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I want to mimic a piece of C code in Python with ctypes, the code is something like:

typedef struct {
  int x;
  int y;
} point;

void copy_point(point *a, point *b) {
  *a = *b;

in ctypes it's not possible to do the following:

from ctypes import *

class Point(Structure):
  _fields_ = [("x", c_int),("y", c_int)]

def copy_point(a, b):
  a.contents = b.contents

p0 = pointer(Point())
p1 = pointer(Point())

as the contents still is a Python ctypes Structure object, that is managed as a reference itself.

An obvious workaround would be to manually copy each field (that is represented as immutable python int's), but that doesn't scale with more complex structures. Also, it would need to be done recursively for fields that are not basic, but structured types.

My other option is to use memmove and copy the objects as if they were buffers, but that seems very error prone (as Python is dynamically typed it would be too easy to use it with objects of distinct type and size, leading to memory corruption or segmentation faults)...

Any suggestions?


I could also use a fresh new copy of the structure, so maybe this could be useful:

import copy
p0 = Point()
p1 = copy.deepcopy(p0) #or just a shallow copy for this example

but I don't know if there might be some kind of bizarre behaviours copying ctypes proxys as if they were regular Python objects...

share|improve this question
Unfortunately deepcopy fails if the ctypes structure contains pointers: ValueError: ctypes objects containing pointers cannot be pickled. –  figs Apr 2 at 0:18

4 Answers 4

up vote 4 down vote accepted

You can use sequence assignment to copy the pointed-to objects (rather than assigning to p.contents, which changes the pointer value):

def copy(dst, src):
    """Copies the contents of src to dst"""
    pointer(dst)[0] = src

# alternately
def new_copy(src):
    """Returns a new ctypes object which is a bitwise copy of an existing one"""
    dst = type(src)()
    pointer(dst)[0] = src
    return dst

# or if using pointers
def ptr_copy(dst_ptr, src_ptr):
    dst_ptr[0] = src_ptr[0]

ctypes will do type checking for you (which isn't fool-proof, but it's better than nothing).

Example of use, with verification that it does in fact work ;):

>>> o1 = Point(1, 1)
>>> o2 = Point(2, 2)
>>> print (o1.x, o1.y, addressof(o1)), (o2.x, o2.y, addressof(o2))
(1, 1, 6474004) (2, 2, 6473524)
>>> copy(o2, o1)
>>> pprint (o1.x, o1.y, addressof(o1)), (o2.x, o2.y, addressof(o2))
(1, 1, 6474004) (1, 1, 6473524)

>>> o1 = Point(1, 1), o2 = Point(2, 2)
>>> print (o1.x, o1.y, addressof(o1)), (o2.x, o2.y, addressof(o2))
(1, 1, 6473844) (2, 2, 6473684)
>>> p1, p2 = pointer(o1), pointer(o2)
>>> addressof(p1.contents), addressof(p2.contents)
(6473844, 6473684)
>>> ptr_copy(p1, p2)
>>> print (o1.x, o1.y, addressof(o1)), (o2.x, o2.y, addressof(o2))
(2, 2, 6473844) (2, 2, 6473684)
>>> addressof(p1.contents), addressof(p2.contents)
(6473844, 6473684)
share|improve this answer
Seemed promising, but it just changes the pointee :-s print addressof(src) and addressof(dst.contents) after assigning to check it. –  fortran Sep 24 '09 at 9:16
Those functions aren't supposed to be passed pointers, they're supposed to be the ctypes structure objects. If you want a function analogous to your C copy_point, do dst[0] = src[0]. –  Miles Sep 24 '09 at 9:24
Hmmmm... I cannot see why the behaviour changed from doing dst = pointer(a); dst[0] = src; to pointer(a)[0] = src :-| –  fortran Sep 24 '09 at 9:49
It shouldn't; it's pretty easy to make mistakes or accidentally use old variables in an interactive session though. –  Miles Sep 24 '09 at 10:02
It might be that ^_^ –  fortran Sep 24 '09 at 10:57

memmove is the correct operation here. By setting the argtypes of your CopyPoint function, you can easily enforce type-safety.

from ctypes import *

class Point(Structure):
    _fields_ = [("x", c_int), ("y", c_int)]
    def __str__(self):
        return "<Point: x=%d, y=%d, addr=%ld>" % (self.x, self.y, addressof(self))

def CopyPoint(a, b):
    memmove(a, b, sizeof(Point))
CopyPoint.argtypes = [POINTER(Point), POINTER(Point)]

pt0 = Point(x=0, y=10)
pt1 = Point(x=5, y=7)

print pt0, pt1

CopyPoint(byref(pt0), byref(pt1))
print pt0, pt1    

    CopyPoint(byref(pt0), Point(x=2, y=3))
except ArgumentError as e:
    print "Could not copy!", e


$ python 
<Point: x=0, y=10, addr=3083711192> <Point: x=5, y=7, addr=3083711120>
<Point: x=5, y=7, addr=3083711192> <Point: x=5, y=7, addr=3083711120>
Could not copy! argument 2: <type 'exceptions.TypeError'>: wrong type

Note that you could easily make a factory to generate this kind of function at run-time based on a specific type, if you need to generalize:

def CopierFactory(typ):
    def f(a,b):
        memmove(a,b, sizeof(typ))
    f.argtypes = [POINTER(typ), POINTER(typ)]

    return f

copy_point = CopierFactory(Point)

a = Point(x=1, y=2)
b = Point(x=-1, y=-1)
print a, b
copy_point(byref(a), byref(b))
print a, b


<Point: x=1, y=2, addr=3085088024> <Point: x=-1, y=-1, addr=3085087952>
<Point: x=-1, y=-1, addr=3085088024> <Point: x=-1, y=-1, addr=3085087952>
share|improve this answer

Pointer operations as rule are not very memory safe. I would create wrapper classes for each struct data type you are interested in and let them handle the pointer copy operations. Pretty much like you are doing here. There are lambda and map functions which you can use recursively as syntactic sugar.

share|improve this answer
what a void answer :-( –  fortran Sep 24 '09 at 8:35
Price of thinking out aloud .. there are metaclasses which can be used a nice mapping –  whatnick Sep 24 '09 at 9:04

I'm now also thinking about defining a method like:

def safe_copy(dst, src):
  if type(src) != type(dst) or not isinstance(src, Structure):
    raise Exception("wrong types")
  memmove(addressof(dst), addressof(src), sizeof(src))

But there might be still nicer options out there...

share|improve this answer
A few spelling errors but type safety check is recommended. –  whatnick Sep 24 '09 at 8:21

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