The logical or,
|| short-circuits, and after
++i && ++j
the value of the entire expression is determined, so the right operand of the
|| isn't evaluated.
m=++i && ++j || ++k;
m = (++i && ++j) || ++k; since the
&& has higher precedence than the
The short-circuiting of the logical operators means that the right operand is only evaluated when the evaluation of the left has not yet determined the final result, for
|| that means the right operand is only evaluated if the left evaluated to 0, and for
&&, the right operand is only evaluated if the left evaluated to a nonzero value.
++i && ++j is evaluated, and for that, first
++i is evaluated.
i had the value
-3 before, so
++i evaluates to
-2, which is not 0, hence the
++j is evaluated too.
j had the value
2 before, so
++j evaluates to
3, which is again nonzero, and thus
++i && ++j evaluates to 1 (true). Since the left operand of the
|| is not zero, its result is already determined (to be 1), and the right operand isn't evaluated, thus
k remains unchanged and
m is set to 1.