I have a C function which expects a list \0 terminated strings as input:

void external_C( int length , const char ** string_list) { 
   // Inspect the content of string_list - but not modify it.

From python (with ctypes) I would like to call this function based on a list of python strings:

def call_c( string_list ):
    lib.external_C( ?? )

call_c( ["String1" , "String2" , "The last string"])

Any tips on how to build up the datastructure on the python side? Observe that I guarantee that the C function will NOT alter content of the strings in string_list.



  • How does the C function know it's reached the end of the sequence of const char *?
    – habnabit
    Aug 16, 2010 at 15:26
  • Well; in general it does not know of course. My intention was to terminate it with a NULL, alternatively I can pass in a length as well as the (char **) pointer - I have full control over the C library in question. Joakim Aug 16, 2010 at 15:32
  • If it doesn't know, that's pretty useless. You need to tell it somehow, and tell us so we can give you code that works.
    – habnabit
    Aug 16, 2010 at 15:32
  • OK - OK; I did'nt think that was so important. Anyway I have now changed the definition of the C function so it takes a length argument as the first argument. Aug 16, 2010 at 15:43
  • Sorry, what should the argtypes for external_C be?
    – mm_
    Dec 1, 2020 at 23:38

6 Answers 6

def call_c(L):
    arr = (ctypes.c_char_p * len(L))()
    arr[:] = L
    lib.external_C(len(L), arr)
  • 3
    Notice that in Python 3.x, strings are unicode by default, so you should convert your strings to bytes via s.encode('utf-8') or bytes(s, 'utf-8') (or whatever encoding you want to use that is not UTF-8). Dec 24, 2018 at 15:55
  • It'd be nice to incorporate this ^ into the answer
    – ben26941
    Jan 20, 2020 at 15:52

Thank you very much; that worked like charm. I also did an alternative variation like this:

def call_c( L ):
    arr = (ctypes.c_char_p * (len(L) + 1))()
    arr[:-1] = L
    arr[ len(L) ] = None
    lib.external_C( arr )

And then in C-function I iterated through the (char **) list until I found a NULL.


Using ctypes

create list of expiries( strings)

expiries = ["1M", "2M", "3M", "6M","9M", "1Y", "2Y", "3Y","4Y", "5Y", "6Y", "7Y","8Y", "9Y", "10Y", "11Y","12Y", "15Y", "20Y", "25Y", "30Y"]

Logic to send string array

convert strings array to bytes array by looping in the array

 expiries_bytes = []
    for i in range(len(expiries)):
        expiries_bytes.append(bytes(expiries[i], 'utf-8'))

Logic ctypes to initiate a pointer with a length of array

expiries_array = (ctypes.c_char_p * (len(expiries_bytes)+1))()

assigning the byte array into the pointer

expiries_array[:-1] = expiries_bytes

I just make it using SWIG typemap

1.write customized typemap in demo.i interface file.

%module demo

/* tell SWIG to treat char ** as a list of strings */
%typemap(in) char ** {
    // check if is a list
        int size = PyList_Size($input);
        int i = 0;
        $1 = (char **)malloc((size + 1)*sizeof(char *));
        for(i = 0; i < size; i++)
            PyObject * o = PyList_GetItem($input, i);
                $1[i] = PyString_AsString(o);
                PyErr_SetString(PyExc_TypeError, "list must contain strings");
                return NULL;
        PyErr_SetString(PyExc_TypeError, "not a list");
        return NULL;

// clean up the char ** array
%typemap(freearg) char ** {
    free((char *) $1);

2.generate extension

$ swig -python demo.i  // generate wrap code
$ gcc -c -fpic demo.c demo_wrap.c
$ gcc -shared demo.o demo_wrap.o -o _demo.so

3.import the module in python.

>>> from demo import yourfunction

This is how to pass a list of int/ a list of string / string / float to c code

import ctypes

clib = ctypes.cdll.LoadLibrary("main.o")

# Pass a list of int
L = [1, 2, 3, 4, 5]
arr = (ctypes.c_int * len(L))()
arr[:] = L

# Pass a list of string
str_lst = ["hello", "world", "!", "\0"]
str_arr = (ctypes.c_char_p * len(str_lst))()
str_arr[:] = [i.encode("utf-8") for i in str_lst]

x = clib.my_c_fun(1
                  , ctypes.c_float(1.2)
                  , ctypes.c_char_p("hello".encode('utf-8'))
                  , arr
                  , str_arr

This is a pretty old question, but I think worth to add if people still search for similar question.

using numpy, would be probably easiest way for handling all the low level manipulations and linking with with libraries.

example = ["String1" , "String2" , "The last string"]
example_np = m = np.array(example, dtype=np.chararray)

when you build you numpy array of char*, you could just get the pointer to array (with ctypes and directly give it to the lib expecting char**.

example_ptr = ctypes.cast(example_np.ctypes.data, ctypes.POINTER(ctypes.c_char_p)) # this is char**

and you could just call

lib.external_C(len(example), example_ptr)

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