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NOTE: I know there are many questions that talked about that but I'm still a beginner and I couldn't understand the examples.

I got a function prototype that goes like this:

int someFunction(const char * sm);

Here, as you know, const char* means that this function can accept const or non-const pointer-to-char. I tried something like that in the function body:

someMemberVar = sm;

someMemberVar is just a pointer-to-char. The compiler gives me an error telling me: cannot convert from const char* to char*.

Here, I didn't pass a constant, so either sm or someMemberVar aren't constants. So, what constant the compiler is talking about?

share|improve this question
How exactly is someMemberVar declared, and what is the exact error message you're getting (the one you provide doesn't make any sense, so I suspect there's a typo there). – Pavel Minaev Oct 30 '09 at 20:35
I fixed my error. It's declared like that: char * someMemberVar; – Loai Najati Oct 30 '09 at 20:37
@Alan he's mostly correct. char* can be safely cast to const char*, so you can pass a char* to that method just like you would a const char*. The compiler will just do the cast for you. – Herms Oct 30 '09 at 21:05
@Alan: No, it can accept const char * or char *. It will treat either as if they were const char *. You need an explicit cast to change a const datatype to a non-const one, but not the other way. After all, just because a variable can be written to doesn't mean I have to change its value. – David Thornley Oct 30 '09 at 21:08
While you need to understand what's happening here for other reasons, the real solution you likely want is to make someMemberVar a std::string. Especially when you're learning the basics of the language, variables which hold values (like int, string, etc.) are easier to use. After you've learned the language, they're still easier to use (because you /want/ to hold a value most of the time). – Roger Pate Oct 30 '09 at 21:32
up vote 7 down vote accepted

I'll try to put in simpler terms what others are saying:

The function someFunction takes a read-only string (for simplicity's sake, though char * could be used in umpteen other cases). Whether you pass in a readonly string to someFunction or not, the parameter is treated as read-only by the code executing in the context of this function. Within this function therefore, the compiler will try to prevent you from writing to this string as much as possible. A non-const pointer is such an attempt to disregard the read-only tag to the string and the compiler, rightly and loudly informs you of such disregard for its type system ;)

What's the difference between: int someFunction(const char * sm) const{...} and this: int someFunction(const char * sm){...}

The first is a function which takes a readonly parameter. The second const written after the closing parentheses is valid only for member functions. It not only takes a read-only parameter, but also gurantees to not alter the state of the object. This is typically referred to as design level const.

share|improve this answer
That's fine. What's the difference between: int someFunction(const char * sm) const{...} and this: int someFunction(const char * sm){...} – Loai Najati Oct 30 '09 at 20:45
int someFunction(const char * sm) const{...} does const here mean that I won't alter any data here at all, or it refers to the parameter? – Loai Najati Oct 30 '09 at 20:48
See my updated answer. – dirkgently Oct 30 '09 at 20:51
A simple way to describe "trailing const" is that it applies to this. In a non-const method of class T, the type of this is T* const. In a const method of the same class, the type of this is T const* const. – Pavel Minaev Oct 30 '09 at 21:02

It is not entirely clear from your question, and I suspect the text of the error that you give is actually wrong, and actually reads:

cannot convert from const char* to char*

Since you say that

someMemberVar is just a pointer-to-char.

This makes sense. Keep in mind that const char* is actually the same as char const* - that is, it is a pointer to a const char, not a const pointer to char! And you cannot convert a pointer to T const to a pointer to T, because that breaks type safety. Consider:

const char* a = "abc";
char* b = a; // what you're trying to do
b[0] = 'x';  // if you could do it, you could change const data without casts
share|improve this answer
Thanks it really helped. – Loai Najati Oct 30 '09 at 21:01

If you pass a non-const pointer to someFunction, it is automatically converted to a const pointer. So you can't assign sm to someMemberVar because that would violate the constness of sm. You could declare someMemberVar as a const char* and your code would work, however, you could not modify what it pointed to.

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const char * sm mean that I can pass a const or non-const, so why C++ converts it automatically? That doesn't make sense to me. – Loai Najati Oct 30 '09 at 20:39
"const char* sm" means "pointer to const char". Nothing else. That is what sm will be in someFunction. You are able to pass a "char*" to someFunction because converting from non-const to const is allowed. Removing constness is not allowed, which is what you are then trying to do when you assign sm to someMemberVar. – jamessan Oct 30 '09 at 20:47
Inside the function the pointer gets converted because you want it to be const inside that function - you declared it that way. It's part of the contract that the function makes with it's callers. If the function does not want to guarantee that the memory pointed by sm does not change then don't make the parameter const char*. – Catalin Iacob Oct 30 '09 at 20:49

const char* is a pointer to constant char:

const char* ptr0; // ptr0 is mutable, *ptr0 is const
char* const ptr1; // ptr1 is const, *ptr1 is mutable
share|improve this answer

In a comment from one of the other answers you said:

const char * sm mean that I can pass a const or non-const, so why C++ converts it automatically? That doesn't make sense to me.

Between your original question and that comment I think you're misunderstanding how the compiler treats the types.

You're correct that a non-const char * can be cast safely to a const char *. However, your method is explicitly taking a const char *. So, while you can pass a char * into the function, the compiler simply automatically casts the argument when making the function call. The actual code in the function doesn't know if the original argument was const or not. The compiler has to go by the actual declaration of the variable you're using, not some previous variable that had the same value.

If you want to be able to treat non-const char * variables differently (assigning them) then you'll need to define a function that takes non-const char * variables.

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const char * sm is a pointer to a constant character (or array). When you try to assign, someMemberVar, a pointer-to-char, you are trying to point it to a set of constant characters. This is the cause for error.

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In your example sm is const char* so someFunction has a contract with it's caller that it will not modify the memory that sm points to.

But if you assign sm to someMemberVar and someMemberVar is not const char* you will then be able to modify the memory that sm points to via someMemberVar and the compiler doesn't allow you to do that.

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