cpython/Lib/opcode.py

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"""
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 = []
ENABLE_SPECIALIZATION = True
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('INTERPRETER_EXIT', 3)
def_op('END_FOR', 4)
def_op('NOP', 9)
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)
Issue #24400: Introduce a distinct type for 'async def' coroutines. Summary of changes: 1. Coroutines now have a distinct, separate from generators type at the C level: PyGen_Type, and a new typedef PyCoroObject. PyCoroObject shares the initial segment of struct layout with PyGenObject, making it possible to reuse existing generators machinery. The new type is exposed as 'types.CoroutineType'. As a consequence of having a new type, CO_GENERATOR flag is no longer applied to coroutines. 2. Having a separate type for coroutines made it possible to add an __await__ method to the type. Although it is not used by the interpreter (see details on that below), it makes coroutines naturally (without using __instancecheck__) conform to collections.abc.Coroutine and collections.abc.Awaitable ABCs. [The __instancecheck__ is still used for generator-based coroutines, as we don't want to add __await__ for generators.] 3. Add new opcode: GET_YIELD_FROM_ITER. The opcode is needed to allow passing native coroutines to the YIELD_FROM opcode. Before this change, 'yield from o' expression was compiled to: (o) GET_ITER LOAD_CONST YIELD_FROM Now, we use GET_YIELD_FROM_ITER instead of GET_ITER. The reason for adding a new opcode is that GET_ITER is used in some contexts (such as 'for .. in' loops) where passing a coroutine object is invalid. 4. Add two new introspection functions to the inspec module: getcoroutinestate(c) and getcoroutinelocals(c). 5. inspect.iscoroutine(o) is updated to test if 'o' is a native coroutine object. Before this commit it used abc.Coroutine, and it was requested to update inspect.isgenerator(o) to use abc.Generator; it was decided, however, that inspect functions should really be tailored for checking for native types. 6. sys.set_coroutine_wrapper(w) API is updated to work with only native coroutines. Since types.coroutine decorator supports any type of callables now, it would be confusing that it does not work for all types of coroutines. 7. Exceptions logic in generators C implementation was updated to raise clearer messages for coroutines: Before: TypeError("generator raised StopIteration") After: TypeError("coroutine raised StopIteration")
2015-06-22 13:19:30 -03:00
def_op('GET_YIELD_FROM_ITER', 69)
def_op('LOAD_BUILD_CLASS', 71)
def_op('LOAD_ASSERTION_ERROR', 74)
def_op('RETURN_GENERATOR', 75)
def_op('RETURN_VALUE', 83)
def_op('SETUP_ANNOTATIONS', 85)
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)
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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('RETURN_CONST', 121)
hasconst.append(121)
def_op('BINARY_OP', 122)
jrel_op('SEND', 123) # Number of words 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('COMPARE_AND_BRANCH', 141) # Comparison and jump
hascompare.append(141)
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)
def_op('CALL_INTRINSIC_1', 173)
def_op('CALL_INTRINSIC_2', 174)
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_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_DICT",
"BINARY_SUBSCR_GETITEM",
"BINARY_SUBSCR_LIST_INT",
"BINARY_SUBSCR_TUPLE_INT",
],
"CALL": [
"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_AND_BRANCH": [
"COMPARE_AND_BRANCH_FLOAT",
"COMPARE_AND_BRANCH_INT",
"COMPARE_AND_BRANCH_STR",
],
"FOR_ITER": [
"FOR_ITER_LIST",
"FOR_ITER_TUPLE",
"FOR_ITER_RANGE",
"FOR_ITER_GEN",
],
"LOAD_ATTR": [
# 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_VALUES",
],
"LOAD_CONST": [
"LOAD_CONST__LOAD_FAST",
],
"LOAD_FAST": [
"LOAD_FAST__LOAD_CONST",
"LOAD_FAST__LOAD_FAST",
],
"LOAD_GLOBAL": [
"LOAD_GLOBAL_BUILTIN",
"LOAD_GLOBAL_MODULE",
],
"STORE_ATTR": [
"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_DICT",
"STORE_SUBSCR_LIST_INT",
],
"UNPACK_SEQUENCE": [
"UNPACK_SEQUENCE_LIST",
"UNPACK_SEQUENCE_TUPLE",
"UNPACK_SEQUENCE_TWO_TUPLE",
],
"SEND": [
"SEND_GEN",
],
}
_specialized_instructions = [
opcode for family in _specializations.values() for opcode in family
]
_cache_format = {
"LOAD_GLOBAL": {
"counter": 1,
"index": 1,
"module_keys_version": 1,
"builtin_keys_version": 1,
},
"BINARY_OP": {
"counter": 1,
},
"UNPACK_SEQUENCE": {
"counter": 1,
},
"COMPARE_OP": {
"counter": 1,
},
"COMPARE_AND_BRANCH": {
"counter": 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,
},
"SEND": {
"counter": 1,
},
}
_inline_cache_entries = [
sum(_cache_format.get(opname[opcode], {}).values()) for opcode in range(256)
]