def union((bltn1, bltn2)):
if (bltn1.analyser != bltn2.analyser
or bltn1.methodname != bltn2.methodname or bltn1.s_self is None
or bltn2.s_self is None):
raise UnionError("cannot merge two different builtin functions "
"or methods:\n %r\n %r" % (bltn1, bltn2))
s_self = unioncheck(bltn1.s_self, bltn2.s_self)
return SomeBuiltin(bltn1.analyser, s_self, methodname=bltn1.methodname)
def find_method(obj, name):
"Look for a special-case implementation for the named method."
try:
analyser = getattr(obj.__class__, 'method_' + name)
except AttributeError:
return None
else:
return SomeBuiltin(analyser, obj, name)
def immutablevalue(self, x, need_const=True):
"""The most precise SomeValue instance that contains the
immutable value x."""
# convert unbound methods to the underlying function
if hasattr(x, 'im_self') and x.im_self is None:
x = x.im_func
assert not hasattr(x, 'im_self')
if x is sys: # special case constant sys to someobject
return SomeObject()
tp = type(x)
if issubclass(tp, Symbolic): # symbolic constants support
result = x.annotation()
result.const_box = Constant(x)
return result
if tp is bool:
result = SomeBool()
elif tp is int:
result = SomeInteger(nonneg=x >= 0)
elif tp is long:
if -sys.maxint - 1 <= x <= sys.maxint:
x = int(x)
result = SomeInteger(nonneg=x >= 0)
else:
raise Exception("seeing a prebuilt long (value %s)" % hex(x))
elif issubclass(tp, str): # py.lib uses annotated str subclasses
if len(x) == 1:
result = SomeChar()
else:
result = SomeString()
elif tp is unicode:
if len(x) == 1:
result = SomeUnicodeCodePoint()
else:
result = SomeUnicodeString()
elif tp is tuple:
result = SomeTuple(
items=[self.immutablevalue(e, need_const) for e in x])
elif tp is float:
result = SomeFloat()
elif tp is list:
if need_const:
key = Constant(x)
try:
return self.immutable_cache[key]
except KeyError:
result = SomeList(ListDef(self, s_ImpossibleValue))
self.immutable_cache[key] = result
for e in x:
result.listdef.generalize(self.immutablevalue(e))
result.const_box = key
return result
else:
listdef = ListDef(self, s_ImpossibleValue)
for e in x:
listdef.generalize(self.immutablevalue(e, False))
result = SomeList(listdef)
elif tp is dict or tp is r_dict:
if need_const:
key = Constant(x)
try:
return self.immutable_cache[key]
except KeyError:
result = SomeDict(
DictDef(self,
s_ImpossibleValue,
s_ImpossibleValue,
is_r_dict=tp is r_dict))
self.immutable_cache[key] = result
if tp is r_dict:
s_eqfn = self.immutablevalue(x.key_eq)
s_hashfn = self.immutablevalue(x.key_hash)
result.dictdef.dictkey.update_rdict_annotations(
s_eqfn, s_hashfn)
seen_elements = 0
while seen_elements != len(x):
items = x.items()
for ek, ev in items:
result.dictdef.generalize_key(
self.immutablevalue(ek))
result.dictdef.generalize_value(
self.immutablevalue(ev))
result.dictdef.seen_prebuilt_key(ek)
seen_elements = len(items)
# if the dictionary grew during the iteration,
# start over again
result.const_box = key
return result
else:
dictdef = DictDef(self,
s_ImpossibleValue,
s_ImpossibleValue,
is_r_dict=tp is r_dict)
if tp is r_dict:
s_eqfn = self.immutablevalue(x.key_eq)
s_hashfn = self.immutablevalue(x.key_hash)
dictdef.dictkey.update_rdict_annotations(s_eqfn, s_hashfn)
for ek, ev in x.iteritems():
dictdef.generalize_key(self.immutablevalue(ek, False))
dictdef.generalize_value(self.immutablevalue(ev, False))
dictdef.seen_prebuilt_key(ek)
result = SomeDict(dictdef)
elif tp is weakref.ReferenceType:
x1 = x()
if x1 is None:
result = SomeWeakRef(None) # dead weakref
else:
s1 = self.immutablevalue(x1)
assert isinstance(s1, SomeInstance)
result = SomeWeakRef(s1.classdef)
elif ishashable(x) and x in BUILTIN_ANALYZERS:
_module = getattr(x, "__module__", "unknown")
result = SomeBuiltin(BUILTIN_ANALYZERS[x],
methodname="%s.%s" % (_module, x.__name__))
elif extregistry.is_registered(x, self.policy):
entry = extregistry.lookup(x, self.policy)
result = entry.compute_annotation_bk(self)
elif isinstance(x, lltype._ptr):
result = SomePtr(lltype.typeOf(x))
elif isinstance(x, llmemory.fakeaddress):
result = SomeAddress()
elif isinstance(x, ootype._static_meth):
result = SomeOOStaticMeth(ootype.typeOf(x))
elif isinstance(x, ootype._class):
result = SomeOOClass(x._INSTANCE) # NB. can be None
elif isinstance(x, ootype.instance_impl): # XXX
result = SomeOOInstance(ootype.typeOf(x))
elif isinstance(x, (ootype._record, ootype._string)):
result = SomeOOInstance(ootype.typeOf(x))
elif isinstance(x, (ootype._object)):
result = SomeOOObject()
elif callable(x):
if hasattr(x, 'im_self') and hasattr(x, 'im_func'):
# on top of PyPy, for cases like 'l.append' where 'l' is a
# global constant list, the find_method() returns non-None
s_self = self.immutablevalue(x.im_self, need_const)
result = s_self.find_method(x.im_func.__name__)
elif hasattr(x, '__self__') and x.__self__ is not None:
# for cases like 'l.append' where 'l' is a global constant list
s_self = self.immutablevalue(x.__self__, need_const)
result = s_self.find_method(x.__name__)
if result is None:
result = SomeObject()
else:
result = None
if result is None:
if (self.annotator.policy.allow_someobjects
and getattr(x, '__module__', None) == '__builtin__'
# XXX note that the print support functions are __builtin__
and tp not in (types.FunctionType, types.MethodType)):
result = SomeObject()
result.knowntype = tp # at least for types this needs to be correct
else:
result = SomePBC([self.getdesc(x)])
elif hasattr(x, '_freeze_') and x._freeze_():
# user-defined classes can define a method _freeze_(), which
# is called when a prebuilt instance is found. If the method
# returns True, the instance is considered immutable and becomes
# a SomePBC(). Otherwise it's just SomeInstance().
result = SomePBC([self.getdesc(x)])
elif hasattr(x, '__class__') \
and x.__class__.__module__ != '__builtin__':
self.see_mutable(x)
result = SomeInstance(self.getuniqueclassdef(x.__class__))
elif x is None:
return s_None
else:
result = SomeObject()
if need_const:
result.const = x
return result
def __init__(self, ctype_item):
from pypy.rpython.rctypes.aarray import VarSizedArrayType
ctype_array = VarSizedArrayType(ctype_item)
SomeBuiltin.__init__(self, ctype_array.get_instance_annotation)
self.ctype_array = ctype_array