lit_location, LEXER_STRING_LITERAL);
return;
}
ident_iter = ident_iter->prev_p;
}
context_iter_p = context_iter_p->prev_p;
}
parser_raise_error (context_p, PARSER_ERR_UNDECLARED_PRIVATE_FIELD);
} /* parser_resolve_private_identifier */
/**
* Save private field context
*/
void
parser_save_private_context (parser_context_t *context_p, /**< context */
parser_private_context_t *private_ctx_p, /**< private context */
scanner_class_info_t *class_info_p) /**< class scanner info */
{
private_ctx_p->prev_p = context_p->private_context_p;
context_p->private_context_p = private_ctx_p;
context_p->private_context_p->members_p = class_info_p->members;
context_p->private_context_p->opts = class_info_p->info.u8_arg;
class_info_p->members = NULL;
} /* parser_save_private_context */
/**
* Release contexts private fields
*/
static void
parser_free_private_fields (parser_context_t *context_p) /**< context */
{
parser_private_context_t *iter = context_p->private_context_p;
while (iter != NULL)
{
parser_private_context_t *prev_p = iter->prev_p;
scanner_release_private_fields (iter->members_p);
iter = prev_p;
}
} /* parser_free_private_fields */
/**
* Restore contexts private fields
*/
void
parser_restore_private_context (parser_context_t *context_p, /**< context */
parser_private_context_t *private_ctx_p) /**< private context */
{
scanner_release_private_fields (context_p->private_context_p->members_p);
context_p->private_context_p = private_ctx_p->prev_p;
} /* parser_restore_private_context */
#endif /* JERRY_ESNEXT */
/**
* Free identifiers and literals.
*/
static void
parser_free_literals (parser_list_t *literal_pool_p) /**< literals */
{
parser_list_iterator_t literal_iterator;
lexer_literal_t *literal_p;
parser_list_iterator_init (literal_pool_p, &literal_iterator);
while ((literal_p = (lexer_literal_t *) parser_list_iterator_next (&literal_iterator)) != NULL)
{
util_free_literal (literal_p);
}
parser_list_free (literal_pool_p);
} /* parser_free_literals */
/**
* Parse function arguments
*/
static void
parser_parse_function_arguments (parser_context_t *context_p, /**< context */
lexer_token_type_t end_type) /**< expected end type */
{
JERRY_ASSERT (context_p->next_scanner_info_p->type == SCANNER_TYPE_FUNCTION);
#if JERRY_ESNEXT
JERRY_ASSERT (context_p->status_flags & PARSER_IS_FUNCTION);
JERRY_ASSERT (!(context_p->status_flags & PARSER_LEXICAL_BLOCK_NEEDED));
bool has_duplicated_arg_names = false;
if (PARSER_IS_NORMAL_ASYNC_FUNCTION (context_p->status_flags))
{
parser_branch_t branch;
parser_emit_cbc_ext_forward_branch (context_p, CBC_EXT_TRY_CREATE_CONTEXT, &branch);
parser_stack_push (context_p, &branch, sizeof (parser_branch_t));
#ifndef JERRY_NDEBUG
context_p->context_stack_depth = PARSER_TRY_CONTEXT_STACK_ALLOCATION;
#endif /* !JERRY_NDEBUG */
}
#endif /* JERRY_ESNEXT */
if (context_p->token.type == end_type)
{
#if JERRY_ESNEXT
context_p->status_flags &= (uint32_t) ~PARSER_DISALLOW_AWAIT_YIELD;
if (context_p->status_flags & PARSER_IS_GENERATOR_FUNCTION)
{
scanner_create_variables (context_p, SCANNER_CREATE_VARS_IS_FUNCTION_ARGS);
parser_emit_cbc_ext (context_p, CBC_EXT_CREATE_GENERATOR);
parser_emit_cbc (context_p, CBC_POP);
scanner_create_variables (context_p, SCANNER_CREATE_VARS_IS_FUNCTION_BODY);
return;
}
#endif /* JERRY_ESNEXT */
scanner_create_variables (context_p, SCANNER_CREATE_VARS_NO_OPTS);
return;
}
#if JERRY_ESNEXT
bool has_complex_argument = (context_p->next_scanner_info_p->u8_arg & SCANNER_FUNCTION_HAS_COMPLEX_ARGUMENT) != 0;
#endif /* JERRY_ESNEXT */
bool is_strict = (context_p->next_scanner_info_p->u8_arg & SCANNER_FUNCTION_IS_STRICT) != 0;
scanner_create_variables (context_p, SCANNER_CREATE_VARS_IS_FUNCTION_ARGS);
scanner_set_active (context_p);
#if JERRY_ESNEXT
context_p->status_flags |= PARSER_FUNCTION_IS_PARSING_ARGS;
#endif /* JERRY_ESNEXT */
while (true)
{
#if JERRY_ESNEXT
if (context_p->token.type == LEXER_THREE_DOTS)
{
if (context_p->status_flags & PARSER_IS_PROPERTY_SETTER)
{
parser_raise_error (context_p, PARSER_ERR_SETTER_REST_PARAMETER);
}
lexer_next_token (context_p);
if (has_duplicated_arg_names)
{
parser_raise_error (context_p, PARSER_ERR_DUPLICATED_ARGUMENT_NAMES);
}
context_p->status_flags |= PARSER_FUNCTION_HAS_REST_PARAM | PARSER_FUNCTION_HAS_COMPLEX_ARGUMENT;
}
if (context_p->token.type == LEXER_LEFT_SQUARE || context_p->token.type == LEXER_LEFT_BRACE)
{
if (has_duplicated_arg_names)
{
parser_raise_error (context_p, PARSER_ERR_DUPLICATED_ARGUMENT_NAMES);
}
context_p->status_flags |= PARSER_FUNCTION_HAS_COMPLEX_ARGUMENT;
if (!(context_p->status_flags & PARSER_FUNCTION_HAS_REST_PARAM))
{
parser_emit_cbc_literal (context_p,
CBC_PUSH_LITERAL,
(uint16_t) (PARSER_REGISTER_START + context_p->argument_count));
}
else
{
parser_emit_cbc_ext (context_p, CBC_EXT_PUSH_REST_OBJECT);
}
uint32_t flags =
(PARSER_PATTERN_BINDING | PARSER_PATTERN_TARGET_ON_STACK | PARSER_PATTERN_LOCAL | PARSER_PATTERN_ARGUMENTS);
if (context_p->next_scanner_info_p->source_p == context_p->source_p)
{
if (context_p->next_scanner_info_p->type == SCANNER_TYPE_INITIALIZER)
{
if (context_p->next_scanner_info_p->u8_arg & SCANNER_LITERAL_OBJECT_HAS_REST)
{
flags |= PARSER_PATTERN_HAS_REST_ELEMENT;
}
if (context_p->status_flags & PARSER_FUNCTION_HAS_REST_PARAM)
{
parser_raise_error (context_p, PARSER_ERR_REST_PARAMETER_DEFAULT_INITIALIZER);
}
if (context_p->argument_length == UINT16_MAX)
{
context_p->argument_length = context_p->argument_count;
}
flags |= PARSER_PATTERN_TARGET_DEFAULT;
}
else if (context_p->next_scanner_info_p->type == SCANNER_TYPE_LITERAL_FLAGS)
{
if (context_p->next_scanner_info_p->u8_arg & SCANNER_LITERAL_OBJECT_HAS_REST)
{
flags |= PARSER_PATTERN_HAS_REST_ELEMENT;
}
scanner_release_next (context_p, sizeof (scanner_info_t));
}
else
{
parser_raise_error (context_p, PARSER_ERR_INVALID_DESTRUCTURING_PATTERN);
}
}
parser_parse_initializer (context_p, flags);
context_p->argument_count++;
if (context_p->argument_count >= PARSER_MAXIMUM_NUMBER_OF_REGISTERS)
{
parser_raise_error (context_p, PARSER_ERR_ARGUMENT_LIMIT_REACHED);
}
if (context_p->token.type != LEXER_COMMA)
{
if (context_p->token.type != end_type)
{
parser_error_msg_t error =
((end_type == LEXER_RIGHT_PAREN) ? PARSER_ERR_RIGHT_PAREN_EXPECTED : PARSER_ERR_IDENTIFIER_EXPECTED);
parser_raise_error (context_p, error);
}
break;
}
lexer_next_token (context_p);
if (context_p->token.type == end_type)
{
break;
}
continue;
}
#endif /* JERRY_ESNEXT */
if (context_p->token.type != LEXER_LITERAL || context_p->token.lit_location.type != LEXER_IDENT_LITERAL)
{
parser_raise_error (context_p, PARSER_ERR_IDENTIFIER_EXPECTED);
}
lexer_construct_literal_object (context_p, &context_p->token.lit_location, LEXER_IDENT_LITERAL);
if (context_p->token.keyword_type >= LEXER_FIRST_NON_STRICT_ARGUMENTS)
{
context_p->status_flags |= PARSER_HAS_NON_STRICT_ARG;
}
if (JERRY_UNLIKELY (context_p->lit_object.literal_p->status_flags & LEXER_FLAG_FUNCTION_ARGUMENT))
{
#if JERRY_ESNEXT
if ((context_p->status_flags & PARSER_FUNCTION_HAS_COMPLEX_ARGUMENT)
|| (context_p->status_flags & PARSER_IS_ARROW_FUNCTION))
{
parser_raise_error (context_p, PARSER_ERR_DUPLICATED_ARGUMENT_NAMES);
}
has_duplicated_arg_names = true;
#endif /* JERRY_ESNEXT */
context_p->status_flags |= PARSER_HAS_NON_STRICT_ARG;
}
else
{
context_p->lit_object.literal_p->status_flags |= LEXER_FLAG_FUNCTION_ARGUMENT;
}
lexer_next_token (context_p);
#if JERRY_ESNEXT
uint16_t literal_index = context_p->lit_object.index;
if (context_p->token.type == LEXER_ASSIGN)
{
JERRY_ASSERT (has_complex_argument);
if (context_p->status_flags & PARSER_FUNCTION_HAS_REST_PARAM)
{
parser_raise_error (context_p, PARSER_ERR_REST_PARAMETER_DEFAULT_INITIALIZER);
}
if (context_p->argument_length == UINT16_MAX)
{
context_p->argument_length = context_p->argument_count;
}
parser_branch_t skip_init;
if (has_duplicated_arg_names)
{
parser_raise_error (context_p, PARSER_ERR_DUPLICATED_ARGUMENT_NAMES);
}
context_p->status_flags |= PARSER_FUNCTION_HAS_COMPLEX_ARGUMENT;
/* LEXER_ASSIGN does not overwrite lit_object. */
parser_emit_cbc_literal (context_p,
CBC_PUSH_LITERAL,
(uint16_t) (PARSER_REGISTER_START + context_p->argument_count));
parser_emit_cbc_ext_forward_branch (context_p, CBC_EXT_DEFAULT_INITIALIZER, &skip_init);
lexer_next_token (context_p);
parser_parse_expression (context_p, PARSE_EXPR_NO_COMMA);
parser_set_branch_to_current_position (context_p, &skip_init);
uint16_t opcode = CBC_ASSIGN_LET_CONST;
if (literal_index >= PARSER_REGISTER_START)
{
opcode = CBC_MOV_IDENT;
}
else if (!scanner_literal_is_created (context_p, literal_index))
{
opcode = CBC_INIT_ARG_OR_CATCH;
}
parser_emit_cbc_literal (context_p, opcode, literal_index);
}
else if (context_p->status_flags & PARSER_FUNCTION_HAS_REST_PARAM)
{
parser_emit_cbc_ext (context_p, CBC_EXT_PUSH_REST_OBJECT);
uint16_t opcode = CBC_MOV_IDENT;
if (literal_index < PARSER_REGISTER_START)
{
opcode = CBC_INIT_ARG_OR_CATCH;
if (scanner_literal_is_created (context_p, literal_index))
{
opcode = CBC_ASSIGN_LET_CONST;
}
}
parser_emit_cbc_literal (context_p, opcode, literal_index);
}
else if (has_complex_argument && literal_index < PARSER_REGISTER_START)
{
uint16_t opcode = CBC_INIT_ARG_OR_FUNC;
if (scanner_literal_is_created (context_p, literal_index))
{
opcode = CBC_ASSIGN_LET_CONST_LITERAL;
}
parser_emit_cbc_literal_value (context_p,
opcode,
(uint16_t) (PARSER_REGISTER_START + context_p->argument_count),
literal_index);
}
#endif /* JERRY_ESNEXT */
context_p->argument_count++;
if (context_p->argument_count >= PARSER_MAXIMUM_NUMBER_OF_REGISTERS)
{
parser_raise_error (context_p, PARSER_ERR_ARGUMENT_LIMIT_REACHED);
}
if (context_p->token.type != LEXER_COMMA)
{
if (context_p->token.type != end_type)
{
parser_error_msg_t error =
((end_type == LEXER_RIGHT_PAREN) ? PARSER_ERR_RIGHT_PAREN_EXPECTED : PARSER_ERR_IDENTIFIER_EXPECTED);
parser_raise_error (context_p, error);
}
break;
}
#if JERRY_ESNEXT
if (context_p->status_flags & PARSER_FUNCTION_HAS_REST_PARAM)
{
parser_raise_error (context_p, PARSER_ERR_FORMAL_PARAM_AFTER_REST_PARAMETER);
}
#endif /* JERRY_ESNEXT */
lexer_next_token (context_p);
#if JERRY_ESNEXT
if (context_p->token.type == end_type)
{
break;
}
#endif /* JERRY_ESNEXT */
}
scanner_revert_active (context_p);
#if JERRY_ESNEXT
JERRY_ASSERT (has_complex_argument || !(context_p->status_flags & PARSER_FUNCTION_HAS_COMPLEX_ARGUMENT));
if (context_p->status_flags & PARSER_IS_GENERATOR_FUNCTION)
{
parser_emit_cbc_ext (context_p, CBC_EXT_CREATE_GENERATOR);
parser_emit_cbc (context_p, CBC_POP);
}
if (context_p->status_flags & PARSER_LEXICAL_BLOCK_NEEDED)
{
if ((context_p->next_scanner_info_p->u8_arg & SCANNER_FUNCTION_LEXICAL_ENV_NEEDED)
|| scanner_is_context_needed (context_p, PARSER_CHECK_FUNCTION_CONTEXT))
{
context_p->status_flags |= PARSER_LEXICAL_ENV_NEEDED;
parser_branch_t branch;
parser_emit_cbc_forward_branch (context_p, CBC_BLOCK_CREATE_CONTEXT, &branch);
parser_stack_push (context_p, &branch, sizeof (parser_branch_t));
#ifndef JERRY_NDEBUG
PARSER_PLUS_EQUAL_U16 (context_p->context_stack_depth, PARSER_BLOCK_CONTEXT_STACK_ALLOCATION);
#endif /* !JERRY_NDEBUG */
}
else
{
context_p->status_flags &= (uint32_t) ~PARSER_LEXICAL_BLOCK_NEEDED;
}
}
context_p->status_flags &= (uint32_t) ~(PARSER_DISALLOW_AWAIT_YIELD | PARSER_FUNCTION_IS_PARSING_ARGS);
#endif /* JERRY_ESNEXT */
scanner_create_variables (context_p, SCANNER_CREATE_VARS_IS_FUNCTION_BODY);
if (is_strict)
{
context_p->status_flags |= PARSER_IS_STRICT;
}
} /* parser_parse_function_arguments */
#ifndef JERRY_NDEBUG
JERRY_STATIC_ASSERT (PARSER_SCANNING_SUCCESSFUL == PARSER_HAS_LATE_LIT_INIT,
parser_scanning_successful_should_share_the_bit_position_with_parser_has_late_lit_init);
#endif /* !JERRY_NDEBUG */
/**
* Parse and compile EcmaScript source code
*
* Note: source must be a valid UTF-8 string
*
* @return compiled code
*/
static ecma_compiled_code_t *
parser_parse_source (void *source_p, /**< source code */
uint32_t parse_opts, /**< ecma_parse_opts_t option bits */
const jerry_parse_options_t *options_p) /**< additional configuration options */
{
parser_context_t context;
ecma_compiled_code_t *compiled_code_p;
context.error = PARSER_ERR_NO_ERROR;
context.status_flags = parse_opts & PARSER_STRICT_MODE_MASK;
context.global_status_flags = parse_opts;
#if JERRY_ESNEXT
context.status_flags |= PARSER_RESTORE_STATUS_FLAGS (parse_opts);
context.tagged_template_literal_cp = JMEM_CP_NULL;
#endif /* JERRY_ESNEXT */
context.stack_depth = 0;
context.stack_limit = 0;
context.options_p = options_p;
context.script_p = NULL;
context.arguments_start_p = NULL;
context.arguments_size = 0;
#if JERRY_MODULE_SYSTEM
if (context.global_status_flags & ECMA_PARSE_MODULE)
{
context.status_flags |= PARSER_IS_STRICT;
}
context.module_names_p = NULL;
#endif /* JERRY_MODULE_SYSTEM */
context.argument_list = ECMA_VALUE_EMPTY;
if (context.options_p != NULL && (context.options_p->options & JERRY_PARSE_HAS_ARGUMENT_LIST))
{
context.argument_list = context.options_p->argument_list;
}
else if (context.global_status_flags & ECMA_PARSE_HAS_ARGUMENT_LIST_VALUE)
{
JERRY_ASSERT (context.global_status_flags & ECMA_PARSE_HAS_SOURCE_VALUE);
context.argument_list = ((ecma_value_t *) source_p)[1];
}
if (context.argument_list != ECMA_VALUE_EMPTY)
{
JERRY_ASSERT (ecma_is_value_string (context.argument_list));
context.status_flags |= PARSER_IS_FUNCTION;
#if JERRY_ESNEXT
if (parse_opts & ECMA_PARSE_GENERATOR_FUNCTION)
{
context.status_flags |= PARSER_IS_GENERATOR_FUNCTION;
}
if (parse_opts & ECMA_PARSE_ASYNC_FUNCTION)
{
context.status_flags |= PARSER_IS_ASYNC_FUNCTION;
}
#endif /* JERRY_ESNEXT */
ecma_string_t *string_p = ecma_get_string_from_value (context.argument_list);
uint8_t flags = ECMA_STRING_FLAG_EMPTY;
context.arguments_start_p = ecma_string_get_chars (string_p, &context.arguments_size, NULL, NULL, &flags);
if (flags & ECMA_STRING_FLAG_MUST_BE_FREED)
{
context.global_status_flags |= ECMA_PARSE_INTERNAL_FREE_ARG_LIST;
}
}
if (!(context.global_status_flags & ECMA_PARSE_HAS_SOURCE_VALUE))
{
context.source_start_p = ((parser_source_char_t *) source_p)->source_p;
context.source_size = (lit_utf8_size_t) ((parser_source_char_t *) source_p)->source_size;
}
else
{
ecma_value_t source = ((ecma_value_t *) source_p)[0];
JERRY_ASSERT (ecma_is_value_string (source));
ecma_string_t *string_p = ecma_get_string_from_value (source);
uint8_t flags = ECMA_STRING_FLAG_EMPTY;
context.source_start_p = ecma_string_get_chars (string_p, &context.source_size, NULL, NULL, &flags);
if (flags & ECMA_STRING_FLAG_MUST_BE_FREED)
{
context.global_status_flags |= ECMA_PARSE_INTERNAL_FREE_SOURCE;
}
}
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_string (JERRY_DEBUGGER_SOURCE_CODE,
JERRY_DEBUGGER_NO_SUBTYPE,
context.source_start_p,
context.source_size);
}
#endif /* JERRY_DEBUGGER */
context.user_value = ECMA_VALUE_EMPTY;
if ((context.global_status_flags & ECMA_PARSE_EVAL) && JERRY_CONTEXT (vm_top_context_p) != NULL)
{
const ecma_compiled_code_t *bytecode_header_p = JERRY_CONTEXT (vm_top_context_p)->shared_p->bytecode_header_p;
#if JERRY_SNAPSHOT_EXEC
if (JERRY_LIKELY (!(bytecode_header_p->status_flags & CBC_CODE_FLAGS_STATIC_FUNCTION)))
{
#endif /* JERRY_SNAPSHOT_EXEC */
ecma_value_t parent_script_value = ((cbc_uint8_arguments_t *) bytecode_header_p)->script_value;
;
cbc_script_t *parent_script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, parent_script_value);
if (parent_script_p->refs_and_type & CBC_SCRIPT_HAS_USER_VALUE)
{
context.user_value = CBC_SCRIPT_GET_USER_VALUE (parent_script_p);
}
#if JERRY_SNAPSHOT_EXEC
}
#endif /* JERRY_SNAPSHOT_EXEC */
}
else if (context.options_p != NULL && (context.options_p->options & JERRY_PARSE_HAS_USER_VALUE))
{
context.user_value = context.options_p->user_value;
}
#if JERRY_SOURCE_NAME
ecma_value_t source_name = ecma_make_magic_string_value (LIT_MAGIC_STRING_SOURCE_NAME_ANON);
if (context.options_p != NULL && (context.options_p->options & JERRY_PARSE_HAS_SOURCE_NAME))
{
JERRY_ASSERT (ecma_is_value_string (context.options_p->source_name));
ecma_ref_ecma_string (ecma_get_string_from_value (context.options_p->source_name));
source_name = context.options_p->source_name;
}
else if (context.global_status_flags & ECMA_PARSE_EVAL)
{
source_name = ecma_make_magic_string_value (LIT_MAGIC_STRING_SOURCE_NAME_EVAL);
}
#endif /* JERRY_SOURCE_NAME */
context.last_context_p = NULL;
context.last_statement.current_p = NULL;
context.token.flags = 0;
lexer_init_line_info (&context);
scanner_info_t scanner_info_end;
scanner_info_end.next_p = NULL;
scanner_info_end.source_p = NULL;
scanner_info_end.type = SCANNER_TYPE_END;
context.next_scanner_info_p = &scanner_info_end;
context.active_scanner_info_p = NULL;
context.skipped_scanner_info_p = NULL;
context.skipped_scanner_info_end_p = NULL;
context.last_cbc_opcode = PARSER_CBC_UNAVAILABLE;
context.argument_count = 0;
#if JERRY_ESNEXT
context.argument_length = UINT16_MAX;
#endif /* JERRY_ESNEXT */
context.register_count = 0;
context.literal_count = 0;
parser_cbc_stream_init (&context.byte_code);
context.byte_code_size = 0;
parser_list_init (&context.literal_pool,
sizeof (lexer_literal_t),
(uint32_t) ((128 - sizeof (void *)) / sizeof (lexer_literal_t)));
context.scope_stack_p = NULL;
context.scope_stack_size = 0;
context.scope_stack_top = 0;
context.scope_stack_reg_top = 0;
#if JERRY_ESNEXT
context.scope_stack_global_end = 0;
context.tagged_template_literal_cp = JMEM_CP_NULL;
context.private_context_p = NULL;
#endif /* JERRY_ESNEXT */
#ifndef JERRY_NDEBUG
context.context_stack_depth = 0;
#endif /* !JERRY_NDEBUG */
#if JERRY_LINE_INFO
context.line_info_p = NULL;
#endif /* JERRY_LINE_INFO */
#if JERRY_FUNCTION_TO_STRING
context.function_start_p = NULL;
context.function_end_p = NULL;
#endif /* JERRY_FUNCTION_TO_STRING */
#if JERRY_PARSER_DUMP_BYTE_CODE
context.is_show_opcodes = (JERRY_CONTEXT (jerry_init_flags) & JERRY_INIT_SHOW_OPCODES);
context.total_byte_code_size = 0;
if (context.is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- %s parsing start ---\n\n", (context.arguments_start_p == NULL) ? "Script" : "Function");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
scanner_scan_all (&context);
if (JERRY_UNLIKELY (context.error != PARSER_ERR_NO_ERROR))
{
JERRY_ASSERT (context.error == PARSER_ERR_OUT_OF_MEMORY);
/* It is unlikely that memory can be allocated in an out-of-memory
* situation. However, a simple value can still be thrown. */
jcontext_raise_exception (ECMA_VALUE_NULL);
return NULL;
}
size_t script_size = sizeof (cbc_script_t);
if (context.user_value != ECMA_VALUE_EMPTY)
{
script_size += sizeof (ecma_value_t);
}
#if JERRY_FUNCTION_TO_STRING
if (context.argument_list != ECMA_VALUE_EMPTY)
{
script_size += sizeof (ecma_value_t);
}
#endif /* JERRY_FUNCTION_TO_STRING */
#if JERRY_MODULE_SYSTEM
if (context.global_status_flags & ECMA_PARSE_INTERNAL_HAS_IMPORT_META)
{
script_size += sizeof (ecma_value_t);
}
#endif /* JERRY_MODULE_SYSTEM */
if (context.arguments_start_p == NULL)
{
context.source_p = context.source_start_p;
context.source_end_p = context.source_start_p + context.source_size;
}
else
{
context.source_p = context.arguments_start_p;
context.source_end_p = context.arguments_start_p + context.arguments_size;
}
context.u.allocated_buffer_p = NULL;
context.token.flags = 0;
lexer_init_line_info (&context);
parser_stack_init (&context);
#if JERRY_DEBUGGER
context.breakpoint_info_count = 0;
#endif /* JERRY_DEBUGGER */
JERRY_ASSERT (context.next_scanner_info_p->source_p == context.source_p);
JERRY_ASSERT (context.next_scanner_info_p->type == SCANNER_TYPE_FUNCTION);
if (context.next_scanner_info_p->u8_arg & SCANNER_FUNCTION_IS_STRICT)
{
context.status_flags |= PARSER_IS_STRICT;
}
PARSER_TRY (context.try_buffer)
{
context.script_p = parser_malloc (&context, script_size);
CBC_SCRIPT_SET_TYPE (context.script_p, context.user_value, CBC_SCRIPT_REF_ONE);
if (context.global_status_flags & (ECMA_PARSE_EVAL | ECMA_PARSE_HAS_ARGUMENT_LIST_VALUE))
{
context.script_p->refs_and_type |= CBC_SCRIPT_IS_EVAL_CODE;
}
#if JERRY_BUILTIN_REALMS
context.script_p->realm_p = (ecma_object_t *) JERRY_CONTEXT (global_object_p);
#endif /* JERRY_BUILTIN_REALMS */
#if JERRY_SOURCE_NAME
context.script_p->source_name = source_name;
#endif /* JERRY_SOURCE_NAME */
ECMA_SET_INTERNAL_VALUE_POINTER (context.script_value, context.script_p);
/* Pushing a dummy value ensures the stack is never empty.
* This simplifies the stack management routines. */
parser_stack_push_uint8 (&context, CBC_MAXIMUM_BYTE_VALUE);
/* The next token must always be present to make decisions
* in the parser. Therefore when a token is consumed, the
* lexer_next_token() must be immediately called. */
lexer_next_token (&context);
if (context.arguments_start_p != NULL)
{
parser_parse_function_arguments (&context, LEXER_EOS);
JERRY_ASSERT (context.next_scanner_info_p->type == SCANNER_TYPE_END_ARGUMENTS);
scanner_release_next (&context, sizeof (scanner_info_t));
context.source_p = context.source_start_p;
context.source_end_p = context.source_start_p + context.source_size;
lexer_init_line_info (&context);
lexer_next_token (&context);
}
#if JERRY_MODULE_SYSTEM
else if (parse_opts & ECMA_PARSE_MODULE)
{
parser_branch_t branch;
parser_emit_cbc_forward_branch (&context, CBC_JUMP_FORWARD, &branch);
scanner_create_variables (&context, SCANNER_CREATE_VARS_IS_MODULE);
parser_emit_cbc (&context, CBC_RETURN_FUNCTION_END);
parser_set_branch_to_current_position (&context, &branch);
}
#endif /* JERRY_MODULE_SYSTEM */
else
{
JERRY_ASSERT (context.next_scanner_info_p->source_p == context.source_start_p
&& context.next_scanner_info_p->type == SCANNER_TYPE_FUNCTION);
#if JERRY_ESNEXT
if (scanner_is_context_needed (&context, PARSER_CHECK_GLOBAL_CONTEXT))
{
context.status_flags |= PARSER_LEXICAL_BLOCK_NEEDED;
}
if (!(parse_opts & ECMA_PARSE_EVAL))
{
scanner_check_variables (&context);
}
#endif /* JERRY_ESNEXT */
scanner_create_variables (&context, SCANNER_CREATE_VARS_IS_SCRIPT);
}
parser_parse_statements (&context);
JERRY_ASSERT (context.last_statement.current_p == NULL);
JERRY_ASSERT (context.last_cbc_opcode == PARSER_CBC_UNAVAILABLE);
JERRY_ASSERT (context.u.allocated_buffer_p == NULL);
#ifndef JERRY_NDEBUG
JERRY_ASSERT (context.status_flags & PARSER_SCANNING_SUCCESSFUL);
JERRY_ASSERT (!(context.global_status_flags & ECMA_PARSE_INTERNAL_FOR_IN_OFF_CONTEXT_ERROR));
context.status_flags &= (uint32_t) ~PARSER_SCANNING_SUCCESSFUL;
#endif /* !JERRY_NDEBUG */
JERRY_ASSERT (!(context.status_flags & PARSER_HAS_LATE_LIT_INIT));
compiled_code_p = parser_post_processing (&context);
parser_list_free (&context.literal_pool);
/* When parsing is successful, only the dummy value can be remained on the stack. */
JERRY_ASSERT (context.stack_top_uint8 == CBC_MAXIMUM_BYTE_VALUE && context.stack.last_position == 1
&& context.stack.first_p != NULL && context.stack.first_p->next_p == NULL
&& context.stack.last_p == NULL);
JERRY_ASSERT (context.arguments_start_p != NULL || !(context.status_flags & PARSER_ARGUMENTS_NEEDED));
context.script_p->refs_and_type -= CBC_SCRIPT_REF_ONE;
if (context.user_value != ECMA_VALUE_EMPTY)
{
CBC_SCRIPT_GET_USER_VALUE (context.script_p) = ecma_copy_value_if_not_object (context.user_value);
}
#if JERRY_MODULE_SYSTEM
if (context.global_status_flags & ECMA_PARSE_INTERNAL_HAS_IMPORT_META)
{
int idx = (context.user_value != ECMA_VALUE_EMPTY) ? 1 : 0;
ecma_value_t module = ecma_make_object_value ((ecma_object_t *) JERRY_CONTEXT (module_current_p));
CBC_SCRIPT_GET_OPTIONAL_VALUES (context.script_p)[idx] = module;
context.script_p->refs_and_type |= CBC_SCRIPT_HAS_IMPORT_META;
}
#endif /* JERRY_MODULE_SYSTEM */
#if JERRY_FUNCTION_TO_STRING
if (!(context.global_status_flags & ECMA_PARSE_HAS_SOURCE_VALUE))
{
ecma_string_t *string_p;
if (context.global_status_flags & ECMA_PARSE_INTERNAL_HAS_4_BYTE_MARKER)
{
string_p = ecma_new_ecma_string_from_utf8_converted_to_cesu8 (context.source_start_p, context.source_size);
}
else
{
string_p = ecma_new_ecma_string_from_utf8 (context.source_start_p, context.source_size);
}
context.script_p->source_code = ecma_make_string_value (string_p);
}
else
{
ecma_value_t source = ((ecma_value_t *) source_p)[0];
ecma_ref_ecma_string (ecma_get_string_from_value (source));
context.script_p->source_code = source;
}
if (context.argument_list != ECMA_VALUE_EMPTY)
{
int idx = (context.user_value != ECMA_VALUE_EMPTY) ? 1 : 0;
CBC_SCRIPT_GET_OPTIONAL_VALUES (context.script_p)[idx] = context.argument_list;
ecma_ref_ecma_string (ecma_get_string_from_value (context.argument_list));
context.script_p->refs_and_type |= CBC_SCRIPT_HAS_FUNCTION_ARGUMENTS;
}
#endif /* JERRY_FUNCTION_TO_STRING */
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context.is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n%s parsing successfully completed. Total byte code size: %d bytes\n",
(context.arguments_start_p == NULL) ? "Script" : "Function",
(int) context.total_byte_code_size);
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
}
PARSER_CATCH
{
if (context.last_statement.current_p != NULL)
{
parser_free_jumps (context.last_statement);
}
parser_free_allocated_buffer (&context);
scanner_cleanup (&context);
#if JERRY_MODULE_SYSTEM
if (context.module_names_p != NULL)
{
ecma_module_release_module_names (context.module_names_p);
}
#endif /* JERRY_MODULE_SYSTEM */
compiled_code_p = NULL;
parser_free_literals (&context.literal_pool);
parser_cbc_stream_free (&context.byte_code);
#if JERRY_SOURCE_NAME
ecma_deref_ecma_string (ecma_get_string_from_value (context.script_p->source_name));
#endif /* JERRY_SOURCE_NAME */
if (context.script_p != NULL)
{
JERRY_ASSERT (context.script_p->refs_and_type >= CBC_SCRIPT_REF_ONE);
jmem_heap_free_block (context.script_p, script_size);
}
}
PARSER_TRY_END
if (context.scope_stack_p != NULL)
{
parser_free (context.scope_stack_p, context.scope_stack_size * sizeof (parser_scope_stack_t));
}
#if JERRY_LINE_INFO
parser_line_info_free (context.line_info_p);
#endif /* JERRY_LINE_INFO */
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context.is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- %s parsing end ---\n\n", (context.arguments_start_p == NULL) ? "Script" : "Function");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
parser_stack_free (&context);
if (context.global_status_flags & ECMA_PARSE_INTERNAL_FREE_SOURCE)
{
jmem_heap_free_block ((void *) context.source_start_p, context.source_size);
}
if (context.global_status_flags & ECMA_PARSE_INTERNAL_FREE_ARG_LIST)
{
jmem_heap_free_block ((void *) context.arguments_start_p, context.arguments_size);
}
if (compiled_code_p != NULL)
{
return compiled_code_p;
}
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_type (JERRY_DEBUGGER_PARSE_ERROR);
}
#endif /* JERRY_DEBUGGER */
if (context.error == PARSER_ERR_OUT_OF_MEMORY)
{
/* It is unlikely that memory can be allocated in an out-of-memory
* situation. However, a simple value can still be thrown. */
jcontext_raise_exception (ECMA_VALUE_NULL);
return NULL;
}
#if JERRY_ERROR_MESSAGES
ecma_string_t *err_str_p;
if (context.error == PARSER_ERR_INVALID_REGEXP)
{
ecma_value_t error = jcontext_take_exception ();
ecma_property_t *prop_p =
ecma_find_named_property (ecma_get_object_from_value (error), ecma_get_magic_string (LIT_MAGIC_STRING_MESSAGE));
ecma_free_value (error);
JERRY_ASSERT (prop_p);
err_str_p = ecma_get_string_from_value (ECMA_PROPERTY_VALUE_PTR (prop_p)->value);
ecma_ref_ecma_string (err_str_p);
}
else
{
err_str_p = ecma_new_ecma_external_string_from_cesu8 (parser_get_error_utf8 (context.error),
parser_get_error_size (context.error),
NULL);
}
ecma_value_t err_str_val = ecma_make_string_value (err_str_p);
ecma_value_t line_str_val = ecma_make_uint32_value (context.token.line);
ecma_value_t col_str_val = ecma_make_uint32_value (context.token.column);
ecma_raise_standard_error_with_format (JERRY_ERROR_SYNTAX,
"% [%:%:%]",
err_str_val,
source_name,
line_str_val,
col_str_val);
ecma_free_value (col_str_val);
ecma_free_value (line_str_val);
ecma_deref_ecma_string (err_str_p);
#else /* !JERRY_ERROR_MESSAGES */
if (context.error == PARSER_ERR_INVALID_REGEXP)
{
jcontext_release_exception ();
}
ecma_raise_syntax_error (ECMA_ERR_EMPTY);
#endif /* JERRY_ERROR_MESSAGES */
return NULL;
} /* parser_parse_source */
/**
* Save parser context before function parsing.
*/
static void
parser_save_context (parser_context_t *context_p, /**< context */
parser_saved_context_t *saved_context_p) /**< target for saving the context */
{
JERRY_ASSERT (context_p->last_cbc_opcode == PARSER_CBC_UNAVAILABLE);
#if JERRY_DEBUGGER
if ((JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED) && context_p->breakpoint_info_count > 0)
{
parser_send_breakpoints (context_p, JERRY_DEBUGGER_BREAKPOINT_LIST);
context_p->breakpoint_info_count = 0;
}
#endif /* JERRY_DEBUGGER */
#if JERRY_ESNEXT
if (context_p->status_flags & PARSER_FUNCTION_IS_PARSING_ARGS)
{
context_p->status_flags |= PARSER_LEXICAL_BLOCK_NEEDED;
}
#endif /* JERRY_ESNEXT */
/* Save private part of the context. */
saved_context_p->status_flags = context_p->status_flags;
saved_context_p->stack_depth = context_p->stack_depth;
saved_context_p->stack_limit = context_p->stack_limit;
saved_context_p->prev_context_p = context_p->last_context_p;
saved_context_p->last_statement = context_p->last_statement;
saved_context_p->argument_count = context_p->argument_count;
#if JERRY_ESNEXT
saved_context_p->argument_length = context_p->argument_length;
#endif /* JERRY_ESNEXT */
saved_context_p->register_count = context_p->register_count;
saved_context_p->literal_count = context_p->literal_count;
saved_context_p->byte_code = context_p->byte_code;
saved_context_p->byte_code_size = context_p->byte_code_size;
saved_context_p->literal_pool_data = context_p->literal_pool.data;
saved_context_p->scope_stack_p = context_p->scope_stack_p;
saved_context_p->scope_stack_size = context_p->scope_stack_size;
saved_context_p->scope_stack_top = context_p->scope_stack_top;
saved_context_p->scope_stack_reg_top = context_p->scope_stack_reg_top;
#if JERRY_ESNEXT
saved_context_p->scope_stack_global_end = context_p->scope_stack_global_end;
saved_context_p->tagged_template_literal_cp = context_p->tagged_template_literal_cp;
#endif /* JERRY_ESNEXT */
#ifndef JERRY_NDEBUG
saved_context_p->context_stack_depth = context_p->context_stack_depth;
#endif /* !JERRY_NDEBUG */
#if JERRY_LINE_INFO
saved_context_p->line_info_p = context_p->line_info_p;
#endif /* JERRY_LINE_INFO */
#if JERRY_FUNCTION_TO_STRING
saved_context_p->function_start_p = context_p->function_start_p;
#endif /* JERRY_FUNCTION_TO_STRING */
/* Reset private part of the context. */
context_p->status_flags &= PARSER_IS_STRICT;
context_p->stack_depth = 0;
context_p->stack_limit = 0;
context_p->last_context_p = saved_context_p;
context_p->last_statement.current_p = NULL;
context_p->argument_count = 0;
#if JERRY_ESNEXT
context_p->argument_length = UINT16_MAX;
#endif /* JERRY_ESNEXT */
context_p->register_count = 0;
context_p->literal_count = 0;
parser_cbc_stream_init (&context_p->byte_code);
context_p->byte_code_size = 0;
parser_list_reset (&context_p->literal_pool);
context_p->scope_stack_p = NULL;
context_p->scope_stack_size = 0;
context_p->scope_stack_top = 0;
context_p->scope_stack_reg_top = 0;
#if JERRY_ESNEXT
context_p->scope_stack_global_end = 0;
context_p->tagged_template_literal_cp = JMEM_CP_NULL;
#endif /* JERRY_ESNEXT */
#ifndef JERRY_NDEBUG
context_p->context_stack_depth = 0;
#endif /* !JERRY_NDEBUG */
#if JERRY_LINE_INFO
context_p->line_info_p = NULL;
#endif /* JERRY_LINE_INFO */
} /* parser_save_context */
/**
* Restore parser context after function parsing.
*/
static void
parser_restore_context (parser_context_t *context_p, /**< context */
parser_saved_context_t *saved_context_p) /**< target for saving the context */
{
parser_list_free (&context_p->literal_pool);
if (context_p->scope_stack_p != NULL)
{
parser_free (context_p->scope_stack_p, context_p->scope_stack_size * sizeof (parser_scope_stack_t));
}
#if JERRY_LINE_INFO
parser_line_info_free (context_p->line_info_p);
#endif /* JERRY_LINE_INFO */
/* Restore private part of the context. */
JERRY_ASSERT (context_p->last_cbc_opcode == PARSER_CBC_UNAVAILABLE);
context_p->status_flags = saved_context_p->status_flags;
context_p->stack_depth = saved_context_p->stack_depth;
context_p->stack_limit = saved_context_p->stack_limit;
context_p->last_context_p = saved_context_p->prev_context_p;
context_p->last_statement = saved_context_p->last_statement;
context_p->argument_count = saved_context_p->argument_count;
#if JERRY_ESNEXT
context_p->argument_length = saved_context_p->argument_length;
#endif /* JERRY_ESNEXT */
context_p->register_count = saved_context_p->register_count;
context_p->literal_count = saved_context_p->literal_count;
context_p->byte_code = saved_context_p->byte_code;
context_p->byte_code_size = saved_context_p->byte_code_size;
context_p->literal_pool.data = saved_context_p->literal_pool_data;
context_p->scope_stack_p = saved_context_p->scope_stack_p;
context_p->scope_stack_size = saved_context_p->scope_stack_size;
context_p->scope_stack_top = saved_context_p->scope_stack_top;
context_p->scope_stack_reg_top = saved_context_p->scope_stack_reg_top;
#if JERRY_ESNEXT
context_p->scope_stack_global_end = saved_context_p->scope_stack_global_end;
context_p->tagged_template_literal_cp = saved_context_p->tagged_template_literal_cp;
#endif /* JERRY_ESNEXT */
#ifndef JERRY_NDEBUG
context_p->context_stack_depth = saved_context_p->context_stack_depth;
#endif /* !JERRY_NDEBUG */
#if JERRY_LINE_INFO
context_p->line_info_p = saved_context_p->line_info_p;
#endif /* JERRY_LINE_INFO */
} /* parser_restore_context */
/**
* Parse function code
*
* @return compiled code
*/
ecma_compiled_code_t *
parser_parse_function (parser_context_t *context_p, /**< context */
uint32_t status_flags) /**< extra status flags */
{
parser_saved_context_t saved_context;
ecma_compiled_code_t *compiled_code_p;
JERRY_ASSERT (status_flags & PARSER_IS_FUNCTION);
parser_save_context (context_p, &saved_context);
context_p->status_flags |= status_flags;
#if JERRY_ESNEXT
context_p->status_flags |= PARSER_ALLOW_NEW_TARGET;
#endif /* JERRY_ESNEXT */
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
#if JERRY_ESNEXT
JERRY_DEBUG_MSG ("\n--- %s parsing start ---\n\n",
(context_p->status_flags & PARSER_CLASS_CONSTRUCTOR) ? "Class constructor" : "Function");
#else /* !JERRY_ESNEXT */
JERRY_DEBUG_MSG ("\n--- Function parsing start ---\n\n");
#endif /* JERRY_ESNEXT */
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_parse_function (context_p->token.line, context_p->token.column);
}
#endif /* JERRY_DEBUGGER */
lexer_next_token (context_p);
if (context_p->token.type != LEXER_LEFT_PAREN)
{
parser_raise_error (context_p, PARSER_ERR_ARGUMENT_LIST_EXPECTED);
}
lexer_next_token (context_p);
parser_parse_function_arguments (context_p, LEXER_RIGHT_PAREN);
lexer_next_token (context_p);
if ((context_p->status_flags & PARSER_IS_PROPERTY_GETTER) && context_p->argument_count != 0)
{
parser_raise_error (context_p, PARSER_ERR_NO_ARGUMENTS_EXPECTED);
}
if ((context_p->status_flags & PARSER_IS_PROPERTY_SETTER) && context_p->argument_count != 1)
{
parser_raise_error (context_p, PARSER_ERR_ONE_ARGUMENT_EXPECTED);
}
#if JERRY_ESNEXT
if ((context_p->status_flags & (PARSER_CLASS_CONSTRUCTOR | PARSER_ALLOW_SUPER_CALL)) == PARSER_CLASS_CONSTRUCTOR)
{
parser_emit_cbc_ext (context_p, CBC_EXT_RUN_FIELD_INIT);
parser_flush_cbc (context_p);
}
#endif /* JERRY_ESNEXT */
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes && (context_p->status_flags & PARSER_HAS_NON_STRICT_ARG))
{
JERRY_DEBUG_MSG (" Note: legacy (non-strict) argument definition\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
if (context_p->token.type != LEXER_LEFT_BRACE)
{
parser_raise_error (context_p, PARSER_ERR_LEFT_BRACE_EXPECTED);
}
lexer_next_token (context_p);
parser_parse_statements (context_p);
compiled_code_p = parser_post_processing (context_p);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
#if JERRY_ESNEXT
JERRY_DEBUG_MSG ("\n--- %s parsing end ---\n\n",
(context_p->status_flags & PARSER_CLASS_CONSTRUCTOR) ? "Class constructor" : "Function");
#else /* !JERRY_ESNEXT */
JERRY_DEBUG_MSG ("\n--- Function parsing end ---\n\n");
#endif /* JERRY_ESNEXT */
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
parser_restore_context (context_p, &saved_context);
return compiled_code_p;
} /* parser_parse_function */
#if JERRY_ESNEXT
/**
* Parse static class block code
*
* @return compiled code
*/
ecma_compiled_code_t *
parser_parse_class_static_block (parser_context_t *context_p) /**< context */
{
parser_saved_context_t saved_context;
ecma_compiled_code_t *compiled_code_p;
parser_save_context (context_p, &saved_context);
context_p->status_flags |= (PARSER_IS_CLASS_STATIC_BLOCK | PARSER_FUNCTION_CLOSURE | PARSER_ALLOW_SUPER
| PARSER_INSIDE_CLASS_FIELD | PARSER_ALLOW_NEW_TARGET | PARSER_DISALLOW_AWAIT_YIELD);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- Static class block parsing start ---\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
scanner_create_variables (context_p, SCANNER_CREATE_VARS_NO_OPTS);
lexer_next_token (context_p);
parser_parse_statements (context_p);
compiled_code_p = parser_post_processing (context_p);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- Static class block parsing end ---\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
parser_restore_context (context_p, &saved_context);
return compiled_code_p;
} /* parser_parse_class_static_block */
/**
* Parse arrow function code
*
* @return compiled code
*/
ecma_compiled_code_t *
parser_parse_arrow_function (parser_context_t *context_p, /**< context */
uint32_t status_flags) /**< extra status flags */
{
parser_saved_context_t saved_context;
ecma_compiled_code_t *compiled_code_p;
JERRY_ASSERT (status_flags & PARSER_IS_FUNCTION);
JERRY_ASSERT (status_flags & PARSER_IS_ARROW_FUNCTION);
parser_save_context (context_p, &saved_context);
context_p->status_flags |= status_flags;
context_p->status_flags |=
saved_context.status_flags & (PARSER_ALLOW_NEW_TARGET | PARSER_ALLOW_SUPER | PARSER_ALLOW_SUPER_CALL);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- Arrow function parsing start ---\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_parse_function (context_p->token.line, context_p->token.column);
}
#endif /* JERRY_DEBUGGER */
/* The `await` keyword is disallowed in the IdentifierReference position */
if (status_flags & PARSER_IS_CLASS_STATIC_BLOCK)
{
context_p->status_flags |= PARSER_DISALLOW_AWAIT_YIELD;
}
if (context_p->token.type == LEXER_LEFT_PAREN)
{
lexer_next_token (context_p);
parser_parse_function_arguments (context_p, LEXER_RIGHT_PAREN);
lexer_next_token (context_p);
}
else
{
parser_parse_function_arguments (context_p, LEXER_ARROW);
}
/* The `await` keyword is interpreted as an identifier within the body of arrow functions */
if (status_flags & PARSER_IS_CLASS_STATIC_BLOCK)
{
context_p->status_flags &= (uint32_t) ~(PARSER_DISALLOW_AWAIT_YIELD | PARSER_IS_CLASS_STATIC_BLOCK);
}
JERRY_ASSERT (context_p->token.type == LEXER_ARROW);
lexer_next_token (context_p);
if (context_p->token.type == LEXER_LEFT_BRACE)
{
lexer_next_token (context_p);
context_p->status_flags |= PARSER_IS_CLOSURE;
parser_parse_statements (context_p);
/* Unlike normal function, arrow functions consume their close brace. */
JERRY_ASSERT (context_p->token.type == LEXER_RIGHT_BRACE);
lexer_next_token (context_p);
}
else
{
if (context_p->status_flags & PARSER_IS_STRICT && context_p->status_flags & PARSER_HAS_NON_STRICT_ARG)
{
parser_raise_error (context_p, PARSER_ERR_NON_STRICT_ARG_DEFINITION);
}
#if JERRY_LINE_INFO
parser_line_info_append (context_p, context_p->token.line, context_p->token.column);
#endif /* JERRY_LINE_INFO */
parser_parse_expression (context_p, PARSE_EXPR_NO_COMMA);
if (context_p->last_cbc_opcode == CBC_PUSH_LITERAL)
{
context_p->last_cbc_opcode = CBC_RETURN_WITH_LITERAL;
}
else
{
parser_emit_cbc (context_p, CBC_RETURN);
}
parser_flush_cbc (context_p);
lexer_update_await_yield (context_p, saved_context.status_flags);
}
compiled_code_p = parser_post_processing (context_p);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- Arrow function parsing end ---\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
parser_restore_context (context_p, &saved_context);
return compiled_code_p;
} /* parser_parse_arrow_function */
/**
* Parse class fields
*
* @return compiled code
*/
ecma_compiled_code_t *
parser_parse_class_fields (parser_context_t *context_p) /**< context */
{
parser_saved_context_t saved_context;
ecma_compiled_code_t *compiled_code_p;
uint32_t extra_status_flags = context_p->status_flags & PARSER_INSIDE_WITH;
parser_save_context (context_p, &saved_context);
context_p->status_flags |= (PARSER_IS_FUNCTION | PARSER_ALLOW_SUPER | PARSER_INSIDE_CLASS_FIELD
| PARSER_ALLOW_NEW_TARGET | extra_status_flags);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- Class fields parsing start ---\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_parse_function (context_p->token.line, context_p->token.column);
}
#endif /* JERRY_DEBUGGER */
const uint8_t *source_end_p = context_p->source_end_p;
bool first_computed_class_field = true;
scanner_location_t end_location;
scanner_get_location (&end_location, context_p);
do
{
uint8_t class_field_type = context_p->stack_top_uint8;
parser_stack_pop_uint8 (context_p);
scanner_range_t range = { 0 };
if (class_field_type & PARSER_CLASS_FIELD_INITIALIZED)
{
parser_stack_pop (context_p, &range, sizeof (scanner_range_t));
}
else if (class_field_type & PARSER_CLASS_FIELD_NORMAL)
{
parser_stack_pop (context_p, &range.start_location, sizeof (scanner_location_t));
}
uint16_t literal_index = 0;
bool is_private = false;
if (class_field_type & PARSER_CLASS_FIELD_NORMAL)
{
scanner_set_location (context_p, &range.start_location);
if (class_field_type & PARSER_CLASS_FIELD_STATIC_BLOCK)
{
scanner_seek (context_p);
JERRY_ASSERT (context_p->source_p[1] == LIT_CHAR_LEFT_BRACE);
context_p->source_p += 2;
context_p->source_end_p = source_end_p;
uint16_t func_index = lexer_construct_class_static_block_function (context_p);
parser_emit_cbc_ext_literal (context_p, CBC_EXT_CLASS_CALL_STATIC_BLOCK, func_index);
continue;
}
uint32_t ident_opts = LEXER_OBJ_IDENT_ONLY_IDENTIFIERS;
is_private = context_p->source_p[-1] == LIT_CHAR_HASHMARK;
if (is_private)
{
ident_opts |= LEXER_OBJ_IDENT_CLASS_PRIVATE;
}
context_p->source_end_p = source_end_p;
scanner_seek (context_p);
lexer_expect_object_literal_id (context_p, ident_opts);
literal_index = context_p->lit_object.index;
if (class_field_type & PARSER_CLASS_FIELD_INITIALIZED)
{
lexer_next_token (context_p);
JERRY_ASSERT (context_p->token.type == LEXER_ASSIGN);
}
}
else if (first_computed_class_field)
{
parser_emit_cbc (context_p, CBC_PUSH_NUMBER_0);
first_computed_class_field = false;
}
if (class_field_type & PARSER_CLASS_FIELD_INITIALIZED)
{
if (!(class_field_type & PARSER_CLASS_FIELD_NORMAL))
{
scanner_set_location (context_p, &range.start_location);
scanner_seek (context_p);
}
context_p->source_end_p = range.source_end_p;
lexer_next_token (context_p);
#if JERRY_LINE_INFO
parser_line_info_append (context_p, context_p->token.line, context_p->token.column);
#endif /* JERRY_LINE_INFO */
parser_parse_expression (context_p, PARSE_EXPR_NO_COMMA);
if (context_p->token.type != LEXER_EOS)
{
parser_raise_error (context_p, PARSER_ERR_SEMICOLON_EXPECTED);
}
}
else
{
parser_emit_cbc (context_p, CBC_PUSH_UNDEFINED);
}
if (class_field_type & PARSER_CLASS_FIELD_NORMAL)
{
uint16_t function_literal_index = parser_check_anonymous_function_declaration (context_p);
if (function_literal_index == PARSER_ANONYMOUS_CLASS)
{
parser_emit_cbc_ext_literal (context_p, CBC_EXT_SET_CLASS_NAME, literal_index);
}
else if (function_literal_index < PARSER_NAMED_FUNCTION)
{
uint32_t function_name_status_flags = is_private ? PARSER_PRIVATE_FUNCTION_NAME : 0;
parser_set_function_name (context_p, function_literal_index, literal_index, function_name_status_flags);
}
if (is_private)
{
parser_emit_cbc_ext_literal (context_p, CBC_EXT_PRIVATE_FIELD_ADD, literal_index);
}
else
{
parser_emit_cbc_ext_literal (context_p, CBC_EXT_DEFINE_FIELD, literal_index);
}
/* Prepare stack slot for assignment property reference base. Needed by vm.c */
if (context_p->stack_limit == context_p->stack_depth)
{
context_p->stack_limit++;
JERRY_ASSERT (context_p->stack_limit <= PARSER_MAXIMUM_STACK_LIMIT);
}
}
else
{
uint16_t function_literal_index = parser_check_anonymous_function_declaration (context_p);
uint16_t opcode = CBC_EXT_SET_NEXT_COMPUTED_FIELD;
if (function_literal_index < PARSER_NAMED_FUNCTION || function_literal_index == PARSER_ANONYMOUS_CLASS)
{
opcode = CBC_EXT_SET_NEXT_COMPUTED_FIELD_ANONYMOUS_FUNC;
}
parser_flush_cbc (context_p);
/* The next opcode pushes two more temporary values onto the stack */
if (context_p->stack_depth + 1 > context_p->stack_limit)
{
context_p->stack_limit = (uint16_t) (context_p->stack_depth + 1);
if (context_p->stack_limit > PARSER_MAXIMUM_STACK_LIMIT)
{
parser_raise_error (context_p, PARSER_ERR_STACK_LIMIT_REACHED);
}
}
parser_emit_cbc_ext (context_p, opcode);
}
} while (!(context_p->stack_top_uint8 & PARSER_CLASS_FIELD_END));
if (!first_computed_class_field)
{
parser_emit_cbc (context_p, CBC_POP);
}
parser_flush_cbc (context_p);
context_p->source_end_p = source_end_p;
scanner_set_location (context_p, &end_location);
#if JERRY_LINE_INFO
if (context_p->line_info_p == NULL)
{
parser_line_info_append (context_p, context_p->token.line, context_p->token.column);
}
#endif /* JERRY_LINE_INFO */
compiled_code_p = parser_post_processing (context_p);
#if JERRY_PARSER_DUMP_BYTE_CODE
if (context_p->is_show_opcodes)
{
JERRY_DEBUG_MSG ("\n--- Class fields parsing end ---\n\n");
}
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
parser_restore_context (context_p, &saved_context);
return compiled_code_p;
} /* parser_parse_class_fields */
/**
* Check whether the last emitted cbc opcode was an anonymous function declaration
*
* @return PARSER_NOT_FUNCTION_LITERAL - if the last opcode is not a function literal
* PARSER_NAMED_FUNCTION - if the last opcode is not a named function declataion
* PARSER_ANONYMOUS_CLASS - if the last opcode is an anonymous class declaration
* literal index of the anonymous function literal - otherwise
*/
uint16_t
parser_check_anonymous_function_declaration (parser_context_t *context_p) /**< context */
{
if (context_p->last_cbc_opcode == PARSER_TO_EXT_OPCODE (CBC_EXT_FINALIZE_ANONYMOUS_CLASS))
{
return PARSER_ANONYMOUS_CLASS;
}
if (context_p->last_cbc.literal_type != LEXER_FUNCTION_LITERAL)
{
return PARSER_NOT_FUNCTION_LITERAL;
}
uint16_t literal_index = PARSER_NOT_FUNCTION_LITERAL;
if (context_p->last_cbc_opcode == CBC_PUSH_LITERAL)
{
literal_index = context_p->last_cbc.literal_index;
}
else if (context_p->last_cbc_opcode == CBC_PUSH_TWO_LITERALS)
{
literal_index = context_p->last_cbc.value;
}
else if (context_p->last_cbc_opcode == CBC_PUSH_THREE_LITERALS)
{
literal_index = context_p->last_cbc.third_literal_index;
}
else
{
return PARSER_NOT_FUNCTION_LITERAL;
}
const ecma_compiled_code_t *bytecode_p;
bytecode_p = (const ecma_compiled_code_t *) (PARSER_GET_LITERAL (literal_index)->u.bytecode_p);
bool is_anon =
ecma_is_value_magic_string (*ecma_compiled_code_resolve_function_name (bytecode_p), LIT_MAGIC_STRING__EMPTY);
return (is_anon ? literal_index : PARSER_NAMED_FUNCTION);
} /* parser_check_anonymous_function_declaration */
/**
* Set the function name of the function literal corresponds to the given function literal index
* to the given character buffer of literal corresponds to the given name index.
*/
void
parser_set_function_name (parser_context_t *context_p, /**< context */
uint16_t function_literal_index, /**< function literal index */
uint16_t name_index, /**< function name literal index */
uint32_t status_flags) /**< status flags */
{
ecma_compiled_code_t *bytecode_p;
bytecode_p = (ecma_compiled_code_t *) (PARSER_GET_LITERAL (function_literal_index)->u.bytecode_p);
parser_compiled_code_set_function_name (context_p, bytecode_p, name_index, status_flags);
} /* parser_set_function_name */
/**
* Prepend the given prefix into the current function name literal
*
* @return pointer to the newly allocated buffer
*/
static uint8_t *
parser_add_function_name_prefix (parser_context_t *context_p, /**< context */
const char *prefix_p, /**< prefix */
uint32_t prefix_size, /**< prefix's length */
uint32_t *name_length_p, /**< [out] function name's size */
lexer_literal_t *name_lit_p) /**< function name literal */
{
*name_length_p += prefix_size;
uint8_t *name_buffer_p = (uint8_t *) parser_malloc (context_p, *name_length_p * sizeof (uint8_t));
memcpy (name_buffer_p, prefix_p, prefix_size);
memcpy (name_buffer_p + prefix_size, name_lit_p->u.char_p, name_lit_p->prop.length);
return name_buffer_p;
} /* parser_add_function_name_prefix */
/**
* Set the function name of the given compiled code
* to the given character buffer of literal corresponds to the given name index.
*/
void
parser_compiled_code_set_function_name (parser_context_t *context_p, /**< context */
ecma_compiled_code_t *bytecode_p, /**< function literal index */
uint16_t name_index, /**< function name literal index */
uint32_t status_flags) /**< status flags */
{
ecma_value_t *func_name_start_p;
func_name_start_p = ecma_compiled_code_resolve_function_name ((const ecma_compiled_code_t *) bytecode_p);
if (JERRY_UNLIKELY (!ecma_is_value_magic_string (*func_name_start_p, LIT_MAGIC_STRING__EMPTY)))
{
return;
}
parser_scope_stack_t *scope_stack_start_p = context_p->scope_stack_p;
parser_scope_stack_t *scope_stack_p = scope_stack_start_p + context_p->scope_stack_top;
while (scope_stack_p > scope_stack_start_p)
{
scope_stack_p--;
if (scope_stack_p->map_from != PARSER_SCOPE_STACK_FUNC && scanner_decode_map_to (scope_stack_p) == name_index)
{
name_index = scope_stack_p->map_from;
break;
}
}
lexer_literal_t *name_lit_p = (lexer_literal_t *) PARSER_GET_LITERAL (name_index);
if (name_lit_p->type != LEXER_IDENT_LITERAL && name_lit_p->type != LEXER_STRING_LITERAL)
{
return;
}
uint8_t *name_buffer_p = (uint8_t *) name_lit_p->u.char_p;
uint32_t name_length = name_lit_p->prop.length;
if (status_flags & PARSER_PRIVATE_FUNCTION_NAME)
{
name_buffer_p = parser_add_function_name_prefix (context_p, "#", 1, &name_length, name_lit_p);
}
else if (status_flags & (PARSER_IS_PROPERTY_GETTER | PARSER_IS_PROPERTY_SETTER))
{
name_buffer_p = parser_add_function_name_prefix (context_p,
(status_flags & PARSER_IS_PROPERTY_GETTER) ? "get " : "set ",
4,
&name_length,
name_lit_p);
}
*func_name_start_p =
ecma_find_or_create_literal_string (name_buffer_p, name_length, (status_flags & LEXER_FLAG_ASCII) != 0);
if (name_buffer_p != name_lit_p->u.char_p)
{
parser_free (name_buffer_p, name_length);
}
} /* parser_compiled_code_set_function_name */
#endif /* JERRY_ESNEXT */
/**
* Raise a parse error.
*/
void
parser_raise_error (parser_context_t *context_p, /**< context */
parser_error_msg_t error) /**< error code */
{
/* Must be compatible with the scanner because
* the lexer might throws errors during prescanning. */
parser_saved_context_t *saved_context_p = context_p->last_context_p;
while (saved_context_p != NULL)
{
parser_cbc_stream_free (&saved_context_p->byte_code);
/* First the current literal pool is freed, and then it is replaced
* by the literal pool coming from the saved context. Since literals
* are not used anymore, this is a valid replacement. The last pool
* is freed by parser_parse_source. */
parser_free_literals (&context_p->literal_pool);
context_p->literal_pool.data = saved_context_p->literal_pool_data;
if (context_p->scope_stack_p != NULL)
{
parser_free (context_p->scope_stack_p, context_p->scope_stack_size * sizeof (parser_scope_stack_t));
}
context_p->scope_stack_p = saved_context_p->scope_stack_p;
context_p->scope_stack_size = saved_context_p->scope_stack_size;
if (saved_context_p->last_statement.current_p != NULL)
{
parser_free_jumps (saved_context_p->last_statement);
}
#if JERRY_ESNEXT
if (saved_context_p->tagged_template_literal_cp != JMEM_CP_NULL)
{
ecma_collection_t *collection =
ECMA_GET_INTERNAL_VALUE_POINTER (ecma_collection_t, saved_context_p->tagged_template_literal_cp);
ecma_collection_free_template_literal (collection);
}
#endif /* JERRY_ESNEXT */
#if JERRY_LINE_INFO
parser_line_info_free (saved_context_p->line_info_p);
#endif /* JERRY_LINE_INFO */
saved_context_p = saved_context_p->prev_context_p;
}
#if JERRY_ESNEXT
parser_free_private_fields (context_p);
if (context_p->tagged_template_literal_cp != JMEM_CP_NULL)
{
ecma_collection_t *collection =
ECMA_GET_INTERNAL_VALUE_POINTER (ecma_collection_t, context_p->tagged_template_literal_cp);
ecma_collection_free_template_literal (collection);
}
#endif /* JERRY_ESNEXT */
context_p->error = error;
PARSER_THROW (context_p->try_buffer);
/* Should never been reached. */
JERRY_ASSERT (0);
} /* parser_raise_error */
#endif /* JERRY_PARSER */
/**
* Parse EcmaScript source code
*
* Note:
* if arg_list_p is not NULL, a function body is parsed
* returned value must be freed with ecma_free_value
*
* @return pointer to compiled byte code - if success
* NULL - otherwise
*/
ecma_compiled_code_t *
parser_parse_script (void *source_p, /**< source code */
uint32_t parse_opts, /**< ecma_parse_opts_t option bits */
const jerry_parse_options_t *options_p) /**< additional configuration options */
{
#if JERRY_PARSER
ecma_compiled_code_t *bytecode_p = parser_parse_source (source_p, parse_opts, options_p);
if (JERRY_UNLIKELY (bytecode_p == NULL))
{
/* Exception has already thrown. */
return NULL;
}
#if JERRY_DEBUGGER
if ((JERRY_CONTEXT (debugger_flags) & (JERRY_DEBUGGER_CONNECTED | JERRY_DEBUGGER_PARSER_WAIT))
== (JERRY_DEBUGGER_CONNECTED | JERRY_DEBUGGER_PARSER_WAIT))
{
JERRY_DEBUGGER_SET_FLAGS (JERRY_DEBUGGER_PARSER_WAIT_MODE);
jerry_debugger_send_type (JERRY_DEBUGGER_WAITING_AFTER_PARSE);
while (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_PARSER_WAIT_MODE)
{
jerry_debugger_receive (NULL);
if (!(JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED))
{
break;
}
jerry_debugger_transport_sleep ();
}
}
#endif /* JERRY_DEBUGGER */
return bytecode_p;
#else /* !JERRY_PARSER */
JERRY_UNUSED (arg_list_p);
JERRY_UNUSED (arg_list_size);
JERRY_UNUSED (source_p);
JERRY_UNUSED (source_size);
JERRY_UNUSED (parse_opts);
JERRY_UNUSED (source_name);
ecma_raise_syntax_error (ECMA_ERR_PARSER_NOT_SUPPORTED);
return NULL;
#endif /* JERRY_PARSER */
} /* parser_parse_script */
/**
* @}
* @}
* @}
*/
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