Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

When creating ctypes variables, can one not pass values using python variables?

I have some code where I am calling a shared C library. If I pass the parameters to this C library using Method 1 (see below) things work well. But if I use Method 2, I get garbage. There are other parts to the code. But I have confirmed that when I replace Method 2 with Method 1, things work well. So something is wrong here.

If what I am doing in Method 2 is not valid, what is the alternative if I want to automate the process of running the code for different values of a given variable(s)?

Method 1 (This works well)

import ctypes as C

c_thresholds = (C.c_double * 4)()
for idx, value in enumerate(thresholds):
    c_thresholds[idx] = value

goodH = Good(C.c_char('H'), C.c_double(0.5), C.c_int(100), C.c_int(20))
goodL = Good(C.c_char('L'), C.c_double(0.5), C.c_int(75), C.c_int(20))

c_parameters = Params(
            var1 = C.c_int(100),
            var2 = C.c_int(4),
            var3 = C.c_int(5),
            var4 = C.c_int(5000),
            var5 = C.c_char_p("modelname"),
            var6 = C.c_double(0.5),
            var7 = C.c_double(90),
            var8 = c_thresholds,
            var9 = C.c_int(2),
            H = goodH,
            L = goodL


Method 2 (This does not work, outputs garbage)

import ctypes as C

def create_cparams(var1, var2, var3, var4, var5, var6, var7, var8, var9):

    c_thresholds = (C.c_double * 4)()
    for idx, value in enumerate(var8):
        c_thresholds[idx] = value

    goodH = Good(C.c_char('H'), C.c_double(0.5), C.c_int(100), C.c_int(20))
    goodL = Good(C.c_char('L'), C.c_double(0.5), C.c_int(75), C.c_int(20))

    c_parameters = Params(
                var1 = C.c_int(var1),
                var2 = C.c_int(var2),
                var3 = C.c_int(var3),
                var4 = C.c_int(var4),
                var5 = C.c_char_p(var5),
                var6 = C.c_double(var6),
                var7 = C.c_double(var7),
                var8 = c_thresholds,
                var9 = C.c_int(var9),
                H = goodH,
                L = goodL

    return c_parameters

# These are python variables
var1 = 100
var2 = 4
var3 = 5
var4 = 5000
var5 = "modelname"
var6 = 0.5
var7 = 90
var8 = [1, 0.9, 0.8, 0.7]
var9 = 2

# Calling the create_cparams function defined above
c_parameters = create_cparams(var1, var2, var3, var4, var5, var6, var7, var8, var9)

In case it is helpful the Params class is given by (does not change across the two methods):

class Params(C.Structure):
    _fields_ = [
            ("var1", C.c_int),
            ("var2", C.c_int),
            ("var3", C.c_int),
            ("var4", C.c_int),
            ("var5", C.c_char_p ),
            ("var6", C.c_double),
            ("var7", C.c_double),
            ("var8", (C.c_double * 4) ),
            ("var9", C.c_int),
            ("H", Good),
            ("L", Good)

C function prototype

// runsimulation() function above calls this C function

void run_multiple_reps (struct params parameters, struct repdata *data,
                    int len_timepdsarr, int *timepdsarr)

// params struct on C side, which Params class duplicates

struct params
    int var1;
    int var2;
    int var3;
    int var4;
    char *var5;
    double var6;
    double var7;
    double var8[4];
    int var9;
    struct good H;
    struct good L;
share|improve this question
The difference is that in Method 1 I am assigning var1 = C.c_int(100) as an argument to Params(), that is value 100 is hard-coded. In Method 2, I define var1 = 100 as a regular Python variable and then in the Params arguments I do, var1 = C.c_int(var1). That is, there are no hard-coded values in the argument to Params(). I will post the C function prototype and the struct definitions. Thank you for looking into this. – Curious2learn Sep 9 '13 at 11:09
Sorry, I meant that methods 1 and 2 should produce the same result. Did you test bytearray(c_parameters1) == bytearray(c_parameters2) for the structs from the respective methods? – eryksun Sep 9 '13 at 11:20
@eryksun Sorry for wasting your time. I realized that when I was passing parameters as variables (as opposed to hard-coding the values) to Params() I was using different values, which was causing the problem. That is, one of the variables had a different value and that was causing the problem. Anyhow, the good thing that came out of this is that I learnt that I don't need to explicitly do the conversion since Python does it for me. For learning that I am going to accept your answer. Also, I will look into the bytearray. I don't know what that is. – Curious2learn Sep 9 '13 at 11:46
bytearray is a mutable byte string type -- not related to ctypes. It initializes using the buffer protocol, which ctypes data objects support. It's just a quick way to grab a copy of the buffer to compare it as a byte string. – eryksun Sep 9 '13 at 11:58
up vote 1 down vote accepted

The field attributes of a Structure are CField descriptor objects. A descriptor is like a Python property or like a __slots__ attribute, if you're familiar with either of those. A CField knows the data type of the field and its offset into the buffer. Each C data type has a associated get/set function that converts to and from Python objects. So generally you can assign a Python object directly to the field. For example:

thresholds = [1, 0.9, 0.8, 0.7]    

c_parameters = Params(
    var1 = 100,
    var2 = 4,
    var3 = 5,
    var4 = 5000,
    var5 = "modelname",
    var6 = 0.5,
    var7 = 90,
    var8 = (C.c_double * 4)(*thresholds),
    var9 = 2,
    H = Good('H', 0.5, 100, 20),
    L = Good('L', 0.5, 75, 20),

If ctypes needs to hold a reference to a Python object to keep it alive, the reference is stored in the _objects dict of the Structure. In this case the array in var8, for example, is simply copied into the buffer, so c_parameters doesn't need to hold a reference to the original.

share|improve this answer
Thanks eryksun. However, you are assigning hard-coded values (100, 4,...) to the variables. I am instead looking for a way where I can do var1=100, var2=20 where var1 and var2 are like regular Python variables, and then create c_parameters by including arguments such as var1 = var1, var2 = var2, where var1 and var2 are already defined. Although, I will try without converting the variables to ctypes myself, since (I think) you are saying it is unnecessary for me to do it manually. – Curious2learn Sep 9 '13 at 11:01
Values in CPython are reference-counted objects. Assigning var1 = 100 just bumps the ob_refcnt on the 100 object. If the count goes to zero the object gets deallocated. A name/attribute is just a tag. – eryksun Sep 9 '13 at 11:30

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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