# How to compare two ctypes objects for equality?

``````import ctypes as ct

class Point(ct.Structure):
_fields_ = [
('x', ct.c_int),
('y', ct.c_int),
]

p1 = Point(10, 10)
p2 = Point(10, 10)

print p1 == p2 # => False
``````

The equality operator '==' gives False in the trivial case above. Is there any straightforward approach?

EDIT:

Here's a slightly improved version (based on the accepted answer), which can also deal with nested arrays:

``````import ctypes as ct

class CtStruct(ct.Structure):

def __eq__(self, other):
for field in self._fields_:
attr_name = field[0]
a, b = getattr(self, attr_name), getattr(other, attr_name)
is_array = isinstance(a, ct.Array)
if is_array and a[:] != b[:] or not is_array and a != b:
return False
return True

def __ne__(self, other):
for field in self._fields_:
attr_name = field[0]
a, b = getattr(self, attr_name), getattr(other, attr_name)
is_array = isinstance(a, ct.Array)
if is_array and a[:] != b[:] or not is_array and a != b:
return True
return False

class Point(CtStruct):
_fields_ = [
('x', ct.c_int),
('y', ct.c_int),
('arr', ct.c_int * 2),
]

p1 = Point(10, 20, (30, 40))
p2 = Point(10, 20, (30, 40))

print p1 == p2 # True
``````
-

Create a class MyCtStructure, then all its subclass do not need to implement `__eq__` & `__ne__`. Defining eq would be not be a bit tedious job in your case anymore.

``````import ctypes as ct
class MyCtStructure(ct.Structure):

def __eq__(self, other):
for fld in self._fields_:
if getattr(self, fld[0]) != getattr(other, fld[0]):
return False
return True

def __ne__(self, other):
for fld in self._fields_:
if getattr(self, fld[0]) != getattr(other, fld[0]):
return True
return False

class Point(MyCtStructure):
_fields_ = [
('x', ct.c_int),
('y', ct.c_int),
]

p1 = Point(10, 11)
p2 = Point(10, 11)

print p1 == p2
``````
-
Yeah, that does the trick. Works nicely for nested structs. Thanks! – FipS Jun 19 '14 at 13:43

`p1.x == p2.x and p1.y = p2.y` will work in this trivial case.

You could also implement the `__eq__()` an `__ne__()` methods in your `Point` class:

``````class Point(ct.Structure):
_fields_ = [
('x', ct.c_int),
('y', ct.c_int),
]
def __eq__(self, other):
return (self.x == other.x) and (self.y == other.y)
def __ne__(self, other):
return not self.__eq__(other)

>>> p1 = Point(10, 10)
>>> p2 = Point(10, 10)
>>> p3 = Point(10, 66)
>>> p1 == p2
True
>>> p1 != p2
False
>>> p1 == p3
False
>>> p1 != p3
True
``````
-
Thanks, this is certainly a correct approach. I forgot to mention that I'm looking for an approach that would be simple to use with complicated nested structs. Defining eq would be a bit tedious job in my case... – FipS Jun 19 '14 at 13:13