# Precedence Rule

I was solving the C++ Multiple choice questions. I am not able to understand the output for the following code::

``````#include <iostream>
using namespace std;
int main()
{
int x,y,z;
x=y=z=1;
z=++x || ++y && ++z;
cout<<x<<" "<<y<<" "<<z<<endl;
system("pause");
return 0;
}
``````

I am solving this question in following way:: Precedence order ::

``````Precedence "++" greaterthan Precedence "&&" greaterthan  Precedence "||"
``````

Also , the Associativity of unary++ is "Right to left" . So

``````z=(++x)||(++y) && (2)
z=(++x)||(2)&& (2)
z=(2)||(2)&&(2)
z=(2)|| 1  //As 2 && 2 is 1(true)
z=1       // As 2 || 1 is 1(true)
``````

So as per me ,the correct output should be x=2,y=2 and z=1.

But When i ran this code in my compiler,the compiler output is x=2,y=1,z=1.

Why i am getting such output and where i am making mistake?

Thanks!

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Operator precedence tells you how to group expressions; it doesn't tell you in which order they are executed.

`||` and `&&` are special in that the first operand is always evaluated first and the second operand (including all sub-expressions) is only evaluated if it is required to determine the value of the expression.

For `||`, if the first operand evaluates to `true` the second operand is not evaluated because the result of the logical-or will always be true.

Similarly, the second operand of `&&` will not be evaluated if the first operand evaluates to false as the logical-and must be false in this case.

In the expression `z=++x || ++y && ++z`, the grammar rules specify a grouping:

``````z = ((++x) || ((++y) && (++z)));
``````

In the sub-expression `(++x) || ((++y) && (++z))`, as `(++x)` evaluates to `true` (as 2 is non-zero), the second operator `((++y) && (++z))` is never evaluted. `x` becomes 2, `y` is unchanged and `z` is assigned `1` (`true` converted to an integer).

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Charles Bailey Thanks a lot.. So basically ,the operator precedence first groups the expression.The evaluation is always done from left to right isn't it? – ritesh_NITW Aug 4 '12 at 22:10
@ritesh_nitw: In general, the evaluation of expressions is not necessarily done from left to right but this is guaranteed to be the case for `||` and `&&` where the left operand is always evaluated first. – Charles Bailey Aug 4 '12 at 22:12

The `&&` and `||` operators are short-circuiting. They evaluate the left side, and then evaluate the right side only if necessary to determine the value.

Therefore, if the left side of `||` is true the right side is not evaluated, and if the left side of `&&` is false the right side is not evaluated.

In your example, since `++x` is true (`2`), the right side of the `||` is not evaluated.

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`++x` cast to `bool` is `true`, so the rest of the OR expression, namely `++y && ++z`, is not evaluated.

In this type of expression:

``````expr1 || expr2;
``````

if `expr1` is `true`, the expression returns `true` without evaluating `expr2`. On the other hand, here

``````expr1 && expr2;
``````

both `expr1` and `expr2` are evaluated.

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But as per precedence rule unary operator is evaluated first from right to left ,then the logical && followed by logical || – ritesh_NITW Aug 4 '12 at 21:59
@ritesh_nitw there is a sequence point after the evaluation of the first operand of `||` or `&&`. – juanchopanza Aug 4 '12 at 22:03

Logical OR Operator requires if any of the two operands is non zero then then condition becomes true. In the expression `A||B`, either `A` or `B` is non zero then `(A || B)` will br true or equal to `1`. So `++y` and `++z` will be ignored by the compiler because value of `++x` is `1`.

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Keep in mind that the compiler is going to execute the whole logical expression only if it NEEDS to. Otherwise, it tries to get away with as little work as possible.

For example, if you use the && operator, it is necessary for both expressions to be evaluated. However, if you use the || operator (which you have), if the first expression on the left hand side is true, the right hand side is not executed. In your example, ++x gives 2, which is evaluated to a boolean TRUE. End of story for the compiler since once true, an OR statement will never revert to FALSE. This concept is called 'short-circuiting' by the compiler. That is why you got the output that you described.

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