As already stated by Austin comparison operators apply on vectors as well.
The point d. in the section 6.3 of the standard is the relevant part for you. It says:
The relational operators greater than (>), less than (<), greater than
or equal (>=), and less than or equal (<=) operate on scalar and
it explains as well the valid cases:
The two operands are scalars. (...)
One operand is a scalar, and the other is a vector. (...) The scalar type is then widened to a vector that has the same number of
components as the vector operand. The operation is done component-wise
resulting in the same size vector.
The two operands are vectors of the same type. In this case, the operation is done component-wise resulting in the same size vector.
And finally, what these comparison operators return:
The result is a scalar signed integer of type int if the source
operands are scalar and a vector signed integer type of the same size
as the source operands if the source operands are vector types.
For scalar types, the relational operators shall return 0 if the
specified relation is false and 1 if the specified relation is true.
For vector types, the relational operators shall return 0 if the
specified relation is false and –1 (i.e. all bits set) if the
specified relation is true. The relational operators always return 0
if either argument is not a number (NaN).
To complete a bit the return value part, especially after @redrum's comment; It seems odd at first that the true value is -1 for the vector types. However, since OCL behaves as much as possible like C, it doesn't make a big change since everything that is different than 0 is true.
As an example is you have the vector:
int2 vect = (int2)(0, -1);
This statement will evaluate to true and do something:
Now, note that this isn't valid (not related to the value returned, but only to the fact it is a vector):
This won't compile, however, you can use the function
any to evaluate all elements of a vector in an "if statement":
//this will evaluate to true in our example
Note that the returned value is (from the quick reference card):
int any (Ti x): 1 if MSB in component of x is set; else 0
So any negative number will do.
But still, why not keep 1 as the returned value when evaluated to true?
I think that the important part is the fact that all bits are set. My guess, would be that like that you can make easily bitwise operation on vectors, like say you want to eliminate the elements smaller than a given value. Thanks to the fact that the value "true" is -1, i.e. 111111...111, you can do something like that:
int4 vect = (int4)(75, 3, 42, 105);
int ref = 50;
int4 result = (vect < ref) & vect;
and result's elements will be: 0, 3, 42, 0
in the other hand if the returned value was 1 for true, the result would be: 0, 1, 0, 0