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For reasons beyond my control, I need to return const char* from a function, but I don't know what the chars need to be at compile time. My solution is something like the following:

const char* __str__() {
  static std::string String;
  String = [some fancy stuff];
  return String.c_str();

The static prevents the string's destruction on exiting the function, but it also means that the memory sticks around until my program exits (right?). Because the returned string can occasionally be huge (GBs), this can be a real problem.

I usually avoid pointers at all costs and only ever use static for class members, so I'm not 100% sure what I'm doing. Is this guaranteed to work? Is there a better way?

[The context of this question is printing a complicated object in python, using the __str__ method. I define the method in my c++ code, which is then wrapped by SWIG. The SWIG example shows the use of static, but it's not clear to me that that's the only way. I am open to suggestions.]

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There must be a way to do this without a static std::string. Could you link to the SWIG example? –  larsmans Mar 21 '12 at 22:58
The SWIG example is here. It uses static char[], of course, but std::string is just the result of my fancy stuff. –  Mike Mar 21 '12 at 23:01
AFAIK, SWIG handles the std::string return type automatically and turns into a string in the target language. If it's not doing this, you can always go edit your interface file to insert the conversion code, but this will involve messing with whatever C API Python provides. –  Praetorian Mar 21 '12 at 23:03
@Prætorian: That's the correct answer. I can just return a std::string, rather than char *. I was misled by the SWIG documentation's example. Good call. Now somebody should really turn that into an answer... –  Mike Mar 21 '12 at 23:52
@Omnifarious, %rename(targetname) orgname; –  Mark Tolonen Mar 22 '12 at 5:39

3 Answers 3

up vote 5 down vote accepted

As @Prætorian said, SWIG can return std::string to Python. Here's an example from the SWIG example I think you are looking at. Also shown is a way to avoid using a reserved name in C++:


%module x

#include "x.h"

%include <windows.i>
%include <std_string.i>
%rename(__str__) display;
%include "x.h"


#include <sstream>
#include <string>

class Vector
    double x,y,z;
    Vector(double a,double b,double c):x(a),y(b),z(c) {}
    ~Vector() {}
#ifdef SWIG
    %extend {
        std::string display()
            std::ostringstream temp;
            temp << '[' << $self->x << ',' << $self->y << ',' << $self->z << ']';
            return temp.str();


Python 2.7.2 (default, Jun 12 2011, 15:08:59) [MSC v.1500 32 bit (Intel)] on win32
Type "help", "copyright", "credits" or "license" for more information.
>>> import x
>>> v = x.Vector(1.0,2.5,3.0)
>>> print v
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static presents additional troubles besides the allocation scope:

  • The function is not reentrant
  • There is no way to clean up when the caller is done with the return value

Any reason not to return the value and let the caller free it?:

const char* __str__() {
    char *s = malloc(2 * 1024 * 1024 * 1024);  // 2 GB
    [some fancy stuff with s];
    return s;


const char *magic = __str__();
[do something with magic]
free (magic);  magic = NULL;   // all done
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Well, I could, but I'd have to do it in python, which would break my ability to do things like print(MyCrazyObject). I know there exist better ways to do this, but I want one that just uses friendly, familiar python. –  Mike Mar 21 '12 at 23:39

This is guaranteed to work, with significant caveats.

All of the caveats boil down to two basic issues that combine in a way that's not very pleasant:

  1. There is only one instance of String in your entire program.
  2. String is not a constant.

This will cause you all kinds of interesting issues. For example, if you call __str__ again somewhere else in your program, anybody who's saved a copy of the const char * you handed back to them may end up holding an invalid pointer. And even if they aren't, they will end up hold a pointer to memory that has changed. In short, the result will be undefined behavior.

Another example, if you call __str__ from more than one thread, it will blow up at some point as both threads try to simultaneously modify String.

Fortunately, you don't have a static initialization order problem. String is guaranteed to be initialized the first time you call __str__.

You can solve the problem of String staying around forever by calling String.clear() in __str__ if you're sure that nobody has any const char *s around pointing into the state of your String. String.clear() will free up any storage it might be using.

Personally, I'd only use this as a technique of last resort. The possibility of random parts of the program having squirreled away a pointer would worry me endlessly. There is no clear indicator of the lifetime of this pointer, aside from the fact that it cannot be guaranteed to work if __str__ is ever called again. But then again, it might, depending upon exactly what __str__ does.

Also, __str__ is a bad name to be using. Names containing two consecutive underscores are reserved for the C++ implementation.

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Good point about the threads. But if I clear String in the function, on return, the const char * will be invalid. Also, regarding the name __str__, it's not my name; it's python's. –  Mike Mar 21 '12 at 23:44
Names containing two consecutive underscores anywhere are reserved, not just at the beginning. –  bames53 Mar 21 '12 at 23:49
@bames53: Interesting. I didn't know that. Would you happen to know where in the standard I should look for that? –  Omnifarious Mar 22 '12 at 0:33
[global.names] "Each name that contains a double underscore __ or begins with an underscore followed by an uppercase letter (2.12) is reserved to the implementation for any use." –  bames53 Mar 22 '12 at 2:02
No, that contains a double underscore. The uppercase letter is only for names that begin with an underscore. –  bames53 Mar 22 '12 at 3:30

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