This question arises from my need to "convert" std::string to char* form.

Preferably I would like to maintain as much code as possible and that includes plenty of "=" initialization/assignment operators.

standard c operators exist for the basic data types (int, char, float, pointers to, etc...).

Is it even possible to overload the assignment operator in c? I suppose that each data type as it's own operator so messing with one wouldn't mess with others.

Anyhow, this is just something that intrigued me as I can't find much references on how C operators are implemented.


well, some examples are in order

std::string a_string;
a_string = "bla"

or using standard C

char a_char_array[10];


char *a_char_pointer = "bla";

what I'm thinking about is a wa to replace these 3 use cases with a single one where I can (through a #define) switch between using char* or std::string.

I guess that everyone that really cares about performance vs coding speed has already thought about the implications of using std::string instead of char*. All of the advantages of using stl are usually often offseted (is this even a word!?) by lower performance (you can't always get what you want right??).

As I said, I have a large project and I want to see for myself what are the changes in using one method or the other.

My post title was purposely misleading as I didn't want this to become a char* vs string battle, but I guess I can't really explain what I want without some more details.


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    @Andre:Your problem is how to "assign" the value of a string to a C-string? – Cratylus Dec 20 '10 at 12:49
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    @Andre: maybe you should post a short bit of example code showing what you'd like to be able to do. – Michael Burr Dec 20 '10 at 14:25
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    "I guess that everyone that really cares about performance vs coding speed has already thought about the implications of using std::string instead of char*. All of the advantages of using stl are usually often offset [...] by lower performance" BS. Everyone who cares about performance and knows what they are doing will measure to find out where performance is lost -- and it's unlikely that STL vs. hand-written algorithms will gain much besides code obfuscation. -1 from me for attempting to prematurely optimize something that isn't broken. – sbi Dec 20 '10 at 14:53
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    @Andre: So measure where it spends its time. Until you measured, it is premature. – sbi Dec 20 '10 at 14:57
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    @Andre: So be it. <shrug> But if you come here telling us you want to obfuscate a piece of code in the name of performance without even measuring whether this peice of code even matters, you will have to live with people pointing out to you that what you're doing is stupid. – sbi Dec 20 '10 at 15:11

No, in C overloading of = is not possible, for a simple reason: it is well defined for (almost) all types.

You'd really have to distinguish between assignment and initialization. Whereas initialization of arrays is possible, assignment is not. If your strings are compile time determined, all is easy:

char copy[] = { "abcd" }; // initialization, ok
copy = "1234";            // assignment, error

A trick to overcome this problem is to encapsulate a string in a struct

typedef struct mystring mystring;
struct mystring { char a[24]; };

mystring a = { "abcd" };
mystring b = a;
mystring c = { 0 };
c = b;

This will do the right thing if you always care to initialize your variables as indicated above.


If you see std::string in your code, and the compiler doesn't complain, then you have a C++, not C.

  • Well, I'm not a purist. I always compile with gcc and I don't care if I'm mixing C with C++. For what I am concerned they are the same language (and I don't want to go into any discussion about this, ok everyone? ;) ). This isn't an hello world project and I would go into details of how std::string is implemented, but what I want is a quick and dirty (probably with some sort of macros) way to use std::string or char*. I am aware of all of the implications and difficulties. That's why I'm asking here ;) – André Moreira Dec 20 '10 at 14:16
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    @Andre: "For what I am concerned they are the same language" - No, C++ and C are not the same language. Yes, they have similarities, but they are effectively different languages and things are done differently between the two. You cannot shoehorn proper C++ into C or proper C into C++ and expect it to work in a frictionless manner. – In silico Dec 20 '10 at 23:32
  • Hey silico, That is true, but there is much to gain from mixing both. I usually work with low end systems where every bit of performance and binary size gained is a plus. I use C++ because it makes my coding simpler and more productive, but in the end I know that when I use stl I am using way more then I need. This balance between C and C++ is very important for me and I mix both whenever I need to. We must follow rules, but for me working with C and C++ is the same ;). I just need to know (and be sure about) what I am doing, and if I don't know... well I'd better learn ;) – André Moreira Dec 21 '10 at 0:41
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    @Andre: How tired I am from hearing this :-(. Performance-explanations are the last resort of bad software developer. If you've just started using C/C++ (less then 1 year), there is a hope indeed that you'll learn. – Valentin Heinitz Dec 21 '10 at 8:24
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    @Andre: you can define the C language any way you like, but in order to communicate with other developers, it helps if you use the same definitions as everyone else. And to the rest of us, C and C++ are different languages. std::string (or indeed, anything using the std namespace or any other namespace) are only available in C++. Operator overloading is only available in C++. Explicitly asking a question about C, and then mixing in C++ features and C++ sample code just doesn't make sense. – jalf Dec 28 '10 at 1:44

C does not allow any kind of overloading, operators are built-in (direct translation to assembly code).

There may be some possible tricks using macros depending of your actual code base, but I would discourage it anyway. It is likely to introduce bugs. Just go with plain functions.

  • I was thinking about Macros, but my "problem" is replacing everywhere where I have std::string::= – André Moreira Dec 20 '10 at 14:17
  • assignment to str::string implies hidden memory allocation, hence any solution will need to perform memory allocation, to copy data, then when it is not needed any more to free memory (as you can't rely any more on automatic C++ objects going out of scope). It looks like a dangerous change. Are you really, really, really needing to do that... – kriss Dec 20 '10 at 14:55
  • no, not really. I just want to know what will be the performance difference between the two. I am aware of the internal mechanism, and I know that I will have to (one way or another) allocate memory for all the char* I have. of all of the stl, std::string seems to be the one where we have less to gain. On one side we have easy code that manages memory for itself. On the other hand we have a fairly complicated class for something that is very simple and in most cases doesn't need to be changed very often (in which case std::string is probably better). I'm just looking for some extra insight. – André Moreira Dec 20 '10 at 15:24

No, you cannot overload operators in C, you need to explicitly call a function to do the conversion. The compiler will only do some conversions for you (ints <-> floats, some pointer stuff, etc), but never more intricate stuff.


FYI: LccWin32 has some extensions that allow for operator overloading

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