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jerryscript/jerry-core/parser/js/opcodes-dumper.cpp
Ruben Ayrapetyan 73d082aa55 Fix parse of delete operator. 
JerryScript-DCO-1.0-Signed-off-by: Ruben Ayrapetyan r.ayrapetyan@samsung.com
2015-07-15 12:34:51 +03:00

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/* Copyright 2014-2015 Samsung Electronics Co., Ltd.
*
* 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 "opcodes-dumper.h"
#include "serializer.h"
#include "stack.h"
#include "syntax-errors.h"
#include "opcodes-native-call.h"
static idx_t temp_name, max_temp_name;
#define OPCODE(name) (__op__idx_##name)
enum
{
U8_global_size
};
STATIC_STACK (U8, uint8_t)
enum
{
varg_headers_global_size
};
STATIC_STACK (varg_headers, opcode_counter_t)
enum
{
function_ends_global_size
};
STATIC_STACK (function_ends, opcode_counter_t)
enum
{
logical_and_checks_global_size
};
STATIC_STACK (logical_and_checks, opcode_counter_t)
enum
{
logical_or_checks_global_size
};
STATIC_STACK (logical_or_checks, opcode_counter_t)
enum
{
conditional_checks_global_size
};
STATIC_STACK (conditional_checks, opcode_counter_t)
enum
{
jumps_to_end_global_size
};
STATIC_STACK (jumps_to_end, opcode_counter_t)
enum
{
prop_getters_global_size
};
STATIC_STACK (prop_getters, op_meta)
enum
{
next_iterations_global_size
};
STATIC_STACK (next_iterations, opcode_counter_t)
enum
{
case_clauses_global_size
};
STATIC_STACK (case_clauses, opcode_counter_t)
enum
{
tries_global_size
};
STATIC_STACK (tries, opcode_counter_t)
enum
{
catches_global_size
};
STATIC_STACK (catches, opcode_counter_t)
enum
{
finallies_global_size
};
STATIC_STACK (finallies, opcode_counter_t)
enum
{
temp_names_global_size
};
STATIC_STACK (temp_names, idx_t)
enum
{
reg_var_decls_global_size
};
STATIC_STACK (reg_var_decls, opcode_counter_t)
/**
* Reset counter of register variables allocator
* to identifier of first general register
*/
static void
reset_temp_name (void)
{
temp_name = OPCODE_REG_GENERAL_FIRST;
} /* reset_temp_name */
/**
* Allocate next register variable
*
* @return identifier of the allocated variable
*/
static idx_t
next_temp_name (void)
{
idx_t next_reg = temp_name++;
if (next_reg > OPCODE_REG_GENERAL_LAST)
{
/*
* FIXME:
* Implement mechanism, allowing reusage of register variables
*/
PARSE_ERROR ("Not enough register variables", LIT_ITERATOR_POS_ZERO);
}
if (max_temp_name < next_reg)
{
max_temp_name = next_reg;
}
return next_reg;
} /* next_temp_name */
static op_meta
create_op_meta (opcode_t op, lit_cpointer_t lit_id1, lit_cpointer_t lit_id2, lit_cpointer_t lit_id3)
{
op_meta ret;
ret.op = op;
ret.lit_id[0] = lit_id1;
ret.lit_id[1] = lit_id2;
ret.lit_id[2] = lit_id3;
return ret;
}
static op_meta
create_op_meta_000 (opcode_t op)
{
return create_op_meta (op, NOT_A_LITERAL, NOT_A_LITERAL, NOT_A_LITERAL);
}
static op_meta
create_op_meta_001 (opcode_t op, lit_cpointer_t lit_id)
{
return create_op_meta (op, NOT_A_LITERAL, NOT_A_LITERAL, lit_id);
}
static op_meta
create_op_meta_010 (opcode_t op, lit_cpointer_t lit_id)
{
return create_op_meta (op, NOT_A_LITERAL, lit_id, NOT_A_LITERAL);
}
static op_meta
create_op_meta_011 (opcode_t op, lit_cpointer_t lit_id2, lit_cpointer_t lit_id3)
{
return create_op_meta (op, NOT_A_LITERAL, lit_id2, lit_id3);
}
static op_meta
create_op_meta_100 (opcode_t op, lit_cpointer_t lit_id)
{
return create_op_meta (op, lit_id, NOT_A_LITERAL, NOT_A_LITERAL);
}
static op_meta
create_op_meta_101 (opcode_t op, lit_cpointer_t lit_id1, lit_cpointer_t lit_id3)
{
return create_op_meta (op, lit_id1, NOT_A_LITERAL, lit_id3);
}
static op_meta
create_op_meta_110 (opcode_t op, lit_cpointer_t lit_id1, lit_cpointer_t lit_id2)
{
return create_op_meta (op, lit_id1, lit_id2, NOT_A_LITERAL);
}
static op_meta
create_op_meta_111 (opcode_t op, lit_cpointer_t lit_id1, lit_cpointer_t lit_id2, lit_cpointer_t lit_id3)
{
return create_op_meta (op, lit_id1, lit_id2, lit_id3);
}
static operand
tmp_operand (void)
{
operand ret;
ret.type = OPERAND_TMP;
ret.data.uid = next_temp_name ();
return ret;
}
static uint8_t
name_to_native_call_id (operand obj)
{
if (obj.type != OPERAND_LITERAL)
{
return OPCODE_NATIVE_CALL__COUNT;
}
if (lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "LEDToggle"))
{
return OPCODE_NATIVE_CALL_LED_TOGGLE;
}
else if (lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "LEDOn"))
{
return OPCODE_NATIVE_CALL_LED_ON;
}
else if (lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "LEDOff"))
{
return OPCODE_NATIVE_CALL_LED_OFF;
}
else if (lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "LEDOnce"))
{
return OPCODE_NATIVE_CALL_LED_ONCE;
}
else if (lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "wait"))
{
return OPCODE_NATIVE_CALL_WAIT;
}
else if (lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "print"))
{
return OPCODE_NATIVE_CALL_PRINT;
}
return OPCODE_NATIVE_CALL__COUNT;
}
static bool
is_native_call (operand obj)
{
return name_to_native_call_id (obj) < OPCODE_NATIVE_CALL__COUNT;
}
static op_meta
create_op_meta_for_res_and_obj (opcode_t (*getop) (idx_t, idx_t, idx_t), operand *res, operand *obj)
{
JERRY_ASSERT (obj != NULL);
JERRY_ASSERT (res != NULL);
op_meta ret;
switch (obj->type)
{
case OPERAND_TMP:
{
switch (res->type)
{
case OPERAND_TMP:
{
const opcode_t opcode = getop (res->data.uid, obj->data.uid, INVALID_VALUE);
ret = create_op_meta_000 (opcode);
break;
}
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, obj->data.uid, INVALID_VALUE);
ret = create_op_meta_100 (opcode, res->data.lit_id);
break;
}
}
break;
}
case OPERAND_LITERAL:
{
switch (res->type)
{
case OPERAND_TMP:
{
const opcode_t opcode = getop (res->data.uid, LITERAL_TO_REWRITE, INVALID_VALUE);
ret = create_op_meta_010 (opcode, obj->data.lit_id);
break;
}
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, LITERAL_TO_REWRITE, INVALID_VALUE);
ret = create_op_meta_110 (opcode, res->data.lit_id, obj->data.lit_id);
break;
}
}
break;
}
}
return ret;
}
static op_meta
create_op_meta_for_obj (opcode_t (*getop) (idx_t, idx_t), operand *obj)
{
JERRY_ASSERT (obj != NULL);
op_meta res;
switch (obj->type)
{
case OPERAND_TMP:
{
const opcode_t opcode = getop (obj->data.uid, INVALID_VALUE);
res = create_op_meta_000 (opcode);
break;
}
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, INVALID_VALUE);
res = create_op_meta_100 (opcode, obj->data.lit_id);
break;
}
}
return res;
}
static op_meta
create_op_meta_for_native_call (operand res, operand obj)
{
JERRY_ASSERT (is_native_call (obj));
op_meta ret;
switch (res.type)
{
case OPERAND_TMP:
{
const opcode_t opcode = getop_native_call (res.data.uid, name_to_native_call_id (obj), INVALID_VALUE);
ret = create_op_meta_000 (opcode);
break;
}
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_native_call (LITERAL_TO_REWRITE, name_to_native_call_id (obj), INVALID_VALUE);
ret = create_op_meta_100 (opcode, res.data.lit_id);
break;
}
}
return ret;
}
static op_meta
create_op_meta_for_vlt (varg_list_type vlt, operand *res, operand *obj)
{
op_meta ret;
switch (vlt)
{
case VARG_FUNC_EXPR: ret = create_op_meta_for_res_and_obj (getop_func_expr_n, res, obj); break;
case VARG_CONSTRUCT_EXPR: ret = create_op_meta_for_res_and_obj (getop_construct_n, res, obj); break;
case VARG_CALL_EXPR:
{
JERRY_ASSERT (obj != NULL);
if (is_native_call (*obj))
{
ret = create_op_meta_for_native_call (*res, *obj);
}
else
{
ret = create_op_meta_for_res_and_obj (getop_call_n, res, obj);
}
break;
}
case VARG_FUNC_DECL:
{
JERRY_ASSERT (res == NULL);
ret = create_op_meta_for_obj (getop_func_decl_n, obj);
break;
}
case VARG_ARRAY_DECL:
{
JERRY_ASSERT (obj == NULL);
ret = create_op_meta_for_obj (getop_array_decl, res);
break;
}
case VARG_OBJ_DECL:
{
JERRY_ASSERT (obj == NULL);
ret = create_op_meta_for_obj (getop_obj_decl, res);
break;
}
}
return ret;
}
static void
split_opcode_counter (opcode_counter_t oc, idx_t *id1, idx_t *id2)
{
JERRY_ASSERT (id1 != NULL);
JERRY_ASSERT (id2 != NULL);
*id1 = (idx_t) (oc >> JERRY_BITSINBYTE);
*id2 = (idx_t) (oc & ((1 << JERRY_BITSINBYTE) - 1));
JERRY_ASSERT (oc == calc_opcode_counter_from_idx_idx (*id1, *id2));
}
static op_meta
last_dumped_op_meta (void)
{
return serializer_get_op_meta ((opcode_counter_t) (serializer_get_current_opcode_counter () - 1));
}
static void
dump_single_address (opcode_t (*getop) (idx_t), operand op)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (op.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
static void
dump_double_address (opcode_t (*getop) (idx_t, idx_t), operand res, operand obj)
{
switch (res.type)
{
case OPERAND_LITERAL:
{
switch (obj.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_110 (opcode, res.data.lit_id, obj.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, obj.data.uid);
serializer_dump_op_meta (create_op_meta_100 (opcode, res.data.lit_id));
break;
}
}
break;
}
case OPERAND_TMP:
{
switch (obj.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (res.data.uid, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_010 (opcode, obj.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (res.data.uid, obj.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
break;
}
}
}
static void
dump_triple_address (opcode_t (*getop) (idx_t, idx_t, idx_t), operand res, operand lhs, operand rhs)
{
switch (res.type)
{
case OPERAND_LITERAL:
{
switch (lhs.type)
{
case OPERAND_LITERAL:
{
switch (rhs.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, LITERAL_TO_REWRITE, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_111 (opcode, res.data.lit_id, lhs.data.lit_id, rhs.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, LITERAL_TO_REWRITE, rhs.data.uid);
serializer_dump_op_meta (create_op_meta_110 (opcode, res.data.lit_id, lhs.data.lit_id));
break;
}
}
break;
}
case OPERAND_TMP:
{
switch (rhs.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, lhs.data.uid, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_101 (opcode, res.data.lit_id, rhs.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (LITERAL_TO_REWRITE, lhs.data.uid, rhs.data.uid);
serializer_dump_op_meta (create_op_meta_100 (opcode, res.data.lit_id));
break;
}
}
break;
}
}
break;
}
case OPERAND_TMP:
{
switch (lhs.type)
{
case OPERAND_LITERAL:
{
switch (rhs.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (res.data.uid, LITERAL_TO_REWRITE, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_011 (opcode, lhs.data.lit_id, rhs.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (res.data.uid, LITERAL_TO_REWRITE, rhs.data.uid);
serializer_dump_op_meta (create_op_meta_010 (opcode, lhs.data.lit_id));
break;
}
}
break;
}
case OPERAND_TMP:
{
switch (rhs.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop (res.data.uid, lhs.data.uid, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, rhs.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop (res.data.uid, lhs.data.uid, rhs.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
break;
}
}
break;
}
}
}
static void
dump_prop_setter_op_meta (op_meta last, operand op)
{
JERRY_ASSERT (last.op.op_idx == OPCODE (prop_getter));
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_prop_setter (last.op.data.prop_getter.obj,
last.op.data.prop_getter.prop,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_111 (opcode, last.lit_id[1], last.lit_id[2], op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_prop_setter (last.op.data.prop_getter.obj,
last.op.data.prop_getter.prop,
op.data.uid);
serializer_dump_op_meta (create_op_meta_110 (opcode, last.lit_id[1], last.lit_id[2]));
break;
}
}
}
static operand
create_operand_from_tmp_and_lit (idx_t tmp, lit_cpointer_t lit_id)
{
if (tmp != LITERAL_TO_REWRITE)
{
JERRY_ASSERT (lit_id.packed_value == MEM_CP_NULL);
operand ret;
ret.type = OPERAND_TMP;
ret.data.uid = tmp;
return ret;
}
else
{
JERRY_ASSERT (lit_id.packed_value != MEM_CP_NULL);
operand ret;
ret.type = OPERAND_LITERAL;
ret.data.lit_id = lit_id;
return ret;
}
}
static operand
dump_triple_address_and_prop_setter_res (void (*dumper) (operand, operand, operand),
op_meta last, operand op)
{
JERRY_ASSERT (last.op.op_idx == OPCODE (prop_getter));
const operand obj = create_operand_from_tmp_and_lit (last.op.data.prop_getter.obj, last.lit_id[1]);
const operand prop = create_operand_from_tmp_and_lit (last.op.data.prop_getter.prop, last.lit_id[2]);
const operand tmp = dump_prop_getter_res (obj, prop);
dumper (tmp, tmp, op);
dump_prop_setter (obj, prop, tmp);
return tmp;
}
static operand
dump_prop_setter_or_triple_address_res (void (*dumper) (operand, operand, operand),
operand res, operand op)
{
const op_meta last = STACK_TOP (prop_getters);
if (last.op.op_idx == OPCODE (prop_getter))
{
res = dump_triple_address_and_prop_setter_res (dumper, last, op);
}
else
{
dumper (res, res, op);
}
STACK_DROP (prop_getters, 1);
return res;
}
static opcode_counter_t
get_diff_from (opcode_counter_t oc)
{
return (opcode_counter_t) (serializer_get_current_opcode_counter () - oc);
}
operand
empty_operand (void)
{
operand ret;
ret.type = OPERAND_TMP;
ret.data.uid = INVALID_VALUE;
return ret;
}
operand
literal_operand (lit_cpointer_t lit_cp)
{
operand ret;
ret.type = OPERAND_LITERAL;
ret.data.lit_id = lit_cp;
return ret;
}
/**
* Creates operand for eval's return value
*
* @return constructed operand
*/
operand
eval_ret_operand (void)
{
operand ret;
ret.type = OPERAND_TMP;
ret.data.uid = EVAL_RET_VALUE;
return ret;
} /* eval_ret_operand */
/**
* Creates operand for taking iterator value (next property name)
* from for-in opcode handler.
*
* @return constructed operand
*/
operand
jsp_create_operand_for_in_special_reg (void)
{
operand ret;
ret.type = OPERAND_TMP;
ret.data.uid = OPCODE_REG_SPECIAL_FOR_IN_PROPERTY_NAME;
return ret;
} /* jsp_create_operand_for_in_special_reg */
bool
operand_is_empty (operand op)
{
return op.type == OPERAND_TMP && op.data.uid == INVALID_VALUE;
}
void
dumper_new_statement (void)
{
reset_temp_name ();
}
void
dumper_new_scope (void)
{
STACK_PUSH (temp_names, temp_name);
STACK_PUSH (temp_names, max_temp_name);
reset_temp_name ();
max_temp_name = temp_name;
}
void
dumper_finish_scope (void)
{
max_temp_name = STACK_TOP (temp_names);
STACK_DROP (temp_names, 1);
temp_name = STACK_TOP (temp_names);
STACK_DROP (temp_names, 1);
}
/**
* Handle start of argument preparation instruction sequence generation
*
* Note:
* Values of registers, allocated for the code sequence, are not used outside of the sequence,
* so they can be reused, reducing register pressure.
*
* To reuse the registers, counter of register allocator is saved, and restored then,
* after finishing generation of the code sequence, using dumper_finish_varg_code_sequence.
*
* FIXME:
* Implement general register allocation mechanism
*
* See also:
* dumper_finish_varg_code_sequence
*/
void
dumper_start_varg_code_sequence (void)
{
STACK_PUSH (temp_names, temp_name);
} /* dumper_start_varg_code_sequence */
/**
* Handle finish of argument preparation instruction sequence generation
*
* See also:
* dumper_start_varg_code_sequence
*/
void
dumper_finish_varg_code_sequence (void)
{
temp_name = STACK_TOP (temp_names);
STACK_DROP (temp_names, 1);
} /* dumper_finish_varg_code_sequence */
/**
* Check that byte-code operand refers to 'eval' string
*
* @return true - if specified byte-code operand's type is literal, and value of corresponding
* literal is equal to LIT_MAGIC_STRING_EVAL string,
* false - otherwise.
*/
bool
dumper_is_eval_literal (operand obj) /**< byte-code operand */
{
/*
* FIXME: Switch to corresponding magic string
*/
bool is_eval_lit = (obj.type == OPERAND_LITERAL
&& lit_literal_equal_type_cstr (lit_get_literal_by_cp (obj.data.lit_id), "eval"));
return is_eval_lit;
} /* dumper_is_eval_literal */
void
dump_boolean_assignment (operand op, bool is_true)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE,
OPCODE_ARG_TYPE_SIMPLE,
is_true ? ECMA_SIMPLE_VALUE_TRUE : ECMA_SIMPLE_VALUE_FALSE);
const op_meta om = create_op_meta_100 (opcode, op.data.lit_id);
serializer_dump_op_meta (om);
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid,
OPCODE_ARG_TYPE_SIMPLE,
is_true ? ECMA_SIMPLE_VALUE_TRUE : ECMA_SIMPLE_VALUE_FALSE);
const op_meta om = create_op_meta_000 (opcode);
serializer_dump_op_meta (om);
break;
}
}
}
operand
dump_boolean_assignment_res (bool is_true)
{
operand op = tmp_operand ();
dump_boolean_assignment (op, is_true);
return op;
}
void
dump_string_assignment (operand op, lit_cpointer_t lit_id)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE, OPCODE_ARG_TYPE_STRING, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_101 (opcode, op.data.lit_id, lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid, OPCODE_ARG_TYPE_STRING, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, lit_id));
break;
}
}
}
operand
dump_string_assignment_res (lit_cpointer_t lit_id)
{
operand op = tmp_operand ();
dump_string_assignment (op, lit_id);
return op;
}
void
dump_number_assignment (operand op, lit_cpointer_t lit_id)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE, OPCODE_ARG_TYPE_NUMBER, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_101 (opcode, op.data.lit_id, lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid, OPCODE_ARG_TYPE_NUMBER, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, lit_id));
break;
}
}
}
operand
dump_number_assignment_res (lit_cpointer_t lit_id)
{
operand op = tmp_operand ();
dump_number_assignment (op, lit_id);
return op;
}
void
dump_regexp_assignment (operand op, lit_cpointer_t lit_id)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE, OPCODE_ARG_TYPE_REGEXP, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_101 (opcode, op.data.lit_id, lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid, OPCODE_ARG_TYPE_REGEXP, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, lit_id));
break;
}
}
}
operand
dump_regexp_assignment_res (lit_cpointer_t lit_id)
{
operand op = tmp_operand ();
dump_regexp_assignment (op, lit_id);
return op;
}
void
dump_smallint_assignment (operand op, idx_t uid)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE, OPCODE_ARG_TYPE_SMALLINT, uid);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid, OPCODE_ARG_TYPE_SMALLINT, uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
operand
dump_smallint_assignment_res (idx_t uid)
{
operand op = tmp_operand ();
dump_smallint_assignment (op, uid);
return op;
}
void
dump_undefined_assignment (operand op)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE,
OPCODE_ARG_TYPE_SIMPLE,
ECMA_SIMPLE_VALUE_UNDEFINED);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid, OPCODE_ARG_TYPE_SIMPLE, ECMA_SIMPLE_VALUE_UNDEFINED);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
operand
dump_undefined_assignment_res (void)
{
operand op = tmp_operand ();
dump_undefined_assignment (op);
return op;
}
void
dump_null_assignment (operand op)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE,
OPCODE_ARG_TYPE_SIMPLE,
ECMA_SIMPLE_VALUE_NULL);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (op.data.uid,
OPCODE_ARG_TYPE_SIMPLE,
ECMA_SIMPLE_VALUE_NULL);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
operand
dump_null_assignment_res (void)
{
operand op = tmp_operand ();
dump_null_assignment (op);
return op;
}
void
dump_variable_assignment (operand res, operand var)
{
switch (res.type)
{
case OPERAND_LITERAL:
{
switch (var.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE,
OPCODE_ARG_TYPE_VARIABLE,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_101 (opcode, res.data.lit_id, var.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (LITERAL_TO_REWRITE,
OPCODE_ARG_TYPE_VARIABLE,
var.data.uid);
serializer_dump_op_meta (create_op_meta_100 (opcode, res.data.lit_id));
break;
}
}
break;
}
case OPERAND_TMP:
{
switch (var.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_assignment (res.data.uid,
OPCODE_ARG_TYPE_VARIABLE,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, var.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_assignment (res.data.uid,
OPCODE_ARG_TYPE_VARIABLE,
var.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
break;
}
}
}
operand
dump_variable_assignment_res (operand var)
{
operand op = tmp_operand ();
dump_variable_assignment (op, var);
return op;
}
void
dump_varg_header_for_rewrite (varg_list_type vlt, operand obj)
{
STACK_PUSH (varg_headers, serializer_get_current_opcode_counter ());
switch (vlt)
{
case VARG_FUNC_EXPR:
case VARG_CONSTRUCT_EXPR:
case VARG_CALL_EXPR:
{
operand res = empty_operand ();
serializer_dump_op_meta (create_op_meta_for_vlt (vlt, &res, &obj));
break;
}
case VARG_FUNC_DECL:
{
serializer_dump_op_meta (create_op_meta_for_vlt (vlt, NULL, &obj));
break;
}
case VARG_ARRAY_DECL:
case VARG_OBJ_DECL:
{
operand res = empty_operand ();
serializer_dump_op_meta (create_op_meta_for_vlt (vlt, &res, NULL));
break;
}
}
}
operand
rewrite_varg_header_set_args_count (uint8_t args_count)
{
op_meta om = serializer_get_op_meta (STACK_TOP (varg_headers));
switch (om.op.op_idx)
{
case OPCODE (func_expr_n):
case OPCODE (construct_n):
case OPCODE (call_n):
case OPCODE (native_call):
{
const operand res = tmp_operand ();
om.op.data.func_expr_n.arg_list = args_count;
om.op.data.func_expr_n.lhs = res.data.uid;
serializer_rewrite_op_meta (STACK_TOP (varg_headers), om);
STACK_DROP (varg_headers, 1);
return res;
}
case OPCODE (func_decl_n):
{
om.op.data.func_decl_n.arg_list = args_count;
serializer_rewrite_op_meta (STACK_TOP (varg_headers), om);
STACK_DROP (varg_headers, 1);
return empty_operand ();
}
case OPCODE (array_decl):
case OPCODE (obj_decl):
{
const operand res = tmp_operand ();
om.op.data.obj_decl.list = args_count;
om.op.data.obj_decl.lhs = res.data.uid;
serializer_rewrite_op_meta (STACK_TOP (varg_headers), om);
STACK_DROP (varg_headers, 1);
return res;
}
default:
{
JERRY_UNREACHABLE ();
}
}
}
/**
* Dump 'meta' instruction of 'call additional information' type,
* containing call flags and, optionally, 'this' argument
*/
void
dump_call_additional_info (opcode_call_flags_t flags, /**< call flags */
operand this_arg) /**< 'this' argument - if flags include OPCODE_CALL_FLAGS_HAVE_THIS_ARG,
* or empty operand - otherwise */
{
if (flags & OPCODE_CALL_FLAGS_HAVE_THIS_ARG)
{
JERRY_ASSERT (this_arg.type == OPERAND_TMP);
JERRY_ASSERT (!operand_is_empty (this_arg));
}
else
{
JERRY_ASSERT (operand_is_empty (this_arg));
}
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_CALL_SITE_INFO,
flags,
(idx_t) (flags & OPCODE_CALL_FLAGS_HAVE_THIS_ARG
? this_arg.data.uid
: INVALID_VALUE));
serializer_dump_op_meta (create_op_meta_000 (opcode));
} /* dump_call_additional_info */
void
dump_varg (operand op)
{
switch (op.type)
{
case OPERAND_TMP:
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_VARG, op.data.uid, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
return;
}
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_VARG, LITERAL_TO_REWRITE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_010 (opcode, op.data.lit_id));
return;
}
}
}
void
dump_prop_name_and_value (operand name, operand value)
{
JERRY_ASSERT (name.type == OPERAND_LITERAL);
literal_t lit = lit_get_literal_by_cp (name.data.lit_id);
operand tmp;
if (lit->get_type () == LIT_STR_T
|| lit->get_type () == LIT_MAGIC_STR_T
|| lit->get_type () == LIT_MAGIC_STR_EX_T)
{
tmp = dump_string_assignment_res (name.data.lit_id);
}
else
{
JERRY_ASSERT (lit->get_type () == LIT_NUMBER_T);
tmp = dump_number_assignment_res (name.data.lit_id);
}
switch (value.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_VARG_PROP_DATA, tmp.data.uid, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, value.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_VARG_PROP_DATA, tmp.data.uid, value.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
void
dump_prop_getter_decl (operand name, operand func)
{
JERRY_ASSERT (name.type == OPERAND_LITERAL);
JERRY_ASSERT (func.type == OPERAND_TMP);
literal_t lit = lit_get_literal_by_cp (name.data.lit_id);
operand tmp;
if (lit->get_type () == LIT_STR_T
|| lit->get_type () == LIT_MAGIC_STR_T
|| lit->get_type () == LIT_MAGIC_STR_EX_T)
{
tmp = dump_string_assignment_res (name.data.lit_id);
}
else
{
JERRY_ASSERT (lit->get_type () == LIT_NUMBER_T);
tmp = dump_number_assignment_res (name.data.lit_id);
}
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_VARG_PROP_GETTER, tmp.data.uid, func.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
dump_prop_setter_decl (operand name, operand func)
{
JERRY_ASSERT (name.type == OPERAND_LITERAL);
JERRY_ASSERT (func.type == OPERAND_TMP);
literal_t lit = lit_get_literal_by_cp (name.data.lit_id);
operand tmp;
if (lit->get_type () == LIT_STR_T
|| lit->get_type () == LIT_MAGIC_STR_T
|| lit->get_type () == LIT_MAGIC_STR_EX_T)
{
tmp = dump_string_assignment_res (name.data.lit_id);
}
else
{
JERRY_ASSERT (lit->get_type () == LIT_NUMBER_T);
tmp = dump_number_assignment_res (name.data.lit_id);
}
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_VARG_PROP_SETTER, tmp.data.uid, func.data.uid);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
dump_prop_getter (operand res, operand obj, operand prop)
{
dump_triple_address (getop_prop_getter, res, obj, prop);
}
operand
dump_prop_getter_res (operand obj, operand prop)
{
const operand res = tmp_operand ();
dump_prop_getter (res, obj, prop);
return res;
}
void
dump_prop_setter (operand res, operand obj, operand prop)
{
dump_triple_address (getop_prop_setter, res, obj, prop);
}
void
dump_function_end_for_rewrite (void)
{
STACK_PUSH (function_ends, serializer_get_current_opcode_counter ());
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_FUNCTION_END, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
rewrite_function_end (varg_list_type vlt)
{
opcode_counter_t oc;
if (vlt == VARG_FUNC_DECL)
{
oc = (opcode_counter_t) (get_diff_from (STACK_TOP (function_ends))
+ serializer_count_opcodes_in_subscopes ());
}
else
{
JERRY_ASSERT (vlt == VARG_FUNC_EXPR);
oc = (opcode_counter_t) (get_diff_from (STACK_TOP (function_ends)));
}
idx_t id1, id2;
split_opcode_counter (oc, &id1, &id2);
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_FUNCTION_END, id1, id2);
serializer_rewrite_op_meta (STACK_TOP (function_ends), create_op_meta_000 (opcode));
STACK_DROP (function_ends, 1);
}
void
dump_this (operand op)
{
dump_single_address (getop_this_binding, op);
}
operand
dump_this_res (void)
{
const operand res = tmp_operand ();
dump_this (res);
return res;
}
void
dump_post_increment (operand res, operand obj)
{
dump_double_address (getop_post_incr, res, obj);
}
operand
dump_post_increment_res (operand op)
{
const operand res = tmp_operand ();
dump_post_increment (res, op);
return res;
}
void
dump_post_decrement (operand res, operand obj)
{
dump_double_address (getop_post_decr, res, obj);
}
operand
dump_post_decrement_res (operand op)
{
const operand res = tmp_operand ();
dump_post_decrement (res, op);
return res;
}
void
dump_pre_increment (operand res, operand obj)
{
dump_double_address (getop_pre_incr, res, obj);
}
operand
dump_pre_increment_res (operand op)
{
const operand res = tmp_operand ();
dump_pre_increment (res, op);
return res;
}
void
dump_pre_decrement (operand res, operand obj)
{
dump_double_address (getop_pre_decr, res, obj);
}
operand
dump_pre_decrement_res (operand op)
{
const operand res = tmp_operand ();
dump_pre_decrement (res, op);
return res;
}
void
dump_unary_plus (operand res, operand obj)
{
dump_double_address (getop_unary_plus, res, obj);
}
operand
dump_unary_plus_res (operand op)
{
const operand res = tmp_operand ();
dump_unary_plus (res, op);
return res;
}
void
dump_unary_minus (operand res, operand obj)
{
dump_double_address (getop_unary_minus, res, obj);
}
operand
dump_unary_minus_res (operand op)
{
const operand res = tmp_operand ();
dump_unary_minus (res, op);
return res;
}
void
dump_bitwise_not (operand res, operand obj)
{
dump_double_address (getop_b_not, res, obj);
}
operand
dump_bitwise_not_res (operand op)
{
const operand res = tmp_operand ();
dump_bitwise_not (res, op);
return res;
}
void
dump_logical_not (operand res, operand obj)
{
dump_double_address (getop_logical_not, res, obj);
}
operand
dump_logical_not_res (operand op)
{
const operand res = tmp_operand ();
dump_logical_not (res, op);
return res;
}
void
dump_delete (operand res, operand op, bool is_strict, locus loc)
{
switch (op.type)
{
case OPERAND_LITERAL:
{
literal_t lit = lit_get_literal_by_cp (op.data.lit_id);
if (lit->get_type () == LIT_STR_T
|| lit->get_type () == LIT_MAGIC_STR_T
|| lit->get_type () == LIT_MAGIC_STR_EX_T)
{
syntax_check_delete (is_strict, loc);
switch (res.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_delete_var (LITERAL_TO_REWRITE, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_110 (opcode, res.data.lit_id, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_delete_var (res.data.uid, LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_010 (opcode, op.data.lit_id));
break;
}
}
break;
}
else if (lit->get_type () == LIT_NUMBER_T)
{
dump_boolean_assignment (res, true);
}
break;
}
case OPERAND_TMP:
{
const op_meta last_op_meta = last_dumped_op_meta ();
switch (last_op_meta.op.op_idx)
{
case OPCODE (prop_getter):
{
const opcode_counter_t oc = (opcode_counter_t) (serializer_get_current_opcode_counter () - 1);
serializer_set_writing_position (oc);
switch (res.type)
{
case OPERAND_LITERAL:
{
if (last_op_meta.op.data.prop_getter.obj == LITERAL_TO_REWRITE)
{
if (last_op_meta.op.data.prop_getter.prop == LITERAL_TO_REWRITE)
{
const opcode_t opcode = getop_delete_prop (LITERAL_TO_REWRITE,
LITERAL_TO_REWRITE,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_111 (opcode, res.data.lit_id,
last_op_meta.lit_id[1],
last_op_meta.lit_id[2]));
}
else
{
const opcode_t opcode = getop_delete_prop (LITERAL_TO_REWRITE,
LITERAL_TO_REWRITE,
last_op_meta.op.data.prop_getter.prop);
serializer_dump_op_meta (create_op_meta_110 (opcode, res.data.lit_id,
last_op_meta.lit_id[1]));
}
}
else
{
if (last_op_meta.op.data.prop_getter.prop == LITERAL_TO_REWRITE)
{
const opcode_t opcode = getop_delete_prop (LITERAL_TO_REWRITE,
last_op_meta.op.data.prop_getter.obj,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_101 (opcode, res.data.lit_id,
last_op_meta.lit_id[2]));
}
else
{
const opcode_t opcode = getop_delete_prop (LITERAL_TO_REWRITE,
last_op_meta.op.data.prop_getter.obj,
last_op_meta.op.data.prop_getter.prop);
serializer_dump_op_meta (create_op_meta_100 (opcode, res.data.lit_id));
}
}
break;
}
case OPERAND_TMP:
{
if (last_op_meta.op.data.prop_getter.obj == LITERAL_TO_REWRITE)
{
if (last_op_meta.op.data.prop_getter.prop == LITERAL_TO_REWRITE)
{
const opcode_t opcode = getop_delete_prop (res.data.uid,
LITERAL_TO_REWRITE,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_011 (opcode, last_op_meta.lit_id[1],
last_op_meta.lit_id[2]));
}
else
{
const opcode_t opcode = getop_delete_prop (res.data.uid,
LITERAL_TO_REWRITE,
last_op_meta.op.data.prop_getter.prop);
serializer_dump_op_meta (create_op_meta_010 (opcode, last_op_meta.lit_id[1]));
}
}
else
{
if (last_op_meta.op.data.prop_getter.prop == LITERAL_TO_REWRITE)
{
const opcode_t opcode = getop_delete_prop (res.data.uid,
last_op_meta.op.data.prop_getter.obj,
LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_001 (opcode, last_op_meta.lit_id[2]));
}
else
{
const opcode_t opcode = getop_delete_prop (res.data.uid,
last_op_meta.op.data.prop_getter.obj,
last_op_meta.op.data.prop_getter.prop);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
}
break;
}
}
break;
}
default:
{
dump_boolean_assignment (res, true);
}
}
break;
}
}
}
operand
dump_delete_res (operand op, bool is_strict, locus loc)
{
const operand res = tmp_operand ();
dump_delete (res, op, is_strict, loc);
return res;
}
void
dump_typeof (operand res, operand op)
{
dump_double_address (getop_typeof, res, op);
}
operand
dump_typeof_res (operand op)
{
const operand res = tmp_operand ();
dump_typeof (res, op);
return res;
}
void
dump_multiplication (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_multiplication, res, lhs, rhs);
}
operand
dump_multiplication_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_multiplication (res, lhs, rhs);
return res;
}
void
dump_division (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_division, res, lhs, rhs);
}
operand
dump_division_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_division (res, lhs, rhs);
return res;
}
void
dump_remainder (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_remainder, res, lhs, rhs);
}
operand
dump_remainder_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_remainder (res, lhs, rhs);
return res;
}
void
dump_addition (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_addition, res, lhs, rhs);
}
operand
dump_addition_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_addition (res, lhs, rhs);
return res;
}
void
dump_substraction (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_substraction, res, lhs, rhs);
}
operand
dump_substraction_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_substraction (res, lhs, rhs);
return res;
}
void
dump_left_shift (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_b_shift_left, res, lhs, rhs);
}
operand
dump_left_shift_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_left_shift (res, lhs, rhs);
return res;
}
void
dump_right_shift (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_b_shift_right, res, lhs, rhs);
}
operand
dump_right_shift_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_right_shift (res, lhs, rhs);
return res;
}
void
dump_right_shift_ex (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_b_shift_uright, res, lhs, rhs);
}
operand
dump_right_shift_ex_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_right_shift_ex (res, lhs, rhs);
return res;
}
void
dump_less_than (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_less_than, res, lhs, rhs);
}
operand
dump_less_than_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_less_than (res, lhs, rhs);
return res;
}
void
dump_greater_than (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_greater_than, res, lhs, rhs);
}
operand
dump_greater_than_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_greater_than (res, lhs, rhs);
return res;
}
void
dump_less_or_equal_than (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_less_or_equal_than, res, lhs, rhs);
}
operand
dump_less_or_equal_than_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_less_or_equal_than (res, lhs, rhs);
return res;
}
void
dump_greater_or_equal_than (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_greater_or_equal_than, res, lhs, rhs);
}
operand
dump_greater_or_equal_than_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_greater_or_equal_than (res, lhs, rhs);
return res;
}
void
dump_instanceof (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_instanceof, res, lhs, rhs);
}
operand
dump_instanceof_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_instanceof (res, lhs, rhs);
return res;
}
void
dump_in (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_in, res, lhs, rhs);
}
operand
dump_in_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_in (res, lhs, rhs);
return res;
}
void
dump_equal_value (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_equal_value, res, lhs, rhs);
}
operand
dump_equal_value_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_equal_value (res, lhs, rhs);
return res;
}
void
dump_not_equal_value (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_not_equal_value, res, lhs, rhs);
}
operand
dump_not_equal_value_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_not_equal_value (res, lhs, rhs);
return res;
}
void
dump_equal_value_type (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_equal_value_type, res, lhs, rhs);
}
operand
dump_equal_value_type_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_equal_value_type (res, lhs, rhs);
return res;
}
void
dump_not_equal_value_type (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_not_equal_value_type, res, lhs, rhs);
}
operand
dump_not_equal_value_type_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_not_equal_value_type (res, lhs, rhs);
return res;
}
void
dump_bitwise_and (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_b_and, res, lhs, rhs);
}
operand
dump_bitwise_and_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_bitwise_and (res, lhs, rhs);
return res;
}
void
dump_bitwise_xor (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_b_xor, res, lhs, rhs);
}
operand
dump_bitwise_xor_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_bitwise_xor (res, lhs, rhs);
return res;
}
void
dump_bitwise_or (operand res, operand lhs, operand rhs)
{
dump_triple_address (getop_b_or, res, lhs, rhs);
}
operand
dump_bitwise_or_res (operand lhs, operand rhs)
{
const operand res = tmp_operand ();
dump_bitwise_or (res, lhs, rhs);
return res;
}
void
start_dumping_logical_and_checks (void)
{
STACK_PUSH (U8, (uint8_t) STACK_SIZE (logical_and_checks));
}
void
dump_logical_and_check_for_rewrite (operand op)
{
STACK_PUSH (logical_and_checks, serializer_get_current_opcode_counter ());
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_is_false_jmp_down (LITERAL_TO_REWRITE, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_is_false_jmp_down (op.data.uid, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
void
rewrite_logical_and_checks (void)
{
for (uint8_t i = STACK_TOP (U8); i < STACK_SIZE (logical_and_checks); i++)
{
op_meta jmp_op_meta = serializer_get_op_meta (STACK_ELEMENT (logical_and_checks, i));
JERRY_ASSERT (jmp_op_meta.op.op_idx == OPCODE (is_false_jmp_down));
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_ELEMENT (logical_and_checks, i)), &id1, &id2);
jmp_op_meta.op.data.is_false_jmp_down.opcode_1 = id1;
jmp_op_meta.op.data.is_false_jmp_down.opcode_2 = id2;
serializer_rewrite_op_meta (STACK_ELEMENT (logical_and_checks, i), jmp_op_meta);
}
STACK_DROP (logical_and_checks, STACK_SIZE (logical_and_checks) - STACK_TOP (U8));
STACK_DROP (U8, 1);
}
void
start_dumping_logical_or_checks (void)
{
STACK_PUSH (U8, (uint8_t) STACK_SIZE (logical_or_checks));
}
void
dump_logical_or_check_for_rewrite (operand op)
{
STACK_PUSH (logical_or_checks, serializer_get_current_opcode_counter ());
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_is_true_jmp_down (LITERAL_TO_REWRITE, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_is_true_jmp_down (op.data.uid, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
void
rewrite_logical_or_checks (void)
{
for (uint8_t i = STACK_TOP (U8); i < STACK_SIZE (logical_or_checks); i++)
{
op_meta jmp_op_meta = serializer_get_op_meta (STACK_ELEMENT (logical_or_checks, i));
JERRY_ASSERT (jmp_op_meta.op.op_idx == OPCODE (is_true_jmp_down));
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_ELEMENT (logical_or_checks, i)), &id1, &id2);
jmp_op_meta.op.data.is_true_jmp_down.opcode_1 = id1;
jmp_op_meta.op.data.is_true_jmp_down.opcode_2 = id2;
serializer_rewrite_op_meta (STACK_ELEMENT (logical_or_checks, i), jmp_op_meta);
}
STACK_DROP (logical_or_checks, STACK_SIZE (logical_or_checks) - STACK_TOP (U8));
STACK_DROP (U8, 1);
}
void
dump_conditional_check_for_rewrite (operand op)
{
STACK_PUSH (conditional_checks, serializer_get_current_opcode_counter ());
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_is_false_jmp_down (LITERAL_TO_REWRITE, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_is_false_jmp_down (op.data.uid, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
void
rewrite_conditional_check (void)
{
op_meta jmp_op_meta = serializer_get_op_meta (STACK_TOP (conditional_checks));
JERRY_ASSERT (jmp_op_meta.op.op_idx == OPCODE (is_false_jmp_down));
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_TOP (conditional_checks)), &id1, &id2);
jmp_op_meta.op.data.is_false_jmp_down.opcode_1 = id1;
jmp_op_meta.op.data.is_false_jmp_down.opcode_2 = id2;
serializer_rewrite_op_meta (STACK_TOP (conditional_checks), jmp_op_meta);
STACK_DROP (conditional_checks, 1);
}
void
dump_jump_to_end_for_rewrite (void)
{
STACK_PUSH (jumps_to_end, serializer_get_current_opcode_counter ());
const opcode_t opcode = getop_jmp_down (INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
rewrite_jump_to_end (void)
{
op_meta jmp_op_meta = serializer_get_op_meta (STACK_TOP (jumps_to_end));
JERRY_ASSERT (jmp_op_meta.op.op_idx == OPCODE (jmp_down));
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_TOP (jumps_to_end)), &id1, &id2);
jmp_op_meta.op.data.jmp_down.opcode_1 = id1;
jmp_op_meta.op.data.jmp_down.opcode_2 = id2;
serializer_rewrite_op_meta (STACK_TOP (jumps_to_end), jmp_op_meta);
STACK_DROP (jumps_to_end, 1);
}
void
start_dumping_assignment_expression (void)
{
const op_meta last = last_dumped_op_meta ();
if (last.op.op_idx == OPCODE (prop_getter))
{
serializer_set_writing_position ((opcode_counter_t) (serializer_get_current_opcode_counter () - 1));
}
STACK_PUSH (prop_getters, last);
}
operand
dump_prop_setter_or_variable_assignment_res (operand res, operand op)
{
const op_meta last = STACK_TOP (prop_getters);
if (last.op.op_idx == OPCODE (prop_getter))
{
dump_prop_setter_op_meta (last, op);
}
else
{
dump_variable_assignment (res, op);
}
STACK_DROP (prop_getters, 1);
return op;
}
operand
dump_prop_setter_or_addition_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_addition, res, op);
}
operand
dump_prop_setter_or_multiplication_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_multiplication, res, op);
}
operand
dump_prop_setter_or_division_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_division, res, op);
}
operand
dump_prop_setter_or_remainder_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_remainder, res, op);
}
operand
dump_prop_setter_or_substraction_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_substraction, res, op);
}
operand
dump_prop_setter_or_left_shift_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_left_shift, res, op);
}
operand
dump_prop_setter_or_right_shift_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_right_shift, res, op);
}
operand
dump_prop_setter_or_right_shift_ex_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_right_shift_ex, res, op);
}
operand
dump_prop_setter_or_bitwise_and_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_bitwise_and, res, op);
}
operand
dump_prop_setter_or_bitwise_xor_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_bitwise_xor, res, op);
}
operand
dump_prop_setter_or_bitwise_or_res (operand res, operand op)
{
return dump_prop_setter_or_triple_address_res (dump_bitwise_or, res, op);
}
void
dumper_set_next_interation_target (void)
{
STACK_PUSH (next_iterations, serializer_get_current_opcode_counter ());
}
void
dump_continue_iterations_check (operand op)
{
const opcode_counter_t next_iteration_target_diff = (opcode_counter_t) (serializer_get_current_opcode_counter ()
- STACK_TOP (next_iterations));
idx_t id1, id2;
split_opcode_counter (next_iteration_target_diff, &id1, &id2);
if (operand_is_empty (op))
{
const opcode_t opcode = getop_jmp_up (id1, id2);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
else
{
switch (op.type)
{
case OPERAND_LITERAL:
{
const opcode_t opcode = getop_is_true_jmp_up (LITERAL_TO_REWRITE, id1, id2);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
break;
}
case OPERAND_TMP:
{
const opcode_t opcode = getop_is_true_jmp_up (op.data.uid, id1, id2);
serializer_dump_op_meta (create_op_meta_000 (opcode));
break;
}
}
}
STACK_DROP (next_iterations, 1);
}
/**
* Dump template of 'jmp_break_continue' or 'jmp_down' instruction (depending on is_simple_jump argument).
*
* Note:
* the instruction's flags field is written later (see also: rewrite_simple_or_nested_jump_get_next).
*
* @return position of dumped instruction
*/
opcode_counter_t
dump_simple_or_nested_jump_for_rewrite (bool is_simple_jump, /**< flag indicating, whether simple jump
* or 'jmp_break_continue' template should be dumped */
opcode_counter_t next_jump_for_tgt_oc) /**< opcode counter of next
* template targetted to
* the same target - if any,
* or MAX_OPCODES - otherwise */
{
idx_t id1, id2;
split_opcode_counter (next_jump_for_tgt_oc, &id1, &id2);
opcode_t opcode;
if (is_simple_jump)
{
opcode = getop_jmp_down (id1, id2);
}
else
{
opcode = getop_jmp_break_continue (id1, id2);
}
opcode_counter_t ret = serializer_get_current_opcode_counter ();
serializer_dump_op_meta (create_op_meta_000 (opcode));
return ret;
} /* dump_simple_or_nested_jump_for_rewrite */
/**
* Write jump target position into previously dumped template of jump (simple or nested) instruction
*
* @return opcode counter value that was encoded in the jump before rewrite
*/
opcode_counter_t
rewrite_simple_or_nested_jump_and_get_next (opcode_counter_t jump_oc, /**< position of jump to rewrite */
opcode_counter_t target_oc) /**< the jump's target */
{
op_meta jump_op_meta = serializer_get_op_meta (jump_oc);
bool is_simple_jump = (jump_op_meta.op.op_idx == OPCODE (jmp_down));
JERRY_ASSERT (is_simple_jump
|| (jump_op_meta.op.op_idx == OPCODE (jmp_break_continue)));
idx_t id1, id2, id1_prev, id2_prev;
split_opcode_counter ((opcode_counter_t) (target_oc - jump_oc), &id1, &id2);
if (is_simple_jump)
{
id1_prev = jump_op_meta.op.data.jmp_down.opcode_1;
id2_prev = jump_op_meta.op.data.jmp_down.opcode_2;
jump_op_meta.op.data.jmp_down.opcode_1 = id1;
jump_op_meta.op.data.jmp_down.opcode_2 = id2;
}
else
{
JERRY_ASSERT (jump_op_meta.op.op_idx == OPCODE (jmp_break_continue));
id1_prev = jump_op_meta.op.data.jmp_break_continue.opcode_1;
id2_prev = jump_op_meta.op.data.jmp_break_continue.opcode_2;
jump_op_meta.op.data.jmp_break_continue.opcode_1 = id1;
jump_op_meta.op.data.jmp_break_continue.opcode_2 = id2;
}
serializer_rewrite_op_meta (jump_oc, jump_op_meta);
return calc_opcode_counter_from_idx_idx (id1_prev, id2_prev);
} /* rewrite_simple_or_nested_jump_get_next */
void
start_dumping_case_clauses (void)
{
STACK_PUSH (U8, (uint8_t) STACK_SIZE (case_clauses));
STACK_PUSH (U8, (uint8_t) STACK_SIZE (case_clauses));
}
void
dump_case_clause_check_for_rewrite (operand switch_expr, operand case_expr)
{
const operand res = tmp_operand ();
dump_triple_address (getop_equal_value_type, res, switch_expr, case_expr);
STACK_PUSH (case_clauses, serializer_get_current_opcode_counter ());
const opcode_t opcode = getop_is_true_jmp_down (res.data.uid, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
dump_default_clause_check_for_rewrite (void)
{
STACK_PUSH (case_clauses, serializer_get_current_opcode_counter ());
const opcode_t opcode = getop_jmp_down (INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
rewrite_case_clause (void)
{
const opcode_counter_t jmp_oc = STACK_ELEMENT (case_clauses, STACK_HEAD (U8, 2));
idx_t id1, id2;
split_opcode_counter (get_diff_from (jmp_oc), &id1, &id2);
op_meta jmp_op_meta = serializer_get_op_meta (jmp_oc);
JERRY_ASSERT (jmp_op_meta.op.op_idx == OPCODE (is_true_jmp_down));
jmp_op_meta.op.data.is_true_jmp_down.opcode_1 = id1;
jmp_op_meta.op.data.is_true_jmp_down.opcode_2 = id2;
serializer_rewrite_op_meta (jmp_oc, jmp_op_meta);
STACK_INCR_HEAD (U8, 2);
}
void
rewrite_default_clause (void)
{
const opcode_counter_t jmp_oc = STACK_TOP (case_clauses);
idx_t id1, id2;
split_opcode_counter (get_diff_from (jmp_oc), &id1, &id2);
op_meta jmp_op_meta = serializer_get_op_meta (jmp_oc);
JERRY_ASSERT (jmp_op_meta.op.op_idx == OPCODE (jmp_down));
jmp_op_meta.op.data.jmp_down.opcode_1 = id1;
jmp_op_meta.op.data.jmp_down.opcode_2 = id2;
serializer_rewrite_op_meta (jmp_oc, jmp_op_meta);
}
void
finish_dumping_case_clauses (void)
{
STACK_DROP (case_clauses, STACK_SIZE (case_clauses) - STACK_TOP (U8));
STACK_DROP (U8, 1);
STACK_DROP (U8, 1);
}
/**
* Dump template of 'with' instruction.
*
* Note:
* the instruction's flags field is written later (see also: rewrite_with).
*
* @return position of dumped instruction
*/
opcode_counter_t
dump_with_for_rewrite (operand op) /**< operand - result of evaluating Expression
* in WithStatement */
{
opcode_counter_t oc = serializer_get_current_opcode_counter ();
if (op.type == OPERAND_LITERAL)
{
const opcode_t opcode = getop_with (LITERAL_TO_REWRITE, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
}
else
{
JERRY_ASSERT (op.type == OPERAND_TMP);
const opcode_t opcode = getop_with (op.data.uid, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
return oc;
} /* dump_with_for_rewrite */
/**
* Write position of 'with' block's end to specified 'with' instruction template,
* dumped earlier (see also: dump_with_for_rewrite).
*/
void
rewrite_with (opcode_counter_t oc) /**< opcode counter of the instruction template */
{
op_meta with_op_meta = serializer_get_op_meta (oc);
idx_t id1, id2;
split_opcode_counter (get_diff_from (oc), &id1, &id2);
with_op_meta.op.data.with.oc_idx_1 = id1;
with_op_meta.op.data.with.oc_idx_2 = id2;
serializer_rewrite_op_meta (oc, with_op_meta);
} /* rewrite_with */
/**
* Dump 'meta' instruction of 'end with' type
*/
void
dump_with_end (void)
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_END_WITH, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
} /* dump_with_end */
/**
* Dump template of 'for_in' instruction.
*
* Note:
* the instruction's flags field is written later (see also: rewrite_for_in).
*
* @return position of dumped instruction
*/
opcode_counter_t
dump_for_in_for_rewrite (operand op) /**< operand - result of evaluating Expression
* in for-in statement */
{
opcode_counter_t oc = serializer_get_current_opcode_counter ();
if (op.type == OPERAND_LITERAL)
{
const opcode_t opcode = getop_for_in (LITERAL_TO_REWRITE, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_100 (opcode, op.data.lit_id));
}
else
{
JERRY_ASSERT (op.type == OPERAND_TMP);
const opcode_t opcode = getop_for_in (op.data.uid, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
return oc;
} /* dump_for_in_for_rewrite */
/**
* Write position of 'for_in' block's end to specified 'for_in' instruction template,
* dumped earlier (see also: dump_for_in_for_rewrite).
*/
void
rewrite_for_in (opcode_counter_t oc) /**< opcode counter of the instruction template */
{
op_meta for_in_op_meta = serializer_get_op_meta (oc);
idx_t id1, id2;
split_opcode_counter (get_diff_from (oc), &id1, &id2);
for_in_op_meta.op.data.for_in.oc_idx_1 = id1;
for_in_op_meta.op.data.for_in.oc_idx_2 = id2;
serializer_rewrite_op_meta (oc, for_in_op_meta);
} /* rewrite_for_in */
/**
* Dump 'meta' instruction of 'end for_in' type
*/
void
dump_for_in_end (void)
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_END_FOR_IN, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
} /* dump_for_in_end */
void
dump_try_for_rewrite (void)
{
STACK_PUSH (tries, serializer_get_current_opcode_counter ());
const opcode_t opcode = getop_try_block (INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
rewrite_try (void)
{
op_meta try_op_meta = serializer_get_op_meta (STACK_TOP (tries));
JERRY_ASSERT (try_op_meta.op.op_idx == OPCODE (try_block));
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_TOP (tries)), &id1, &id2);
try_op_meta.op.data.try_block.oc_idx_1 = id1;
try_op_meta.op.data.try_block.oc_idx_2 = id2;
serializer_rewrite_op_meta (STACK_TOP (tries), try_op_meta);
STACK_DROP (tries, 1);
}
void
dump_catch_for_rewrite (operand op)
{
JERRY_ASSERT (op.type == OPERAND_LITERAL);
STACK_PUSH (catches, serializer_get_current_opcode_counter ());
opcode_t opcode = getop_meta (OPCODE_META_TYPE_CATCH, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
opcode = getop_meta (OPCODE_META_TYPE_CATCH_EXCEPTION_IDENTIFIER, LITERAL_TO_REWRITE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_010 (opcode, op.data.lit_id));
}
void
rewrite_catch (void)
{
op_meta catch_op_meta = serializer_get_op_meta (STACK_TOP (catches));
JERRY_ASSERT (catch_op_meta.op.op_idx == OPCODE (meta)
&& catch_op_meta.op.data.meta.type == OPCODE_META_TYPE_CATCH);
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_TOP (catches)), &id1, &id2);
catch_op_meta.op.data.meta.data_1 = id1;
catch_op_meta.op.data.meta.data_2 = id2;
serializer_rewrite_op_meta (STACK_TOP (catches), catch_op_meta);
STACK_DROP (catches, 1);
}
void
dump_finally_for_rewrite (void)
{
STACK_PUSH (finallies, serializer_get_current_opcode_counter ());
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_FINALLY, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
rewrite_finally (void)
{
op_meta finally_op_meta = serializer_get_op_meta (STACK_TOP (finallies));
JERRY_ASSERT (finally_op_meta.op.op_idx == OPCODE (meta)
&& finally_op_meta.op.data.meta.type == OPCODE_META_TYPE_FINALLY);
idx_t id1, id2;
split_opcode_counter (get_diff_from (STACK_TOP (finallies)), &id1, &id2);
finally_op_meta.op.data.meta.data_1 = id1;
finally_op_meta.op.data.meta.data_2 = id2;
serializer_rewrite_op_meta (STACK_TOP (finallies), finally_op_meta);
STACK_DROP (finallies, 1);
}
void
dump_end_try_catch_finally (void)
{
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_END_TRY_CATCH_FINALLY,
INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
}
void
dump_throw (operand op)
{
dump_single_address (getop_throw_value, op);
}
bool
dumper_variable_declaration_exists (lit_cpointer_t lit_id)
{
for (opcode_counter_t oc = (opcode_counter_t) (serializer_get_current_opcode_counter () - 1);
oc > 0; oc--)
{
const op_meta var_decl_op_meta = serializer_get_op_meta (oc);
if (var_decl_op_meta.op.op_idx != OPCODE (var_decl))
{
break;
}
if (var_decl_op_meta.lit_id[0].packed_value == lit_id.packed_value)
{
return true;
}
}
return false;
}
void
dump_variable_declaration (lit_cpointer_t lit_id)
{
const opcode_t opcode = getop_var_decl (LITERAL_TO_REWRITE);
serializer_dump_op_meta (create_op_meta_100 (opcode, lit_id));
}
/**
* Dump template of 'meta' instruction for scope's code flags.
*
* Note:
* the instruction's flags field is written later (see also: rewrite_scope_code_flags).
*
* @return position of dumped instruction
*/
opcode_counter_t
dump_scope_code_flags_for_rewrite (void)
{
opcode_counter_t oc = serializer_get_current_opcode_counter ();
const opcode_t opcode = getop_meta (OPCODE_META_TYPE_SCOPE_CODE_FLAGS, INVALID_VALUE, INVALID_VALUE);
serializer_dump_op_meta (create_op_meta_000 (opcode));
return oc;
} /* dump_scope_code_flags_for_rewrite */
/**
* Write scope's code flags to specified 'meta' instruction template,
* dumped earlier (see also: dump_scope_code_flags_for_rewrite).
*/
void
rewrite_scope_code_flags (opcode_counter_t scope_code_flags_oc, /**< position of instruction to rewrite */
opcode_scope_code_flags_t scope_flags) /**< scope's code properties flags set */
{
JERRY_ASSERT ((idx_t) scope_flags == scope_flags);
op_meta opm = serializer_get_op_meta (scope_code_flags_oc);
JERRY_ASSERT (opm.op.op_idx == OPCODE (meta));
JERRY_ASSERT (opm.op.data.meta.type == OPCODE_META_TYPE_SCOPE_CODE_FLAGS);
JERRY_ASSERT (opm.op.data.meta.data_1 == INVALID_VALUE);
JERRY_ASSERT (opm.op.data.meta.data_2 == INVALID_VALUE);
opm.op.data.meta.data_1 = (idx_t) scope_flags;
serializer_rewrite_op_meta (scope_code_flags_oc, opm);
} /* rewrite_scope_code_flags */
void
dump_ret (void)
{
serializer_dump_op_meta (create_op_meta_000 (getop_ret ()));
}
void
dump_reg_var_decl_for_rewrite (void)
{
STACK_PUSH (reg_var_decls, serializer_get_current_opcode_counter ());
serializer_dump_op_meta (create_op_meta_000 (getop_reg_var_decl (OPCODE_REG_FIRST, INVALID_VALUE)));
}
void
rewrite_reg_var_decl (void)
{
opcode_counter_t reg_var_decl_oc = STACK_TOP (reg_var_decls);
op_meta opm = serializer_get_op_meta (reg_var_decl_oc);
JERRY_ASSERT (opm.op.op_idx == OPCODE (reg_var_decl));
opm.op.data.reg_var_decl.max = max_temp_name;
serializer_rewrite_op_meta (reg_var_decl_oc, opm);
STACK_DROP (reg_var_decls, 1);
}
void
dump_retval (operand op)
{
dump_single_address (getop_retval, op);
}
void
dumper_init (void)
{
max_temp_name = 0;
reset_temp_name ();
STACK_INIT (U8);
STACK_INIT (varg_headers);
STACK_INIT (function_ends);
STACK_INIT (logical_and_checks);
STACK_INIT (logical_or_checks);
STACK_INIT (conditional_checks);
STACK_INIT (jumps_to_end);
STACK_INIT (prop_getters);
STACK_INIT (next_iterations);
STACK_INIT (case_clauses);
STACK_INIT (catches);
STACK_INIT (finallies);
STACK_INIT (tries);
STACK_INIT (temp_names);
STACK_INIT (reg_var_decls);
}
void
dumper_free (void)
{
STACK_FREE (U8);
STACK_FREE (varg_headers);
STACK_FREE (function_ends);
STACK_FREE (logical_and_checks);
STACK_FREE (logical_or_checks);
STACK_FREE (conditional_checks);
STACK_FREE (jumps_to_end);
STACK_FREE (prop_getters);
STACK_FREE (next_iterations);
STACK_FREE (case_clauses);
STACK_FREE (catches);
STACK_FREE (finallies);
STACK_FREE (tries);
STACK_FREE (temp_names);
STACK_FREE (reg_var_decls);
}
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