Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a char * that is actually 10 digit string. I basically take that in my function and spit out a code. Now i have made a static lib that i will share with someone else...the question is ( i am using c++)

for the definition of that api that i will provide in my header do i just put const char * const or not. I am not sure if i need to do it or not. I just figured if they were going to use that API I did not want them to by mistake in their code send some bad pointer or value to my code. so to protect myself i am making it like i stated above is that the right approach? is that how one would use const?

share|improve this question

5 Answers 5

up vote 6 down vote accepted

Making something const does not mean that you won't get a bad pointer. There's nothing you can do to guard yourself against that. You can check for NULL, but not a freed pointer or a corrupted one.

What const says is that your function promises not to change the data that is pointed to. That's useful for the caller to know. Also, in cases where the caller only has access to const pointers, you are saving them a cast or copy to call your function.

The normal usage is

 void makeCode(const char* s);

Which means that the values pointed to by s won't be changed.

share|improve this answer
so should i just provide const char * const s? or just keep it like you stated? seems like you are telling me its best to do both yet the norm is to just cater to the value being const and not the pointer since not much can be done with protecting against a bad/corrupt pointer –  Dave Powell Nov 4 '10 at 17:15
I look to the standard for guidance on how to declare API functions. strlen is declared strlen(const char*) -- that's good enough for me. The second const is kind of meaningless as a parameter since the pointer is a copy of the one passed in. And -- yes -- no point in guarding for bad pointers -- just check for NULL and do the appropriate thing for that. –  Lou Franco Nov 4 '10 at 17:18
@user245823: the extra trailing const in the declaration has no effect. The compiler will gladly discard the word for you if you type it, so just avoid the typing altogether. –  David Rodríguez - dribeas Nov 4 '10 at 18:49

Adding to Lou Franco's answer, if you were to declare the function as:

void makeCode(const char* const s);

the second const indicates that you will not "reposition" s within your function. This means you can't do s++; or s = anotherPtr;. IMO, that is not as important a guarantee as the one provided by the first const to the users of your library.

share|improve this answer
Also, it's not a meaningful guarantee because your s is a copy of their pointer. When you reposition, it doesn't change their copy. It could possibly help someone reading the function to know that s won't change, but you have to weigh that against the complexity of the API declaration. You can always use a const char* const local copy of s if you wanted to make that clear. –  Lou Franco Nov 4 '10 at 17:33
@Lou Franco: The meaning of that const inside the definition is an implementation detail. The user does not need to know, nor cares about what you might or not do within your function, she already knows that you will not mess up with her own pointer, as that is copied. The few people I know that use const as a self protecting mechanism inside the function would declare void makeCode( const char* ) in the header file and define void makeCode( char const * const ) in the implementation file. Both signatures are exactly equivalent at the place of call. –  David Rodríguez - dribeas Nov 4 '10 at 18:55
@David -- That's what I was getting at with not a meaningful guarantee -- it guarantees something that the caller doesn't care about. Thanks for making it clearer. –  Lou Franco Nov 4 '10 at 19:20

In a function declaration that takes an argument by value, any const-qualification on the argument will be discarded by the compiler, and as such I would not provide them as they are uncommon and as such will be surprising, but will have no effect (and force you to type 6 more characters).

void foo( const char * );
void foo( const char * const );

The previous two lines are two declarations of a single function foo that takes a pointer to a char by value. This is quite different from const qualifying the pointed-to type, or a reference (where the qualification, again, is to the referred element), as in the first const in those two declarations.

There is a difference when defining the function, in that in the later case the compiler will enforce that the argument (copy of what the caller passed in) will be guaranteed not to be modified internally. The common pattern is not writing the const there either, but some people will add that qualification:

// foo.h
void foo( const char* );            // declaration [1]
// foo.cpp
void foo( const char * const x ) {  // definition of [1]

Note that while the signatures might look different, for the compiler they are exactly the same, the second const is a requirement on the code inside the definition, not part of the function interface. The appropriate quote from the standard is in §8.3.5 [dcl.fct]/3:

[...] The type of a function is determined using the following rules. The type of each parameter is determined from its own decl-specifier-seq and declarator. After determining the type of each parameter, any parameter of type “array of T” or “function returning T” is adjusted to be “pointer to T” or “pointer to function returning T,” respectively. After producing the list of parameter types, several transformations take place upon these types to determine the function type. Any cv-qualifier modifying a parameter type is deleted. [Example: the type void(*)(const int) becomes void(*)(int) —end example] Such cv-qualifiers affect only the definition of the parameter within the body of the function; they do not affect the function type.

share|improve this answer

The point of the const char* tag is to indicate to the user of your library that your function will not modify the char* value being sent to your function. This however, doesn't guarantee a function won't modify the pointer because of const casting and other kinds of hackery.

share|improve this answer

If you don't change the string, then you should use const char*. The user can still send you a non const char and it will be fine, but he will know that you don't change the string. More over, it is more recommened so the user will be able to use your function on a const strings, or const instances of classes will be able to use your function and so on.

share|improve this answer

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.