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At the end of the artile here: http://www.learncpp.com/cpp-tutorial/45-enumerated-types/

It mentions the following sentence:

Finally, as with constant variables, enumerated types show up in the debugger, making them more useful than #defined values in this regard.

Is "constant variables" a correct term to use? Aren't constants different from variables?


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up vote 2 down vote accepted

A constant is a variable. In C++ (and most languages), defining a variable as a constant simply tells the compiler that the variable is not allowed to be changed.

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Actually this is not true, do not confuse C and C++ as being "most languages". In ML languages, "constants" are called bindings, and they're names of values. They're also called variables because they can be created dynamically. – Yttrill Jan 22 '11 at 14:12

It is a variable in the sense that it is an addressable object, as opposed to a literal constant which is not addressable.

It is perhaps contradictory, but the language standard uses the term variable to refer to addressable objects in general, and const to specify a read-only addressable object.

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Constants in C++ are a special kind of variable. I understand it may sound contradictory for the common sense, but that's how it is in C++.

int var1 = 1;
int const var2 = 2;

The difference between them is only the const keyword, which tells the compiler that the value of var2 must not be changed once it is created:

var1 = 2; // fine
var2 = 1; // compilation error!

This simple rule also causes further constraints to be enforced for const variables, e.g. you can't create a non-const reference to a const variable (as otherwise you could still change its value via that reference). Neither you are allowed to pass var2 to a function with a signature f(int& i), for the same reason. However, you can create const references to them, use their values etc. just as with any "normal" variable. So by and large they are like any other variable.

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Constants are not a special kind of variable. You should learn to write you declarations properly: int const var2 = 2; Do not put the const first. What this means is a variable which is an int const-lvalue, which might have been written int const& and please note it is the reference (or lvalue) which is const and not the int (no matter what the Standard says, it confuses semantics with syntax). Therefore the constness is type information (unfortunately) just as reference aka lvalue is type information. It isn't a special variable kind (unfortunately). – Yttrill Jan 22 '11 at 14:06
@Yttrill: whether it's type information or not, and regardless of how you prefer to write your definitions, it's still a "special kind of variable", in the sense that it's a special case of a more general concept. Pointer variables are a special kind of variable. Globals are a special kind of variable. They're special in different ways. Constants are a special kind of variable - specifically those with a const qualification at the top level of their type. At least, they are unless you want to refer to both constant variables and literals as "constants". – Steve Jessop Jan 22 '11 at 14:17
@Yttrill, the variable in my example is not a reference (nor a pointer), thus AFAIK there should be no semantical difference (but I may be wrong of course, my C++ is rusty). I fixed the order nevertheless for the sake of consistency. – Péter Török Jan 22 '11 at 16:11

Yes, it's a bit of a contradiction in terms. Variables are things that vary by definition, and constants are things that don't vary by definition.

That aside, in C++ (and other languages), people still call them constant variables because we essentially think of any value with a name as a variable.

Feel free to just say 'constant' though.

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...Except 'constant' alone does not distinguish a constant object from a literal constant. – Clifford Jan 22 '11 at 12:19
True, but if you want to refer to a literal then you can just say 'literal' :) (also, ambiguity can be useful if you explicitly do not want to distinguish between the two -- which is usually the case). – Peter Alexander Jan 22 '11 at 12:27
@Clifford: The best and worst part about "natural" communication, which is where you'd just say "constant" as above, is you don't have to be as precise as in a programming language; context and experience will nearly always distinguish the meaning, when it even matters. – Fred Nurk Jan 22 '11 at 12:34

It is an obvious contradiction in terms on the surface, and has probably come about for historical reasons ("variable" being used to refer to a memory location associated with a name and a type).

However, I can try to justify the term: At compile time, it is an variable - before optimization, it has all the properties a variable has - takes up memory, has a location and so on - and is handled much the same. (In contrast, an value you provide like 43423L, 3.141 or a literal "somestring" is not a variable.) At runtime, it cannot be changed anymore, and is seen as constant. It's sort of a "write-once variable", which you set in the source.

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So many people are confused. In K&R C, a string literal can be changed. Hence, literals being constants meaning immutable is wrong. In ISO C and C++ variables of type T const for some T can also be changed, using a cast. So again, constant doesn't mean immutable. As @foo pointed out above, constants often do not have the properties of a variable because of optimisation, and in fact the semantics often specify it. Also do not forget in C and C++ there are constant expressions sometimes known as compile-time constants, used for array bounds, for example, a kind of constant which would never be confused with a variable, agree?

So here's a definition: a constant is a binding of a name to a value. With this definition, 1 is a constant because it is a literal name, and the binding is implicit. And here

enum {x};
void f();

there are two constants, namely x and f: these are bindings of symbol names (in this case both identifiers, in C++ operator+ is also a name but not an identifier).

Now, I will show you another constant which will surprise you!

int y = 1;

Yes indeed, y is a constant too! It is a binding of the name y to an address. [If on the stack, an offset from the frame base instead]

So actually pretty much everything in your abstract syntax is a constant if you think about it hard enough :)

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