If

```
A in [x, y, z]
```

is considered a valid solution then the function

```
in(A, x, y, z)
```

should be considered a valid solution too, especially for a language that allow operator overloading so that cmp(A, x, y, z) could be mapped to

```
A in x y z
```

Discussions so far have dwelt on

```
if (A == x or y or z).
```

What about the case of

```
if (A == x and y and z).
```

Therefore, we would use varargs, a feature found in c, c++, c# and java5.

Let's use java to illustrate.

```
boolean or(String lhs, String... rhs){
for(String z: rhs){
if (lhs.equals(z) return true;
}
return false;
}
boolean and(String lhs, String... rhs){
for(String z: rhs){
if (!lhs.equals(z) return false;
}
return true;
}
```

Varargs allow you to define a single function that takes in a variable number of arguments so that you could use the same method to compare

```
or (A, x)
or (A, x, y)
or (A, x, y, z)
```

However, the above is defined only for String comparisons, so that we would have to create a pair of methods for each arg type. But then in Java 5 there is generics.

```
<T extends Comparable<T>>boolean or(T lhs, T... rhs){
for(T z: rhs){
if (lhs.compareTo(z)==0) return true;
}
return false;
}
<T extends Comparable<T>>boolean and(T lhs, T... rhs){
for(T z: rhs){
if (lhs.compareTo(z)!=0) return false;
}
return true;
}
```

So now you can do comparisons for any type that implements comparable interface.

```
and(stringA, stringx, stringy)
or(dateA, datex)
```

Too bad, Java does not allow operator overloading so that we could do

```
stringA && stringx, stringy
dateA || datex, datey, datez
```

In c++, I have never attempted operator overloading with varargs to even know if it is possible.

**Revisit:**
However, revisiting this hours later,

We could define a class

```
public class <T extends Comparable<T>> Comparigator{
public Comparigator(T lhs){
this.lhs = lhs;
}
final private T lhs;
static public <T extends Comparable<T>> Comparigator is(T lhs){
return (T)new Comparigator(lhs);
}
public boolean inAny(T... rhs){
for(T z: rhs){
if (this.lhs.compareTo(z)==0) return true;
}
return false;
}
public boolean inAll(T... rhs){
for(T z: rhs){
if (this.lhs.compareTo(z)!=0) return false;
}
return true;
}
public boolean gtAny(T... rhs){
for(T z: rhs){
if (this.lhs.compareTo(z)>0) return true;
}
return false;
}
public boolean gtAll(T... rhs){
for(T z: rhs){
if (this.lhs.compareTo(z)<=0) return false;
}
return true;
}
}
```

Now, we don't need operator overloading at all and we can do

```
import Comparigator;
.....
is(A).inAny(x,y,z); // or
is(A).inAll(w,x,y,z); // and
is(B).gtAny(k,l,m);
is(C).gtAll(j,k);
```

And we could expand it and we could do inany, inall, gtany, gtall, ltany, ltall, etc by expanding the comparison functionality.