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Is there a way to specify default arguments to a function in C?

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@pmg - And while we're at it, we can fix all the misfeatures of C that we don't like. And then we can add a few features here and there, and then why don't we add function overloading, and then we've made a hacky language that no one will use and that will confuse nearly everyone who has to maintain your application. If you want to make a language, by all means, make a language, but don't make a new language just for a certain task. That's just awful. – Chris Lutz Sep 24 '09 at 20:39
@Chris - you're not talking about Bjarne S, are you? :) – Michael Burr Sep 25 '09 at 2:57
just want a slightly better C, not C++. think C+ . with a variety of small improvements lifted from C++, but not the big mess. And, please, no different link-loader. should be just another preprocessor-like step. standardized. everywhere... – ivo Welch Feb 15 '15 at 4:40
@ivoWelch I am a fan of "C+": just follow C conventions, use the C++ compiler, and occasionally borrow a C++ feature when the C way is really a pain in the balls – Full Decent Mar 21 '15 at 22:39
Related question that I didn't see listed in the side bar. – Shelby Moore III Nov 18 '15 at 14:34

17 Answers 17

up vote 78 down vote accepted

Not really. The only way would be to write a varargs function and manually fill in default values for arguments which the caller doesn't pass.

share|improve this answer
I hate the lack of checking when using varargs. – dmckee Sep 24 '09 at 15:03
As well you should; I actually don't recommend this; I just wanted to convey that it is possible. – Eli Courtwright Sep 24 '09 at 15:17
However, how do you wanna check whether the caller passes the argument or not? I think for this to work, don't you have the caller to tell you that he didn't pass it? I think this makes the whole approach somewhat less usable - the caller could aswell call a function with another name. – Johannes Schaub - litb Sep 24 '09 at 18:21
The open(2) system call uses this for an optional argument that may be present depending on the required arguments, and printf(3) reads a format string that specifies how many arguments there will be. Both use varargs quite safely and effectively, and though you can certainly screw them up, printf() especially seems to be quite popular. – Chris Lutz Sep 24 '09 at 19:55
@Eli: Not all C compilers are gcc. There's some advanced compiler magic going on for it to warn when your printf() args don't match your format string. And I don't think it's possible to get similar warnings for your own variadic functions (unless they use the same style of format string). – tomlogic Jun 14 '10 at 19:18

Wow, everybody is such a pessimist around here. The answer is yes.

It ain't trivial: by the end, we'll have the core function, a supporting struct, a wrapper function, and a macro around the wrapper function. In my work I have a set of macros to automate all this; once you understand the flow it'll be easy for you to do the same.

I've written this up elsewhere, so here's a detailed external link to supplement the summary here:

We'd like to turn

double f(int i, double x)

into a function that takes defaults (i=8, x=3.14). Define a companion struct:

typedef struct {
    int i;
    double x;
} f_args;

Rename your function f_base, and define a wrapper function that sets defaults and calls the base:

double var_f(f_args in){
    int i_out = in.i ? in.i : 8;
    double x_out = in.x ? in.x : 3.14;
    return f_base(i_out, x_out);

Now add a macro, using C's variadic macros. This way users don't have to know they're actually populating a f_args struct and think they're doing the usual:

#define f(...) var_f((f_args){__VA_ARGS__});

OK, now all of the following would work:

f(3, 8);      //i=3, x=8
f(.i=1, 2.3); //i=1, x=2.3
f(2);         //i=2, x=3.14
f(.x=9.2);    //i=8, x=9.2

Check the rules on how compound initializers set defaults for the exact rules.

One thing that won't work: f(0), because we can't distinguish between a missing value and zero. In my experience, this is something to watch out for, but can be taken care of as the need arises---half the time your default really is zero.

I went through the trouble of writing this up because I think named arguments and defaults really do make coding in C easier and even more fun. And C is awesome for being so simple and still having enough there to make all this possible.

share|improve this answer
+1 creative! It has its limitations but also brings named parameters to the table. Note that, {} (empty initializer) is an error C99. – u0b34a0f6ae Oct 29 '11 at 3:45
However, here is something great for you: The standard allows specifying named members multiple times, the later override. So for named-parameters only you can solve the defaults problem and allow for an empty call. #define vrange(...) CALL(range,(param){.from=1, .to=100, .step=1, __VA_ARGS__}) – u0b34a0f6ae Oct 29 '11 at 4:58
I hope the compiler errors are readable, but this is a great technique! Almost looks like python kwargs. – totowtwo Jun 21 '12 at 16:59
Answer with 2 different function names is a better, simpler way of accomplishing the same goal! – RunHolt Oct 11 '13 at 20:01
@RunHolt While certainly simpler, it is not objectively better; named parameters come with benefits such as ease of readability of calls (at the expense of readability of source code). One is better for developers of the source, the other is better for users of the function. It's a little hasty to just throw out "this one is better!" – Alice Apr 25 '14 at 19:26

Yes. :-) But not in a way you would expect.

int f1(int arg1, double arg2, char* name, char *opt);

int f2(int arg1, double arg2, char* name)
  return f1(arg1, arg2, name, "Some option");

Unfortunately, C doesn't allow you to overload methods so you'd end up with two different functions. Still, by calling f2, you'd actually be calling f1 with a default value. This is a "Don't Repeat Yourself" solution, which helps you to avoid copying/pasting existing code.

share|improve this answer
FWIW, I'd prefer use the number at the end of the function to indicate the number of args it takes. Makes it easier than just use any arbitrary number. :) – Macke Oct 31 '11 at 12:51
This is by far the best answer because it demonstrates a simple way to accomplish the same goal. I have a function that is part of a fixed API that I don't want to change, but I need it to take a new param. Of course, it is so blindingly obvious that I missed it (got stuck on thinking of the default param!) – RunHolt Oct 11 '13 at 20:01

We can create functions which use named parameters (only) for default values. This is a continuation of bk.'s answer.

#include <stdio.h>                                                               

struct range { int from; int to; int step; };
#define range(...) range((struct range){.from=1,.to=10,.step=1, __VA_ARGS__})   

/* use parentheses to avoid macro subst */             
void (range)(struct range r) {                                                     
    for (int i = r.from; i <=; i += r.step)                                 
        printf("%d ", i);                                                        

int main() {                                                                     
    range(.from=2, .to=4);                                                      

The C99 standard defines that later names in the initialization override previous items. We can also have some standard positional parameters as well, just change the macro and function signature accordingly. The default value parameters can only be used in named parameter style.

Program output:

1 2 3 4 5 6 7 8 9 10 
2 3 4 
1 3 5 7 9
share|improve this answer
This seems like an easier and more straight forward implementation than the Wim ten Brink or BK solution. Are there any downsides to this implementation that the others do not also posses? – stephenmm Jul 15 '14 at 21:57


Not even the very latest C99 standard supports this.

share|improve this answer
a simple no would have been even better ;) – KevinDTimm Sep 24 '09 at 15:00
@kevindtimm: That's not possible, SO mandates a minimum-length on answers. I tried. :) – unwind Sep 24 '09 at 15:01
Please refer to my answer. :) – chaos Sep 24 '09 at 15:02

No, that's a C++ language feature.

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Short answer: No.

Slightly longer answer: There is an old, old workaround where you pass a string that you parse for optional arguments:

int f(int arg1, double arg2, char* name, char *opt);

where opt may include "name=value" pair or something, and which you would call like

n = f(2,3.0,"foo","plot=yes save=no");

Obviously this is only occasionally useful. Generally when you want a single interface to a family of functionality.

You still find this approach in particle physics codes that are written by professional programs in c++ (like for instance ROOT). It's main advantage is that it may be extended almost indefinitely while maintaining back compatibility.

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Combine this with varargs and you've got all kinds of fun! – David Thornley Sep 24 '09 at 15:13
I would use a custom struct and have the caller make one, fill in the fields for different options, and then pass it by address, or pass NULL for default options. – Chris Lutz Sep 24 '09 at 19:42
Someone's been reading too much FORTRAN code! – Frank Krueger Sep 24 '09 at 19:52


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Same workaround as for comments? – dmckee Sep 24 '09 at 15:02
what is the workaround? I can see that it is 20202020 in hex, but how do I type it? – Lazer May 6 '10 at 11:37
Trailing spaces. It doesn't work any more. – chaos May 7 '10 at 16:24

Probably the best way to do this (which may or may not be possible in your case depending on your situation) is to move to C++ and use it as 'a better C'. You can use C++ without using classes, templates, operator overloading or other advanced features.

This will give you a variant of C with function overloading and default parameters (and whatever other features you chose to use). You just have to be a little disciplined if you're really serious about using only a restricted subset of C++.

A lot of people will say it's a terrible idea to use C++ in this way, and they might have a point. But's it's just an opinion; I think it's valid to use features of C++ that you're comfortable with without having to buy into the whole thing. I think a significant part of the reason for the sucess of C++ is that it got used by an awful lot of programmers in it's early days in exactly this way.

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Yet another option uses structs:

struct func_opts {
  int    arg1;
  char * arg2;
  int    arg3;

void func(int arg, struct func_opts *opts)
    int arg1 = 0, arg3 = 0;
    char *arg2 = "Default";
            arg1 = opts->arg1;
            arg2 = opts->arg2;
            arg3 = opts->arg3;
    // do stuff

// call with defaults
func(3, NULL);

// also call with defaults
struct func_opts opts = {0};
func(3, &opts);

// set some arguments
opts.arg3 = 3;
opts.arg2 = "Yes";
func(3, &opts);
share|improve this answer
Any reason for the downvote? This is the second anonymous downvote in two days. – Chris Lutz Aug 22 '11 at 17:09

OpenCV uses something like:

/* in the header file */

#ifdef __cplusplus
    /* in case the compiler is a C++ compiler */
    #define DEFAULT_VALUE(value) = value
    /* otherwise, C compiler, do nothing */
    #define DEFAULT_VALUE(value)

void window_set_size(unsigned int width  DEFAULT_VALUE(640),
                     unsigned int height DEFAULT_VALUE(400));

If the user doesn't know what he should write, this trick can be helpful:

usage example

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That's actually pretty nice IDE integration for C! Btw, it's "default", not "defualt". – Thomas Feb 8 '14 at 9:20

Yes, with features of C99 you may do this. This works without defining new data structures or so and without the function having to decide at runtime how it was called, and without any computational overhead.

For a detailed explanation see my post at


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Seel also my answer which is derived from yours. – Shelby Moore III Nov 18 '15 at 18:55

No, but you might consider using a set of functions (or macros) to approximate using default args:

// No default args
int foo3(int a, int b, int c)
    return ...;

// Default 3rd arg
int foo2(int a, int b)
    return foo3(a, b, 0);  // default c

// Default 2nd and 3rd args
int foo1(int a)
    return foo3(a, 1, 0);  // default b and c
share|improve this answer
What I said.... – Wim ten Brink Sep 24 '09 at 17:40

Generally no, but in gcc You may make the last parameter of funcA() optional with a macro.

In funcB() i use a special value (-1) to signal that i need the default value for the 'b' parameter.

#include <stdio.h> 

int funcA( int a, int b, ... ){ return a+b; }
#define funcA( a, ... ) funcA( a, ##__VA_ARGS__, 8 ) 

int funcB( int a, int b ){
  if( b == -1 ) b = 8;
  return a+b;

int main(void){
  printf("funcA(1,2): %i\n", funcA(1,2) );
  printf("funcA(1):   %i\n", funcA(1)   );

  printf("funcB(1, 2): %i\n", funcB(1, 2) );
  printf("funcB(1,-1): %i\n", funcB(1,-1) );
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Yes you can do somthing simulair, here you have to know the different argument lists you can get but you have the same function to handle then all.

typedef enum { my_input_set1 = 0, my_input_set2, my_input_set3} INPUT_SET;

typedef struct{
    INPUT_SET type;
    char* text;
} input_set1;

typedef struct{
    INPUT_SET type;
    char* text;
    int var;
} input_set2;

typedef struct{
    INPUT_SET type;
    int text;
} input_set3;

typedef union
    INPUT_SET type;
    input_set1 set1;
    input_set2 set2;
    input_set3 set3;

void my_func(MY_INPUT input)
        case my_input_set1:
        case my_input_set2:
        case my_input_set3:
        // unknown input
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I improved Jens Gustedt’s answer so that:

  1. inline functions aren’t employed
  2. defaults are computed during preprocessing
  3. modular reuseable macros
  4. possible to set compiler error that meaningfully matches the case of insufficient arguments for the allowed defaults
  5. the defaults aren’t required to form the tail of the parameter list if the argument types will remain unambiguous
  6. interopts with C11 _Generic
  7. vary the function name by the number of arguments!


#ifndef VARIADIC

#define _NARG2(_0, _1, _2, ...) _2
#define NUMARG2(...) _NARG2(__VA_ARGS__, 2, 1, 0)
#define _NARG3(_0, _1, _2, _3, ...) _3
#define NUMARG3(...) _NARG3(__VA_ARGS__, 3, 2, 1, 0)
#define _NARG4(_0, _1, _2, _3, _4, ...) _4
#define NUMARG4(...) _NARG4(__VA_ARGS__, 4, 3, 2, 1, 0)
#define _NARG5(_0, _1, _2, _3, _4, _5, ...) _5
#define NUMARG5(...) _NARG5(__VA_ARGS__, 5, 4, 3, 2, 1, 0)
#define _NARG6(_0, _1, _2, _3, _4, _5, _6, ...) _6
#define NUMARG6(...) _NARG6(__VA_ARGS__, 6, 5, 4, 3, 2, 1, 0)
#define _NARG7(_0, _1, _2, _3, _4, _5, _6, _7, ...) _7
#define NUMARG7(...) _NARG7(__VA_ARGS__, 7, 6, 5, 4, 3, 2, 1, 0)
#define _NARG8(_0, _1, _2, _3, _4, _5, _6, _7, _8, ...) _8
#define NUMARG8(...) _NARG8(__VA_ARGS__, 8, 7, 6, 5, 4, 3, 2, 1, 0)
#define _NARG9(_0, _1, _2, _3, _4, _5, _6, _7, _8, _9, ...) _9
#define NUMARG9(...) _NARG9(__VA_ARGS__, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0)
#define __VARIADIC(name, num_args, ...) name ## _ ## num_args (__VA_ARGS__)
#define _VARIADIC(name, num_args, ...) name (__VARIADIC(name, num_args, __VA_ARGS__))
#define VARIADIC(name, num_args, ...) _VARIADIC(name, num_args, __VA_ARGS__)
#define VARIADIC2(name, num_args, ...) __VARIADIC(name, num_args, __VA_ARGS__)

// Vary function name by number of arguments supplied
#define VARIADIC_NAME(name, num_args) name ## _ ## num_args ## _name ()
#define NVARIADIC(name, num_args, ...) _VARIADIC(VARIADIC_NAME(name, num_args), num_args, __VA_ARGS__)


Simplified usage scenario:

const uint32*
uint32_frombytes(uint32* out, const uint8* in, size_t bytes);

The output buffer defaults to NULL if not provided.

#include "variadic.h"

#define uint32_frombytes_2(   b, c) NULL, b, c
#define uint32_frombytes_3(a, b, c)    a, b, c
#define uint32_frombytes(...) VARIADIC(uint32_frombytes, NUMARG3(__VA_ARGS__), __VA_ARGS__)

And with _Generic:

const uint8*
uint16_tobytes(const uint16* in, uint8* out, size_t bytes);

const uint16*
uint16_frombytes(uint16* out, const uint8* in, size_t bytes);

const uint8*
uint32_tobytes(const uint32* in, uint8* out, size_t bytes);

const uint32*
uint32_frombytes(uint32* out, const uint8* in, size_t bytes);

The output buffer defaults to NULL if not provided.
Generic function name supported on the non-uint8 type, except where said type
is unavailable because the argument for output buffer was not provided.

#include "variadic.h"

#define   uint16_tobytes_2(a,    c) a, NULL, c
#define   uint16_tobytes_3(a, b, c) a,    b, c
#define   uint16_tobytes(...) VARIADIC(  uint16_tobytes, NUMARG3(__VA_ARGS__), __VA_ARGS__)

#define uint16_frombytes_2(   b, c) NULL, b, c
#define uint16_frombytes_3(a, b, c)    a, b, c
#define uint16_frombytes(...) VARIADIC(uint16_frombytes, NUMARG3(__VA_ARGS__), __VA_ARGS__)

#define   uint32_tobytes_2(a,    c) a, NULL, c
#define   uint32_tobytes_3(a, b, c) a,    b, c
#define   uint32_tobytes(...) VARIADIC(  uint32_tobytes, NUMARG3(__VA_ARGS__), __VA_ARGS__)

#define uint32_frombytes_2(   b, c) NULL, b, c
#define uint32_frombytes_3(a, b, c)    a, b, c
#define uint32_frombytes(...) VARIADIC(uint32_frombytes, NUMARG3(__VA_ARGS__), __VA_ARGS__)

#define   tobytes(a, ...) _Generic((a),                                                                                                 \
                                   const uint16*: uint16_tobytes,                                                                       \
                                   const uint32*: uint32_tobytes)  (VARIADIC2(  uint32_tobytes, NUMARG3(a, __VA_ARGS__), a, __VA_ARGS__))

#define frombytes(a, ...) _Generic((a),                                                                                                 \
                                         uint16*: uint16_frombytes,                                                                     \
                                         uint32*: uint32_frombytes)(VARIADIC2(uint32_frombytes, NUMARG3(a, __VA_ARGS__), a, __VA_ARGS__))

And with variadic function name selection, which can't be combined with _Generic:

// winternitz() with 5 arguments is replaced with merkle_lamport() on those 5 arguments.

#define   merkle_lamport_5(a, b, c, d, e) a, b, c, d, e
#define   winternitz_7(a, b, c, d, e, f, g) a, b, c, d, e, f, g
#define   winternitz_5_name() merkle_lamport
#define   winternitz_7_name() winternitz
#define   winternitz(...) NVARIADIC(winternitz, NUMARG7(__VA_ARGS__), __VA_ARGS__)
share|improve this answer

Why can't we do this.

Give the optional argument a default value. In that way, the caller of the function don't necessarily need to pass the value of the argument. The argument takes the default value. And easily that argument becomes optional for the client.

For e.g.

void foo(int a, int b = 0);

Here b is an optional argument.

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Stunning insight, the problem is that C doesn't support optional arguments or overloaded functions, so the direct solution does not compile. – Thomas Mar 28 '14 at 8:47

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