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double & val = 66.6;     //illegal
const double & val = 66.6;   //legal

I was just doing some demo programs and came through the above concept but not able to identify what exactly the need of the above concept . what magic exactly const is doing in the second case ?


int nVar = 12;
int &rVar = nVar ;//Ok
double &dVar = nVar ;//Error
const double &cdVar = nVar ;//Ok

Why the 3rd statement is not working where as 4th statement is working ?

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5 Answers 5

up vote 6 down vote accepted

The first is illegal. You cannot bind a non-const reference to a temporary.

The second is legal. It creates a temporary double, initialized to 66.6, and makes val a const reference to it.

The const promises not to change the value through the reference. C++ does not permit you to bind a non-const reference to a temporary because that's usually an error.

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is it needed in real time programming ? –  vivek Dec 24 '12 at 11:48
@viku it's needed in turn-based programming. –  Luchian Grigore Dec 24 '12 at 11:52
@viku: Is what needed in real time programming? –  David Schwartz Dec 24 '12 at 11:54
@DavidSchwartz The above concept of using reference with constant . –  vivek Dec 24 '12 at 13:41
It's not so much that execution will be faster since any decent compiler will elide the copy anyway. Consider, for example, a class that's not copyable, such as a stream. –  David Schwartz Dec 24 '12 at 14:27

Let me show you.

void f(Base*& p) { p = new Base; }
int main() {
    Derived* d;
    f(d); // Creates temporary Base* and calls f with it
    // Dude, where's my object?

As you can see, this introduces a nasty error. Firstly, the object is leaked and cannot be recovered, as the argument to f does not actually refer to d at all. Secondly, even if d were successfully mutated in f, it would be of the wrong type and violate the type system.

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While this is the reason C++ doesn't allow you to do this, it's awfully hard for a beginner to understand. (The point of the first line of code was to take in a reference to a pointer such that the pointer could be made to point to a newly-created object. But if the pointer is a temporary, then the code fails because the calling code doesn't get its pointer filled in.) –  David Schwartz Dec 24 '12 at 11:57
I am a beginner . Can you please explain your concept ? –  vivek Dec 24 '12 at 12:01
Viku: The first line is a function that takes a reference so that it can make it point to a newly-created object. If that reference was a reference to a temporary, then the newly-created object would be lost when the temporary was destroyed. This is a very subtle bug. (And you could imagine even worse bugs. Consider if f does this: p = new OtherClassDerivedFromBase();. If the caller did get the pointer, a Derived * would point to an instance of a different class! –  David Schwartz Dec 24 '12 at 12:55

Since val is a reference to another varaible, in theory this would be like in the old fortran days, were passing 1.0 to a function as a reference (whatever that method is called in fortran), and you could alter the 1.0 to something else. Some other code using 1.0 as a constant would then use the new value. It is a good idea not to allow that, I'd say.

So, the C++ standard only allows constant references to anything that you shouldn't modify - what effect do you expect if you later do val += 4.0? That the constant 66.6 becomes 70.6?

Edit: I take it that the scenario is that you have a function

void func(double &d)
    d += 4.0;

and you can't call it as:


so you tried:

double &val = 66.6;

and that didn't work either?

The correct way to fix this is:

double val = 66.6;

func(val);    // compiler makes a reference to val that is passed to func. 
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I think here we cant do val += 4.0 , since it is constant we cant modify it .. –  vivek Dec 24 '12 at 11:54
Yes, I meant if the first case WAS legal, what would the expected behaviour be? –  Mats Petersson Dec 24 '12 at 11:57
@MatsPetersson: I guess it would be to create a temporary whose lifetime equals that of the reference, initialize the temporary to 66.6 and make val a reference to that temporary. But DeadMG's answer shows why that's not the C++ rule. –  David Schwartz Dec 24 '12 at 11:59
I've updated the code to show "how to fix the problem". –  Mats Petersson Dec 24 '12 at 12:02

double & val = 66.6;

This won't compile, you can't bind a reference to a temporary.

const double & val = 66.6;

This is valid and will result in a reference to the temporary 66.6.

I don't see any reason to in declaring the value as a reference, create it as a const double val = 66.6; and then if later required pass it around as a reference.

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The const in the second case tells the compiler not to copy the value on the right. In your case this isn't much of a difference (the compiler will probably generate the same code).

But in the following case the result of someFunction is not copied but just assigned. This is particularly useful if it happens a lot or if the copy of a returned object is expensive.

const double & val = someFunction();

What you are actually doing is expanding the 'lifetime' of a value/object on the stack, instead of copying it. This is called a 'temporary'. Because of the code that created the value/object doesn't know you will be using it, you have to make it const.

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