This is a cross-post of a question I asked in the cython-user group a day and a half ago, but have not yet gotten any replies, so I am trying my luck in a more general forum

I have been trying every which way to wrap this following code, with various degrees of errors. Plenty of searching had me stumbling upon similar questions and also an outstanding wishlist ticket, but honestly I am not sure if I am even on the right path.


namespace Plow {

    struct JobState {
      enum type {
        INITIALIZE = 0,
        RUNNING = 1,
        FINISHED = 2
    class JobFilterT {
      std::vector<JobState::type>  states;

So I am trying to wrap this Plow::JobState::type enum. The closest I got, after finding another similar post, was ending up with this attempt:


cdef extern from "rpc/plow_types.h" namespace "Plow":

    enum JobState_type "Plow::JobState::type":
        INITIALIZE "Plow::JobState::INITIALIZE"
        RUNNING "Plow::JobState::RUNNING"
        FINISHED "Plow::JobState::FINISHED"

    struct JobState:
        JobState_type type
    cdef cppclass JobFilterT:
        vector[JobState_type] states 

And I get an error:

src/plow.cpp: In function ‘std::vector<Plow::JobState::type, std::allocator<Plow::JobState::type> > __pyx_convert_vector_from_py_enum__Plow_3a__3a_JobState_3a__3a_type(PyObject*)’:
src/plow.cpp:6688: error: invalid conversion from ‘long int’ to ‘Plow::JobState::type’


  1. How can I properly wrap this nested enum?
  2. Is this even necessary to try and wrap this exactly, or can I accomplish my goal of accessing these "namespaced" constants by some other means? Should I just completely ignore these structs, and define my own versions of the constants in my pyx, with matching int values?

I've tried to simply just define my own versions of the constants in my cython pyx and treat everything as int (vector[int] states) but the compiler complains about not knowing how to do conversions from int long to Plow::JobState::type.

  • Is there a reason for not using a namespace? – DiegoNolan Mar 22 '13 at 2:54
  • In the C++ I am wrapping? The c++ code is inside of a Plow namespace. – jdi Mar 22 '13 at 4:08

I finally figured it out, after trying an unbelievable amount of combinations. It was not to far off from my last attempt before asking the question...


I needed to just forget about that JobState struct, and only wrap the enum. But I also needed to map them to new names in cython to avoid name collisions with other enums using that similar namespace technique.

cdef extern from "rpc/plow_types.h" namespace "Plow":

    ctypedef enum JobState_type "Plow::JobState::type":
        JOBSTATE_RUNNING "Plow::JobState::RUNNING"

Now I can refer to JobState_type in stuff like vector[JobState_type]. Then I used this approach to making my constants available in python, in a readonly way:


cimport cython

cdef class _JobState:
        readonly int INITIALIZE 
        readonly int RUNNING 
        readonly int FINISHED 

    def __cinit__(self):

JobState = _JobState()

This gives me a public instance of JobState, with readonly constant attributes.

And when needing to convert back from a list of python values to a vector[JobState_type], I would do this:

someList = [JobState.RUNNING]
    JobState_type i
    vector[JobState_type] vec_states

for i in someList:
| improve this answer | |
  • Thanks for this. Great idea for exposing the enum values as read-only constants through the singleton class. – naitsirhc Mar 11 '14 at 14:17
  • This didn't work for me. When I did the same thing my those attributes on my class are not ints any more. They are of type 'getset_descriptor'. I cannot pass the enum to functions declared to take that enum. It complains that I didn't give it an int – eric.frederich Aug 15 '16 at 20:02
  • @eric.frederich, this continues to work for me in two different codebases that I maintain. Do you have a gist available, showing how you have implemented it? Also, because Python does not have enum types, this approach does not give you type safety, indeed. As you can see, they are simply converted to int fields. If you wanted type safe enums that are exposed to Python, then you would probably have to take a different approach where you have a base class type which has something like a .value() method. Then subclass it for each enum. Then you could accept the base class as a type. – jdi Aug 15 '16 at 21:23

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.