Ideally, you don't (to answer the question as titled) - that way your code doesn't silently break when a class gets renamed, for example.
There's a better way, one that gives you an immediate compile-time error as soon as something breaks, and that works nicely with static code analysis and refactoring tools, such as Rubberduck - full disclosure, that's my website, and I manage the Rubberduck open-source project.
You could formalize the task of creating an instance of a class by defining an abstract factory interface. Add a new class module, call it IObjectFactory
:
Option Explicit
Public Function Create() As Object
End Function
Now add a new class module, call it Cls1Factory
and make it implement the abstract factory interface:
Option Explicit
Implements IObjectFactory
Private Function IObjectFactory_Create() As Object
Set IObjectFactory_Create = New Cls1
End Function
Add a new class module, call it Cls2Factory
and make it also implement the abstract factory interface:
Option Explicit
Implements IObjectFactory
Private Function IObjectFactory_Create() As Object
Set IObjectFactory_Create = New Cls2
End Function
Add another implementation that can create Cls3
instances, call it Cls3Factory
.
Then change your function's signature as follows:
Public Function getCollectionObj(ByVal factory As IObjectFactory) As Collection
Now the entire Select Case
block becomes this single statement:
result.Add factory.Create
The calling code that used to do this:
Set things1 = getCollectionObj("Cls1")
Set things2 = getCollectionObj("Cls2")
Set things3 = getCollectionObj("Cls3")
Now needs to do this:
Set things1 = getCollectionObj(New Cls1Factory)
Set things2 = getCollectionObj(New Cls2Factory)
Set things3 = getCollectionObj(New Cls3Factory)
The function can now create a collection of 5 instances of any class you want, without modifying it at all: if you need to support a new class, simply implement a new factory for it, and then pass it as a parameter to the function.
RE: EDIT
Rubberduck's static code analysis can help you avoid a ton of traps, exactly like those in your edited snippet: the function return value isn't assigned, result variable is accessed before it's initialized, etc.:
The "object required" error is signaled by its underlying causes, here in cascading order leading to this specific error:
- 'Option Explicit' is not specified in 'Module1'.
- Local variable 'result' is not declared.
- Variable 'result' is used but not assigned.
Option Explicit
not being specified has allowed the code to execute with result
not being declared. Since it's not declared, it's allocated as a Variant/Empty
until it's assigned... except it never is, and when a member call (.Add
) is tentatively being made against that variant, that's when VBA screams at run-time and says "object required", because an object is required for that member call to be valid. But all VBA is seeing is a Variant/Empty
pointer it just created on-the-spot.
The run-time error is raised after the .Create
factory method call returns, but before the returned object is passed as a parameter to an accidentally late-bound .Add
member call. Execution hasn't entered the .Add
method, VBA hasn't successfully dereferenced a Collection
object from the result
variable; but because the debugger doesn't let us step through operators, when we click "DEBUG" we're taken back on the failing statement, and the entire result.Add factory.Create
statement is highlighted (as opposed to just the result.Add
call that's the actually-failing operation here).
Because there are two statements on the same line, the debugger is not quite in the exact state it should be in right now. If we hit F8, we're taken back into the factory method, and if we don't realize what's going on then it's easy to let the debugger lead us astray into investigating a completely sane execution path.
Separate the statements:
Dim o As Object
Set o = factory.Create '<~ no problem here!
result.Add o '<~ object required
Now the debugger enters break mode with the correct failing statement highlighted.
The working code, for completeness' sake:
Option Explicit
Public Sub test()
Dim var As Collection
Set var = getCollectionObj(New Class1ObjectFactory)
Debug.Print var.Count
End Sub
Private Function getCollectionObj(ByVal factory As IObjectFactory) As Collection
Dim result As Collection
Set result = New Collection
Dim I As Long
For I = 1 To 5
result.Add factory.Create
Next I
Set getCollectionObj = result
End Function
Implements TheAbstractFactoryInterface
statement) for each class that can be created, and the caller decides what type gets into the collection by deciding what factory implementation to inject into the method/function.Select Case
and return an object of the correct type - then you only have one "thing" to maintain if you add a class (other than the code where you consume that type...)