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Excel 2019 Power Programming with VBA. Michael Alexander
Читать онлайн.Название Excel 2019 Power Programming with VBA
Год выпуска 0
isbn 9781119514916
Автор произведения Michael Alexander
Жанр Программы
Издательство John Wiley & Sons Limited
For Each-Next constructs
With-End With constructs
The With
-End With
construct enables you to perform multiple operations on a single object. To start understanding how the With
-End With
construct works, examine the following procedure, which modifies six properties of a selection's formatting. (The selection is assumed to be a Range
object.)
Sub ChangeFont1() Selection.Font.Name = "Cambria" Selection.Font.Bold = True Selection.Font.Italic = True Selection.Font.Size = 12 Selection.Font.Underline = xlUnderlineStyleSingle Selection.Font.ThemeColor = xlThemeColorAccent1 End Sub
You can rewrite this procedure using the With
-End With
construct. The following procedure performs exactly like the preceding one:
Sub ChangeFont2() With Selection.Font .Name = "Cambria" .Bold = True .Italic = True .Size = 12 .Underline = xlUnderlineStyleSingle .ThemeColor = xlThemeColorAccent1 End With End Sub
Some people think that the second incarnation of the procedure is more difficult to read. Remember, though, that the objective is increased speed. Although the first version may be more straightforward and easier to understand, a procedure that uses the With
-End With
construct to change several properties of an object can be faster than the equivalent procedure that explicitly references the object in each statement.
NOTE
When you record a VBA macro, Excel uses the With
-End With
construct every chance it gets. To see a good example of this construct, try recording your actions while you change the page orientation using the Page Layout ➪ Page Setup ➪ Orientation command.
For Each-Next constructs
Recall from the preceding chapter that a collection is a group of related objects. For example, the Workbooks
collection is a collection of all open Workbook
objects. You can also work with many other collections.
Suppose you want to perform some action on all objects in a collection. Or suppose you want to evaluate all objects in a collection and take action under certain conditions. These occasions are perfect for the For Each
-Next
construct because you don't have to know how many elements are in a collection to use the For Each
-Next
construct.
The syntax of the For Each
-Next
construct is as follows:
For Each element In collection [instructions] [Exit For] [instructions] Next [element]
The following procedure uses the For Each
-Next
construct with the Worksheets collection in the active workbook. When you execute the procedure, the MsgBox
function displays each worksheet's Name
property. (If five worksheets are in the active workbook, the MsgBox
function is called five times.)
Sub CountSheets() Dim Item as Worksheet For Each Item In ActiveWorkbook.Worksheets MsgBox Item.Name Next Item End Sub
NOTE
In the preceding example, Item
is an object variable (more specifically, a Worksheet
object). There's nothing special about the name Item
; you can use any valid variable name in its place.
The next example uses For Each
-Next
to cycle through all objects in the Windows collection and count the number of windows that are hidden:
Sub HiddenWindows() Dim iCount As Integer Dim Win As Window iCount = 0 For Each Win In Windows If Not Win.Visible Then iCount = iCount + 1 Next Win MsgBox iCount & " hidden windows." End Sub
For each window, if the window is hidden, the iCount
variable is incremented. When the loop ends, the message box displays the value of iCount
.
Here's an example that closes all workbooks except the active workbook. This procedure uses the If
-Then
construct to evaluate each workbook in the Workbooks
collection:
Sub CloseInactive() Dim Book as Workbook For Each Book In Workbooks If Book.Name <> ActiveWorkbook.Name Then Book.Close Next Book End Sub
A common use for the For Each
-Next
construct is to loop through all of the cells in a range. The next example of For Each
-Next
is designed to be executed after the user selects a range of cells. Here, the Selection
object acts as a collection that consists of Range
objects because each cell in the selection is a Range
object. The procedure evaluates each cell and uses the VBA UCase
function to convert its contents to uppercase. (Numeric cells are not affected.)
Sub MakeUpperCase() Dim Cell as Range For Each Cell In Selection Cell.Value = UCase(Cell.Value) Next Cell End Sub
VBA provides a way to exit a For
-Next
loop before all the elements in the collection are evaluated. Do this with an Exit For
statement. The example that follows selects the first negative value in Row 1 of the active sheet:
Sub SelectNegative() Dim Cell As Range For Each Cell In Range("1:1") If Cell.Value < 0 Then Cell.Select Exit For End If Next Cell End Sub
This example uses an If
-Then
construct to check the value of each cell. If a cell is negative, it's selected, and then the loop ends when the Exit For
statement is executed.
Controlling Code Execution
Some VBA procedures start at the top and progress line by line to the bottom. Macros that you record, for example, always work in this fashion. Often, however, you need to control the flow of your routines by skipping over some statements, executing some statements multiple times, and testing conditions to determine what the routine does next.
The preceding section describes the For Each
-Next
construct, which is a type of loop. This section discusses the additional ways of controlling the execution of your VBA procedures.
GoTo statements
If-Then constructs
Select Case constructs
For-Next loops
Do While loops
Do Until loops
GoTo statements
The most straightforward way to change the flow of a program is to use a GoTo
statement. This statement simply transfers program execution to a new instruction, which must be preceded by a label (a text string followed by a colon, or a number with no colon). VBA procedures can contain any number of labels, but a GoTo
statement can't branch outside a procedure.
The following procedure uses the VBA InputBox
function to get the user's name. If the name is not Howard, the procedure branches to the WrongName
label and ends. Otherwise, the procedure executes some additional code. The Exit Sub
statement causes the procedure to end.
Sub GoToDemo() UserName = InputBox("Enter Your Name:") If UserName <> "Howard" Then GoTo WrongName MsgBox ("Welcome Howard…") ' -[More code here] - Exit Sub WrongName: MsgBox "Sorry. Only Howard can run this macro." End Sub
This simple procedure works, but it's not an example of good programming. In general, you should use the GoTo
statement only when you have no other way to perform an action.