one can find a description of Generics (which is the reason for the first set of parentheses).
A generic type is a single programming element that adapts to perform
the same functionality for a variety of data types. When you define a
generic class or procedure, you do not have to define a separate
version for each data type for which you might want to perform that
An analogy is a screwdriver set with removable heads. You inspect the
screw you need to turn and select the correct head for that screw
(slotted, crossed, starred). Once you insert the correct head in the
screwdriver handle, you perform the exact same function with the
screwdriver, namely turning the screw.
Screwdriver set as a generic tool
When you define a generic type, you parameterize it with one or more
data types. This allows the using code to tailor the data types to its
requirements. Your code can declare several different programming
elements from the generic element, each one acting on a different set
of data types. But the declared elements all perform the identical
logic, no matter what data types they are using.
For example, you might want to create and use a queue class that
operates on a specific data type such as String. You can declare such
a class from System.Collections.Generic.Queue, as the following
VB Public stringQ As New System.Collections.Generic.Queue(Of String)
You can now use stringQ to work exclusively with String values.
Because stringQ is specific for String instead of being generalized
for Object values, you do not have late binding or type conversion.
This saves execution time and reduces run-time errors.