# alias to keep the 'bytecode' variable free

import bytecode as _bytecode

from bytecode.instr import UNSET, Label, SetLineno, Instr

from bytecode.flags import infer_flags

class BaseBytecode:

def __init__(self):

self.argcount = 0

self.kwonlyargcount = 0

self.first_lineno = 1

self.name = '<module>'

self.filename = '<string>'

self.docstring = UNSET

self.cellvars = []

# we cannot recreate freevars from instructions because of super()

# special-case

self.freevars = []

self._flags = _bytecode.CompilerFlags(0)

def _copy_attr_from(self, bytecode):

self.argcount = bytecode.argcount

self.kwonlyargcount = bytecode.kwonlyargcount

self.flags = bytecode.flags

self.first_lineno = bytecode.first_lineno

self.name = bytecode.name

self.filename = bytecode.filename

self.docstring = bytecode.docstring

self.cellvars = list(bytecode.cellvars)

self.freevars = list(bytecode.freevars)

def __eq__(self, other):

if type(self) != type(other):

return False

if self.argcount != other.argcount:

return False

if self.kwonlyargcount != other.kwonlyargcount:

return False

if self.compute_stacksize() != other.compute_stacksize():

return False

if self.flags != other.flags:

return False

if self.first_lineno != other.first_lineno:

return False

if self.filename != other.filename:

return False

if self.name != other.name:

return False

if self.docstring != other.docstring:

return False

if self.cellvars != other.cellvars:

return False

if self.freevars != other.freevars:

return False

return True

@property

def flags(self):

return self._flags

@flags.setter

def flags(self, value):

if not isinstance(value, _bytecode.CompilerFlags):

value = _bytecode.CompilerFlags(value)

self._flags = value

def update_flags(self, *, is_async=False):

self.flags = infer_flags(self, is_async)

class _InstrList(list):

def _flat(self):

instructions = []

labels = {}

jumps = []

offset = 0

for index, instr in enumerate(self):

if isinstance(instr, Label):

instructions.append('label_instr%s' % index)

labels[instr] = offset

else:

if isinstance(instr, Instr) and isinstance(instr.arg, Label):

target_label = instr.arg

instr = _bytecode.ConcreteInstr(instr.name, 0,

lineno=instr.lineno)

jumps.append((target_label, instr))

instructions.append(instr)

offset += 1

for target_label, instr in jumps:

instr.arg = labels[target_label]

return instructions

def __eq__(self, other):

if not isinstance(other, _InstrList):

other = _InstrList(other)

return (self._flat() == other._flat())

class Bytecode(_InstrList, BaseBytecode):

def __init__(self, instructions=()):

BaseBytecode.__init__(self)

self.argnames = []

for instr in instructions:

self._check_instr(instr)

self.extend(instructions)

def __iter__(self):

instructions = super().__iter__()

for instr in instructions:

self._check_instr(instr)

yield instr

def _check_instr(self, instr):

if not isinstance(instr, (Label, SetLineno, Instr,

_bytecode.ConcreteInstr)):

raise ValueError("Bytecode must only contain Label, "

"SetLineno, Instr and ConcreteInstr objects, "

"but %s was found"

% type(instr).__name__)

@staticmethod

def from_code(code):

concrete = _bytecode.ConcreteBytecode.from_code(code)

return concrete.to_bytecode()

def compute_stacksize(self):

cfg = _bytecode.ControlFlowGraph.from_bytecode(self)

return cfg.compute_stacksize()

def to_code(self, compute_jumps_passes=None, stacksize=None):

bc = self.to_concrete_bytecode(

compute_jumps_passes=compute_jumps_passes)

return bc.to_code(stacksize=stacksize)

def to_concrete_bytecode(self, compute_jumps_passes=None):

converter = _bytecode._ConvertBytecodeToConcrete(self)

return converter.to_concrete_bytecode(

compute_jumps_passes=compute_jumps_passes)