cpython/Lib/opcode.py

"""
opcode module - potentially shared between dis and other modules which
operate on bytecodes (e.g. peephole optimizers).
"""

__all__ = ["cmp_op", "hasarg", "hasconst", "hasname", "hasjrel", "hasjabs",
           "haslocal", "hascompare", "hasfree", "hasexc", "opname", "opmap",
           "HAVE_ARGUMENT", "EXTENDED_ARG"]

# It's a chicken-and-egg I'm afraid:
# We're imported before _opcode's made.
# With exception unheeded
# (stack_effect is not needed)
# Both our chickens and eggs are allayed.
#     --Larry Hastings, 2013/11/23

try:
    from _opcode import stack_effect
    __all__.append('stack_effect')
except ImportError:
    pass

cmp_op = ('<', '<=', '==', '!=', '>', '>=')

hasarg = []
hasconst = []
hasname = []
hasjrel = []
hasjabs = []
haslocal = []
hascompare = []
hasfree = []
hasexc = []

def is_pseudo(op):
    return op >= MIN_PSEUDO_OPCODE and op <= MAX_PSEUDO_OPCODE

oplists = [hasarg, hasconst, hasname, hasjrel, hasjabs,
           haslocal, hascompare, hasfree, hasexc]

opmap = {}

## pseudo opcodes (used in the compiler) mapped to the values
## they can become in the actual code.
_pseudo_ops = {}

def def_op(name, op):
    opmap[name] = op

def name_op(name, op):
    def_op(name, op)
    hasname.append(op)

def jrel_op(name, op):
    def_op(name, op)
    hasjrel.append(op)

def jabs_op(name, op):
    def_op(name, op)
    hasjabs.append(op)

def pseudo_op(name, op, real_ops):
    def_op(name, op)
    _pseudo_ops[name] = real_ops
    # add the pseudo opcode to the lists its targets are in
    for oplist in oplists:
        res = [opmap[rop] in oplist for rop in real_ops]
        if any(res):
            assert all(res)
            oplist.append(op)


# Instruction opcodes for compiled code
# Blank lines correspond to available opcodes

def_op('CACHE', 0)
def_op('POP_TOP', 1)
def_op('PUSH_NULL', 2)

def_op('NOP', 9)
def_op('UNARY_POSITIVE', 10)
def_op('UNARY_NEGATIVE', 11)
def_op('UNARY_NOT', 12)

def_op('UNARY_INVERT', 15)

def_op('BINARY_SUBSCR', 25)
def_op('BINARY_SLICE', 26)
def_op('STORE_SLICE', 27)

def_op('GET_LEN', 30)
def_op('MATCH_MAPPING', 31)
def_op('MATCH_SEQUENCE', 32)
def_op('MATCH_KEYS', 33)

def_op('PUSH_EXC_INFO', 35)
def_op('CHECK_EXC_MATCH', 36)
def_op('CHECK_EG_MATCH', 37)

def_op('WITH_EXCEPT_START', 49)
def_op('GET_AITER', 50)
def_op('GET_ANEXT', 51)
def_op('BEFORE_ASYNC_WITH', 52)
def_op('BEFORE_WITH', 53)
def_op('END_ASYNC_FOR', 54)
def_op('CLEANUP_THROW', 55)

def_op('STORE_SUBSCR', 60)
def_op('DELETE_SUBSCR', 61)

def_op('GET_ITER', 68)
def_op('GET_YIELD_FROM_ITER', 69)
def_op('PRINT_EXPR', 70)
def_op('LOAD_BUILD_CLASS', 71)

def_op('LOAD_ASSERTION_ERROR', 74)
def_op('RETURN_GENERATOR', 75)

def_op('LIST_TO_TUPLE', 82)
def_op('RETURN_VALUE', 83)
def_op('IMPORT_STAR', 84)
def_op('SETUP_ANNOTATIONS', 85)

def_op('ASYNC_GEN_WRAP', 87)
def_op('PREP_RERAISE_STAR', 88)
def_op('POP_EXCEPT', 89)

HAVE_ARGUMENT = 90             # real opcodes from here have an argument:

name_op('STORE_NAME', 90)       # Index in name list
name_op('DELETE_NAME', 91)      # ""
def_op('UNPACK_SEQUENCE', 92)   # Number of tuple items
jrel_op('FOR_ITER', 93)
def_op('UNPACK_EX', 94)
name_op('STORE_ATTR', 95)       # Index in name list
name_op('DELETE_ATTR', 96)      # ""
name_op('STORE_GLOBAL', 97)     # ""
name_op('DELETE_GLOBAL', 98)    # ""
def_op('SWAP', 99)
def_op('LOAD_CONST', 100)       # Index in const list
hasconst.append(100)
name_op('LOAD_NAME', 101)       # Index in name list
def_op('BUILD_TUPLE', 102)      # Number of tuple items
def_op('BUILD_LIST', 103)       # Number of list items
def_op('BUILD_SET', 104)        # Number of set items
def_op('BUILD_MAP', 105)        # Number of dict entries
name_op('LOAD_ATTR', 106)       # Index in name list
def_op('COMPARE_OP', 107)       # Comparison operator
hascompare.append(107)
name_op('IMPORT_NAME', 108)     # Index in name list
name_op('IMPORT_FROM', 109)     # Index in name list
jrel_op('JUMP_FORWARD', 110)    # Number of words to skip
jrel_op('JUMP_IF_FALSE_OR_POP', 111) # Number of words to skip
jrel_op('JUMP_IF_TRUE_OR_POP', 112)  # ""
jrel_op('POP_JUMP_IF_FALSE', 114)
jrel_op('POP_JUMP_IF_TRUE', 115)
name_op('LOAD_GLOBAL', 116)     # Index in name list
def_op('IS_OP', 117)
def_op('CONTAINS_OP', 118)
def_op('RERAISE', 119)
def_op('COPY', 120)
def_op('BINARY_OP', 122)
jrel_op('SEND', 123) # Number of bytes to skip
def_op('LOAD_FAST', 124)        # Local variable number, no null check
haslocal.append(124)
def_op('STORE_FAST', 125)       # Local variable number
haslocal.append(125)
def_op('DELETE_FAST', 126)      # Local variable number
haslocal.append(126)
def_op('LOAD_FAST_CHECK', 127)  # Local variable number
haslocal.append(127)
jrel_op('POP_JUMP_IF_NOT_NONE', 128)
jrel_op('POP_JUMP_IF_NONE', 129)
def_op('RAISE_VARARGS', 130)    # Number of raise arguments (1, 2, or 3)
def_op('GET_AWAITABLE', 131)
def_op('MAKE_FUNCTION', 132)    # Flags
def_op('BUILD_SLICE', 133)      # Number of items
jrel_op('JUMP_BACKWARD_NO_INTERRUPT', 134) # Number of words to skip (backwards)
def_op('MAKE_CELL', 135)
hasfree.append(135)
def_op('LOAD_CLOSURE', 136)
hasfree.append(136)
def_op('LOAD_DEREF', 137)
hasfree.append(137)
def_op('STORE_DEREF', 138)
hasfree.append(138)
def_op('DELETE_DEREF', 139)
hasfree.append(139)
jrel_op('JUMP_BACKWARD', 140)    # Number of words to skip (backwards)

def_op('CALL_FUNCTION_EX', 142)  # Flags

def_op('EXTENDED_ARG', 144)
EXTENDED_ARG = 144
def_op('LIST_APPEND', 145)
def_op('SET_ADD', 146)
def_op('MAP_ADD', 147)
def_op('LOAD_CLASSDEREF', 148)
hasfree.append(148)
def_op('COPY_FREE_VARS', 149)
def_op('YIELD_VALUE', 150)
def_op('RESUME', 151)   # This must be kept in sync with deepfreeze.py
def_op('MATCH_CLASS', 152)

def_op('FORMAT_VALUE', 155)
def_op('BUILD_CONST_KEY_MAP', 156)
def_op('BUILD_STRING', 157)

def_op('LIST_EXTEND', 162)
def_op('SET_UPDATE', 163)
def_op('DICT_MERGE', 164)
def_op('DICT_UPDATE', 165)

def_op('CALL', 171)
def_op('KW_NAMES', 172)
hasconst.append(172)


hasarg.extend([op for op in opmap.values() if op >= HAVE_ARGUMENT])

MIN_PSEUDO_OPCODE = 256

pseudo_op('SETUP_FINALLY', 256, ['NOP'])
hasexc.append(256)
pseudo_op('SETUP_CLEANUP', 257, ['NOP'])
hasexc.append(257)
pseudo_op('SETUP_WITH', 258, ['NOP'])
hasexc.append(258)
pseudo_op('POP_BLOCK', 259, ['NOP'])

pseudo_op('JUMP', 260, ['JUMP_FORWARD', 'JUMP_BACKWARD'])
pseudo_op('JUMP_NO_INTERRUPT', 261, ['JUMP_FORWARD', 'JUMP_BACKWARD_NO_INTERRUPT'])

pseudo_op('LOAD_METHOD', 262, ['LOAD_ATTR'])

MAX_PSEUDO_OPCODE = MIN_PSEUDO_OPCODE + len(_pseudo_ops) - 1

del def_op, name_op, jrel_op, jabs_op, pseudo_op

opname = ['<%r>' % (op,) for op in range(MAX_PSEUDO_OPCODE + 1)]
for op, i in opmap.items():
    opname[i] = op


_nb_ops = [
    ("NB_ADD", "+"),
    ("NB_AND", "&"),
    ("NB_FLOOR_DIVIDE", "//"),
    ("NB_LSHIFT", "<<"),
    ("NB_MATRIX_MULTIPLY", "@"),
    ("NB_MULTIPLY", "*"),
    ("NB_REMAINDER", "%"),
    ("NB_OR", "|"),
    ("NB_POWER", "**"),
    ("NB_RSHIFT", ">>"),
    ("NB_SUBTRACT", "-"),
    ("NB_TRUE_DIVIDE", "/"),
    ("NB_XOR", "^"),
    ("NB_INPLACE_ADD", "+="),
    ("NB_INPLACE_AND", "&="),
    ("NB_INPLACE_FLOOR_DIVIDE", "//="),
    ("NB_INPLACE_LSHIFT", "<<="),
    ("NB_INPLACE_MATRIX_MULTIPLY", "@="),
    ("NB_INPLACE_MULTIPLY", "*="),
    ("NB_INPLACE_REMAINDER", "%="),
    ("NB_INPLACE_OR", "|="),
    ("NB_INPLACE_POWER", "**="),
    ("NB_INPLACE_RSHIFT", ">>="),
    ("NB_INPLACE_SUBTRACT", "-="),
    ("NB_INPLACE_TRUE_DIVIDE", "/="),
    ("NB_INPLACE_XOR", "^="),
]

_specializations = {
    "BINARY_OP": [
        "BINARY_OP_ADAPTIVE",
        "BINARY_OP_ADD_FLOAT",
        "BINARY_OP_ADD_INT",
        "BINARY_OP_ADD_UNICODE",
        "BINARY_OP_INPLACE_ADD_UNICODE",
        "BINARY_OP_MULTIPLY_FLOAT",
        "BINARY_OP_MULTIPLY_INT",
        "BINARY_OP_SUBTRACT_FLOAT",
        "BINARY_OP_SUBTRACT_INT",
    ],
    "BINARY_SUBSCR": [
        "BINARY_SUBSCR_ADAPTIVE",
        "BINARY_SUBSCR_DICT",
        "BINARY_SUBSCR_GETITEM",
        "BINARY_SUBSCR_LIST_INT",
        "BINARY_SUBSCR_TUPLE_INT",
    ],
    "CALL": [
        "CALL_ADAPTIVE",
        "CALL_PY_EXACT_ARGS",
        "CALL_PY_WITH_DEFAULTS",
        "CALL_BOUND_METHOD_EXACT_ARGS",
        "CALL_BUILTIN_CLASS",
        "CALL_BUILTIN_FAST_WITH_KEYWORDS",
        "CALL_METHOD_DESCRIPTOR_FAST_WITH_KEYWORDS",
        "CALL_NO_KW_BUILTIN_FAST",
        "CALL_NO_KW_BUILTIN_O",
        "CALL_NO_KW_ISINSTANCE",
        "CALL_NO_KW_LEN",
        "CALL_NO_KW_LIST_APPEND",
        "CALL_NO_KW_METHOD_DESCRIPTOR_FAST",
        "CALL_NO_KW_METHOD_DESCRIPTOR_NOARGS",
        "CALL_NO_KW_METHOD_DESCRIPTOR_O",
        "CALL_NO_KW_STR_1",
        "CALL_NO_KW_TUPLE_1",
        "CALL_NO_KW_TYPE_1",
    ],
    "COMPARE_OP": [
        "COMPARE_OP_ADAPTIVE",
        "COMPARE_OP_FLOAT_JUMP",
        "COMPARE_OP_INT_JUMP",
        "COMPARE_OP_STR_JUMP",
    ],
    "EXTENDED_ARG": [
        "EXTENDED_ARG_QUICK",
    ],
    "FOR_ITER": [
        "FOR_ITER_ADAPTIVE",
        "FOR_ITER_LIST",
        "FOR_ITER_RANGE",
    ],
    "JUMP_BACKWARD": [
        "JUMP_BACKWARD_QUICK",
    ],
    "LOAD_ATTR": [
        "LOAD_ATTR_ADAPTIVE",
        # These potentially push [NULL, bound method] onto the stack.
        "LOAD_ATTR_CLASS",
        "LOAD_ATTR_GETATTRIBUTE_OVERRIDDEN",
        "LOAD_ATTR_INSTANCE_VALUE",
        "LOAD_ATTR_MODULE",
        "LOAD_ATTR_PROPERTY",
        "LOAD_ATTR_SLOT",
        "LOAD_ATTR_WITH_HINT",
        # These will always push [unbound method, self] onto the stack.
        "LOAD_ATTR_METHOD_LAZY_DICT",
        "LOAD_ATTR_METHOD_NO_DICT",
        "LOAD_ATTR_METHOD_WITH_DICT",
        "LOAD_ATTR_METHOD_WITH_VALUES",
    ],
    "LOAD_CONST": [
        "LOAD_CONST__LOAD_FAST",
    ],
    "LOAD_FAST": [
        "LOAD_FAST__LOAD_CONST",
        "LOAD_FAST__LOAD_FAST",
    ],
    "LOAD_GLOBAL": [
        "LOAD_GLOBAL_ADAPTIVE",
        "LOAD_GLOBAL_BUILTIN",
        "LOAD_GLOBAL_MODULE",
    ],
    "RESUME": [
        "RESUME_QUICK",
    ],
    "STORE_ATTR": [
        "STORE_ATTR_ADAPTIVE",
        "STORE_ATTR_INSTANCE_VALUE",
        "STORE_ATTR_SLOT",
        "STORE_ATTR_WITH_HINT",
    ],
    "STORE_FAST": [
        "STORE_FAST__LOAD_FAST",
        "STORE_FAST__STORE_FAST",
    ],
    "STORE_SUBSCR": [
        "STORE_SUBSCR_ADAPTIVE",
        "STORE_SUBSCR_DICT",
        "STORE_SUBSCR_LIST_INT",
    ],
    "UNPACK_SEQUENCE": [
        "UNPACK_SEQUENCE_ADAPTIVE",
        "UNPACK_SEQUENCE_LIST",
        "UNPACK_SEQUENCE_TUPLE",
        "UNPACK_SEQUENCE_TWO_TUPLE",
    ],
}
_specialized_instructions = [
    opcode for family in _specializations.values() for opcode in family
]
_specialization_stats = [
    "success",
    "failure",
    "hit",
    "deferred",
    "miss",
    "deopt",
]

_cache_format = {
    "LOAD_GLOBAL": {
        "counter": 1,
        "index": 1,
        "module_keys_version": 2,
        "builtin_keys_version": 1,
    },
    "BINARY_OP": {
        "counter": 1,
    },
    "UNPACK_SEQUENCE": {
        "counter": 1,
    },
    "COMPARE_OP": {
        "counter": 1,
        "mask": 1,
    },
    "BINARY_SUBSCR": {
        "counter": 1,
        "type_version": 2,
        "func_version": 1,
    },
    "FOR_ITER": {
        "counter": 1,
    },
    "LOAD_ATTR": {
        "counter": 1,
        "version": 2,
        "keys_version": 2,
        "descr": 4,
    },
    "STORE_ATTR": {
        "counter": 1,
        "version": 2,
        "index": 1,
    },
    "CALL": {
        "counter": 1,
        "func_version": 2,
        "min_args": 1,
    },
    "STORE_SUBSCR": {
        "counter": 1,
    },
}

_inline_cache_entries = [
    sum(_cache_format.get(opname[opcode], {}).values()) for opcode in range(256)
]