python ctype recursive structures

2019-08-30 01:48发布

问题:

I've developped a DLL for a driver in C. I wrote a test program in C++ and the DLL works fine.

Now I'd like to interract with this DLL using Python. I've successfully hidden most of the user defined C structures but there is one point where I have to use C structures. I'm rather new to python so I may get things wrong.

My approach is to redefine a few structures in python using ctype then pass the variable to my DLL. However in these class I have a custom linked list which contains recursive types as follow

class EthercatDatagram(Structure):
    _fields_ = [("header", EthercatDatagramHeader),
                ("packet_data_length", c_int),
                ("packet_data", c_char_p),
                ("work_count", c_ushort),
                ("next_command", EthercatDatagram)]

This fails, because inside EthercatDatagram, EthercatDatagram is not already defined so the parser returns an error.

How should I represent this linked list in python so that my DLL understands it correctly?

回答1:

You almost certainly want to declare next_command as a pointer. Having a structure that contains itself isn't possible (in any language).

I think this is what you want:

class EthercatDatagram(Structure):
    pass
EthercatDatagram._fields_ = [
    ("header", EthercatDatagramHeader),
    ("packet_data_length", c_int),
    ("packet_data", c_char_p),
    ("work_count", c_ushort),
    ("next_command", POINTER(EthercatDatagram))]


回答2:

The reason why

EthercatDatagram._fields_.append(("next_command", EthercatDatagram))

does not work is that the machinery that creates the descriptor objects (see the source of the PyCStructType_setattro function) for accessing the next_command attribute is activated only upon assignment to the _fields_ attribute of the class. Merely appending the new field to the list goes completely unnoticed.

To avoid this pitfall, use always a tuple (and not a list) as the value of the _fields_ attribute: that will make it clear that you have to assign a new value to the attribute and not modify it in place.



回答3:

You'll have to access _fields_ statically after you've created it.

class EthercatDatagram(Structure)
  _fields_ = [...]

EthercatDatagram._fields_.append(("next_command", EthercatDatagram))