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I just started studying C++ from an ebook.
I don't have any errors on my code but I do have a question.
The book uses the following code to sum up two numbers:

#include <iostream>
int main()
    std::cout << "Enter two numbers:" << std::endl;
    int v1 = 0, v2 = 0;
    std::cin >> v1 >> v2;
    std::cout << "The sum of " << v1 << " and " << v2
        << " is " << v1 + v2 << std::endl;
    return 0;

So int v1 = 0,v2 = 0; is used for variables. Why are they initialized to 0?

share|improve this question
They are initialised with a value of zero. Otherwise they would contain some random data. – Roger Rowland Aug 3 '13 at 8:42
because it's best practice to initialize your variables! – Iosif Murariu Aug 3 '13 at 8:42
Why not zero? Do you have a preference for a particular number? – Thomas Aug 3 '13 at 13:32
certain compiler will initialize them with (int)0xcc... for you, in Debug configs. – Abyx Aug 3 '13 at 13:47
I was inclined to say "Because a variable should be something well-defined, and zero is as good as any other number", but actually zero is a rather bad choice. All numbers are equal, but some numbers aren't. – Damon Aug 4 '13 at 13:10
up vote 15 down vote accepted
int v1 = 0;

That's called initialization and it's a good habit to get in to. If you leave out the initializer for built in types, its value is called to be indeterminate and it's illegal to read such a value.

Let's suppose you do this:

int v1;
std::cin >> v1;
std::cout << v1;

Input operation in the second line can fail, for example if you enter a letter instead of a number, and v1 will be left untouched. There is no check whether input succeeded and if v1 still happens to uninitialized, bang! You've invoked undefined behaviour and you're left at the mercy of the compiler to do just about anything it wants.

In the code you posted, v1 and v2 are initialized and even if input fails, you'll at least get some result with well defined behaviour.

That said, it's a logical error to not check whether input suceeded. After all, 0 is a valid input possibilty and without an additional check there's no way to tell if that's what user entered.

The easiest way to do that is to use input expression in boolean context, inside if condition:

if (std::cin >> v1 >> v2) {
    // good, use v1 and v2
} else {
    // bad input, we can't
    // rely on v1 and v2 to
    // have meaninful value here

Streams are implicitly convertible to bool and if there are no error flags set, they evaluate to true and to false otherwise.

Having done the above check there's little to no need for initialization, as we'll never touch v1 and v2 if input failed.

share|improve this answer
Your example has nothing to do with initialization. If the read operation fails, the value of v1 is indeterminate no matter if it was initialized or not. – rubenvb Aug 3 '13 at 11:17
Didn’t downvote but I don’t agree – the initialisation is useless here, don’t do it. You make it sound like defensive coding but in reality it just hides a bug, namely the failure to check whether input succeeded. Only initialise variables with meaningful values, not with bogus placeholders. – Konrad Rudolph Aug 3 '13 at 13:29
@hvd See previous comment. To wit, while I am generally a big proponent of having predictable behaviour, in this specific situation this buys us nothing: the behaviour may be predictable but since we still don’t expect it in the code we cannot make use of that predictability. The overflow is also not possible – or rather, it would be just as possible with user-entered input. – Konrad Rudolph Aug 3 '13 at 14:38
@KonradRudolph Yes, I edited my comment to mention user input. About the uninitialised case, I'm a strong proponent of "always print 0" (or even "always print garbage") over "sometimes print garbage, sometimes crash", so I don't think we'll agree, but that's okay, if we agree on the best way to write the program, it actually doesn't really matter if we disagree on the second best way. :) – hvd Aug 3 '13 at 14:44
@hvd Actually regarding your last comment, I think you’re objectively wrong. It’s better for the application to crash than to continue running with a bogus value and silently yielding false results. Crashing at least lets the user know something’s wrong. But actually this won’t happen here anyway. – Konrad Rudolph Aug 3 '13 at 15:36

It’s cargo cult programming. It isn’t actively harmful but it serves no real benefit here and is likely only done because either the author wants to simplify a concept for teaching purposes, or because he misunderstood something.

Here’s why.

Normally, all variables should be directly initialised once declared. This ensures that the variable is never in an indeterminate state. This makes the control flow simpler, the code easier to reason about and as a consequence prevents bugs.

But this only makes sense if we can initialise the variables with a meaningful value – i.e. with the value it’s meant to represent later. In your code, this isn’t the case – rather, the variables get their value assigned later, via input streaming (unfortunately C++ doesn’t support a concise, canonical way of initialising a variable with a value read from input).

As @jrok said, the initialisation ostensibly guards against invalid inputs and subsequent errors in the code. I say ostensibly because that’s not actually true: the value we initialised the variables with – 0 – is also invalid in the context of the program so we haven’t actually gained anything.

Jack Aidley offers that the real reason for this code is to prevent a compiler warning. But no compiler should warn here, for the reason outlined above. And in fact, GCC doesn’t warn, even when compiled with lots of warnings enabled. Maybe other compilers do but I would consider this warning noise.

share|improve this answer
Agreed, something like int foo << cin; would've been pretty cool but alas, it's not possible to do so in C++, so you're left with delayed initialization as your only choice... – Thomas Aug 3 '13 at 15:10
@Thomas Actually I was thinking more of auto i = read<int>(cin); which is readily feasible as a library solution. read would either return a value akin to boost::optional or the function could throw an exception on failure (but the first variant has many advantages). In fact, whenever my code heavily relies on IO, I use such functions throughout. – Konrad Rudolph Aug 3 '13 at 15:35

It's a common practice, but in this example it's a workaround for not having thought enough about error handling. The rationalization that you could get an invalid value if you don't initialize them only matters if you don't bother to check whether the input succeeded. The code doesn't check whether the input succeeded, so it is fatally flawed. No amount of otherwise unneeded initialization can fix that.

std::cin >> v1 >> v2;
if (std::cin)
    std::cout << "The sum of " << v1 << " and " << v2
        << " is " << v1 + v2 << std::endl;
    std::cout << "Bogus input\n";
share|improve this answer

It's a common practice to set a value to the variables when you define them. Sometimes, you get bad errors when try to operate with variables that weren't initializated with a value.

But in your example, it isn't important, because you set a value with cin read.

share|improve this answer
No, it is important. std::istream::operator>> could fail. – Shoe Aug 3 '13 at 13:38
@Jeffrey no, it's not. I'd be important to check the values after reading from stdin and query the user again if it failed. – Manuel Görlich Aug 3 '13 at 13:44
@ManuelGörlich, you would be important? What does it mean? – Shoe Aug 3 '13 at 13:49
sorry, should be 'It would be important' – Manuel Görlich Aug 3 '13 at 13:50
@ManuelGörlich, also what would be exactly the value to check for an error here? – Shoe Aug 3 '13 at 13:51

While the other answers are correct, I don't believe they are likely to be the actual reason why these variables are being initialised to zero.

Instead, I strongly suspect the reason is this: if they were not, most compilers would issue a warning about using an uninitialised variable. I believe the initialisation here is there primarily, or purely, to suppress the issuing of a warning.

share|improve this answer
name at least one compiler which will yield a warning here – Abyx Aug 3 '13 at 13:44

It's part of a common practice.

It is better to initialize a value to a variable to give it a sense of completeness.

share|improve this answer
No, it's not better. See here. – Shoe Aug 3 '13 at 13:39
It is, actually. – Kyle Emmanuel Aug 3 '13 at 22:40

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