Develop Reference

Evaluating a String argument as if it were in an Excel cell

I have looked through the similar questions and cannot find one that quite matches my issue: I have a UDF that I pass arguments to to retrieve data. The arguments can be simple strings (e.g. "vapour_mass_flow"), simple cell references (e.g. "C4"), or complex cell formulae (e.g. "CHOOSE($B$8, "overall", "vapour", "liquid") & _mass_flow").
I have a 'helper' function that needs to be able to resolve the argument value from parsing the arguments. I have a working parser that can extract the relevant arguments as a String() array, but I am struggling with how to get VBA to 'resolve' the complex arguments to a string value.
The 'helper' function is essentially a navigation button, that is looking to find a call to the UDF somewhere in a worksheet, and detect which call is a match on one of the arguments.
I have tried using Worksheet.Evaluate(argument) using the Worksheet object that the UDF is being called from (in any given instance). For clarity, I have:
Private Function resolveCellRef(CellRef As String, cell As Range) As String
' CellRef is the argument to the UDF as a String, cell is the calling cell in the sheet
Dim ws As Worksheet
On Error GoTo errhandler ' Use error handling to handle two known issues
Set ws = cell.Parent
resolveCellRef = ws.Evaluate(CellRef)
If error_raised Then resolveCellRef = ActiveWorkbook.Names(CellRef).RefersToRange.Value2
Exit Function
errhandler:
If Err.Number = 1004 And Not error_raised Then ' Set the error_raised flag and resume next to try a Named Range
Err.Clear: error_raised = True
Resume Next
ElseIf Err.Number = 1004 And error_raised Then ' If we get here, then the cellRef isn't a cell reference or Named Range, so just return it as is
Err.Clear
resolveCellRef = CellRef
Resume Next
End If
End Function
This code successfully resolves the argument CellRef to whatever value it contains if:
It is a simple string already (obviously)
It simply points to a cell on the same or another sheet
It is a Named Range (the error handling for this may be unnecessary now, but I originally was not using the Evaluate function and needed to check for Named Ranges in this way).
The code above does not work for my example where CellRef is equal to:
"CHOOSE($B$8, "overall", "vapour", "liquid") & _mass_flow"
Instead, the function resolves to a null string. Any thoughts on what I might be doing wrong, or whether there is a fundamental limitation here I am unaware of?
Thanks.

Turns out I had 'cleaned' my complex argument strings previously - I have left the original message unedited so you can see the text I had that was failing, but the correctly parsed argument should have read (note the " mark before _mass_flow that was missing in my original!):
"CHOOSE($B$8, "overall", "vapour", "liquid") & "_mass_flow"
So my approach was right all along, and the error handler is all not needed as well, it turns out. The Worksheet.Evaluate function handles it all for you.

Function vs Sub(ByRef)

About
This question is not about when to use a Function or a Sub, or the difference between ByRef and ByVal (although some insights will be unavoidable).
It is about scenarios which are 'commonly' solved with a Function, but can optionally be solved with a Sub using ByRef in the sense of 'modifying'.
The Code
Consider the following function:
' Returns the worksheet (object) with a specified name in a specified workbook (object).
Function getWsF(wb As Workbook, _
ByVal wsName As String) _
As Worksheet
' 'getWsF' is 'Nothing' by default.
' Try to define worksheet.
On Error Resume Next
Set getWsF = wb.Worksheets(wsName)
End Function
You can utilize it like the following:
' Writes the name of a specified worksheet, if it exists, to the `Immediate` window...
Sub testFunction()
Const wsName As String = "Sheet1"
Dim wb As Workbook
Set wb = ThisWorkbook ' The workbook containing this code.
' Define worksheet.
Dim ws As Worksheet
Set ws = getWsF(wb, wsName)
' Test if worksheet exists.
If Not ws Is Nothing Then
Debug.Print "The worksheet name is '" & ws.Name & "'."
Else
Debug.Print "Worksheet '" & wsName & "' doesn't exist in workbook '" _
& wb.Name & "'."
End If
End Sub
But you can also write each of the procedures in the following way:
' Although 'ByRef' is not necessary, I'm using it to indicate that whatever
' its variable is referring to in another procedure (in this case
' a worksheet object), is going to be modified (possibly written to
' for other datatypes).
Sub getWsS(ByRef Sheet As Worksheet, _
wb As Workbook, _
ByVal wsName As String)
' 'Sheet' could be 'Nothing' or an existing worksheet. You could omit
' the following line if you plan to use the procedure immediately
' after declaring the worksheet object, but I would consider it
' as too risky. Therefore:
' 'Reinitialize' worksheet variable.
Set Sheet = Nothing
' Try to define worksheet.
On Error Resume Next
Set Sheet = wb.Worksheets(wsName)
End Sub
' Writes the name of a specified worksheet, if it exists, to the `Immediate` window...
Sub testSub()
Const wsName As String = "Sheet1"
Dim wb As Workbook
Set wb = ThisWorkbook ' The workbook containing this code.
' Define worksheet.
Dim ws As Worksheet
getWsS ws, wb, wsName
' Test if worksheet exists.
If Not ws Is Nothing Then
Debug.Print "The worksheet name is '" & ws.Name & "'."
Else
Debug.Print "Worksheet '" & wsName & "' doesn't exist in workbook '" _
& wb.Name & "'."
End If
End Sub
Side by Side
Procedure
Function getWsF(wb As Workbook, _ Sub getWsS(ByRef Sheet As Worksheet, _
wsName As String) _ wb As Workbook, _
As Worksheet wsName As String)
Set Sheet = Nothing
On Error Resume Next On Error Resume Next
Set getWsF = wb.Worksheets(wsName) Set Sheet = wb.Worksheets(wsName)
End Function End Sub
Usage (relevant)
' Define worksheet. ' Define worksheet.
Dim ws As Worksheet Dim ws As Worksheet
Set ws = getWsF(wb, wsName) getWsS ws, wb, wsName
The Question(s)
Is the second solution viable?
I'm looking for a proper description of what each of the relevant two procedures do and some insights
in terms of common practice, readability, efficiency, pitfalls ...

In your case, I would use the Function approach and here are a few reasons:
I can use the result of the Function without storing the returning variable:
With getWsF(ThisWorkbook, "Sheet1")
'...
End With
Obviously, I would need to be sure it never returns Nothing or have some error handling in place.
or
DoSomething getWsF(ThisWorkbook, "Sheet1")
where DoSomething is a method expecting a Worksheet/Nothing
As #TimWilliams mentioned in the comments, if you don't expect multiple return values then this is the "expected" way to do it. A well-established convention is that if the method has no return value it should be a Sub. If it has a single return value then it should be a Function. If it returns multiple values then it should also be a Function and:
you either use a Class or Type to pack them as one result
or, the Function returns a primary value as the result and the rest of the return values ByRef (see #UnhandledException's answer for an example).
If you ever need to call the method with Application.Run then Function is safe. Using a Sub often leads to Automation Errors or code simply stops running after the method is executed. It doesn't matter if you need to use the result of the Function or not, don't call a Sub with Application.Run if you don't want nasty errors. Of course, to avoid issues with Application.Run, you could have a Function that doesn't get assigned a return value and still return the Worksheet ByRef but this would be too confusing for the reader.
Edit #1
Forgot to mention that the Application.Run automation errors are happening when calling methods from a different document (for Excel - different Workbook)
Edit #2
In this section I will try to address the proper description side of your question, without doing a begginer and an advanced explanation but a combined one.
Difference between a Sub and a Function
A Sub is just a function that does not return a value after the function executes. In lots of languages, such a function is called a Void Function.
The implications is that a Sub is just a stand-alone statement. It cannot be called from inside an expression. You can only call it with one of:
MySub [argsList]
Call MySub([argsList])
On the other hand, a Function can be used inside statements like:
arguments to other methods e.g. DoSomething MyFunction(...); Debug.Print MyFunction(...)
assignment e.g. x = MyFunction(...)
With blocks e.g. With MyFunction(...)
method chaining e.g. MyFunction(...).DoSomething
The convention mentioned above:
A well-established convention is that if the method has no return value it should be a Sub. If it has a single return value then it should be a Function
becomes quite clear when we understand that a Sub does something and a Function returns a single value, by definition.
Similarity between a Sub and a Function
Both value-returning functions (Function in VBA) and void functions (Sub in VBA) are receiving values as parameters. In VBA, it is possible to return results via ByRef parameters. Not all languages support ByRef parameters (e.g. Java - except modifying members of Objects for example).
Note that porting code from a platform that supports ByRef to another one that does not, can be quite time-consuming if the ByRef approach is abused in the source platform.
Difference between ByVal and ByRef parameters
Passing by value (ByVal):
a new memory space is allocated for a new variable which will be of local scope to the method being called
the contents of the original variable are copied in the newly allocated space of the new variable (for Objects the address of the interface Virtual Table is copied instead)
contents of the original variable are NOT changed regardless of what the method does
it is much safer because the programer does not need to keep in mind/care about other parts of the program (specifically the calling method)
Passing by reference (ByRef):
a new variable is created but no new memory space is allocated. Instead the new variable points to the memory space occupied by the original variable being passed from the calling method. Note that for Objects, the original variable is passed entirely (no new variable is created) unless the interface is different (passing a Collection as an Object type parameter - Object stands for IDispatch) but this is a discussion outside of the scope of this answer. Also note that if the parameter is declared as Variant, there are more complex operations happening to facilitate the redirection
the contents of the original variable can now be changed remotely because both the original variable and the newly created one point to the same memory space
it is considered more efficient because no new memory is allocated but this comes with the downside of increasing complexity
Comparison of the presented methods
Now that we have some understanding of the differences, we can look at both the presented methods. Let's start with the Sub:
Sub getWsS(ByRef Sheet As Worksheet, wb As Workbook, ByVal wsName As String)
Set Sheet = Nothing
On Error Resume Next
Set Sheet = wb.Worksheets(wsName)
End Sub
First of all, there should be an On Error GoTo 0 statement before the End Sub because otherwise the Error 9 is propagated up the calling chain (if sheet not found) and can affect logic inside other methods, long after the getWsS method has returned.
The method name starts with the verb "get" which implies that this method returns something but the method declaration is a Sub which is, by definition, more like a Do Something than a Return Something. Readability is certainly affected.
There is a need for an extra ByRef parameter to return the single piece of result. Implications:
it affects readability
it requires a declared variable inside the calling method
the result cannot he chained/used in other expressions within the calling method
it requries the extra line Set Sheet = Nothing to make sure the original variable does not retain previous contents
Now, let's look at the Function approach:
Function getWsF(wb As Workbook, ByVal wsName As String) As Worksheet
On Error Resume Next
Set getWsF = wb.Worksheets(wsName)
End Function
Same as before, there should be an On Error GoTo 0 statement before the End Function because otherwise the Error 9 is propagated up the calling chain. Also, the Workbook can be passed ByVal as best practice.
Obvious differences:
the name getSomething is perfect for a function that returns Something. Readability is far better than the Sub couterpart
the reader/maintainer of the code instantly knows that the function returns a Worksheet just by looking at the return type (as opposed to looking through a list of ByRef parameters and figuring out which one is the return variable)
the result can be chained/used in expressions
no extra lines of code are needed, the default returning value is already Nothing
the most widely accepted convention is used
I've used CTimer and it seems like on my x64 machine, the Sub approach runs faster with about 20ms when running the methods for a million times. Are these minor efficiency gains worth the loss in readability and flexibility of use? That is something that only the maintainer of the code base can decide.

To answer your question directly:
Q: Is it viable?
A: Yes, it will compile and carry out the functionality that you're expecting.
The grey area comes about when you ask should you do this.
There's definitely nothing stopping you (assuming you aren't subject to some company coding standards or anything). Typically however, functions are used to take in parameters, perform some kind of logic and return a value or object at the end of that logic.
Functions are typically non-destructive and don't change the values or properties of the input parameters. This becomes especially important for code readability and maintenance because other developers (and even yourself a few months from now) will read the code expecting functions to behave in a certain way.
Sub routines on the other hand are not expected to return anything, and so they are used to run concise, related sections of code that carry out some kind of logic relevant to the application. Going back to the point of readability and maintenance, it's reasonable to assume that objects and properties will change inside of a sub routine and so again this makes the developer's life a little easier.
Ultimately there's no hard and fast rules - but there are years of experience and best practice which are often good advice to take on in these scenarios :)

A good example for using both, a function and a ByRef parameter is a 'Try' function:
Public Function TryGetMyValue(ByRef outMyValue As Long) As Boolean
On Error Goto Catch
outMyValue = GetMyValue() 'Does anything to retrieve the value and could raise an error...
TryGetMyValue = True
Done:
Exit Function
Catch:
Resume Done
End Function
It could be used like that:
Public Sub TestTryGetMyValue()
Dim myValue As Long
If Not TryGetMyValue(myValue) Then Exit Sub
Debug.? "MyValue is: " & myValue
End Sub

How to Use the Find Function

I have recently Written some code to take an input from a userform text box and search for it in my database. If found I would like it to return the value and insert it into cell A1149; I have written the below code but it gives me error #424 "Object Required". I am very new to VBA so any and all help is greatly appreciated.
Private Sub CMDSearch_Click()
Dim pesquisa As Range
Set pesquisa = Worksheets("Petrobras").Activate.Range("$W:$W") _
.Find(What:=Opp_Num_Search.Value, LookIn:=xlValues, Lookat:=xlWhole).Activate
Worksheets("Petrobras").Range(A1149).Value = pesquisa.Value
UserForm1.Hide
End Sub

Range.Activate doesn't return anything, it's like a Sub procedure:
Public Sub DoSomething()
' does something...
End Sub
If you did Set foo = DoSomething.Something, you'd get the same error: an object is required, otherwise that .Something member call is illegal (except now the error would be at compile-time and not run-time, because of how binding works).
Set pesquisa = Worksheets("Petrobras").Activate...
You don't want to Activate any sheets.
Part of the problem is the implicit late-binding going on: Worksheets returns an Object, so everything you wrote after that, all these chained member calls, can only be resolved at run-time.
Make it early-bound, by declaring an explicit Worksheet variable:
Dim sheet As Worksheet
Set sheet = Worksheets("Petrobras")
Now if you want to activate it, you can do sheet.Activate (but you don't need to). And if you want to get a Range from that worksheet, you can make a .Range member call, and the IDE will now help you do it:
Dim result As Range
Set result = sheet.Range("$W:$W").Find(...)
NEVER chain any member calls to what Range.Find returns. If the search turned up a result, you have a Range object. If it didn't, you have Nothing - and any member call made against Nothing will always raise run-time error 91.
Validate the search result first:
If result Is Nothing Then
MsgBox "Could not find '" & Opp_Num_Search.Value & "' in column W."
Exit Sub
End If
Or:
If Not result Is Nothing Then
sheet.Range("A1149").Value = result.Value
End If
Note that A1149 is a string literal representing a cell address, and as such it must be surrounded with double quotes ("). If it's not in double quotes and it looks like a valid variable name, VBA will treat it as ..a variable... and that will cause yet another error (1004), because Range will be rather unhappy to work with a Variant/Empty value.
To prevent VBA from "declaring" on-the-fly variables with a typo (and causing hard-to-find bugs), make sure you have Option Explicit at the very top of every module in your project.
One last thing:
UserForm1.Hide
This hides the default instance of UserForm1, which may or may not be the current object / instance that's shown - and the form itself has no way to know how it was shown:
UserForm1.Show '<~ shows the default instance
With New UserForm1
.Show '<~ shows a new (non-default) instance
End With
For this reason, you should avoid referring to the default instance in a form's code-behind. Use Me instead:
Me.Hide
That way you're referring to whatever instance of the form is currently shown, whether that's the default instance or not. See UserForm1.Show for more information, tips, pitfalls and common mistakes involving userforms.
Note that Rubberduck has quite a few inspections that can identify and warn you about (and often, automatically fix) most of these problems. Rubberduck is a free and open-source VBIDE add-in project I manage.

Calling methods of a user-defined class without keyword "call"

In the following code, tests 1,2 and 3 compile, but test 3 fails at run-time with "object doesn't support this property or method": ( why?)
Sub testdrive()
Dim sh As Worksheet
Dim val As Single
Dim myfoo As New CFoo
' test 1
val = 4
myfoo.sub1 (val)
' test 2
Set sh = ThisWorkbook.Sheets(1)
Call myfoo.sub2(sh)
' test 3
myfoo.sub2 (sh)
End Sub
The class module contains only the following:
Public f As Single
Public Sub sub2(sh As Worksheet)
End Sub
Public Sub sub1(s As Single)
End Sub
I cannot find a definitive statement of when I am obliged to use the "call" keyword.
Can anybody enlighten me?

When you parenthesize a parameter without using the keyword Call, in VBA syntax, this means that you want to force evaluating it then passing its Value. For VBA, the only way to achieve this is to evaluate the parameter then pass its value to the subroutine.
This works well if the parameter is a simple type, such as Single, so it works for Public Sub sub1(s As Single) then sub1(something) works fine.
BUT when the parameter is a worksheet, such as in Public Sub sub2(sh As Worksheet), when calling sub2(sh) with parenthesis, you are asking VBA to evaluate the worksheet, which it does not know how to achieve. Basically, Worksheet is not an object that VBA can evaluate. Therefore, it says
this object does not have this property or method
It means: the class Worksheet does not have a default property such as .Value, which on the other hand exists for a Range object, for example.
You cannot parenthesize the worksheet argument, unless you use the keyword Call, which prevents its prior evaluation.
Call myfoo.sub2(sh) '<~~ works fine
myfoo.sub2 sh '<~~ works fine
myfoo.sub2(sh) '<~~ problem, you are asking VBA to evaluate sh and pass its value
Finally, note that this has nothing to do with the fact that your Subs are class methods. It would have been the same if they were normal subroutines, placed in a normal code module.

excel error 424 object required when calling sub

I spent hours looking into my code but I can't figure out what is wrong.
I keep getting this 424 error, for no obvious reason to me. here is my piece of code.
I just want to give row as a parameter to mySub to process it.
Option Explicit
Private Sub mySub(row As Range)
Debug.Print ("mySub") ' not printed
Dim line As Collection
Set line = New Collection
End Sub
Private Sub CalcClients()
Dim data_sheet As Worksheet
Dim last_row As Long
Dim last_col As String
Dim line As Long
Dim cols As Range
Dim row As Range
Set data_sheet = Worksheets("DATA")
Let last_row = data_sheet.Range("A1").End(xlDown).row
Let last_col = Col_Letter(data_sheet.Range("A1").End(xlToRight).column)
Set cols = data_sheet.Range("A2:" & last_col & last_row)
For Each row In cols.Rows
' type_name(row) => "Range"
Debug.Print (row.Cells(1, 1).Value) '=> THEEXPECTEDVALUE
mySub (row) ' Error 424, object required
Next
End Sub

Here is the reason for the observed behavior.
Your subroutine, mySub() takes one parameter as a range type.
This means you must pass it a range.
In your code you set an object variable row to a series of ranges, one at a time.
To use that range variable row as a parameter for mySub the syntax should be like this:
mySub row
Or...
Call mySub(row)
...but instead you are doing this:
mySub (row)
So, what's the difference? When you place parentheses around any variable that is standing alone (as in the above), that variable gets evaluated immediately and prior to whatever you plan to do with it.
The parentheses are a common way to override a procedure's ByRef argument and instead force a one-time ByVal parameter pass. This is because the parentheses force an evaluation of the variable and the resultant VALUE is passed instead of a reference to the variable.
In your case, you do not want to do this (in fact, in most cases you do not want to do this). When you sandwich row with parentheses, the range object is no longer passed to the routine. Instead it is evaluated and its values are passed as a Variant Array.
And since the mySub definition calls for a range object parameter, you get error 424. mySub is complaining, "Hey, this is not a range object and a range object is required!"

Add a call before it. You could also remove the () and it should work too ^_^ If you remove (), also remove the call.