Because the str type is a type wich does not has an attribute dict. From the docs, "Classes" section:
A class has a namespace implemented by a dictionary object.
Class attribute references are translated to lookups in this
dictionary, e.g., C.x is translated to C.__dict__["x"]
You can also enforce something similar on custom objects:
>>> class X(object):
... __slots__=('a', )
...
>>> a = X()
>>> a.a = 2
>>> a.foo = 2
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
AttributeError: 'X' object has no attribute 'foo'
In general, you should not be setting nor modifying fields of objects that you are not supposed to. The documentation of the specific data type should reference you what fields are available for public modification.
For example, an ReadOnlyPoint object, where the x and y coordinates are set only on object construction:
>>> class ReadOnlyPoint(object):
... __slots__ = ('_x', '_y')
... def __init__(self, x, y):
... self._x = x
... self._y = y
... def getx(self):
... return self._x
... def gety(self):
... return self._y
... x = property(getx)
... y = property(gety)
...
>>> p = ReadOnlyPoint(2, 3)
>>> print p.x, p.y
2 3
>>> p.x = 9
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
AttributeError: can't set attribute
>>> p._x = 9
>>> print p.x, p.y
9 3
While the x and y properties are read-only, accessing the object internals allows you to alter the object's state.
The inhability to add a new field to an str object is an implementation detail, specific to the Python version that you are using.
