Excel object in cell

Excel has a layer for objects. You cannot put any object, be it image, shape, chart, etc. inside a cell. The best you can do is to format the object to move and size as you intend when the underlying cells are manipulated. You can do that by formatting the object and selecting the «Properties» tab or link (depending on your Excel version).

If you insert an object (in the screenshot it’s a shape), the default settings are to «Move and resize with cells

enter image description here

In general, this means that the object’s dimensions will be stretched out of proportion when the underlying row height or column width is changed.

enter image description here

In many cases, the setting to «Move but don’t size with cell» will be the best choice, but it must be set before any row or column changes are applied. Then, changing row height or column width will not affect the object size at all.

enter image description here

In the latter example, the upper left corner of the object will always be positioned at exactly that cell. If rows or columns are resized/inserted/deleted, the object will retain its size.

With regards to the Equation object, it looks as if the defaults for this are already set to «Move but don’t size with cells». So, the only thing you need to do is to position the object where you want it to appear.

enter image description here

Tip: If you hold down the Alt key while dragging an object, it will snap to the grid of the Excel spreadsheet, so you can easily align an object’s top left corner to the top left corner of a particular cell.

If your concern is with maintaining an object with its associated cells, then make sure that the cell is anchored (Alt — drag) to the desired row and use «Move but don’t size with cells».

In the following screenshot, three Equation objects have been positioned in column B. Column A has some text values. The Equation objects have been Alt-dragged to align perfectly with the cells. The column widths and row heights of have been adjusted so it looks as if the Equation object are INSIDE the cell (which they are not).

enter image description here

Using the Sort functionality of Excel, the table is then sorted by the values in column A. Here is the result:

enter image description here

Each equation object stays with its allocated order marker in column A, because the objects move with their underlying cells, but they are not resized when the cell dimensions change.


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  • Inserting a File
  • |

  • Inserting an Image

Microsoft Excel allows you to include other files, such as Word documents and PDFs, into a spreadsheet. This wikiHow will show you how to insert a file as an object into an Excel project using OLE (object linking and embedding).

  1. Image titled Insert an Object in Excel Step 1

    1

    Open your project in Excel. You can open your project within Excel by clicking Open from the File tab, or you can right-click on the file in a file browser and click Open With and Excel.

    • This method works for newer versions of Excel on either PC or Mac.
  2. Image titled Insert an Object in Excel Step 2

    2

    Click the cell in which you want to insert the object. Whenever people view this cell, they will find the embedded document.

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  3. Image titled Insert an Object in Excel Step 3

    3

    Click the Insert tab. You’ll find this in the ribbon above the document editor or at the top of your screen.

  4. Image titled Insert an Object in Excel Step 4

    4

    Click the icon that looks like a program window on a sheet of paper. This is the «Object» icon and can be found in the «Text» group. A box will pop up.

  5. Image titled Insert an Object in Excel Step 5

    5

    Click the Create from File tab. The tab will switch from «Create New.»

  6. Image titled Insert an Object in Excel Step 6

    6

    Click Browse. Your file browser will open.

  7. Image titled Insert an Object in Excel Step 7

    7

    Navigate to and double-click your file. Only compatible files will show up in the browser, like PowerPoints, PDFs, and Word documents.

  8. Image titled Insert an Object in Excel Step 8

    8

    Choose to select «Display as icon.« If you select «Display as icon,» you’ll see the icon of the document appear in the cell; if you don’t choose «Display as icon,» the full first page of the document will appear. Regardless of your choice, both embedded documents will link to the full document.

  9. Image titled Insert an Object in Excel Step 9

    9

    Click OK. You’ll see this at the bottom right of the pop-up window. The document you selected will appear in the cell either as the full first-page document or icon.[1]

  10. Advertisement

  1. Image titled Insert an Object in Excel Step 10

    1

    Open your project in Excel. You can open your project within Excel by clicking Open from the File tab, or you can right-click on the file in a file browser and click Open With and Excel.

    • This method works for newer versions of Excel on either PC or Mac.
  2. Image titled Insert an Object in Excel Step 11

    2

    Click the cell you want to insert the object.

  3. Image titled Insert an Object in Excel Step 12

    3

    Click the Insert tab. You’ll find this in the ribbon above the document editor or at the top of your screen.

  4. Image titled Insert an Object in Excel Step 13

    4

    Click the Pictures icon. You’ll find this in the «Illustrations» group. A file browser will pop up.

  5. Image titled Insert an Object in Excel Step 14

    5

    Navigate to and double-click on your image. The list of compatible file types is long, but all the common file types are accepted like GIF, JPG, and PNG.

    • The image is inserted into your document. You can edit the image using the Picture Tools tab.[2]
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References

About This Article

Article SummaryX

1. Open your project in Excel.

2. Click the cell you want to insert the object.

3. Click the Object icon in the Insert tab.

4. Click the Create from File tab.

5. Click Browse and navigate to and double-click the file.

6. Choose to «Display as icon» or not.

7. Click OK.

Did this summary help you?

Thanks to all authors for creating a page that has been read 28,976 times.

Is this article up to date?

So i was using a for each loop to go through a bunch of rows. I ran into a problem where i was deleting rows and it was causing a row to get skipped so i have changed to a do while loop.

The problem i am having is trying to get a ‘cell’ object. Before when i had:

For Each C In Worksheets("Blah").Range("A2:A" & lastRow).Cells

I could do things like

C.Offset(1, 0)
C.Value = "Troy"

Etc. I tried using:

C = Worksheets("Blah").Cells(iRow, 2)

but that just gives C the value of the cell. How do i get the actual cell object?

Thanks

asked Aug 13, 2012 at 21:13

Troy Cosentino's user avatar

Troy CosentinoTroy Cosentino

4,5989 gold badges36 silver badges58 bronze badges

When you delete rows, it’s always best to go from the bottom up. Your particular problem is that you need the Set keyword to set C to the range object rather than «Let» C to the range Value. Range’s have a default property, Value, and when you omit a property that’s the property that’s used. For that reason, you have to use Set when assigning object variables. Here’s an example of looping backward to delete rows and assigning an object variable.

Sub DeleteRows()

    Dim i As Long
    Dim rRng As Range
    Dim rCell As Range

    Set rRng = Sheet1.Range("A1:A9")

    For i = rRng.Rows.Count To 1 Step -1
        Set rCell = rRng.Cells(i, 1)
        If rCell.Value Mod 2 = 1 Then
            rCell.EntireRow.Delete
        End If
    Next i

End Sub

answered Aug 13, 2012 at 21:23

Dick Kusleika's user avatar

Dick KusleikaDick Kusleika

32.5k4 gold badges51 silver badges73 bronze badges

1

To get an object reference and not the value itself you need to use ‘Set’

Set C = Worksheets("Blah").Cells(iRow, 2)

answered Feb 25, 2019 at 17:54

Валерий Зайцев's user avatar

In this Article

  • Ranges and Cells in VBA
    • Cell Address
    • Range of Cells
    • Writing to Cells
    • Reading from Cells
    • Non Contiguous  Cells
    • Intersection of  Cells
    • Offset from a Cell or Range
    • Setting Reference to a Range
    • Resize a Range
    • OFFSET vs Resize
    • All Cells in Sheet
    • UsedRange
    • CurrentRegion
    • Range Properties
    • Last Cell in Sheet
    • Last Used Row Number in a Column
    • Last Used Column Number in a Row
    • Cell Properties
    • Copy and Paste
    • AutoFit Contents
  • More Range Examples
    • For Each
    • Sort
    • Find
    • Range Address
    • Range to Array
    • Array to Range
    • Sum Range
    • Count Range

Ranges and Cells in VBA

Excel spreadsheets store data in Cells. Cells are arranged into Rows and Columns. Each cell can be identified by the intersection point of it’s row and column (Exs. B3 or R3C2).

An Excel Range refers to one or more cells (ex. A3:B4)

Cell Address

A1 Notation

In A1 notation, a cell is referred to by it’s column letter (from A to XFD) followed by it’s row number(from 1 to 1,048,576). This is called a cell address.

In VBA you can refer to any cell using the Range Object.

' Refer to cell B4 on the currently active sheet
MsgBox Range("B4")

' Refer to cell B4 on the sheet named 'Data'
MsgBox Worksheets("Data").Range("B4")

' Refer to cell B4 on the sheet named 'Data' in another OPEN workbook
' named 'My Data'
MsgBox Workbooks("My Data").Worksheets("Data").Range("B4")

R1C1 Notation

In R1C1 Notation a cell is referred by R followed by Row Number then letter ‘C’ followed by the Column Number. eg B4 in R1C1 notation will be referred by R4C2. In VBA you use the Cells Object to use R1C1 notation:

' Refer to cell R[6]C[4] i.e D6
Cells(6, 4) = "D6"

Range of Cells

A1 Notation

To refer to a more than one cell use a “:” between the starting cell address and last cell address. The following will refer to all the cells from A1 to D10:

Range("A1:D10")

R1C1 Notation

To refer to a more than one cell use a “,” between the starting cell address and last cell address. The following will refer to all the cells from A1 to D10:

Range(Cells(1, 1), Cells(10, 4))

Writing to Cells

To write values to a cell or contiguous group of cells, simple refer to the range, put an = sign and then write the value to be stored:

' Store F5 in cell with Address F6
Range("F6") = "F6"

' Store E6 in cell with Address R[6]C[5] i.e E6
Cells(6, 5) = "E6"

' Store A1:D10 in the range A1:D10
Range("A1:D10") = "A1:D10"
' or
Range(Cells(1, 1), Cells(10, 4)) = "A1:D10"

Reading from Cells

To read values from cells, simple refer to the variable to store the values, put an = sign and then refer to the range to be read:

Dim val1
Dim val2

' Read from cell F6
val1 = Range("F6")

' Read from cell E6
val2 = Cells(6, 5)

MsgBox val1
Msgbox val2

Note: To store values from a range of cells, you need to use an Array instead of a simple variable.

Non Contiguous  Cells

To refer to non contiguous  cells use a comma between the cell addresses:

' Store 10 in cells A1, A3, and A5
Range("A1,A3,A5") = 10


' Store 10 in cells A1:A3 and D1:D3) 
Range("A1:A3, D1:D3") = 10

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Intersection of  Cells

To refer to non contiguous  cells use a space between the cell addresses:

' Store 'Col D' in D1:D10
' which is Common between A1:D10 and D1:F10
Range("A1:D10 D1:G10") = "Col D"

Offset from a Cell or Range

Using the Offset function, you can move the reference from a given Range (cell or group of cells) by the specified number_of_rows, and number_of_columns.

Offset Syntax

Range.Offset(number_of_rows, number_of_columns)

Offset from a cell

' OFFSET from a cell A1
' Refer to cell itself
' Move 0 rows and 0 columns
Range("A1").Offset(0, 0) = "A1"

' Move 1 rows and 0 columns
Range("A1").Offset(1, 0) = "A2"

' Move 0 rows and 1 columns
Range("A1").Offset(0, 1) = "B1"

' Move 1 rows and 1 columns
Range("A1").Offset(1, 1) = "B2"

' Move 10 rows and 5 columns
Range("A1").Offset(10, 5) = "F11"

Offset from a Range

' Move Reference to Range A1:D4 by 4 rows and 4 columns
' New Reference is E5:H8
Range("A1:D4").Offset(4,4) = "E5:H8"

Setting Reference to a Range

To assign a range to a range variable: declare a variable of type Range then use the Set command to set it to a range. Please note that you must use the SET command as RANGE is an object:

' Declare a Range variable
Dim myRange as Range

' Set the variable to the range A1:D4
Set myRange = Range("A1:D4")

' Prints $A$1:$D$4
MsgBox myRange.Address

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Resize a Range

Resize method of Range object changes the dimension of the reference range:

Dim myRange As Range

' Range to Resize
Set myRange = Range("A1:F4")

' Prints $A$1:$E$10
Debug.Print myRange.Resize(10, 5).Address

Top-left cell of the Resized range is same as the top-left cell of the original range

Resize Syntax

Range.Resize(number_of_rows, number_of_columns)

OFFSET vs Resize

Offset does not change the dimensions of the range but moves it by the specified number of rows and columns. Resize does not change the position of the original range but changes the dimensions to the specified number of rows and columns.

All Cells in Sheet

The Cells object refers to all the cells in the sheet (1048576 rows and 16384 columns).

' Clear All Cells in Worksheets
Cells.Clear

UsedRange

UsedRange property gives you the rectangular range from the top-left cell used cell to the right-bottom used cell of the active sheet.

Dim ws As Worksheet
Set ws = ActiveSheet

' $B$2:$L$14 if L2 is the first cell with any value 
' and L14 is the last cell with any value on the
' active sheet
Debug.Print ws.UsedRange.Address

CurrentRegion

CurrentRegion property gives you the contiguous rectangular range from the top-left cell to the right-bottom used cell containing the referenced cell/range.

Dim myRange As Range

Set myRange = Range("D4:F6")

' Prints $B$2:$L$14
' If there is a filled path from D4:F16 to B2 AND L14
Debug.Print myRange.CurrentRegion.Address

' You can refer to a single starting cell also

Set myRange = Range("D4") ' Prints $B$2:$L$14

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Range Properties

You can get Address, row/column number of a cell, and number of rows/columns in a range as given below:

Dim myRange As Range

Set myRange = Range("A1:F10")

' Prints $A$1:$F$10
Debug.Print myRange.Address

Set myRange = Range("F10")

' Prints 10 for Row 10
Debug.Print myRange.Row

' Prints 6 for Column F
Debug.Print myRange.Column

Set myRange = Range("E1:F5")
' Prints 5 for number of Rows in range
Debug.Print myRange.Rows.Count

' Prints 2 for number of Columns in range
Debug.Print myRange.Columns.Count

Last Cell in Sheet

You can use Rows.Count and Columns.Count properties with Cells object to get the last cell on the sheet:

' Print the last row number
' Prints 1048576
Debug.Print "Rows in the sheet: " & Rows.Count

' Print the last column number
' Prints 16384
Debug.Print "Columns in the sheet: " & Columns.Count

' Print the address of the last cell
' Prints $XFD$1048576
Debug.Print "Address of Last Cell in the sheet: " & Cells(Rows.Count, Columns.Count)

Last Used Row Number in a Column

END property takes you the last cell in the range, and End(xlUp) takes you up to the first used cell from that cell.

Dim lastRow As Long

lastRow = Cells(Rows.Count, "A").End(xlUp).Row

Last Used Column Number in a Row

Dim lastCol As Long

lastCol = Cells(1, Columns.Count).End(xlToLeft).Column

END property takes you the last cell in the range, and End(xlToLeft) takes you left to the first used cell from that cell.

You can also use xlDown and xlToRight properties to navigate to the first bottom or right used cells of the current cell.

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Cell Properties

Common Properties

Here is code to display commonly used Cell Properties

Dim cell As Range
Set cell = Range("A1")

cell.Activate
Debug.Print cell.Address
' Print $A$1

Debug.Print cell.Value
' Prints 456
' Address

Debug.Print cell.Formula
' Prints =SUM(C2:C3)

' Comment
Debug.Print cell.Comment.Text

' Style
Debug.Print cell.Style

' Cell Format
Debug.Print cell.DisplayFormat.NumberFormat

Cell Font

Cell.Font object contains properties of the Cell Font:

Dim cell As Range

Set cell = Range("A1")

' Regular, Italic, Bold, and Bold Italic
cell.Font.FontStyle = "Bold Italic"
' Same as
cell.Font.Bold = True
cell.Font.Italic = True

' Set font to Courier
cell.Font.FontStyle = "Courier"

' Set Font Color
cell.Font.Color = vbBlue
' or
cell.Font.Color = RGB(255, 0, 0)

' Set Font Size
cell.Font.Size = 20

Copy and Paste

Paste All

Ranges/Cells can be copied and pasted from one location to another. The following code copies all the properties of source range to destination range (equivalent to CTRL-C and CTRL-V)

'Simple Copy
Range("A1:D20").Copy 
Worksheets("Sheet2").Range("B10").Paste

'or
' Copy from Current Sheet to sheet named 'Sheet2'
Range("A1:D20").Copy destination:=Worksheets("Sheet2").Range("B10")

Paste Special

Selected properties of the source range can be copied to the destination by using PASTESPECIAL option:

' Paste the range as Values only
Range("A1:D20").Copy
Worksheets("Sheet2").Range("B10").PasteSpecial Paste:=xlPasteValues

Here are the possible options for the Paste option:

' Paste Special Types
xlPasteAll
xlPasteAllExceptBorders
xlPasteAllMergingConditionalFormats
xlPasteAllUsingSourceTheme
xlPasteColumnWidths
xlPasteComments
xlPasteFormats
xlPasteFormulas
xlPasteFormulasAndNumberFormats
xlPasteValidation
xlPasteValues
xlPasteValuesAndNumberFormats

AutoFit Contents

Size of rows and columns can be changed to fit the contents using AutoFit:

' Change size of rows 1 to 5 to fit contents 
Rows("1:5").AutoFit

' Change size of Columns A to B to fit contents 
Columns("A:B").AutoFit

More Range Examples

It is recommended that you use Macro Recorder while performing the required action through the GUI. It will help you understand the various options available and how to use them.

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For Each

It is easy to loop through a range using For Each construct as show below:

For Each cell In Range("A1:B100")
    ' Do something with the cell
Next cell

At each iteration of the loop one cell in the range is assigned to the variable cell and statements in the For loop are executed for that cell. Loop exits when all the cells are processed.

Sort

Sort is a method of Range object. You can sort a range by specifying options for sorting to Range.Sort. The code below will sort the columns A:C based on key in cell C2. Sort Order can be xlAscending or xlDescending. Header:= xlYes should be used if first row is the header row.

   Columns("A:C").Sort key1:=Range("C2"), _
      order1:=xlAscending, Header:=xlYes

Find

Find is also a method of Range Object. It find the first cell having content matching the search criteria and returns the cell as a Range object. It return Nothing if there is no match.

Use FindNext method (or FindPrevious) to find next(previous) occurrence.

Following code will change the font to “Arial Black” for all cells in the range which start with “John”:

For Each c In Range("A1:A100")
    If c Like "John*" Then
        c.Font.Name = "Arial Black"
    End If
Next c

Following code will replace all occurrences of  “To Test” to “Passed” in the range specified:

With Range("a1:a500")
    Set c = .Find("To Test", LookIn:=xlValues)
    If Not c Is Nothing Then
        firstaddress = c.Address
        Do
            c.Value = "Passed"
            Set c = .FindNext(c)
        Loop While Not c Is Nothing And c.Address <> firstaddress
    End If
End With

It is important to note that you must specify a range to use FindNext. Also you must provide a stopping condition otherwise the loop will execute forever. Normally address of the first cell which is found is stored in a variable and loop is stopped when you reach that cell again. You must also check for the case when nothing is found to stop the loop.

Range Address

Use Range.Address to get the address in A1 Style

MsgBox Range("A1:D10").Address
' or
Debug.Print Range("A1:D10").Address

Use xlReferenceStyle (default is xlA1) to get addres in R1C1 style

MsgBox Range("A1:D10").Address(ReferenceStyle:=xlR1C1)
' or
Debug.Print Range("A1:D10").Address(ReferenceStyle:=xlR1C1) 

This is useful when you deal with ranges stored in variables and want to process for certain addresses only.

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Range to Array

It is faster and easier to transfer a range to an array and then process the values. You should declare the array as Variant to avoid calculating the size required to populate the range in the array. Array’s dimensions are set to match number of values in the range.

Dim DirArray As Variant
' Store the values in the range to the Array

DirArray = Range("a1:a5").Value

' Loop to process the values
For Each c In DirArray
    Debug.Print c
Next

Array to Range

After processing you can write the Array back to a Range. To write the Array in the example above to a Range you must specify a Range whose size matches the number of elements in the Array.

Use the code below to write the Array to the range D1:D5:

Range("D1:D5").Value = DirArray 

Range("D1:H1").Value = Application.Transpose(DirArray)

Please note that you must Transpose the Array if you write it to a row.

Sum Range

SumOfRange = Application.WorksheetFunction.Sum(Range("A1:A10"))
Debug.Print SumOfRange

You can use many functions available in Excel in your VBA code by specifying Application.WorkSheetFunction. before the Function Name as in the example above.

Count Range

' Count Number of Cells with Numbers in the Range
CountOfCells = Application.WorksheetFunction.Count(Range("A1:A10"))
Debug.Print CountOfCells

' Count Number of Non Blank Cells in the Range
CountOfNonBlankCells = Application.WorksheetFunction.CountA(Range("A1:A10"))
Debug.Print CountOfNonBlankCells

Written by: Vinamra Chandra

Excel VBA Tutorial about the Range Object and cell rangesWhat is the first thing that comes to your mind when thinking about Excel?

In my case, it’s probably cells. After all, most of the time we spend working with Excel, we’re working with cells. Therefore, it makes sense that, when using Visual Basic for Applications for purposes of becoming more efficient users of Excel, one of the topics we must learn is how to work with cells within the VBA environment.

This VBA tutorial provides a basic explanation of how to work with cells using Visual Basic for Applications. More precisely, in this particular post I explain all the basic details you need to know to work with Excel’s VBA Range object. Range is the object that you use for purposes of referencing and working with cells within VBA.

However, the importance of Excel’s VBA Range object doesn’t end with the above. A substantial amount of the work you carry out with Excel involves the Range object. The Range object is one of the most commonly used objects in Excel VBA.

Despite the importance of Excel’s VBA Range, creating references to objects is generally one of the most confusing topics for users who are beginning to work with macros and Visual Basic for Applications. In the case of cell ranges, this is (to a certain extent) understandable, since VBA allows you to refer to ranges in many different ways.

The fact remains that, regardless of how confusing the topic of Excel’s VBA Range object may be, you must master it in order to become a macro and VBA expert. My main purpose with this VBA tutorial is to help you understand the basic matters surrounding this topic and illustrate the most common ways in which you can refer to Excel’s VBA Range object using Visual Basic for Applications.

More precisely, in this post you’ll learn about the following topics related to Excel’s VBA Range object:

Let’s start by taking a more detailed look at…

What Is Excel’s VBA Range Object

Excel’s VBA Range is an object. Objects are what is manipulated by Visual Basic for Applications.

More precisely, you can use the Range object to represent a range within a worksheet. This means that, by using Excel’s VBA Range object, you can refer to:

  • A single cell.
  • A row or a column of cells.
  • A selection of cells, regardless of whether they’re contiguous or not.
  • A 3-D range.

As you can see from the above, the size of Excel’s VBA Range objects can vary widely. At the most basic level, you can be making reference to a single (1) cell. On the other extreme, you have the possibility of referencing all of the cells in an Excel worksheet.

Despite this flexibility when referring to cells within a particular Excel worksheet, Excel’s VBA Range object does have some limitations. The most relevant is that you can only use it to refer to a single Excel worksheet at a time. Therefore, in order to refer to ranges of cells in different worksheets, you must use separate references for each of the worksheets.

How To Refer To Excel’s VBA Range Object

One of the first things you’ll have to learn in order to master Excel’s VBA Range object is how to refer to it. The following sections explain the most relevant rules you need to know in order to craft appropriate references.

The first few sections cover the most basic way of referring to Excel’s VBA Range object: the Range property. This is also how the macro recorder generally refers to the Range object.

However, further down, you’ll find some additional methods to create object references, such as using the Cells or Offset properties.

These are, however, not the only ways to refer to Excel’s VBA Range objects. There are a few more advanced methods, such as using the Application.Union method, which I don’t cover in this beginners VBA tutorial.

You may be wondering, which way is the best for purposes of referring to Excel’s VBA Range object?

Generally, the best method to use in order to craft a reference to Excel’s VBA Range object depends on the context and your specific needs.

Introduction To Referencing Excel’s VBA Range Object And The Object Qualifier

In order to be able to work appropriately with Range objects, you must understand how to work with the 2 main parts of a reference to Excel’s VBA Range object:

  • The object qualifier. This makes reference, more generally, to the general rules to creating object references. I cover this topic thoroughly here.
  • The relevant property or method that you’re using for purposes of returning a Range object. This makes reference, more generally, to the specific rules that apply to referring to Excel’s VBA Range object.

This VBA tutorial focuses on the second element above: the main properties you can use in order to refer to Excel’s VBA Range object.

Nonetheless, I explain a few key points regarding object referencing below. If you’re interested in learning more about the general rules that apply to object references, please refer to Excel VBA Object Model And Object References: The Essential Guide, which you can find in the Archives.

Introduction To Fully Qualified VBA Object References

Objects are capable of acting as containers for other objects.

At a basic level, when referencing a particular object, you tell Excel what the object is by referencing all of its parents. In other words, you go through Excel’s VBA object hierarchy.

You move through Excel’s object hierarchy by using the dot(.) operator to connect the objects at each of the different levels.

These types of specific references are known as fully qualified references.

How does a fully qualified reference look in the case of Excel’s VBA Range object?

The object at the top of the Excel VBA object hierarchy is Application. Application itself contains other objects.

Excel’s VBA Range object is contained within the Worksheet object. More precisely:

  • The Worksheet object has a Range property (Worksheet.Range).
  • The Worksheet.Range property returns a Range object.

The parent object of Worksheets is the Workbook object. Workbooks itself is contained within the Application object.

The hierarchical relationship between these different objects looks as follows:

Excel's VBA Range object reference

Therefore, the basic structure you must use to refer to Excel’s VBA Range object is the following:

Application.Workbooks.Worksheets.Range

You’ll notice that a few things within the basic structure described above are ambiguous. In particular, you’ll notice that this doesn’t specify the particular Excel workbook or worksheet that you’re referring to. In order to do this, you must understand…

How To Refer To An Object From A Collection

Within Visual Basic for Applications, an object collection is a group of related objects.

Both Workbooks and Worksheets, which are used to create a fully qualified reference to Excel’s VBA Range object, are examples of collections. There are 2 basic ways to refer to a particular object within a collection:

  • Use the VBA object name. In this case, the syntax is “Collection_name(“Object_name”)”.
  • Use an index number instead of the object name. If you choose this option, the basic syntax is “Collection_name(Index_number)”.

Notice how, in the first method you must use quotations (“”) within the parentheses. If you use the second method, you don’t have to surround the Index_number with quotes.

Let’s assume, then, that you want to work with the Worksheet named “Sheet1” within the Workbook “Book1.xlsm”. Depending on which of the 2 methods to refer to an object within a collection you use, the reference looks different.

If you create the reference using the VBA object name, the reference looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range

Whereas if you decide to use an index number, the reference is the following:

Application.Workbooks(1).Worksheets(1).Range

I usually use the first option when working with Visual Basic for Applications. Therefore, this is the method that I use in the examples throughout this VBA tutorial.

Simplifying Fully Qualified Object References

Excel’s VBA object model contains some default objects. These are assumed unless you enter something different.

You can simplify fully qualified object references by relying on these default VBA objects. I don’t generally suggest doing this blindly, as it involves some dangers.

There are 2 main types of default objects that you can use for purposes of simplifying fully qualified object references:

  • The Application object.
  • The active Workbook and Worksheet objects.

The Application object is always assumed. In other words, Visual Basic for Applications always assumes that you’re working with Excel itself. Therefore, you can simplify your fully qualified object references by omitting the Application. For example, in the cases that I use as an example above, the simplified references are as follows:

Workbooks("Book1.xlsm").Worksheets("Sheet1").Range
Workbooks(1).Worksheets(1).Range

Additionally, VBA assumes that you’re working with the current active workbook and active worksheet. This simplification is trickier than the previous one because it relies on you correctly identifying the active workbook and worksheet. As you’ll imagine, this is slightly more difficult than identifying the Excel application itself 😉 .

However, you can also use these 2 default objects for creating even simpler VBA object references. Continuing with the same examples above, these become:

Range

This brings us to the end of the introduction to the general rules to creating VBA object references. This summary has explained how to create fully qualified references and simplify them for purposes of creating the object qualifier that you use when crafting references to Excel’s VBA Range object.

The following sections focus on the specific rules that you can apply for purposes of referring to Excel’s VBA Range object. These are the most commonly used properties for returning a Range object.

How To Refer To Excel’s VBA Range Object Using The Range Property

The sections above explain, to a certain extent, the basic rules that you can apply to refer to Excel’s VBA Range object. Let’s start by recalling the 2 methods you can use to create a fully qualified reference if you’re working with the worksheet called “Sheet1” within the workbook named “Book1.xlsm”.

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range
Application.Workbooks(1).Worksheets(1).Range

You need to specify the particular range you want to work with. In other words, just using “Range” as it still appears in the examples above, isn’t enough.

Perhaps the most basic way to refer to Excel’s VBA Range object is by using the Range property. When applied, this property returns a Range object which represents a cell or range of cells.

There are 2 versions of the Range property: the Worksheet.Range property and the Range.Range property. The logic behind both of them is the substantially the same. The main difference is to which object they’re applied:

  • In the case of the Worksheet.Range property, the Range property is applied to a worksheet.
  • When using the Range.Range property, Range is applied to a range.

In other words, the Range property can be applied to 2 different types of objects:

  • Worksheet objects.
  • Range objects.

In the sections above, I explain how to create fully qualified object references. You’ve probably noticed that, in all of the examples above, the parent of Excel’s VBA Range object is the Worksheet object. In other words, in these cases, the Range property is applied to a Worksheet object.

However, you can also apply the Range property to a Range object. If you do this, the object returned by the Range property changes.

The reason for this, as explained by Microsoft, is that the Range.Range property acts in relation to the object to which it is applied to. Therefore, if you apply the Range.Range property, the property acts relative to the Range object, not the worksheet.

This means that you can apply the Range.Range property for purposes of referencing a range in relation to another range. I provide examples of how such a reference works below.

Basic Syntax Of The Range Property

The basic syntax that you can use to refer to Excel’s VBA Range object is “expression.Range(“Cell_Range”)”. You’ll notice that this syntax follow the general rules that I explain above for other VBA objects such as Workbooks and Worksheets. In particular, you’ll notice that there are 4 basic elements:

  • Element #1: The keyword “Range”.
  • Element #2: Parentheses that follow the keyword.
  • Element #3: The relevant cell range. I explain different ways in which you can define the range below.
  • Element #4: Quotations. The Cell_Range to which you’re making reference is generally within quotations (“”).

In this particular case, “expression” is simply a variable representing a Worksheet object (in the case of the Worksheet.Range property) or a Range object (for the Range.Range object).

Perhaps the most interesting item in the syntax of the Range property is the Cell_Range.

Let’s take a look at some of its characteristics…

In very broad terms, you can usually make reference to Cell_Range in a similar way to the one you use when writing a regular Excel formula. This means using A1-style references. However, there are a few important particularities, which I introduce in this section.

Don’t worry if everything seems a little bit confusing at first. I show some sample references in the following sections in order to make everything clear.

You can use 2 different syntaxes to define the range you want to work with:

Syntax #1: (“Cell1”)

This is the minimum you must include for purposes of defining the relevant cell range. As a general rule, when you use this syntax, the argument (Cell1) must be either of the following:

  • A string expressing the cell range address.
  • The name of a named cell range.

When naming a range, you can use any of the following 3 operators:

  • Colon (:): This is the operator you use to set up arrays. In the context of referring to cell ranges, you can use to refer to entire columns or rows, ranges of contiguous cells or ranges of noncontiguous cells.
  • Space ( ): This is the intersection operator. As shown below, you can use the intersection operator for purposes of referring to cells that are common to 2 separate ranges.
  • Comma (,): This is the union operator, which you can use to combine several ranges. As shown in the example below, you can use this operator when working with ranges of noncontiguous cells.

Syntax #2: “(Cell1, Cell2)”

If you choose to use this syntax, you’re basically delineating the relevant range by naming the cells in 2 of its corners:

  • “Cell1” is the cell in the upper-left corner of the range.
  • “Cell2” is the cell in the lower-right corner of the range.

However, this syntax isn’t as restrictive as it may seem at first glance. In this case, arguments can include:

  • Range objects;
  • Cell range addresses;
  • Named cell range names; or
  • A combination of the above items.

Let’s take a look at some specific applications of the Range property:

How To Refer To A Single Cell Using The Worksheet.Range Property

If the Excel VBA Range object you want to refer to is a single cell, the syntax is simply “Range(“Cell”)”. For example, if you want to make reference to a single cell, such as A1, type “Range(“A1″)”.

Example of how to refer to single cell with Worksheet.Range property

We can take it a step further and create a fully qualified reference for this single cell, assuming that we continue to work with Sheet1 within Book1.xlsm:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1")

You’ve probably noticed something very important:

There is no such thing as a Cell object. Cell is not an object by itself. Cells are contained within the Range object.

Perhaps even more accurately, cells are a property. Properties are the characteristics that you can use to describe an object. I cover the topic of object properties here.

You can actually use this property (Cells) to refer to a range. I explain how you can do this below.

The example above applies the Range property to a Worksheet object. In other words, it is an example of the Worksheet.Range property.

Now let’s take a look at what happens if the Range property is applied to a Range object:

How To Refer To A Single Cell In Relation To Another Range Using The Range.Range Property

Let’s assume, that instead of specifying a fully qualified reference as above, you simply use the Selection object as follows:

Selection.Range("A1")

Further, let’s assume that the current selection is the cell range between C3 and D5 (cells C3, C4, C5, D3, D4 and D5) of the active Excel worksheet. This selection is a Range object.

Example Range object in Excel

Since the Selection object represents the current selected area in the document, the reference above returns cell C3. It doesn’t return cell A1, as the previous fully qualified reference.

Example of referring to single cell with VBA Range.Range property

The reason for the different behavior of the 2 sample references above is because the Range property behaves relative to the object to which it is applied. In other words, when the Range property is applied to a Range object, it behaves relative to that Range (more precisely, its upper-left corner). When it is applied to a Worksheet object, it behaves relative to the Worksheet.

Creating references by applying the Range property to a Range object is not very straightforward. I personally find it a little confusing and counterintuitive.

However, the ability to refer to cells in relation to other range has several advantages. This allows you to (for example) refer to a cell without knowing its address beforehand.

Fortunately, there are alternatives for purposes of referring to a particular cell in relation to a range. The main one is the Range.Offset property, which I explain below.

How To Refer To An Entire Column Or Row Using The Worksheet.Range Property

Excel’s VBA Range objects can consist of complete rows or columns. You can refer to an entire row or column as follows:

  • Row: “Range(“Row_Number:Row_Number”)”.
  • Column: “Range(“Column_Letter:Column_Letter”)”.

For example, if you want to refer to the first row (Row 1) of a particular Excel worksheet, the syntax is “Range(“1:1″)”.

Excel's VBA Range object reference example entire row

If, on the other hand, you want to refer to the first column (Column A), you type “Range(“A:A”).

Excel's VBA Range object reference example: Entire column

Assuming that you’re working with Sheet 1 within Book1.xlsm, the fully qualified references are as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("1:1")
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A:A")

How To Refer To A Range Of Contiguous Cells Using The Worksheet.Range Property

You can refer to a range of cells by using the following syntax: “Range(“Cell_Range”). I describe how you can use 2 different syntaxes for purposes of referring to these type of ranges above:

  • By identifying the full range.
  • By delineating the range, naming the cells in its upper-left and lower-right corners.

Let’s take a look at how both of these look like in practice:

If you want to make reference to a range of cells between cells A1 and B5 (A1, A2, A3, A4, A5, B1, B2, B3, B4 and B5), one appropriate syntax is “Range(“A1:B5″)”. Continuing to work with Sheet1 within Book1.xlsm, the fully qualified reference is as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:B5")

Object reference example: Range

However, if you choose to apply the second syntax, where you delineate the relevant range, the appropriate syntax is “Range(“A1”, “B5″)”. In this case, the fully qualified reference looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1", "B5")

How To Refer To A Range Of NonContiguous Cells Using The Worksheet.Range Property

The syntax for purposes of referring to a range of noncontiguous cells in Excel is very similar to that used to refer to a range of contiguous cells. You simply separate the different areas by using a comma (,). Therefore, the basic syntax is “Range(“Cell_Range_1,Cell_Range_#,…”)”.

Let’s assume that you want to refer to the following ranges of noncontiguous cells:

  • Cells A1 to B5 (A1, A2, A3, A4, A5, B1, B2, B3, B4 and B5).
  • Cells D1 to D5 (D1, D2, D3, D4 and D5).

You refer to such range by typing “Range(“A1:B5,D1:D5″)”. In this case, the fully qualified reference looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:B5,D1:D5")

Excel's VBA Range object reference example: Non-contiguous cells

However, when working with ranges of noncontiguous cells, you may want to process each of the different areas separately. The reason for this is that some methods/properties have issues when working with such noncontiguous cell ranges.

You can handle the separate processing with a loop.

How To Refer To The Intersection Of 2 Ranges Using The Worksheet.Range Property

I describe how, when using the Range property, you can use 3 operators for purposes of identifying the relevant Range above. We’ve already gone through examples that use the colon (:) and comma (,) operators. These were used in the previous sections for purposes of referring to ranges of contiguous or noncontiguous cells.

The third operator, space ( ), is useful when you want to refer to the intersection of 2 ranges. The reason for this is clear:

The space ( ) operator is, precisely, the intersection operator.

Let’s assume that you want to refer to the intersection of the following 2 ranges:

  • Cells B1 to B10 (B1, B2, B3, B4, B5, B6, B7, B8, B9 and B10).
  • Cells A5 to C5 (A5, B5 and C5).

Screenshot of intersection of 2 Range objects

In this case, the appropriate syntax is “Range(“B1:B10 A5:C5″)”. When working with Sheet1 of Book1.xlsm, a fully qualified reference can be constructed as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("B1:B10 A5:C5")

Such a reference returns the cells that are common to the 2 ranges. In this particular case, the only cell that is common to both ranges is B5.

Excel's VBA object reference example: Intersection

How To Refer To A Named VBA Range Using The Worksheet.Range Property

If you’re referring to a VBA Range that has a name, the syntax is very similar to the basic case of referring to a single cell. You simply replace the address that you use to refer to the range with the appropriate name.

For example, if you want to create a reference to a VBA Range named “Excel_Tutorial_Example”, the appropriate syntax is “Range(“Excel_Tutorial_Example”)”. In this case, a fully qualified reference looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("Excel_Tutorial_Example")

Excel's VBA Range object reference: Named range

Remember to use quotation marks (“”) around the name of the range. If you don’t use quotes, Visual Basic for Applications interprets it as a variable.

How To Refer To Merged Cells Using The Worksheet.Range Property

In general, working with merged cells isn’t that straightforward. In the case of macros this is no exception. The following are some of the (potential) challenges you may face when working with a range that contains merged cells:

  • The macro behaving differently from what you expected.
  • Issues with sorting.

I may cover the topic of working with merged cells in future tutorials. For the moment, I explain how to refer to merged cells using the Range property. This should help you avoid some of the most common pitfalls when working with merged cells.

The first thing to consider when referring to merged cells is that you can reference them in either of the following 2 ways:

  • By referring to the entire merged cell range.
  • By referring only to the upper-left cell of the merged range.

Let’s assume that you’re working on an Excel spreadsheet where the cell range from A1 to C5 is merged. This includes cells A1, A2, A3, A4, A5, B1, B2, B3, B4, B5, C1, C2, C3, C4 and C5. In this case, the appropriate syntax is either of the following:

  • If you refer to the entire merged range, “Range(“A1:C5″)”. In this case, the fully qualified reference is “Application.Workbooks(“Book1.xlsm”).Worksheets(“Sheet1”).Range(“A1:C5″)”.
  • If you refer only to the upper-left cell of the merged range, “Range(“A1″)”. The fully qualified reference under this method is “Application.Workbooks(“Book1.xlsm”).Worksheets(“Sheet1”).Range(“A1″)”.

In both cases, the result is the same.

Excel's VBA Range object reference: Merged cells

You should be particularly careful when trying to assign values to merged cells. Generally, you can only carry this operation by assigning the value to the upper-left cell of the range (cell A1 in the example above). Otherwise, Excel VBA (usually) doesn’t:

  • Carry out the value assignment; and
  • Return an error.

How To Refer To A VBA Range Object Using Shortcuts For The Range Property

References to Excel’s VBA Range object using the Range property can be made shorter using square brackets ([ ]).

You can use this shortcut as follows:

  • Don’t use the keyword “Range”.
  • Surround the relevant property arguments with square brackets ([ ]) instead of using parentheses and double quotes (“”).

Let’s take a look at how this looks in practice by applying the shortcut to the different cases and examples shown and explained in the sections above.

Shortcut #1: Referring To A Single Cell

Instead of typing “Range(“Cell”)” as explained above, type “[Cell]”.

For example if you’re making reference to cell A1, use “[A1]”. The fully qualified reference for cell A1 in Sheet1 of Book1.xlsm looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[A1]

Excel's VBA Range object reference: Single cell with shortcut

Shortcut #2: Referring To An Entire Row Or Column

In this case, the usual syntax is either “Range(“Row_Number:Row_Number”)” or “Range(“Column_Letter:Column_Letter”)”. I explain this above.

By applying square brackets, you can shorten the references to the following:

  • Row: “[Row_Number:Row_Number]”.
  • Column: “[Column_Letter:Column_Letter]”.

For example, if you’re referring to the first row (Row 1) or the first column (Column A) of an Excel worksheet, the syntax is as follows:

And the fully qualified references, assuming you’re working with Sheet1 of Book1.xlsm are the following:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[1:1]
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[A:A]

Shortcut #3: Referring To A Range Of Contiguous Cells

Generally, you refer to a range of cells by using the syntax “Range(“Cell_Range”)”. If you’re identifying the full range by using the colon (:) operator, as I explain above, you usually structure the reference as “Range(“Top_Left_Cell:Right_Bottom_Cell”)”.

You can shorten the reference to a range of contiguous cells by using square brackets as follows: “[Top_Left_Cell:Right_Bottom_Cell]”.

For example in order to refer to a range of cells between cells A1 and B5 (A1, A2, A3, A4, A5, B1, B2, B3, B4 and B5), you can type “[A1:B5]”. Alternatively, if you’re using a fully qualified reference and are working with Sheet1 of Book1.xlsm, the syntax is as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[A1:B5]

Excel's VBA Range object reference: Range using shortcut

Shortcut #4: Referring To A Range Of NonContiguous Cells

This case is fairly similar to the previous one, in which we made reference to a range of contiguous cells. However, in order to separate the different areas, you use the comma (,) operator, as explained previously. In other words, the basic syntax is usually “Range(“Cell_Range_1,Cell_Range_#,…”)”.

When using square brackets, you can simplify the reference above to “[Cell_Range_1,Cell_Range_#,…]”.

If you want to refer to the following ranges of noncontiguous cells:

  • Cells A1 to B5 (A1, A2, A3, A4, A5, B1, B2, B3, B4 and B5).
  • Cells D1 to D5 (D1, D2, D3, D4 and D5).

The syntax of a reference using square brackets is “[A1:B5,D1:D5]”. The fully qualified reference looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[A1:B5,D1:D5]

Excel's VBA Range object reference: Non-contiguous range with shortcut

Shortcut #5: Referring To The Intersection Of 2 Ranges

Generally, the syntax for referring to the intersection of 2 ranges uses the space operator and is “Range(“Cell_Range_1 Cell_Range_2″)”. When using square brackets, this becomes “[Cell_Range_1 Cell_Range_2]”.

Let’s go back to the example I use above and assume that you want to refer to the intersection of the following 2 ranges:

  • Cells B1 to B10 (B1, B2, B3, B4, B5, B6, B7, B8, B9 and B10).
  • Cells A5 to C5 (A5, B5 and C5).

You can create a reference using square brackets as follows: “[B1:B10 A5:C5]”. When working with Sheet1 of Book1.xlsm, the fully qualified reference is:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[B1:B10 A5:C5]

And this returns the only cell common to both ranges: B5.

Excel's VBA Range object reference: Intersection with shortcut

Shortcut #6: Referring To A Named VBA Range

As explained above, when referring to a VBA Range that has a name, you replace the address of the range with the relevant name. Therefore, the basic syntax is “Range(“Range_Name”)”.

When using square brackets, the logic is the same. Therefore, you can refer to a named range by typing “[Range_Name]”.

For example, when referring to a VBA Range named “Excel_Tutorial_Example”, the reference can be structures as “[Excel_Tutorial_Example]”. When using a fully qualified reference, it looks as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").[Excel_Tutorial_Example]

Excel's VBA Range object reference: Named range with shortcut

How To Refer To A VBA Range Object Using The Cells Property

There is no Cell object within Visual Basic for Applications. There is a Worksheet.Cells property and a Range.Cells property. You can use the Cells property to return a Range object representing the cells.

The main difference between both Cells properties is in connection with the object to which the property is applied to:

  • When using the Worksheet.Cells property, you’re applying the property to a Worksheet object.
  • When using the Range.Cells property, that property is applied to a Range object.

This is important because, depending on the context, the properties may return different cells. More precisely, when applying the Cells property to a Range object, you’re referring to a cell in relation to another range.

This probably sounds confusing, I agree. Don’t worry, as the explanation and examples below make this topic clear. The most important thing to remember is that the Cells property allows you to refer to a cell range.

Since the basic logic behind both properties (Worksheet.Cells and Range.Cells) is similar, I cover both at the same time.

There are several ways in which you can use the Cells property to refer to a Range object. I explain the main methods of doing this in the following sections.

Syntax Of The Cells Property

The basic syntax of the Cells property is “expression.Cells(Row_Number, Column_Number)”, where:

  • “expression” is a variable representing a VBA object. This VBA object can be either a worksheet (in the case of the Worksheet.Cells property) or a range (for the Range.Cells property).
  • “Row_Number” and “Column_Number” are the numbers of both the row and the column.
    • Is common to use numbers in both cases.
    • When using this syntax, you can also use a letter to refer to the column. In this case, wrap the letter in double quotes (“”). Other than the quotations (“”) (surrounding the letter), you don’t need to use other quotations in the same way as you do when using the Range property.

One of the main differences between the Range and the Cells properties is that the Cells property takes row and column numbers as arguments. You can see this reflected in the syntax described above.

There are additional possible ways to implement the Cells property. However, they’re secondary and I explain them below.

The Range object has a property called the Range.Item property, which I explain below. The reason why you can specify the Row_Number and Column_Number arguments immediately after the Cells keyword is that the Range.Item property is the default property of the Range object. This is the same reason why, as explained above, you can also use a letter wrapped in double quotes (“”) to refer to the column. If you’re interested in understanding the relationship between the Range.Item property and the Cells property, please refer to the relevant section below.

For the moment, let’s go back to some of the VBA Ranges that have appeared in previous examples and see how to refer to them using the Cells property.

How To Refer To A Single Cell Using The Worksheet.Cells Property

The most basic use case of the Cells property is referring to a single cell.

The fact that the Cells property can only be used (usually) for purposes of returning a range of 1 cell is one of the main characteristics that distinguishes the Cells from the Range property.

There is actually a way to use the Cells property for purposes of referring to larger cell ranges. However, this involves combining the Range and Cells properties. I explain this method below.

Referring to a single cell using the Cells property is relatively simple. For example, if you want to refer to cell A1 within Sheet1 of Book1.xlsm, the fully qualified reference is pretty much what you’d expect considering the basic syntax shown in the previous section:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Cells(1, 1)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Cells(1, "A")

Excel's VBA Range object reference: Single cell using Cells property

There is, however, a second way to create references to a single cell when using the Worksheet.Cells property. Let’s take a look at this…

Alternative Syntax For Referring To A Single Cell Using The Worksheet.Cells Property

The syntax of the Cells property that I describe above is probably the one that you’ll use the most in practice.

The following alternative is substantially the same as the syntax that I have explained above. It also starts with “expression.Cells”. The difference lies in the arguments that appear within the parentheses.

This alternative syntax is “expression.Cells(Cell_Index)”. In this particular case, there is only 1 argument: the index of the relevant cell.

The main question, then, is how does Visual Basic for Applications determine the index of a cell?

For these purposes, each and every cell is assigned a number. Cells are numbered from left to right and from top to bottom. In other words:

  • Numbering begins with the first row:
    • Cell A1 is assigned the number 1.
    • Cell B1 is assigned the number 2.
    • Cell C1 is assigned the number 3.
    • The process continues with each of the subsequence cells, until…
    • Cell XFD1 (the last cell in the first row) is assigned the number 16,384.
  • Once all the cells in the first row have been assigned a number, the process continues with the second row:
    • Cell A2 is assigned the number 16,385.
    • Cell B2 is assigned the number 16,386.
    • Cell C2 is assigned the number 16,387.
    • The number assignment continues until…
    • Cell XFD2 (the last cell in the second row) is assigned the number 32,768.
  • The process continues with the third row.
  • Then the fourth row.
  • And so on, until…
  • It reaches row 1,048,576.
  • And…
  • The last cell in an Excel worksheet (cell XFD1048676) is assigned the number 17,179,869,184.

The following screenshot gives you an idea of how this number assignment goes:

Cell_Index assignment in Excel worksheet

For example, if you want to refer to cell A2 using this syntax, the appropriate reference is “Cells(16385)”. A fully qualified reference for cell A2 in Sheet1 of Book1.xlsm is as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Cells(16385)

Excel's VBA Range object reference: Single cell with Cells property

The initial 2 examples of the Cells property, show how it is applied to a Worksheet object. However, you can also use this syntax to apply the property to a Range object. This allows you to refer to a cell relative to another range.

How To Refer To A Single Cell In Relation To A Range Using The Range.Cells Property

Assume that the current selection is a range covering cells C3 through D5 (cells C3, C4, C5, D3, D4 and D5) of the active Excel worksheet. You already know that this is a Range object.

Example of VBA Range object

We can use the Selection property to create the following reference:

Selection.Cells(1, 1)

This reference returns cell C3 itself.

Excel's VBA Range object: Single cell in reference to range

This is different from what the previous example (a fully qualified reference) returned (cell A1).

The reason for the different behaviors seen in the examples above is that the Range property behaves relative to the object to which it is applied (a worksheet or a range). In the case of cell ranges (such as the example above), the Range property behaves in relation to the upper-left corner of the range. The logic is the same that explains the different behaviors when applying the Range property to a Worksheet object or a Range object.

Similarly, you can create references to a single cell in relation to a range using the alternative syntax of the Cells property that I described above. Let’s take a look at this case:

Alternative Syntax For Referring To A Single Cell In Relation To A Range Using The Range.Cells Property

To recall, the alternative syntax is “expression.Cells(Cell_Index)”.

In such case:

  • Each of the cells within the range is assigned a number.
  • The assignment is carried out following the same pattern described above for the whole worksheet. From left to right and from top to bottom.

For example, let’s assume that you are working with the cell range from A1 to B10 and want to select cell A5.

Example of a VBA Range object

In this case, the reference is “Range(“A1:B10″).Cells(9)”. The following screenshot shows the way the Cell_Index numbers are assigned to the cells within the relevant range:

Cell_Index number assignment within range

A fully qualified reference, when working with Sheet1 of Book1.xlsm is as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:B10").Cells(9)

Excel's VBA Range object: Single cell within range

An interesting aspect of applying this syntax of the Cells property to a Range object is that the argument for the Cells property is not limited by the number of cells in the referenced range. If you use a number that is larger than the amount of cells in the relevant range, Visual Basic for Applications continues counting as if the range was taller (extending to the bottom) than it’s in reality. In other words: The Range object returned by the Cells property doesn’t have to be inside the original/source cell range.

In the case of the range described in the example above (A1:B10), the Cell_Index assignment continues as shown in the following screenshot:

Cell_Index assignment with a cell range

For example, the cell range from A1 to B10 contains 20 cells. Let’s assume that you type “21” as an argument for the Cells property. The resulting reference is “Range(“A1:B10″).Cells(21)”. The fully qualified reference is:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:B10").Cells(21)

This statement makes reference to cell A11 which is outside the originally referenced range (A1:B10).

Excel's VBA Range object reference: Cell outside range

How To Refer To A Cell Range Using The Range And Cells Properties

As anticipated above, you can combine the Range and Cells properties to refer to cell ranges. Perhaps the easiest way to do this is to use the Cells property as a parameter of the Range property.

For these purposes, use the following syntax: “Range(Cells(Row_Number_First_Cell, Column_Number_First_cell), Cells(Row_Number_Last_Cell, Column_Number_Last_Cell))”.

For example, if you want to refer to a range covering cells A1 to B5 (A1, A2, A3, A4, A5, B1, B2, B3, B4 and B5) in Sheet1 of Book1.xlsm using the Cells property, you’d type “Range(Cells(1, 1), Cells(5, 2)). The corresponding fully qualified reference is as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range(Cells(1, 1), Cells(5, 2))

Excel's VBA Range object: Range using Cells property

This technique is useful (for example) when you use variables to specify the parameters of the Cells property. This can happen, for example, when looping.

How To Refer To All The Cells In A Worksheet Using The Worksheet.Cells Property

This is probably the simplest, but also most limited, way to implement the Cells property. The statement “expression.Cells” returns absolutely all of the cells in the relevant Excel worksheet.

For example, the following statement returns absolutely all of the cells of Sheet1 in Book1.xlsm:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Cells

This method doesn’t allow you to reference a single cell.

Why You Should Learn To Use The Cells Property To Refer To Excel’s VBA Range Object

Using the Cells property may seem like a slightly more complicated way to refer to Excel’s VBA Range object than using the Range property. However there are some scenarios where using the Cells property may be more appropriate.

Perhaps the most important scenario in which the Cells property shows its usefulness is when you’re using variables instead of the actual numbers as the arguments for the Cells property. In practice, you’re likely to find yourself in this situation (using variables instead of hardcoded numbers as arguments of the Cells property) often.

The Cells property and the ability to use variables as arguments is helpful when carrying out certain activities with Visual Basic for Applications. A common case of such an activity is looping (a topic I cover here).

How To Refer To A VBA Range Object Using The Range.Offset Property

Just as the previously explained properties, the Range.Offset property also returns a Range object.

However, in the case of the Range.Offset property, the Range object returned is that located a certain number of rows and columns from a specified range.

In other words, the returned Range object is determined by the following factors:

  • A base range, which is going to be the base of the offset.
  • The number of rows by which the base range is to be offset.
  • The number of columns by which the base range is to be offset.

The syntax of the Range.Offset property reflects these 3 elements. This syntax is “expression.Offset(Row_Offset, Column_Offset)”, where:

  • “expression” is a variable representing a VBA Range object.
  • “Row_Offset” is the number of rows by which the range is to be offset. This value can be either positive (offset is done downwards) or negative (offset is done upwards).
  • “Column_Offset” is the number of columns by which the range is to be offset. In the case of positive values, the offset is made to the right. When using negative values, the offset is made to the left.

Both the Row_Offset and the Column_Offset arguments carry the offset from the upper-left cell of the VBA Range object represented by “expression”.

The way the Offset property works means that it can only be applied to a Range object. In other words, there is no Worksheet.Offset property. This means that this property is a great alternative for purposes of referring to a particular cell in relation to a range without using the more complicated methods that I explain above, namely applying the Range or the Cells properties to a Range object.

Let’s look at a few examples of how to use the Range.Offset property to refer to a VBA Range object:

How To Refer To A Single Cell Using The Range.Offset Property

In the simplest case, you can use Range.Offset for referring to a single cell as follows:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1").Offset(RowOffset:=1, ColumnOffset:=1)

You can simplify this statement by omitting the keywords “RowOffset” and “ColumnOffset”. The resulting reference is the following:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1").Offset(1, 1)

In this particular case, Visual Basic for Applications returns a cell that is 1 row below and 1 column to the right of cell A1. In other words, the base range is cell A1.

Excel's VBA Range object: Single cell

And, from there, VBA moves 1 row down and 1 column to the right. Therefore, the above reference, refers to cell B2.

Excel's VBA Range object: Single cell with Offset property

In certain cases, you may want to create a relative reference in which the Range.Offset property only needs to move a certain number of rows or columns (but not both) to find the cell it should return. In these cases, you can simply omit the irrelevant argument.

For example, the following statements refer to a cell one row below the cell A1. In other words, it refers to cell A2:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1").Offset(RowOffset:=1)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1").Offset(1)

Excel's VBA Range object: Single cell with Offset property

Similarly, the following statements refer to cell B1, which is one column to the right of cell A1:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1").Offset(ColumnOffset:=1)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1").Offset(, 1)

Excel's VBA Range object: Cell with Offset property

Let’s take a look at a different way to refer to the base range. The following statement also refers to a single cell. However, notice the difference in the way the base cell for the offset is expressed.

ActiveCell.Offset(1, 1)

In this case, instead of using “Range”, I use the Application.ActiveCell property. This property returns a Range object that represents the current active cell.

Therefore, Visual Basic for Applications returns a cell that is 1 row below and 1 column to the right of the current active cell. For example, if the current active cell is A1, the statement above returns cell B2.

Excel's VBA Range object: Single cell with Offset property

The Range.Offset property generates an error if it is used for trying to return a cell that doesn’t exist. This may happen, for example, if the current active cell is A1 and you use the following reference:

ActiveCell.Offset(-1, -1)

The statement above is asking Visual Basic for Applications to return the cell that is 1 row above and 1 column to the left of cell A1. Since no such cell exists, an error is generated.

Visual Basic for Applications error message

How To Refer To A Range Of Cells Using The Range.Offset Property

You already know the different operators that you can use for purposes of referring to a range of cells using Visual Basic for Applications. Particularly important is the colon (:) operator, which you can use to set up arrays and create references to ranges of contiguous cells.

If you want to refer to a range of cells using the Range.Offset property, you can simply use the same colon operator in order to define the cell range that is the base of the offset.

The logic of the offset continues to be the same.

Take a look, for example, at the following VBA Range object reference:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:B5").Offset(3, 3)

This statement proceeds as follows:

  • It sets as base range that containing cells A1 through B5 (A1, A2, A3, A4, A5, B1, B2, B3, B4 and B5).
    excel vba object base range
  • It moves the range 3 cells to the right and 3 cells down.

As a consequence of the above, the statement returns the range from cells D4 to E8 (D4, D5, D6, D7, D8, E4, E5, E6, E7 and E8).

Excel's VBA Range object with Offset property

Why You Should Learn To Use The Range.Offset Property To Refer To Excel’s VBA Range Object

The Range.Offset property is (usually) most useful when:

  • You’re working with variables instead of actual numbers as arguments; and
  • In looping procedures.

The Range.Offset property is also commonly used by the macro recorder when you use relative references while recording a macro. Therefore, you can expect to encounter this type of reference structure constantly when working with macros and Visual Basic for Applications.

How To Refer To A VBA Range Object Using The Range.Item Property

For reasons that I explain at the end of this section, you may not end up using the Range.Item property too much in your day-to-day Excel work. However, you may still need to use this property from time to time. Additionally, having a good understanding of the Range.Item property is helpful for purposes of becoming a better user of the Cells property which I describe above and understanding its syntax.

Just as some of the other properties discussed throughout this VBA tutorial, the Range.Item property returns an object. The object is a range.

In this particular case, the range is determined by starting with a particular specified range. The Range.Item property then accesses a particular cell in that range, based on the arguments you use.

The syntax of the Range.Item property is very similar to those of the other properties covered by this VBA tutorial: “expression.Item(Row_Index,Column_Index)”. In this case, “expression” is a variable representing a Range object.

Notice, however, that in the case of the Range.Item property, I refer to “Row_Index” and “Column_Index”. In the case of most of the other properties covered in this VBA tutorial, the arguments made reference to either numbers (for example “Row_Number”) or letters (such as “Column_Letter”).

The only other time I use the word index for purposes of describing a property’s arguments is when explaining an alternative syntax for purposes of referring to a single cell with the Cells property. The reason why the Range.Item property uses index in order to identify both the row and column is because the behavior of the Row_Index argument is very similar to that of the Cell_Index argument in that use case of the Cells property.

Let’s take a closer look at this Row_Index argument. The main characteristics of this argument are the following:

  • It is required.
  • It must be a number.
  • It determines the cell that you access within the relevant range. For these purposes, there are 2 options.
    • If the only argument you’re using is Row_Index, cells are numbered from left to right and from top to bottom. I explain, in detail, how this works above.
    • If you’re using both Row_Index and Column_Index, Row_Index determines the row of the cell you access within the applicable range.

The other argument of the Range.Item property (Column_Index) behaves slightly different. The following are its main characteristics:

  • It’s optional.
  • It can be a number or a string. As a consequence of this characteristic you can use both the column number or the column letter (wrapped in quotations) to refer to a particular column. I show you how this works below.
  • It determines the column of the cell you access within the relevant range.

Both arguments are relative offsets. Visual Basic for Applications uses those arguments to determine how many rows and columns to move away from the originally specified range.

I explain (above) how, when applied to a Range object, the Cells property is not limited by the number of cells in the specified range. In other words, you can use the Cells property to refer to cells outside that range. The same thing happens with the Range.Item property.

After reading about the other properties above, you probably have a good idea about what the Range.Item property does. Nonetheless, let’s take a look at a couple of examples.

For example, the following statements all return cell A1 of Sheet1 in Book1.xlsm:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells.Item(1)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells.Item(1, 1)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells.Item(1, "A")

Excel's VBA Range object: Single cell with Item property

However, let’s assume that you want to refer to cell B8. For these purposes, you can use either of the following references:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells.Item(30)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells.Item(8, 2)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells.Item(8, "B")

Excel's VBA Range object: Single cell with Item property

Part of the importance of the Range.Item property is that it allows you to refer to a specific cell in relation to a range.

However, perhaps even more important for purposes of this VBA tutorial, the Item property is the default property for the Range object. You can generally omit the Item keyword before specifying the Row_Index and Column_Index arguments. In the case of the last example above, this results in the following shortened references:

Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells(30)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells(8, 2)
Application.Workbooks("Book1.xlsm").Worksheets("Sheet1").Range("A1:D10").Cells(8, "B")

The structure used in these references probably looks quite familiar by now. The reason for this is that this structure is substantially the same as that which I describe above when explaining the Cells property.

Due mainly to this reason, you’ll probably won’t use the Range.Item property too often. Instead, you’ll likely resort to the Cells property.

However, now you know that, if required for your purposes, you can use the Range.Item property for purposes of referring to Excel’s VBA Range objects.

Furthermore, having a good knowledge about the Range.Item property is helpful for, among others purposes:

  • Having a better understanding of the Cells property.
  • Crafting better references to Excel’s VBA Range objects with the Cells property.

Conclusion

The Range object is one of the most important and frequently used Excel VBA objects.

Unfortunately, the topic of Excel’s VBA Range object can sometimes be confusing for certain users. One of the main reasons for this is the fact that there are several different ways to refer to the Range object.

This VBA tutorial provides a brief introduction to the topic of Excel’s VBA Range object. Perhaps more importantly, this post explains and illustrates some of the most common methods for purposes of creating appropriate references to the Range object.

Now that you’ve read this post, you probably have a good understanding of Excel’s VBA Range object and won’t be confused by the different alternatives you can use to reference it. In particular, you’re probably now an expert when it comes to creating references to Range objects using any of the following properties:

  • Range.
  • Cells.
  • Offset.
  • Item.

There are still some other ways to refer to and manipulate Excel’s VBA Range objects. Some of these are the Application.Union method and the Range.Areas property.

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