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I'm well aware that there is no standard ABI for c++, so this is what I did:

#ifndef TRIALDLL_H_
#define TRIALDLL_H_

class MyMathFuncs
    double offset;

    MyMathFuncs(double offset);


    double Add(double a, double b);

    double Multiply(double a, double b);

    double getOffset();

#ifdef __cplusplus
extern "C"{

#define TRIALDLL_API __declspec(dllexport)
#define TRIALDLL_API __declspec(dllimport)

    TRIALDLL_API MyMathFuncs* __stdcall new_MyMathFuncs(double offset);

    TRIALDLL_API void __stdcall del_MyMathFuncs(MyMathFuncs *myMath);

    TRIALDLL_API double __stdcall MyAdd(MyMathFuncs* myMath, double a, double b);

#ifdef __cplusplus


And the definition .cpp: (Other class functions' definitions are omitted)

#include "trialDLL.h"

MyMathFuncs* __stdcall new_MyMathFuncs(double offset)
return new MyMathFuncs(offset);

void __stdcall del_MyMathFuncs(MyMathFuncs *myMath)

double __stdcall MyAdd(MyMathFuncs *myMath, double a, double b)
return myMath->Add(a, b);

// class functions
double MyMathFuncs::Add(double a, double b)
return a+b+ this->offset;

And I build this into a dll and named it trialDLL3.dll. Then in python, I wrote a module as:

import ctypes
from ctypes import WinDLL

class MyMath(object):
    def __init__(self, offset):
        self.FunMath = WinDLL('trialDLL3.dll')
        self.FunMath.new_MyMathFuncs.argtypes = [ctypes.c_double]
        self.FunMath.new_MyMathFuncs.restype = ctypes.c_void_p

        self.FunMath.MyAdd.argtypes = [ctypes.c_void_p, \
                                       ctypes.c_double, ctypes.c_double]
        self.FunMath.MyAdd.restype = ctypes.c_double

        self.obj = self.FunMath.new_MyMathFuncs(offset)

    def FunAdd(self, a, b):
        self.FunMath.MyAdd(self.obj, a, b)

    def delete(): 

After all these, strange things happened. In the IDLE python shell, I did:

theMath = MyMath(3.3)        #create the instance
theMath.FunAdd(3.3, 3.3)     #call the function

The second line returned None instead of 9.9. Then I tried another way round, putting this line in the shell:

theMath.FunMath.MyAdd(theMath.obj, 3.3 ,3.3)

And this line returns me an unsurprising 9.9, but surprising when compared to the last result None. Shouldn't these two lines identical? And I decided to run all those lines explicitly in python shell and see what can go wrong, writing: (excluding the imports)

loadedDLL = WinDLL('trialDLL3.dll')
loadedDLL.new_MyMathFuncs.argtypes = [ctypes.c_double]
loadedDLL.new_MyMathFuncs.restype = ctypes.c_void_p
loadedDLL.MyAdd.argtypes = [ctypes.c_void_p, \
                                    ctypes.c_double, ctypes.c_double]
loadedDLL.MyAdd.restype = ctypes.c_double
obj = loadedDLL.new_MyMathFuncs(3.3)
FunMath.MyAdd(obj, 3.3, 3.3)

All these lines finally returned 9.9. Aren't these lines identical to the two lines if the trialDLL3.py module is imported?

theMath = MyMath(3.3)        #create the instance
theMath.FunAdd(3.3, 3.3)     #call the function

If they are the same deal, why the two line class version returns None and the explicit way return expected 9.9? Thanks in advance!

share|improve this question
Thank you eryksun ;) But I think it improves the readability if the backslash is always placed for a line continuation? –  springRoll Apr 29 '13 at 14:04

1 Answer 1

up vote 2 down vote accepted

Everything works fine... but you forgot to pass along the return value of the C function in the method MyMath.FunAdd!

def FunAdd(self, a, b):
    return self.FunMath.MyAdd(self.obj, a, b)
share|improve this answer
My my.. Thanks Armin! It is not a good idea to work at Sunday night, is it? –  springRoll Apr 28 '13 at 22:32

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