Presumably you mean
if (i==4 && j==9).
Under the circumstances, changing this from
& shouldn't change much. The big thing that'll change is that with
j==9 would only be evaluated if the
i==4 part was true, but with
&, they'll both be evaluated regardless.
When you have something like
if (x != NULL && x->whatever ...) you want to ensure that the second part (that dereferences
x) is only evaluated if
x is not a null pointer. In your case, however, comparing what appear to be
ints is unlikely to produce any problems.
It's also possible to run into a problem when you're dealing with something that may produce a value other than
1 to signal
true. Again, it's not a problem here because
== will always produce either
1. If (for example) you were using
islower, etc., from
<ctype.h>, they're only required to produce
0 or non-zero values. If you combined those with a
&, you'd get a bit-wise
or which could produce 0 for two non-zero inputs (e.g.,
1 & 2 == 0, but
1 && 2 == 1).
When you use bitwise
and on the results from
==, you're going to get
0 & 0 or
0 & 1 or
1 & 0 or
1 & 1.
1 & 1 will yield
1 (true). All the others will yield 0 (false) --- just like
&& would have.