# How does compiler read these expressions? Why am I getting these outputs(All variables are initialized as 1)? [duplicate]

``````int x = 1 , y = 1 , z = 1  ;
``````

Now check these lines of code :-

``````cout << (++x || ++y)<<endl;     //Output 1
cout << x <<" " << y;          // now x = 2 and y = 1 . Why 'y' is not incremented ?
``````

again values are initialized to 1

``````cout <<(++x && ++y )<<endl;     //Output 1
cout << x <<" " << y;         //now x = 2 and y = 2 . Why 'y' is incremented ?
``````

again values are initialized to 1

``````cout << (++x ||++y && ++z )<<endl;  //Output 1
cout << x<<" "<< y<<" "<<z ;       //now x = 2 , y = 1 , z = 1.Why these outputs?
``````

Can some one explain me how compiler reads these codes ? I read about the Precedence order but I can't figure out how compiler works on these types of code.Even a Small help will be appreciated!

• Look up "short-circuit evaluation". – EOF Jul 8 '16 at 12:59
• Some additional reading. – James Adkison Jul 8 '16 at 13:02

## 2 Answers

It is called short circuiting.

1) In your first case, since `x` has value of 1 on the left side, the right side of operator `||` is never called (because result would be true in any case in case with `||`)- and hence `y` is never incremented.

2) Similarly in your second example, since `x` is one on the left side, that means nothing for `&&` - you still need to evaluate right side to see final result result; if right hand side is false, then result is false, otherwise true. So in this case both left side and right side are evaluated. And values of `x` and `y` are increased.

3) Again in your third case, due to short circuit, the right hand side involving `y` and `z` is never executed (because `x` has value of 1) - hence value of `y` and `z` is 1.

Here is some more info.

I'm not sure what you think happens when you type `||` and `&&`. These are both logical `or`/`and` operators.

The interesting thing about `||` and `&&` is that their arguments are lazily evaluated. This is called short circuiting. In other words, as soon as the compiler have enough information to determine the expression's end result, it stops evaluating the arguments.

``````cout << (++x || ++y)<<endl;
``````

++x is evaluated as the boolean `true`. Since with `||` it is enough for one side to be true for the entire expression to be true, `++y` isn't evaluated.

``````cout <<(++x && ++y )<<endl;
``````

++x is still true, so the compiler evaluates `++y` as well, as if that turns out to be `false`, the expression would be `false`.

I'll leave the third one for you to figure out on your own.

I'll also add that this is a very strong feature. Without it, the following expression would dereference a `null` pointer:

``````if( a!=NULL && a->val>3 )...
``````

The way it is, if `a` is `null`, then the right side isn't evaluated, and `a` isn't dereferenced.

• Lazy evaluation is something completely different. – too honest for this site Jul 8 '16 at 13:07
• This is called short circuit evaluation, not lazy. – NathanOliver Jul 8 '16 at 13:08
• I've added the name of the feature, but please note that lazy evaluation is precisely what this is. The arguments are evaluated only if they are needed in order to determine the end result of the operator. Lazy evaluation, unlike short circuiting, is something non-C++ experts can understand. – Shachar Shemesh Jul 8 '16 at 13:12
• Nope. Lazy evaluation: In programming language theory, lazy evaluation, or call-by-need is an evaluation strategy which delays the evaluation of an expression until its value is needed which is not what is happening. There is no delay going on. What is going on is that the compiler is smart enough to know it doesn't matter what the next condition is and skips it's evaluation completely. – NathanOliver Jul 8 '16 at 13:15
• @NathanOliver, possibly skipping evaluation is a core part of lazy evaluation, and is precisely what is happening here. You seem to cast great importance to the question of compiler optimizing out stuff, but it is simply implementing the lazy evaluation. After all, if `x` is set to `-1`, `y` would get evaluated. – Shachar Shemesh Jul 8 '16 at 13:21