Esempio n. 1
0
 def wrap(self, x):
     "Wraps the Python value 'x' into one of the wrapper classes."
     # You might notice that this function is rather conspicuously
     # not RPython.  We can get away with this because the function
     # is specialized (see after the function body).  Also worth
     # noting is that the isinstance's involving integer types
     # behave rather differently to how you might expect during
     # annotation (see pypy/annotation/builtin.py)
     if x is None:
         return self.w_None
     if isinstance(x, model.W_Object):
         raise TypeError, "attempt to wrap already wrapped object: %s" % (
             x, )
     if isinstance(x, OperationError):
         raise TypeError, ("attempt to wrap already wrapped exception: %s" %
                           (x, ))
     if isinstance(x, int):
         if isinstance(x, bool):
             return self.newbool(x)
         else:
             return self.newint(x)
     if isinstance(x, str):
         return wrapstr(self, x)
     if isinstance(x, unicode):
         return wrapunicode(self, x)
     if isinstance(x, float):
         return W_FloatObject(x)
     if isinstance(x, Wrappable):
         w_result = x.__spacebind__(self)
         #print 'wrapping', x, '->', w_result
         return w_result
     if isinstance(x, base_int):
         if self.config.objspace.std.withsmalllong:
             from pypy.objspace.std.smalllongobject import W_SmallLongObject
             from pypy.rlib.rarithmetic import r_longlong, r_ulonglong
             from pypy.rlib.rarithmetic import longlongmax
             if (not isinstance(x, r_ulonglong)
                     or x <= r_ulonglong(longlongmax)):
                 return W_SmallLongObject(r_longlong(x))
         x = widen(x)
         if isinstance(x, int):
             return self.newint(x)
         else:
             return W_LongObject.fromrarith_int(x)
     return self._wrap_not_rpython(x)
Esempio n. 2
0
 def wrap(self, x):
     "Wraps the Python value 'x' into one of the wrapper classes."
     # You might notice that this function is rather conspicuously
     # not RPython.  We can get away with this because the function
     # is specialized (see after the function body).  Also worth
     # noting is that the isinstance's involving integer types
     # behave rather differently to how you might expect during
     # annotation (see pypy/annotation/builtin.py)
     if x is None:
         return self.w_None
     if isinstance(x, model.W_Object):
         raise TypeError, "attempt to wrap already wrapped object: %s"%(x,)
     if isinstance(x, OperationError):
         raise TypeError, ("attempt to wrap already wrapped exception: %s"%
                           (x,))
     if isinstance(x, int):
         if isinstance(x, bool):
             return self.newbool(x)
         else:
             return self.newint(x)
     if isinstance(x, str):
         return wrapstr(self, x)
     if isinstance(x, unicode):
         return wrapunicode(self, x)
     if isinstance(x, float):
         return W_FloatObject(x)
     if isinstance(x, Wrappable):
         w_result = x.__spacebind__(self)
         #print 'wrapping', x, '->', w_result
         return w_result
     if isinstance(x, base_int):
         if self.config.objspace.std.withsmalllong:
             from pypy.objspace.std.smalllongobject import W_SmallLongObject
             from pypy.rlib.rarithmetic import r_longlong, r_ulonglong
             from pypy.rlib.rarithmetic import longlongmax
             if (not isinstance(x, r_ulonglong)
                 or x <= r_ulonglong(longlongmax)):
                 return W_SmallLongObject(r_longlong(x))
         x = widen(x)
         if isinstance(x, int):
             return self.newint(x)
         else:
             return W_LongObject.fromrarith_int(x)
     return self._wrap_not_rpython(x)
Esempio n. 3
0
    def wrap(self, x):
        "Wraps the Python value 'x' into one of the wrapper classes."
        # You might notice that this function is rather conspicuously
        # not RPython.  We can get away with this because the function
        # is specialized (see after the function body).  Also worth
        # noting is that the isinstance's involving integer types
        # behave rather differently to how you might expect during
        # annotation (see pypy/annotation/builtin.py)
        if x is None:
            return self.w_None
        if isinstance(x, W_Object):
            raise TypeError, "attempt to wrap already wrapped object: %s"%(x,)
        if isinstance(x, OperationError):
            raise TypeError, ("attempt to wrap already wrapped exception: %s"%
                              (x,))
        if isinstance(x, int):
            if isinstance(x, bool):
                return self.newbool(x)
            else:
                return self.newint(x)
        if isinstance(x, str):
            from pypy.objspace.std.stringtype import wrapstr
            return wrapstr(self, x)
        if isinstance(x, unicode):
            from pypy.objspace.std.unicodetype import wrapunicode
            return wrapunicode(self, x)
        if isinstance(x, float):
            return W_FloatObject(x)
        if isinstance(x, Wrappable):
            w_result = x.__spacebind__(self)
            #print 'wrapping', x, '->', w_result
            return w_result
        if isinstance(x, r_int) or isinstance(x, r_uint) or \
           isinstance(x, r_longlong) or isinstance(x, r_ulonglong):
            return W_LongObject.fromrarith_int(x)

        # _____ below here is where the annotator should not get _____

        # wrap() of a container works on CPython, but the code is
        # not RPython.  Don't use -- it is kept around mostly for tests.
        # Use instead newdict(), newlist(), newtuple().
        if isinstance(x, dict):
            items_w = [(self.wrap(k), self.wrap(v)) for (k, v) in x.iteritems()]
            r = self.newdict()
            r.initialize_content(items_w)
            return r
        if isinstance(x, tuple):
            wrappeditems = [self.wrap(item) for item in list(x)]
            return W_TupleObject(wrappeditems)
        if isinstance(x, list):
            wrappeditems = [self.wrap(item) for item in x]
            return self.newlist(wrappeditems)

        # The following cases are even stranger.
        # Really really only for tests.
        if isinstance(x, long):
            return W_LongObject.fromlong(x)
        if isinstance(x, slice):
            return W_SliceObject(self.wrap(x.start),
                                 self.wrap(x.stop),
                                 self.wrap(x.step))
        if isinstance(x, complex):
            return W_ComplexObject(x.real, x.imag)

        if isinstance(x, set):
            wrappeditems = [self.wrap(item) for item in x]
            return W_SetObject(self, wrappeditems)

        if isinstance(x, frozenset):
            wrappeditems = [self.wrap(item) for item in x]
            return W_FrozensetObject(self, wrappeditems)

        if x is __builtin__.Ellipsis:
            # '__builtin__.Ellipsis' avoids confusion with special.Ellipsis
            return self.w_Ellipsis

        if self.config.objspace.nofaking:
            # annotation should actually not get here.  If it does, you get
            # an error during rtyping because '%r' is not supported.  It tells
            # you that there was a space.wrap() on a strange object.
            raise OperationError(self.w_RuntimeError,
                                 self.wrap("nofaking enabled: refusing "
                                           "to wrap cpython value %r" %(x,)))
        if isinstance(x, type(Exception)) and issubclass(x, Exception):
            w_result = self.wrap_exception_cls(x)
            if w_result is not None:
                return w_result
        #print "fake-wrapping", x 
        from fake import fake_object
        return fake_object(self, x)