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jerryscript/jerry-core/vm/opcodes.h

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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.
*/
#ifndef OPCODES_H
#define OPCODES_H
#include "ecma-globals.h"
#include "ecma-stack.h"
#include "jrt.h"
/* Maximum opcodes number in bytecode. */
#define MAX_OPCODES (256*256 - 1)
#define OP_0(action, name) \
__##action (name, void, void, void)
#define OP_1(action, name, field1) \
__##action (name, field1, void, void)
#define OP_2(action, name, field1, field2) \
__##action (name, field1, field2, void)
#define OP_3(action, name, field1, field2, field3) \
__##action (name, field1, field2, field3)
typedef uint16_t opcode_counter_t; /** opcode counters */
typedef uint8_t idx_t; /** index values */
/**
* Descriptor of assignment's second argument
* that specifies type of third argument.
*/
typedef enum
{
OPCODE_ARG_TYPE_SIMPLE, /**< ecma_simple_value_t */
OPCODE_ARG_TYPE_SMALLINT, /**< small integer: from 0 to 255 */
OPCODE_ARG_TYPE_SMALLINT_NEGATE, /**< small integer: from -255 to -0 */
OPCODE_ARG_TYPE_NUMBER, /**< index of number literal */
OPCODE_ARG_TYPE_NUMBER_NEGATE, /**< index of number literal with negation */
OPCODE_ARG_TYPE_STRING, /**< index of string literal */
OPCODE_ARG_TYPE_VARIABLE /**< index of variable name */
} opcode_arg_type_operand;
/**
* Types of data in 'meta' opcode.
*/
typedef enum
{
OPCODE_META_TYPE_UNDEFINED, /**< undefined meta (should be rewritten) */
OPCODE_META_TYPE_THIS_ARG, /**< value (var_idx) of this used during call */
OPCODE_META_TYPE_VARG, /**< element (var_idx) of arguments' list */
OPCODE_META_TYPE_VARG_PROP_DATA, /**< name (lit_idx) and value (var_idx) for a data property descriptor */
OPCODE_META_TYPE_VARG_PROP_GETTER, /**< name (lit_idx) and getter (var_idx) for an accessor property descriptor */
OPCODE_META_TYPE_VARG_PROP_SETTER, /**< name (lit_idx) and setter (var_idx) for an accessor property descriptor */
OPCODE_META_TYPE_END_WITH, /**< end of with statement */
OPCODE_META_TYPE_FUNCTION_END, /**< offset to function end */
OPCODE_META_TYPE_CATCH, /**< mark of beginning of catch block containing pointer to end of catch block */
OPCODE_META_TYPE_CATCH_EXCEPTION_IDENTIFIER, /**< literal index containing name of variable with exception object */
OPCODE_META_TYPE_FINALLY, /**< mark of beginning of finally block containing pointer to end of finally block */
OPCODE_META_TYPE_END_TRY_CATCH_FINALLY, /**< mark of end of try-catch, try-finally, try-catch-finally blocks */
OPCODE_META_TYPE_SCOPE_CODE_FLAGS /**< set of flags indicating various properties of the scope's code
* (See also: opcode_scope_code_flags_t) */
} opcode_meta_type;
/**
* Flags indicating various properties of a scope's code
*/
typedef enum : idx_t
{
OPCODE_SCOPE_CODE_FLAGS__NO_FLAGS = (0u), /**< initializer for empty flag set */
OPCODE_SCOPE_CODE_FLAGS_STRICT = (1u << 0), /**< code is strict mode code */
} opcode_scope_code_flags_t;
/**
* Interpreter context
*/
typedef struct
{
opcode_counter_t pos; /**< current opcode to execute */
ecma_value_t this_binding; /**< this binding for current context */
ecma_object_t *lex_env_p; /**< current lexical environment */
bool is_strict; /**< is current code execution mode strict? */
bool is_eval_code; /**< is current code executed with eval */
idx_t min_reg_num; /**< minimum idx used for register identification */
idx_t max_reg_num; /**< maximum idx used for register identification */
ecma_number_t* tmp_num_p; /**< an allocated number (to reduce temporary allocations) */
ecma_stack_frame_t stack_frame; /**< ecma-stack frame associated with the context */
#ifdef MEM_STATS
size_t context_peak_allocated_heap_bytes;
size_t context_peak_waste_heap_bytes;
size_t context_peak_pools_count;
size_t context_peak_allocated_pool_chunks;
mem_heap_stats_t heap_stats_context_enter;
mem_pools_stats_t pools_stats_context_enter;
#endif /* MEM_STATS */
} int_data_t;
opcode_counter_t calc_opcode_counter_from_idx_idx (const idx_t oc_idx_1, const idx_t oc_idx_2);
opcode_counter_t read_meta_opcode_counter (opcode_meta_type expected_type, int_data_t *int_data);
#define OP_CALLS_AND_ARGS(p, a) \
p##_3 (a, call_n, lhs, name_lit_idx, arg_list) \
p##_3 (a, native_call, lhs, name, arg_list) \
p##_3 (a, construct_n, lhs, name_lit_idx, arg_list) \
p##_2 (a, func_decl_n, name_lit_idx, arg_list) \
p##_3 (a, func_expr_n, lhs, name_lit_idx, arg_list) \
p##_1 (a, exitval, status_code) \
p##_1 (a, retval, ret_value) \
p##_0 (a, ret)
#define OP_INITS(p, a) \
p##_2 (a, array_decl, lhs, list) \
p##_3 (a, prop_getter, lhs, obj, prop) \
p##_3 (a, prop_setter, obj, prop, rhs) \
p##_2 (a, obj_decl, lhs, list) \
p##_1 (a, this_binding, lhs) \
p##_2 (a, delete_var, lhs, name) \
p##_3 (a, delete_prop, lhs, base, name) \
p##_2 (a, typeof, lhs, obj) \
p##_1 (a, with, expr) \
p##_2 (a, try_block, oc_idx_1, oc_idx_2) \
p##_1 (a, throw_value, var)
#define OP_ASSIGNMENTS(p, a) \
p##_3 (a, assignment, var_left, type_value_right, value_right)
#define OP_B_SHIFTS(p, a) \
p##_3 (a, b_shift_left, dst, var_left, var_right) \
p##_3 (a, b_shift_right, dst, var_left, var_right) \
p##_3 (a, b_shift_uright, dst, var_left, var_right)
#define OP_B_BITWISE(p, a) \
p##_3 (a, b_and, dst, var_left, var_right) \
p##_3 (a, b_or, dst, var_left, var_right) \
p##_3 (a, b_xor, dst, var_left, var_right) \
p##_2 (a, b_not, dst, var_right)
#define OP_B_LOGICAL(p, a) \
p##_2 (a, logical_not, dst, var_right)
#define OP_EQUALITY(p, a) \
p##_3 (a, equal_value, dst, var_left, var_right) \
p##_3 (a, not_equal_value, dst, var_left, var_right) \
p##_3 (a, equal_value_type, dst, var_left, var_right) \
p##_3 (a, not_equal_value_type, dst, var_left, var_right)
#define OP_RELATIONAL(p, a) \
p##_3 (a, less_than, dst, var_left, var_right) \
p##_3 (a, greater_than, dst, var_left, var_right) \
p##_3 (a, less_or_equal_than, dst, var_left, var_right) \
p##_3 (a, greater_or_equal_than, dst, var_left, var_right) \
p##_3 (a, instanceof, dst, var_left, var_right) \
p##_3 (a, in, dst, var_left, var_right)
#define OP_ARITHMETIC(p, a) \
p##_2 (a, post_incr, dst, var_right) \
p##_2 (a, post_decr, dst, var_right) \
p##_2 (a, pre_incr, dst, var_right) \
p##_2 (a, pre_decr, dst, var_right) \
p##_3 (a, addition, dst, var_left, var_right) \
p##_3 (a, substraction, dst, var_left, var_right) \
p##_3 (a, division, dst, var_left, var_right) \
p##_3 (a, multiplication, dst, var_left, var_right) \
p##_3 (a, remainder, dst, var_left, var_right) \
p##_2 (a, unary_minus, dst, var) \
p##_2 (a, unary_plus, dst, var)
#define OP_JUMPS(p, a) \
p##_2 (a, jmp_up, opcode_1, opcode_2) \
p##_2 (a, jmp_down, opcode_1, opcode_2) \
p##_0 (a, nop) \
p##_3 (a, is_true_jmp_up, value, opcode_1, opcode_2) \
p##_3 (a, is_true_jmp_down, value, opcode_1, opcode_2) \
p##_3 (a, is_false_jmp_up, value, opcode_1, opcode_2) \
p##_3 (a, is_false_jmp_down, value, opcode_1, opcode_2)
#define OP_LIST_FULL(p, a) \
OP_CALLS_AND_ARGS (p, a) \
OP_INITS (p, a) \
OP_ASSIGNMENTS (p, a) \
OP_B_LOGICAL (p, a) \
OP_B_BITWISE (p, a) \
OP_B_SHIFTS (p, a) \
OP_EQUALITY (p, a) \
OP_RELATIONAL (p, a) \
OP_ARITHMETIC (p, a) \
OP_JUMPS (p, a) \
p##_1 (a, var_decl, variable_name) \
p##_2 (a, reg_var_decl, min, max) \
p##_3 (a, meta, type, data_1, data_2)
#define OP_LIST(a) OP_LIST_FULL (OP, a)
#define OP_ARGS_LIST(a) OP_LIST_FULL (a, void)
#define OP_DATA_0(action, name) \
typedef struct \
{ \
idx_t __do_not_use; \
} __op_##name;
#define OP_DATA_1(action, name, arg1) \
typedef struct \
{ \
idx_t arg1; \
} __op_##name;
#define OP_DATA_2(action, name, arg1, arg2) \
typedef struct \
{ \
idx_t arg1; \
idx_t arg2; \
} __op_##name;
#define OP_DATA_3(action, name, arg1, arg2, arg3) \
typedef struct \
{ \
idx_t arg1; \
idx_t arg2; \
idx_t arg3; \
} __op_##name;
OP_ARGS_LIST (OP_DATA)
#define __OP_STRUCT_FIELD(name, arg1, arg2, arg3) __op_##name name;
typedef struct
{
idx_t op_idx;
union
{
OP_LIST (OP_STRUCT_FIELD)
} data;
} opcode_t;
#undef __OP_STRUCT_FIELD
#define __OP_ENUM_FIELD(name, arg1, arg2, arg3) __op__idx_##name ,
enum __opcode_idx
{
OP_LIST (OP_ENUM_FIELD)
LAST_OP
};
#undef __OP_ENUM_FIELD
#define __OP_FUNC_DECL(name, arg1, arg2, arg3) ecma_completion_value_t opfunc_##name (opcode_t, int_data_t*);
OP_LIST (OP_FUNC_DECL)
#undef __OP_FUNC_DECL
typedef ecma_completion_value_t (*opfunc) (opcode_t, int_data_t *);
#define GETOP_DECL_0(a, name) \
opcode_t getop_##name (void);
#define GETOP_DECL_1(a, name, arg1) \
opcode_t getop_##name (idx_t);
#define GETOP_DECL_2(a, name, arg1, arg2) \
opcode_t getop_##name (idx_t, idx_t);
#define GETOP_DECL_3(a, name, arg1, arg2, arg3) \
opcode_t getop_##name (idx_t, idx_t, idx_t);
#define GETOP_DEF_0(a, name) \
opcode_t getop_##name (void) \
{ \
opcode_t opdata; \
opdata.op_idx = __op__idx_##name; \
return opdata; \
}
OP_ARGS_LIST (GETOP_DECL)
#undef GETOP_DECL_0
#undef GETOP_DECL_1
#undef GETOP_DECL_2
#undef GETOP_DECL_3
typedef struct
{
uint8_t uids[4];
} raw_opcode;
#endif /* OPCODES_H */
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