All programming paradigms (different ways of developing software) strive to build better programs with less effort. The concepts "better" and "effort", however, are less strictly defined as mathematical terms and their core meanings change over time.
The basic idea of OOP is to bundle complex data (like the info needed to deal with employees) with complex functionality (like the actions needed to manipulate such info). Before OOP you could have employee structs/records/types and nifty functions/subs/procedures to raise an employee's salary, but the programmer was responsible for applying the correct function to the correct data in the correct way.
Building on this base, OOP can provide further benefits that increase software quality and reduce efforts and risk of errors especially in the context of big teams creating and re-using large systems of software components:
- memory management by calling destructors automatically (e.g. C++; other languages - VBScript included - use garbage collection instead)
- code re-use by inheritance (e.g. Java; VBScript objects can't inherit, you'll have to embed objects into objects to get a similar effect)
- information hiding/controlling access to reduce risk of errors and make improvements of implementations possible
Your first (short) class has data, but no methods. Let's add an init function:
Public Function init(p_first, p_last, p_salary)
Set init = Me
first = p_first : last = p_last : salary = p_salary
So to get 10 employees you can write 10 times
Set employeedict(nId) = new employeeclass.init("John", "Doe", 12345.67)
instead of 10 times
Dim employee: Set employee = new employeeclass
.first = "John"
.last = "Doe"
.salary = 50000
employeedict.Add "1", employee
Now let's imagine a raiseSalary method that does some computations (based on cents not
dollars for the sake of a later argument)
(m_)salary = x * (m_)salary / y ...
Calling this method - and changing the formular once when some law changes - certainly beats having 40 lines like
employeeX.salary = x * (m_)salary / y ...
scattered all over your script. (This is just functional abstraction, not OOP; in C++ or Java it would be easy/automagically to have the boss' salary calculated by a different formula (polymorphic function) when you process a long list of employees - in VBScript you'll have to resort to dirty/risky tricks involving duck typing.)
Your second (long) class has - boiler plate - methods (properties) for controlling data access, but no payload functionality (like raiseSalary). As long as you don't add interesting things to the setters (input validation, conversions (e.g. dollars to cents) and real world usable methods, the long class is just a waste of coding time. (Of course, if you are payed by code line/hour and your manager does not realize the class as it is does not guard against incomplete or wrong initializations, it's easy if ill gotten money.)
But if your init function garanties complete initialization of member data and validates input (e.g. double number in plausible range) and your raise-the-salary formula is centralized in one method, you could change the computation to use long numbers for better accuracy and convert dollars to cents once in the init method - with no change in the code that uses the class.
Whether you should guard against users setting the salary directly to stupid values by the book (private members and accessors) or by book (documented admonishments) depends on your audience.
To sum up:
- Classes should have payload methods
- Getters/Setters without at least some additional features above just storing parameters/returning member data are useless
- Even in a VBScript scripting context (one programmer, many ad hoc scripts for specific tasks, few re-usable components/modules, incomplete support of OOP features) organizing your code in 'better' classes (with init functions, input validation, centralized implementation of core functionality) is a good thing.