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I'm a Python veteran, but haven't dabbled much in C. After half a day of not finding anything on the internet that works for me, I thought I would ask here and get the help I need.

What I want to do is write a simple C function that accepts a string and returns a different string. I plan to bind this function in several languages (Java, Obj-C, Python, etc.) so I think it has to be pure C?

Here's what I have so far. Notice I get a segfault when trying to retrieve the value in Python.


#include <stdlib.h>
#include <stdio.h>
#include <string.h>

const char* hello(char* name) {
    static char greeting[100] = "Hello, ";
    strcat(greeting, name);
    strcat(greeting, "!\n");
    printf("%s\n", greeting);
    return greeting;


import ctypes
hello = ctypes.cdll.LoadLibrary('./hello.so')
name = "Frank"
c_name = ctypes.c_char_p(name)
foo = hello.hello(c_name)
print c_name.value # this comes back fine
print ctypes.c_char_p(foo).value # segfault

I've read that the segfault is caused by C releasing the memory that was initially allocated for the returned string. Maybe I'm just barking up the wrong tree?

What's the proper way to accomplish what I want?

share|improve this question
You need to set foo.restype appropriately. Do you really want to use static? Not threadsafe. Wouldn't you be better allocating memory in Python and letting the C code populate it with content? Or allocate in the C code, and export a deallocator too. –  David Heffernan Feb 14 '13 at 20:55
You should probably return a copy of the string; use strdup or malloc for that. But really, if you want to do this kind of things in C, then invest in a C book. C is quite different from higher-level languages such as Python. –  larsmans Feb 14 '13 at 20:55
Aside from the problem you describe, your buffer is static, so there's only one for all calls, so the next call would change what the first return value points at. Keeping it local and not static means its lifetime ends when the function returns, which makes it unsuitable. That's not even touching on the buffer overflow vulnerability! –  delnan Feb 14 '13 at 20:55
Heh, obviously a C noob here. :) If I remove static gcc gives me a warning. What's the proper way to allocate the memory for return? I'm just looking for something safe and straightforward. –  Thane Brimhall Feb 14 '13 at 20:57
There is little safe or straightforward in C ;-) At least not if you work with a Python mindset. Read a good C book. Reading existing questions and answers here on Stackoverflow works in a pinch but I wouldn't bet on it. (Btw, gcc gives a warning for the very reason I hinted at: It's incorrect, you're returning the address of something that doesn't exist any more.) –  delnan Feb 14 '13 at 21:10

3 Answers 3

up vote 4 down vote accepted

n hello.c you return a local array. You have to return a pointer to an array, which has to be dynamically declared using malloc.

char* hello(char* name)
    char hello[] = "Hello ";
    char excla[] = "!\n";
    char *greeting = malloc ( sizeof(char) * ( strlen(name) + strlen(hello) + strlen(excla) + 1 ) );
    if( greeting == NULL) exit(1);
    strcpy( greeting , hello);
    strcat(greeting, name);
    strcat(greeting, excla);
    return greeting;
share|improve this answer
Very nice! Thank you. A followup question on this answer: Since we're allocating the memory here, where/when is it deallocated? If I call this function 10k times, will I have an awful leak? –  Thane Brimhall Feb 14 '13 at 21:01
Beat me to it. This should do the job (unless there is any other unforeseen problems). The reason it didn't work before was that the by creating the string like you did, it was allocated on the stack and was thus lost once the function exited. The solution instead uses malloc to allocate on the heap, and returns to Python the location where to find the string. –  Geesh_SO Feb 14 '13 at 21:02
@ThaneBrimhall Of course for every malloc you need to make a free –  user1944441 Feb 14 '13 at 21:03
I suppose I'd have to free it in the Python binding? Or where else would I do that? –  Thane Brimhall Feb 14 '13 at 21:05
I don't know python but according to the rules set by your question, you would have to make a c function and pass the char* pointer to it. –  user1944441 Feb 14 '13 at 21:05

Your problem is that greeting was allocated on the stack, but the stack is destroyed when the function returns. You could allocate the memory dynamically:

#include <stdlib.h>
#include <stdio.h>
#include <string.h>

const char* hello(char* name) {
    char* greeting = malloc(100);
    snprintf("Hello, %s!\n", 100, name)
    printf("%s\n", greeting);
    return greeting;

But that's only part of the battle because now you have a memory leak. You could plug that with another ctypes call to free().

...or a much better approach is to read up on the official C binding to python (python 2.x at http://docs.python.org/2/c-api/ and python 3.x at http://docs.python.org/3/c-api/). Have your C function create a python string object and hand that back. It will be garbage collected by python automatically. Since you are writing the C side, you don't have to play the ctypes game.


I didn't compile and test, but I think this .py would work:

import ctypes

# define the interface
hello = ctypes.cdll.LoadLibrary('./hello.so')
# find lib on linux or windows
libc = ctypes.CDLL(ctypes.util.find_library('c'))
# declare the functions we use
hello.hello.argtypes = (ctypes.c_char_p,)
hello.hello.restype = ctypes.c_char_p)
libc.free.argtypes = (ctypes.c_void_p,)

# wrap hello to make sure the free is done
def hello(name):
    _result = hello.hello(name)
    result = _result.value
    return result

# do the deed
print hello("Frank")
share|improve this answer
I can't do the "much better approach" you recommended (return a Python object) because I need to bind this function in multiple languages. –  Thane Brimhall Feb 14 '13 at 21:11
Okay, that can be a problem! Another option is SWIG, which can bind several languages (swig.org/compat.html#SupportedLanguages). I use ctypes from time to time, but it can be unwieldy when the interface is complex. –  tdelaney Feb 14 '13 at 22:38
I added the python code to the example - its not tested but looks right to me (lol). –  tdelaney Feb 14 '13 at 22:47

Here's what happens. And why it's breaking. When hello() is called, the C stack pointer is moved up, making room for any memory needed by your function. Along with some function call overhead, all of your function locals are managed there. So that static char greeting[100], means that 100 bytes of the increased stack are for that string. You than use some functions that manipulate that memory. At the you place a pointer on the stack to the greeting memory. And then you return from the call, at which point, the stack pointer is retracted back to it's original before call position. So those 100 bytes that were on the stack for the duration of your call, are essentially up for grabs again as the stack is further manipulated. Including the address field which pointed to that value and that you returned. At that point, who knows what happens to it, but it's likely set to zero or some other value. And when you try to access it as if it were still viable memory, you get a segfault.

To get around, you need to manage that memory differently somehow. You can have your function allocate the memory on the heap, but you'll need to make sure it gets free()'ed at a later date, by your binding. OR, you can write your function so that the binding language passes it a glump of memory to be used.

share|improve this answer
Excellent explanation of how it all works. How would I deallocate the memory once I use the result in my binding? –  Thane Brimhall Feb 14 '13 at 21:04
free(pointer). That's the opposite of malloc and friends. You'll have to provide a binding for that, or hope that you have one already, most languages that bind to C have some mechanism for doing that. –  Travis Griggs Feb 14 '13 at 21:15

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