Цикл For… Next в VBA Excel, его синтаксис и описание отдельных компонентов. Примеры использования цикла For… Next.
Цикл For… Next в VBA Excel предназначен для выполнения группы операторов необходимое количество раз, заданное управляющей переменной цикла — счетчиком. При выполнении цикла значение счетчика после каждой итерации увеличивается или уменьшается на число, указанное выражением оператора Step, или, по умолчанию, на единицу. Когда необходимо применить цикл к элементам, количество которых и индексация в группе (диапазон, массив, коллекция) неизвестны, следует использовать цикл For Each… Next.
For counter = start To end [ Step step ] [ statements ] [ Exit For ] [ statements ] Next [ counter ] |
For счетчик = начало To конец [ Step шаг ] [ операторы ] [ Exit For ] [ операторы ] Next [ счетчик ] |
В квадратных скобках указаны необязательные атрибуты цикла For… Next.
Компоненты цикла For… Next
Компонент | Описание |
---|---|
counter | Обязательный атрибут. Числовая переменная, выполняющая роль счетчика, которую еще называют управляющей переменной цикла. |
start | Обязательный атрибут. Числовое выражение, задающее начальное значение счетчика. |
end | Обязательный атрибут. Числовое выражение, задающее конечное значение счетчика. |
Step* | Необязательный атрибут. Оператор, указывающий, что будет задан шаг цикла. |
step | Необязательный атрибут. Числовое выражение, задающее шаг цикла. Может быть как положительным, так и отрицательным. |
statements | Необязательный** атрибут. Операторы вашего кода. |
Exit For | Необязательный атрибут. Оператор выхода из цикла до его окончания. |
Next [ counter ] | Здесь counter — необязательный атрибут. Это то же самое имя управляющей переменной цикла, которое можно здесь не указывать. |
*Если атрибут Step отсутствует, цикл For… Next выполняется с шагом по умолчанию, равному 1.
**Если не использовать в цикле свой код, смысл применения цикла теряется.
Примеры циклов For… Next
Вы можете скопировать примеры циклов в свой модуль VBA, последовательно запускать их на выполнение и смотреть результаты.
Простейший цикл
Заполняем десять первых ячеек первого столбца активного листа Excel цифрами от 1 до 10:
Sub test1() Dim i As Long For i = 1 To 10 Cells(i, 1) = i Next End Sub |
Простейший цикл с шагом
В предыдущий цикл добавлен оператор Step со значением 3, а результаты записываем во второй столбец:
Sub test2() Dim i As Long For i = 1 To 10 Step 3 Cells(i, 2) = i Next End Sub |
Цикл с отрицательными аргументами
Этот цикл заполняет десять первых ячеек третьего столбца в обратной последовательности:
Sub test3() Dim i As Long For i = 0 To —9 Step —1 Cells(i + 10, 3) = i + 10 Next End Sub |
Увеличиваем размер шага до -3 и записываем результаты в четвертый столбец активного листа Excel:
Sub test4() Dim i As Long For i = 0 To —9 Step —3 Cells(i + 10, 4) = i + 10 Next End Sub |
Вложенный цикл
Внешний цикл последовательно задает индексы первых десяти строк активного листа, а вложенный цикл складывает числа в первых четырех ячейках строки с текущем индексом и записывает сумму в ячейку пятого столбца. Перед запуском вложенного цикла с накопительным сложением, пятую ячейку соответствующей строки обнуляем, чтобы в случае нахождения в ней какого-либо числа, оно не прибавилось к итоговой сумме.
Sub test5() Dim i1 As Long, i2 As Long For i1 = 1 To 10 ‘Пятой ячейке в строке i1 присваиваем 0 Cells(i1, 5) = 0 For i2 = 1 To 4 Cells(i1, 5) = Cells(i1, 5) + Cells(i1, i2) Next Next End Sub |
Выход из цикла
В шестой столбец активного листа запишем названия десяти животных, конечно же, с помощью цикла For… Next:
Sub test6() Dim i As Long For i = 1 To 10 Cells(i, 6) = Choose(i, «Медведь», «Слон», «Жираф», «Антилопа», _ «Крокодил», «Зебра», «Тигр», «Ящерица», «Лев», «Бегемот») Next End Sub |
Следующий цикл будет искать в шестом столбце крокодила, который съел галоши. В ячейку седьмого столбца цикл, пока не встретит крокодила, будет записывать строку «Здесь был цикл», а когда обнаружит крокодила, запишет «Он съел галоши» и прекратит работу, выполнив команду Exit For. Это будет видно по ячейкам рядом с названиями животных ниже крокодила, в которых не будет текста «Здесь был цикл».
Sub test7() Dim i As Long For i = 1 To 10 If Cells(i, 6) = «Крокодил» Then Cells(i, 7) = «Он съел галоши» Exit For Else Cells(i, 7) = «Здесь был цикл» End If Next End Sub |
Результат работы циклов For… Next из примеров:
Результат работы циклов For… Next
Такие данные на активном листе Excel вы получите, если последовательно запустите на выполнение в редакторе VBA все семь подпрограмм из примеров, демонстрирующих работу циклов For… Next.
Цикл с дробными аргументами
Атрибуты start, end и step могут быть представлены числом, переменной или числовым выражением:
For i = 1 To 20 Step 2 For i = a To b Step c For i = a — 3 To 2b + 1 Step c/2 |
В результате вычисления значения переменной вне цикла или выражения внутри его может получиться дробный результат. VBA Excel округлит его до целого числа, используя бухгалтерское округление:
‘Значения атрибутов до округления For i = 1.5 To 10.5 Step 2.51 ‘Округленные значения атрибутов For i = 2 To 10 Step 3 |
Старайтесь не допускать попадания в тело цикла For… Next неокругленных значений аргументов, чтобы не получить непредсказуемые результаты его выполнения. Если без дробных чисел не обойтись, а необходимо использовать обычное округление, применяйте в коде VBA функцию рабочего листа WorksheetFunction.Round для округления числа перед использованием его в цикле For… Next.
Loops are used in VBA for repeating a set of statements multiple times. Loops form an essential part of any programming language, and VBA is no exception. There are five different types of loops that can be used in VBA. These are as follows:
- For Loop
- For Each Loop
- Do While Loop
- Do Until Loop
- Wend Loop (obsolete)
In this post, I will explain all these VBA Loops with examples. But before jumping into the topic, let’s understand what a loop is and why it is used.
What is a loop, and what are its uses?
Loop is an instruction that can continually repeat a set of statements until a particular condition is reached.
Loops can serve the following purposes:
- It helps in iterating a set of statements.
- It helps in checking a particular condition multiple times.
- It can also help in developing custom sleep and wait logic in code.
VBA FOR LOOP
For loop is one of the most important and frequently used loop in VBA. For Loop is sometimes also called ‘For Next Loop’.
For Loops allow you to iterate a set of statements for a specified number of times.
Syntax of VBA For Loop
The basic syntax of a VBA For loop or structure of For Loop is as follows:
For loop_ctr = start_num To end_num [step_increment]
'Statements to be executed inside the loop
Next loop_ctr
Here, ‘loop_ctr’ stands for the loop counter. It is the backbone of the ‘For Next Loop,’ and hence it is also called ‘loop timekeeper’. This variable gets incremented after each iteration until the loop ends.
‘start_num’ is the number from which the loop should begin.
‘end_num’ is the number till which the loop should continue.
‘step_increment’ is an optional parameter. It denotes by how much value the ‘loop_ctr’ should be incremented after each iteration. By default, the value of ‘step_increment’ is 1. This means that with each iteration, the ‘loop_ctr’ value is incremented by 1.
How does a VBA For Loop Work?
Let’s say we have a simple For Loop in VBA as shown below:
For loop_ctr = 1 To 100
'Statements to be executed inside the loop
Next loop_ctr
- When the program control reaches the statement ‘For loop_ctr = 1 To 100’, it reserves a space for the variable ‘loop_ctr’ in the memory and initializes it to 1.
- After this, it executes the statements inside the For Loop sequentially.
- Finally, the program control reaches the statement ‘Next loop_ctr’, here it increments the variable ‘loop_ctr’ by 1. And the control again goes to the statement ‘For loop_ctr = 1 To 100’, where it checks if the value of ‘loop_ctr’ has reached 100 or not. If the value is less than 100, then it continues the next iteration; otherwise, the loop stops.
Still not clear with the working of a For Loop? No Worries. Let’s try to understand this with the help of a flow diagram.
VBA For Next Loop Flow Diagram
Let’s try to understand the control flow as depicted in the above flow chart:
- First of all, the FOR statement is executed. This step allows the ‘loop_ctr’ and ‘step_increment’ values to be initialized.
- After this, the condition is evaluated. If the condition is TRUE, all the statements inside the loop ‘Code Block’ are executed. However, If the condition evaluates to FALSE, then the control flow jumps to the next statement outside the For loop.
- When the ‘code block’ inside the For Loop executes, the loop starts to get ready for the next iteration and increments the ‘loop_ctr’ value.
- Finally, the condition is again evaluated with the incremented ‘loop_ctr,’ and the process repeats itself.
Few Simple Examples of For Loop In VBA
Let’s see some simple examples of For Loop in VBA.
Example 1: Use VBA For Loop to print numbers from 1 to 10 in excel.
In this example, we have a range «A1:A10”, and we have to fill this range with numbers from 1-10.
To accomplish this, we can use the below code:
Sub ForLoopPrintNumbers()
Dim loop_ctr As Integer
For loop_ctr = 1 To 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
Next loop_ctr
MsgBox "For Loop Completed!"
End Sub
Explanation:
In the above code, first of all, we have declared the loop counter ‘loop_ctr’ for our For loop. Next, along with the For statement, we have initialized the ‘loop_ctr’ to 1 and set the ‘end_num’ as 10.
Inside the For Loop body, we have written the code to write the loop_ctr value on the excel sheet in the A column. After this, there is a statement that increments the ‘loop_ctr’ for the next iteration.
Note that since we have not specified an explicit ‘step_increment’ value, so every iteration, the ‘loop_ctr’ will be incremented by 1. The For loop in the above code iterates 10 times and populates the cells in the range A1:A10 with numbers from 1-10 serially.
Example 2: Use For Loop in VBA to find the sum of all the numbers between 1 to 10.
In this example, we will loop through all the numbers between 1 to 10 and sum them. Finally, we will be displaying the sum of the numbers from 1 to 10 on the screen.
To do this we can use the following code:
Sub ForLoopSumNumbers()
Dim loop_ctr As Integer
Dim result As Integer
result = 0
For loop_ctr = 1 To 10
result = result + loop_ctr
Next loop_ctr
MsgBox "Sum of numbers from 1-10 is : " & result
End Sub
Explanation:
In the above code, first of all, we have declared the loop counter ‘loop_ctr’ for our For loop. Next, we have declared another integer variable as ‘result’ for storing the sum of numbers from 1 to 10.
After this, along with the For statement, we have initialized the ‘loop_ctr’ to 1 and set the ‘end_num’ as 10.
Inside the For Loop body, we have added the value of ‘loop_ctr’ along with the result. This means that in the first iteration, the result will be: 1, and in the second iteration, it will be : (1+2) = 3. Similarly, in the third iteration, the value will be: (3 + 3) = 6 and so on.
After the For loop body, there is a statement that increments the ‘loop_ctr’ for the next iteration.
Note that since we have not specified an explicit ‘step_increment’ value, hence with every iteration, the ‘loop_ctr’ will be incremented by 1.
The For loop in the above code iterates 10 times and sums all the numbers from 1 to 10, and finally displays the sum of these numbers in msgbox.
Example 3: Use VBA For Loop to print numbers, all even numbers from 1 to 10.
In this example, we will fill all the even numbers between 1 and 10 into cells A1 to A5.
To do this, we can use the below code:
Sub ForLoopToPrintEvenNumbers()
Dim loop_ctr As Integer
Dim cell As Integer
cell = 1For loop_ctr = 1 To 10
If loop_ctr Mod 2 = 0 Then
ActiveSheet.Range("A1").Offset(cell - 1, 0).Value = loop_ctr
cell = cell + 1
End If
Next loop_ctrMsgBox "For Loop Completed!"
End Sub
Explanation:
In the above code, first of all, we have declared the loop counter ‘loop_ctr’ for our For loop. After that, we have declared another variable ‘cell’. This variable is initialized with a value of 1.
Next, along with the For statement, we have initialized the ‘loop_ctr’ to 1 and set the ‘end_num’ as 10.
Inside the For Loop body, we have used an IF statement to check if the ‘loop_ctr’ value is even or not.
If the ‘loop_ctr’ value is Even then, we have written a statement to print the value out to the spreadsheet in the A column.
After this, we are incrementing the cell variable by 1. We have used the cell variable in our loop to print the values in the appropriate cell in the A column.
Next, there is a statement that increments the ‘loop_ctr’ for the next iteration.
Note that since we have not specified an explicit ‘step_increment’ value, after every iteration, the ‘loop_ctr’ will be incremented by 1.
The For loop in the above code iterates 10 times and populates the cells in the range A1:A5 with even numbers from 2-10.
Alternate Logic
There is another better way to accomplish the same, let’s see how.
Sub ForLoopToPrintEvenNumbers()
Dim loop_ctr As Integer
Dim cell As Integer
cell = 1For loop_ctr = 2 To 10 Step 2
ActiveSheet.Range("A1").Offset(cell - 1, 0).Value = loop_ctr
cell = cell + 1
Next loop_ctrMsgBox "For Loop Completed!"
End Sub
Explanation:
In the above code, we have looped through all the numbers between 2 to 10. Instead of the default ‘step_increment’ of 1, we are using an explicit ‘step_increment’ of 2.
In the first iteration of the for loop, the ‘loop_ctr’ value is 2, which is what gets printed in cell A1. In the second iteration, the ‘loop_ctr’ value becomes 4 (earlier value : 2 + step_increment : 2) and this number gets printed on cell A2.
Similarly, in the third iteration, the ‘loop_ctr’ value is 6 (earlier value: 4 + step_increment: 2) and it gets printed on the cell A3 and so on.
Writing a Nested For Loop
There are times when you might need to use a for loop within another for loop; this is called nesting of for loops.
VBA For loops can be nested within one another to perform complex tasks in excel. Let’s understand a nested loop with an example:
Example 4: Print numbers from 1 to 10 in all the worksheets in an excel spreadsheet using a For Loop.
In this example, we need to print numbers from 1 to 10 in all the worksheets in an excel workbook.
To do this, we can make use of the following code:
Sub ForLoopPrintNumbers()
Dim loop_ctr As Integer
Dim sheet As IntegerFor sheet = 1 To Worksheets.Count
For loop_ctr = 1 To 10
Worksheets(sheet).Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
Next loop_ctr
Next sheetMsgBox "For Loop Completed!"
End Sub
Explanation:
In this example, there are two For Loops, one inside another. The Outer For Loop iterates over the variable ‘sheet’, and the Inner For Loop iterates over ‘loop_ctr’ that determines the cell position.
Inside the body of the Inner For loop, we have a statement that prints the numbers between 1 to 10 in each worksheet (as per the outer loop).
The outer loop iterates over all the available sheets in the spreadsheet, whereas the inner loop iterates over the A1 to A10 for the current sheet. This makes it possible to print numbers from 1 – 10 in all the available worksheets.
Reverse For Loop in VBA
In all our previous examples, we have only seen those For loops in which the loop counter variable gets incremented from a lower value to a higher value (with each iteration).
But this is not necessary, you can also have a For Loop where the loop counter moves from a higher value to a lower value (with each iteration).
Example 5: Use a Reverse For Loop to print numbers from 1 to 10 in descending order.
Sub ReverseForLoop()
Dim loop_ctr As Integer
Dim cell As Integer
cell = 1For loop_ctr = 10 To 1 Step -1
ActiveSheet.Range("A1").Offset(cell - 1, 0).Value = loop_ctr
cell = cell + 1
Next loop_ctrMsgBox "For Loop Completed!"
End Sub
Explanation:
In this example, the loop starts with the value of ‘loop_ctr’ as 10. And then, with each iteration, the value of the loop counter is decremented by 1 (since the ‘step_increment’ is -1).
Inside the For Loop body, we print the value of the loop counter variable in the active sheet from A1:A10.
Infinite Loop Using a For Loop
An infinite loop is also sometimes called an Endless Loop. An Infinite Loop is a loop whose ending condition (often due to a logic error by the programmer) never becomes true. The loop iterates an infinite number of times or until halted by programmer/user action.
Although in the case of FOR loop, generally due to the clear start and end conditions, it is not easy to make an endless loop by logical mistake. However, there can be cases where you can by mistake reset the loop counter variable inside the loop, thereby making the loop infinite.
Below is an example of an endless for loop:
'Do not run this code
Sub InfiniteForLoop()
Dim loop_ctr As Integer
Dim cell As IntegerFor loop_ctr = 1 To 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
loop_ctr = loop_ctr - 1
Next loop_ctrMsgBox "For Loop Completed!"
End Sub
The statement ‘loop_ctr = loop_ctr – 1’ makes the above VBA loop infinite since it resets the value of the loop_ctr with every iteration, and hence the end condition is never reached.
Tip: It is always good to not make any changes to the loop counter variable value inside the loop body.
How to Break Out or Exit of a For Loop
I believe many of you will wonder, «Why do we need to break a loop during execution»? The answer is simple: Breaking or exiting a loop can sometimes optimize the code and reduce the resource overhead.
To break a For Loop we can use the ‘Exit For’ statement.
Let’s try to see this in action with an example:
Example 6: Use a FOR loop in VBA to find the sum of the first 20 odd numbers between 1 to 100.
In this example, we have to find the first 20 odd numbers from 1 to 100 and then calculate their sum. Below is the code to do this:
Sub SumFirst20OddNumbers()
Dim loop_ctr As Integer
Dim odd_number_counter As Integer
Dim sum As IntegerFor loop_ctr = 1 To 100
If (loop_ctr Mod 2 <> 0) Then
sum = sum + loop_ctr
odd_number_counter = odd_number_counter + 1
End IfIf (odd_number_counter = 20) Then
Exit For
End If
Next loop_ctrMsgBox "Sum of top 20 odd numbers is : " & sum
End Sub
Explanation:
In this example, we have three variables – ‘loop_ctr’, ‘odd_number_counter’, and ‘sum’. The variable ‘loop_ctr’ is used as a loop counter, the ‘odd_number_counter’ variable holds the count of odd numbers that have been summed (because we only need to sum the first 20 odd numbers), and the ‘sum’ variable holds the sum of the first 20 odd numbers.
Inside the loop, we iterate all the numbers from 1 to 100, one by one (step_increment is 1 as default), and check if the number is odd. If the number is odd, we sum it and increment the ‘odd_number_counter’ by 1.
After the first IF block, another IF condition checks if the ‘odd_number_counter’ variable value is 20. If the value of ‘odd_number_counter’ is 20, then using the ‘Exit For’ statement, we are exiting out of the loop as there is no point in continuing the loop further.
Few Practical Examples of VBA For Loop
Now let’s have a look at some of the practical examples where For Loop can be used:
Example 7: Highlight alternate rows on a spreadsheet using the VBA For Loop.
In this example, we need to highlight alternate rows in a spreadsheet. To do this we can use the below code:
Sub HighlightAlternateRows()
Dim loop_ctr As Integer
Dim Max As Integer
Dim clm As Integer
Max = ActiveSheet.UsedRange.Rows.Count
clm = ActiveSheet.UsedRange.Columns.CountFor loop_ctr = 1 To Max
If loop_ctr Mod 2 = 0 Then
ActiveSheet.Range(Cells(loop_ctr, 1), Cells(loop_ctr, clm)).Interior.ColorIndex = 28
End If
Next loop_ctrMsgBox "For Loop Completed!"
End Sub
Explanation:
In the above code, we have started the loop from 1 to the number of rows in our sheet. We are then using the if statement to find the even-numbered rows for highlighting them.
Example 8: Use VBA For Loop Protect all sheets in Workbook.
In this example, we will try to create a VBA macro that loops through all the worksheets in the active workbook and protects all the worksheets.
Below is the code to do this:
Sub ProtectWorksheets()
Dim loop_ctr As Integer
For loop_ctr = 1 To ActiveWorkbook.Worksheets.Count
Worksheets(loop_ctr).Protect
Next loop_ctr
End Sub
Explanation:
In the above code, we are using a VBA for loop and iterating over all the worksheets in the open workbook. Inside the For Loop, we are trying to protect the current instance of the worksheet.
The above code can also be used to unprotect the sheets as well. Just replace the ‘Worksheets(loop_ctr).Protect’ with ‘Worksheets(loop_ctr).UnProtect’.
Example 9: Loop Over an Array of Numbers and Find the Largest and Smallest Numbers from the Array.
In this example, we have an array of numbers, and using a FOR Loop we have to iterate the array and find the smallest and the Largest numbers from the array. Below is the code to do this:
Sub ForLoopWithArrays()
Dim arr() As Variant
arr = Array(10, 12, 8, 19, 21, 5, 16)Dim min_number As Integer
Dim max_number As Integermin_number = arr(0)
max_number = arr(0)Dim loop_ctr As Integer
For loop_ctr = LBound(arr) To UBound(arr)
If arr(loop_ctr) > max_number Then
max_number = arr(loop_ctr)
End IfIf arr(loop_ctr) < min_number Then
min_number = arr(loop_ctr)
End IfNext loop_ctr
MsgBox "Largest Number: " & max_number _
& " Smallest Number: " & min_number
End Sub
Explanation:
In the above code, we have an array of numbers declared as ‘arr’ variable. In addition to that, we have two variables, ‘min_number’ and ‘max_number’, that are used for holding the minimum and maximum numbers from the array.
We initialize both the ‘min_number’ and ‘max_number’ variables to the array’s first element. Next, inside the For loop, we loop through all the array elements and check –
If the current number is greater than the ‘max_number’, then set the ‘max_number’ value equal to the current number. The next condition that we check is – If the current number is less than the ‘min_number’, then set the ‘min_number’ value equal to the current number.
Finally, we are showing the largest and the smallest numbers inside the array with the help of a msgbox.
VBA For Each Loop
For each is a more sophisticated type of For Loop. It can be used for iterating a collection of objects.
Here you don’t have to worry about the loop counter, your job is to simply pass a collection of objects, and the loop itself identifies the objects and iterates them.
Syntax of a VBA For Each Loop
The syntax of For Each Loop resembles closely to For Loop. Below is the syntax:
For Each item In collection_of_items
'Statements to be executed inside the loop
Next item
Here, ‘collection_of_items’ refers to a group of objects that you need to iterate. If you supply a single object to this parameter, it throws a «run-time error 438».
‘item’ specifies the objects inside the ‘collection_of_items’. At any particular instant inside the loop, ‘item’ contains a single object from the ‘collection_of_items’.
How a For Each Loop Works
Let’s say we have a For Each Loop as:
For Each cl In ActiveSheet.Range("A1:A10")
'Statements to be executed inside the loop
Next cl
- When the program control reaches the statement ‘For Each cl In ActiveSheet.Range(«A1:A10»)’ it evaluates the object collection and then initializes the variable ‘cl’ with the first object in the collection, i.e., cell $A$1.
- After this, it executes the statements inside the loop.
- Next, it fetches the second object from the collection and dumps it in the variable ‘cl’. And the process continues till it has fetched all objects from the collection.
Flow Diagram of a For Each Loop In VBA
Let’s try to understand the control flow as depicted in the above flow chart:
- First of all, the FOR EACH statement is executed and checks if there are any elements in the collection.
- If there are any elements present in the collection, the ‘item’ variable is initialized to the first element of the collection, and the statements inside the loop ‘Code Block’ is executed. However, If the condition evaluates to FALSE, then the control flow jumps to the next statement outside the For Each loop.
- When the ‘code block’ inside the For Each Loop executes, the loop starts to get ready for the next iteration. The ‘item’ variable is re-initialized to the next element in the collection, and the loop continues.
Few Simple Examples of VBA For Each Loop
Now let’s move to some simple examples of For Each loop.
Example 1 – Use VBA For Each Loop to display the names of all the Active Worksheets.
In this example, we will use a For Each loop to iterate through all the worksheets in the ActiveWorkbook and display the names of all the sheets using a msg box.
Sub ForEachDisplaySheetNames()
Dim sheetNames As String
For Each sht In ActiveWorkbook.Sheets
sheetNames = sheetNames & vbNewLine & sht.Name
Next shtMsgBox "The Sheet names are : " & vbNewLine & sheetNames
End Sub
Explanation:
In this example, the For Each loop takes the collection of sheets from ‘ActiveWorkbook.Sheets’ it then iterates the sheets one by one and initializes the ‘sht’ variable with the current sheet instance.
Inside the For Each block, the sheet name for each worksheet is appended to a string, and finally, outside the loop, all the sheet names are displayed using a message box.
Example 2: Use VBA For Each Loop to Sum all the Elements of an Array.
In this example, with the help of a VBA For Each loop, we will be iterating an array of numbers and find the sum of all of its elements. Below is the code to do this:
Sub ForEachSumArrayElements()
Dim arr As Variant
Dim sum As Integer
arr = Array(1, 10, 15, 17, 19, 21, 23, 27)For Each element In arr
sum = sum + element
Next elementMsgBox "The Sum is : " & sum
End Sub
Explanation:
In the above code, we have declared two variables, ‘arr’ and ‘sum’. The ‘arr’ variable is used for storing the array of numbers, and the ‘sum’ variable represents the sum of the array elements.
Inside the For Each loop, we are iterating the array elements one by one, summing them up, and storing the total in the ‘sum’ variable.
Finally, outside the For Each loop, we show the sum of the array elements using a message box.
Example 3: Use VBA For Each Loop to display the names of all the Open Workbooks.
In this example, using a For Each loop, we will loop through all the open workbooks and display their name using a message box.
Below is the code to do this:
Sub ForEachDisplayWorkbookNames()
Dim workBookNames As StringFor Each wrkbook In Workbooks
workBookNames = workBookNames & vbNewLine & wrkbook.Name
Next wrkbookMsgBox "The Workbook names are : " & vbNewLine & workBookNames
End Sub
Explanation:
In this example, the For Each loop takes the collection of workbooks, then iterates the workbooks one by one and initializes the ‘wrkbook’ variable with the current workbook instance.
Inside the For Each block, the workbook name for each workbook is appended to a string, and finally, outside the loop, all the workbook names are displayed using a message box.
Nested VBA For Each Loop
Two For Each loops can be nested within one another to perform complex tasks. Let’s understand For Each nested loop with an example:
Example 4: Display the names of all open workbooks along with their corresponding worksheets.
In this example, we will be iterating through all the open workbooks and then iterate through each workbook’s worksheets and finally display them using a message box.
Below is the code to do this:
Sub ForEachLoopNesting()
Dim result As String
For Each wrkbook In Workbooks
For Each sht In wrkbook.Sheets
result = result & vbNewLine & " Workbook : " & wrkbook.Name & " Worksheet : " & sht.Name
Next sht
Next wrkbookMsgBox result
End Sub
Explanation:
In the above code, we have used two For Each loops, one inside another. The outer For Each loop iterates through the workbooks, and the inner For Each loop iterates through the worksheets.
Inside the inner For Each block, a statement concatenates the names of the workbooks and the worksheets and stores them in a variable called ‘result’.
With each iteration, the ‘result’ variable’s new value is appended to the existing value. Finally, the value of the ‘result’ variable is displayed inside a msgbox.
How to Break Out or Exit of a For Each Loop
To break out of a For Each loop, we can use the ‘Exit For’ statement. So, ‘Exit For’ statement can break both a For loop as well as a For Each loop.
Let’s see this with an example:
Example 5: Use VBA For Each Loop to display the names of the first 3 sheets in the active workbook.
In this example, we will loop through the worksheets inside the active workbook and only display the first 3 worksheet names. Below is the code to do this:
Sub ForEachDisplayFirstThreeSheetNames()
Dim sheetNames As String
Dim sheetCounter As IntegerFor Each sht In ActiveWorkbook.Sheets
sheetNames = sheetNames & vbNewLine & sht.Name
sheetCounter = sheetCounter + 1If sheetCounter >= 3 Then
Exit For
End If
Next shtMsgBox "The Sheet names are : " & vbNewLine & sheetNames
End Sub
Explanation:
In the above code, we have a For Each loop that iterates over the worksheets inside the active workbook. Inside the loop, we are appending and storing the sheet names within the ‘sheetNames’ variable. Also, we have a ‘sheetCounter’ variable that gets incremented on each iteration.
After that, inside the loop, we also check if the value of the ‘sheetCounter’ variable has reached 3 (because we only want to display 3 sheet names).
If the ‘sheetCounter’ variable’s value has reached 3, we exit the loop using the ‘Exit For’ statement. Finally, we are displaying the value of the ‘sheetNames’ variable using a msgbox.
VBA Do While Loop
VBA Do While is another type of loop that repeatedly executes a set of statements while a condition continues to be True. The loop ends when the condition becomes false.
Syntax of Do While Loop In VBA
Do while loop has two syntaxes in VBA, these are as follows:
Syntax 1:
Do While condition
'Statements to be executed inside the loop
Loop
Or
Syntax 2:
Do
'Statements to be executed inside the loop
Loop While condition
In both the syntaxes, ‘condition’ is used as the loop backbone. On each iteration ‘While’ statement checks if the ‘condition’ evaluates to True or False. If the ‘condition’ is True, then the loop continues; otherwise, the loop terminates.
Before everything else, let’s try to understand the difference between these two syntaxes.
Difference Between the two Do While Syntaxes
As we can see in the first, do-while loop syntax, the ‘condition’ is checked as the first statement. This means if the condition is false, the do-while loop in syntax 1 will not perform any iterations.
Whereas in the second syntax, the ‘condition’ is checked as the last statement inside the loop. This means that even if the condition is false, the do-while loop in syntax 2 will perform at least 1 iteration. Only after that, the condition will be evaluated, and the next iteration will not happen.
So, syntax 2 guarantees to have at least 1 iteration irrespective of the condition being true or false.
Now, let’s try to understand how a do-while loop works.
How Does a Do While Loop Work
Syntax 1 –
Let’s say we have a Do While loop as follows:
Dim loop_ctr as Integer
loop_ctr = 1
Do While loop_ctr < 10
'Statements to be executed inside the loop
loop_ctr = loop_ctr + 1
Loop
- In the first two statements, the variable ‘loop_ctr’ is declared and initialized as 1.
- When the program control reaches the statement «Do While loop_ctr < 10», it checks if the value of the ‘loop_ctr’ is less than 10.
- If the ‘loop_ctr’ value is less than 10, the statements inside the body of the loop get executed sequentially, and finally, the ‘loop_ctr’ is incremented by 1.
- After this, the control again moves to the loop «Do While loop_ctr < 10», and the loop continues till the value of ‘loop_ctr’ becomes equal to 10.
- When the value of ‘loop_ctr’ becomes equal to 10, then the do while condition fails, and the control moves to the next statement after the do-while loop.
Syntax 2 –
Let’s say we have a Do While loop as follows:
Dim loop_ctr as Integer
loop_ctr = 1
Do
'Statements to be executed inside the loop</em>
loop_ctr = loop_ctr + 1
Loop While loop_ctr < 10
- In the first two statements, the variable ‘loop_ctr’ is declared and initialized as 1.
- When the program control reaches the «Do» statement, as there are no checks (like syntax 1), it just comes inside the loop and starts executing the statements inside the loop one by one and increments the ‘loop_ctr’ by 1.
- After executing the statements inside the loop body, it checks if the ‘loop_ctr’ is less than 10. If the ‘loop_ctr’ value is less than 10, another iteration starts.
- If the value of ‘loop_ctr’ becomes equal to 10, then the do while condition fails, and the control moves to the next statement after the do-while loop.
Note: In the second syntax, the Do-While Loop always iterates at-least-once since the condition to be checked is placed at the end of the loop.
Flow Diagram of a Do While Loop In VBA:
Let’s try to understand the control flow as depicted in the above flow chart:
Syntax 1 –
- In this Do-While syntax, the loop condition is checked along with the Do statement.
- If the condition is true, then the ‘code block’ inside the do-while loop is executed, and the next iteration begins. Each iteration before beginning checks the loop condition, and the ‘code block’ inside the do-while loop is only executed when the condition evaluates to true.
- When the loop condition becomes false, then no more loop iterations occur, and the control flow jumps to the next statement outside the Do While loop.
Syntax 2 –
- In this Do-While syntax, the loop condition is not checked along with the Do statement.
- Since for the first iteration, no condition is checked. Hence the code block inside the do-while body gets executed.
- After the first iteration, each subsequent iteration, before beginning, checks the loop condition, and the ‘code block’ inside the do-while loop is only executed when the condition evaluates to true.
- When the loop condition becomes false, then no more loop iterations occur, and the control flow jumps to the next statement outside the Do While loop.
Few Simple Examples of Do While Loop In VBA
Example 1: Use VBA Do While Loop to print numbers from 1 to 10 in excel.
In this example, we have a range «A1:A10,» and we have to fill this range with numbers from 1-10. To do this we can use the below code:
Sub DoWhileLoopPrintNumbers()
Dim loop_ctr As Integer
loop_ctr = 1Do While loop_ctr <= 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
loop_ctr = loop_ctr + 1
LoopMsgBox ("Loop Ends")
End Sub
Explanation:
In the above code, we have declared and initialized the ‘loop_ctr’ variable for our Do While loop. Next, along with the Do while statement, we have a condition to run the loop till the ‘loop_ctr’ value is less than or equal to 10.
Inside the Do While Loop body, we have written the code to write the ‘loop_ctr’ value on the excel sheet in the A column.
After this, there is a statement that increments the ‘loop_ctr’ for the next iteration.
Example 2: Use Do While Loop in VBA to find the sum of all the numbers between 1 to 20.
In this example, we will loop through all the numbers between 1 to 20 and sum them. Finally, we will be displaying the sum of the numbers from 1 to 20 on the screen.
To do this we can use the following code:
Sub WhileLoopSumNumbers()
Dim loop_ctr As Integer
Dim result As Integer
loop_ctr = 1
result = 0Do While loop_ctr <= 20
result = result + loop_ctr
loop_ctr = loop_ctr + 1
LoopMsgBox "Sum of numbers from 1-20 is : " & result
End Sub
Explanation:
In the above code, we have declared the loop counter ‘loop_ctr’ for our Do While loop. Next, we have declared another integer variable as ‘result’ for storing the sum of numbers from 1 to 20.
After this, along with the Do while statement, we have a condition to run the loop till the ‘loop_ctr’ value is less than or equal to 20.
Inside the Do While Loop body, we have added the value of ‘loop_ctr’ along with the result. This means that in the first iteration, the result’s value will be: 1, and in the second iteration, it will be : (1+2) = 3. Similarly, in the third iteration, the value will be: (3 + 3) = 6 and so on.
After this, there is a statement that increments the ‘loop_ctr’ for the next iteration.
The Do While loop in the above code iterates 20 times, sums all the numbers from 1 to 20, and finally displays the sum of these numbers in msgbox.
Example 3: Show the unique behavior of Do While Loop (In Syntax 2) to execute at-least-once even if the condition to be checked is False.
Sub DoWhileLoopTest()
Dim loop_ctr As Integer
loop_ctr = 100Do
MsgBox "Loop Counter : " & loop_ctr
loop_ctr = loop_ctr + 1
Loop While loop_ctr <= 10End Sub
Explanation:
In the above example, we have initialized the ‘loop_ctr’ as 100 and inside the loop condition we are checking ‘loop_ctr < 10’. This means the loop is only designed to iterate when the value of ‘loop_ctr’ is less than 10. But you will notice that despite the condition this do-while loop executes once.
The reason for this is: because according to syntax 2 of the Do While loop, there is no way to check conditions at the beginning of the loop. You can only check conditions at the end of the loop.
Note: We can fix this issue by simply using the Do While loop in Syntax 1 as shown:
Sub DoWhileLoopTest()
Dim loop_ctr As Integer
loop_ctr = 100Do While loop_ctr <= 10
MsgBox "Loop Counter : " & loop_ctr
loop_ctr = loop_ctr + 1
LoopEnd Sub
Writing a Nested Do While Loop
Similar to other loops, nesting is very much possible in Do While Loops. Let’s understand nested Do While loops this with an example.
Example 4: Print numbers from 1 to 10 in all the worksheets in an excel spreadsheet using a Do While Loop.
In this example, we need to print numbers from 1 to 10 in all the worksheets in an excel workbook using a do-while loop. To do this, we can make use of the following code:
Sub NestedDoWhileLoop()
Dim loop_ctr As Integer
Dim sheet As Integer
sheet = 1Do While sheet <= Worksheets.Count
loop_ctr = 1
Do While loop_ctr <= 10
Worksheets(sheet).Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
loop_ctr = loop_ctr + 1
Loop
sheet = sheet + 1
LoopMsgBox "Nested While Loop Completed!"
End Sub
Explanation:
In this example, there are two Do While Loops, one inside another. The Outer Do While Loop iterates over the variable ‘sheet’ and iterates till the value of the ‘sheet’ variable is less than or equal to ‘Worksheets.Count’ (i.e., the total count of worksheets in a workbook).
Inner Do While Loop iterates over the variable ‘loop_ctr’ and iterates till the value of ‘loop_ctr’ is less than or equal to 10. This helps us to print the numbers in a sequence.
Inside the body of the Inner Do While loop, we have a statement that prints the numbers between 1 to 10 in each worksheet (as per the outer loop).
The outer loop iterates over all the available worksheets sheets in the spreadsheet, whereas the inner loop iterates over the numbers from 1 to 10 for the current sheet.
This makes it possible to print numbers from 1 – 10 in all the available worksheets.
Infinite Loop Using a Do While Loop
Unlike a For Loop, a Do While Loop does not have a clear ‘start’, ‘end’ or ‘step_increments’, so it is very easy to make logical errors resulting in an infinite or an endless loop. Below is an example of a Do While endless loop:
'Do not run this code
Sub InfiniteDoWhileLoop()
Dim loop_ctr As Integer
loop_ctr = 1Do While loop_ctr <= 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
LoopMsgBox ("Loop Ends")
End Sub
In the above code, we have simply missed the line to increment the loop counter i.e. ‘loop_ctr = loop_ctr + 1’ and this has made the loop infinite because the value of ‘loop_ctr’ will always be 1 (since it is never incremented) and hence the loop condition ‘While loop_ctr <= 10’ will always evaluate to true.
Tip: It is always a good idea to use a For Each or For Next loop over a Do While or Do Until loop (whenever possible).
How to Break Out or Exit of a Do While Loop
To break out of a Do While loop, we can use the ‘Exit Do’ statement. As soon as the VBA engine executes the ‘Exit Do’ statement, it exits the loop and takes the control to the next statement after the Do while loop.
Let’s see this with an example:
Example 5: Use a Do While loop in VBA to find the sum of the first 15 odd numbers between 1 to 100.
In this example, we have to find the first 15 odd numbers from 1 to 100 and then calculate their sum. Below is the code to do this:
Sub SumFirst15OddNumbers()
Dim loop_ctr As Integer
Dim odd_number_counter As Integer
Dim sum As Integerloop_ctr = 1
Do While loop_ctr <= 100
If (loop_ctr Mod 2 <> 0) Then
sum = sum + loop_ctr
odd_number_counter = odd_number_counter + 1
End IfIf (odd_number_counter = 15) Then
Exit Do
End Ifloop_ctr = loop_ctr + 1
LoopMsgBox "Sum of top 15 odd numbers is : " & sum
End Sub
Explanation:
In this example, we have three variables – ‘loop_ctr’, ‘odd_number_counter’, and ‘sum’. ‘loop_ctr’ is the loop counter variable, ‘odd_number_counter’ variable holds the count of odd numbers that have been summed and the ‘sum’ variable holds the sum of the first 15 odd numbers.
Inside the Do While loop, we loop through all the numbers from 1 to 100, one by one, and check if the number is odd. If the number is odd, we sum it and increment the ‘odd_number_counter’ by 1.
After the first IF block, another IF condition checks if the ‘odd_number_counter’ variable value is 15. If the value of ‘odd_number_counter’ is 15, then using the ‘Exit Do’ statement, we are breaking the loop as there is no point in continuing the loop further.
Finally, we are displaying the value of the ‘sum’ variable using a msgbox.
VBA Do Until Loop
Do Until loop is very similar to Do While loop; the only difference between them is that –
- A ‘do-while’ loop iterates as long as a certain condition is true.
- On the other hand, a ‘do-until’ loop iterates until a condition is no longer true.
Let’s try to understand this difference in simple terms:
For Instance: If we want to write a Do Loop that iterates from 1 to 10, with while keyword, the condition would be ‘Do While loop_ctr <= 10’ and with until keyword, the same condition can be written as ‘Do Until loop_ctr > 10’.
Which means:
- Until – repeat Until the count is greater than ten
- While – repeat While the count is less than or equal to ten
With these examples, you can clearly see – using Until and While is just the opposite way of writing the same condition.
Now, let’s have a look at the syntax of Do Until Loop.
Syntax of Do Until Loop In VBA
Similar to Do While loop, Do Until also has two syntaxes:
Syntax 1 –
Do Until condition
'Statements to be executed inside the loop
Loop
Or
Syntax 2 –
Do
'Statements to be executed inside the loop
Loop Until condition
Here, ‘condition’ is used as the loop backbone, the same as in the case of Do While Loop. On each iteration, Until statement checks, if the ‘condition’ evaluates to True or False. If the ‘condition’ is False, then the loop continues. Otherwise, the loop ends.
Now, let’s try to understand the difference between these two syntaxes.
Difference Between the two Do Until Syntaxes
As we can see in the first do until loop syntax, the ‘condition’ is checked as the first statement. This means if the condition is true, the do-until loop in syntax 1 will not perform any iterations.
Whereas in the second syntax, the ‘condition’ is checked as the last statement inside the loop. This means that even if the condition is true, the do-until loop in syntax 2 will perform at least 1 iteration. Only after that, the condition will be evaluated, and the next iteration will not happen.
So, syntax 2 guarantees to have at least 1 iteration irrespective of the condition being true or false.
How a Do Until Loop Works
Syntax 1 –
Let’s say we have a Do Until loop as follows:
Dim loop_ctr As Integer
loop_ctr = 1
Do Until loop_ctr > 10
'Statements to be executed inside the loop
loop_ctr = loop_ctr + 1
Loop
- In the first two statements, a variable ‘loop_ctr’ is declared and initialized as 1.
- When the program control reaches the statement «Do Until loop_ctr > 10», it checks if the value of the ‘loop_ctr’ is greater than 10.
- If the ‘loop_ctr’ value is less than or equal to 10, the statements inside the body of the loop get executed sequentially, and finally, the ‘loop_ctr’ is incremented by 1.
- After this, the control again moves to check the condition «Do Until loop_ctr > 10», and the loop continues till the value of ‘loop_ctr’ is less than or equal to 10.
Syntax 2 –
Dim loop_ctr As Integer
loop_ctr = 1
Do
'Statements to be executed inside the loop
loop_ctr = loop_ctr + 1
Loop Until loop_ctr > 10
- In the first two statements, a variable ‘loop_ctr’ is declared and initialized as 1.
- When the program control reaches the statement Do, it simply moves to the next statement as the Do statement doesn’t force the program to check any condition.
- After this, in the following statement, a variable ‘loop_ctr’ is incremented by 1.
- Next, ‘Loop Until loop_ctr > 10’ statement checks if the value of ‘loop_ctr’ is greater than 10 or not. If it is less than or equal to 10, then the program control again jumps to the Do statement, but if the value of ‘loop_ctr’ is greater than 10, it terminates the loop and the program control moves to the next statement.
Note: Syntax 2 of Do Until Loop always iterates at-least-once since the condition that is to be checked is placed at the end of the loop.
Flow Diagram of a Do Until Loop In VBA
Let’s try to understand the control flow as depicted in the above flow chart:
Syntax 1 –
- In this Do-Until syntax, the loop condition is checked along with the Do statement.
- If the condition is false, then the ‘code block’ inside the do-until loop is executed, and the next iteration begins. Each iteration before beginning checks the loop condition, and the ‘code block’ inside the do-until loop is only executed when the condition evaluates to false.
- When the loop condition becomes true, then no more loop iterations occur, and the control flow jumps to the next statement outside the Do Until loop.
Syntax 2 –
- In this Do-Until syntax, the loop condition is not checked along with the Do statement.
- Since for the first iteration, no condition is checked. Hence the code block inside the do-until body gets executed.
- After the first iteration, each subsequent iteration, before beginning, checks the loop condition, and the ‘code block’ inside the do-until loop is only executed when the condition evaluates to false.
- When the loop condition becomes true, then no more loop iterations occur, and the control flow jumps to the next statement outside the Do Until loop.
Few Simple Examples of Do Until Loop In VBA
Example 1: Print numbers from 1 to 10 in excel using a VBA Do Until Loop.
In this example, we have a range «A1:A10,» and we have to fill this range with numbers from 1-10. To do this we can use the below code:
Sub DoUntilLoopPrintNumbers()
Dim loop_ctr As Integer
loop_ctr = 1Do Until loop_ctr < 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
loop_ctr = loop_ctr + 1
LoopMsgBox ("Loop Ends")
End Sub
Explanation:
In the above code, first of all, we have declared and initialized the ‘loop_ctr’ variable for our Do Until loop. Next, along with the Do until statement, we have a condition to run the loop till ‘loop_ctr’ value is greater than 10.
Inside the Do Until Loop body, we have written the code to write the ‘loop_ctr’ value on the excel sheet in the A column.
After this, there is a statement that increments the ‘loop_ctr’ for the next iteration. As soon as the value of the ‘loop_ctr’ variable becomes greater than 10, the loop ends.
Example 2: Use Do Until Loop in VBA to find the sum of all the numbers between 1 to 20.
In this example, using a do until loop, we will iterate all the numbers between 1 to 20 and sum them. Finally, we will be displaying the sum of the numbers from 1 to 20 on the screen. To do this we can use the following code:
Sub DoUntilLoopSumNumbers()
Dim loop_ctr As Integer
Dim result As Integer
loop_ctr = 1
result = 0Do Until loop_ctr > 20
result = result + loop_ctr
loop_ctr = loop_ctr + 1
LoopMsgBox "Sum of numbers from 1-20 is : " & result
End Sub
Explanation:
In the above code, we have declared the loop counter ‘loop_ctr’ for our Do Until loop. Next, we have declared another integer variable as ‘result’ for storing the sum of numbers from 1 to 20.
After this, along with the Do Until statement, we have a condition to run the loop until the ‘loop_ctr’ becomes greater than 20.
Inside the Do Until Loop body, we have added the value of ‘loop_ctr’ along with the result. This means in the first iteration, the value of the result will be: 1, and in the second iteration, it will be : (1+2) = 3; similarly, in the third iteration, the value will be: (3 + 3) = 6 and so on.
After this, there is a statement that increments the ‘loop_ctr’ for the next iteration.
The Do Until loop in the above code iterates 20 times and sums all the numbers from 1 to 20, and finally displays the sum of these numbers in msgbox.
Example 3: Show the unique behavior of Do Until Loop (In Syntax 2) to execute at-least-once even if the condition to be checked is True.
Sub DoUntilLoopTest()
Dim loop_ctr As Integer
loop_ctr = 100Do
MsgBox "Loop Counter : " & loop_ctr
loop_ctr = loop_ctr + 1
Loop Until loop_ctr > 10
End Sub
Explanation:
In the above example, we have initialized the ‘loop_ctr’ as 100 and inside the loop condition we are checking ‘loop_ctr > 10’. This means the loop is only designed to iterate when the value of ‘loop_ctr’ is less than 10. But you will notice that despite the condition this do-until loop executes once.
The reason for this is: because according to syntax 2 of the Do Until loop, there is no way to check conditions at the beginning of the loop. The condition can only be checked at the end of the loop.
Note: We can fix this issue by simply using the Do Until loop in Syntax 1 as shown:
Sub DoUntilLoopTest()
Dim loop_ctr As Integer
loop_ctr = 100Do Until loop_ctr > 10
MsgBox "Loop Counter : " & loop_ctr
loop_ctr = loop_ctr + 1
Loop
End Sub
Writing a Nested Do Until Loop
Similar to other loops nesting is very much possible in Do Until Loop. Let’s see how to write a nested Do Until loop:
Example 4: Print numbers from 1 to 5 in all the worksheets in an excel spreadsheet using a Do Until Loop.
In this example, we need to print numbers from 1 to 5 in all the worksheets in an excel workbook using a do until loop. To do this, we can make use of the following code:
Sub NestedDoUntilLoop()
Dim loop_ctr As Integer
Dim sheet As Integer
sheet = 1Do Until sheet > Worksheets.Count
loop_ctr = 1
Do Until loop_ctr > 5
Worksheets(sheet).Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
loop_ctr = loop_ctr + 1
Loop
sheet = sheet + 1
LoopMsgBox "Nested Do Until Loop Completed!"
End Sub
Explanation:
In this example, there are two Do Until Loops, one inside another. The Outer Do Until Loop iterates over the variable ‘sheet’ and iterates until the value of the ‘sheet’ variable becomes greater than ‘Worksheets.Count’ (i.e., the total count of worksheets in a workbook).
Inner Do Until Loop iterates over the variable ‘loop_ctr’ and iterates until the value of ‘loop_ctr’ becomes greater than 5. This helps us to print the numbers in a sequence.
Inside the body of the Inner Do Until loop, we have a statement that prints the numbers between 1 to 5 in each worksheet (as per the outer loop).
The outer loop iterates over all the available worksheets in the spreadsheet, whereas the inner loop iterates over the numbers from 1 to 5 for the current sheet.
This makes it possible to print numbers from 1 – 5 in all the available worksheets.
Infinite Loop Using a Do Until Loop
Syntactically, Do Until Loop is very different from a For Loop since it does not provide a clear ‘start’, ‘end’ or ‘step_increments’, so it is very easy to make logical errors resulting in an infinite or an endless loop.
Below is an example of a Do Until endless loop:
'Do not run this code
Sub InfiniteDoUntilLoop()
Dim loop_ctr As Integer
loop_ctr = 1Do Until loop_ctr > 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
LoopMsgBox ("Loop Ends")
End Sub
In the above code, we have simply missed the line to increment the loop counter i.e. ‘loop_ctr = loop_ctr + 1’ and this has made the loop infinite because the value of ‘loop_ctr’ will always be 1 (since it is never incremented) and hence the loop condition ‘Until loop_ctr > 10’ will always evaluate to false.
Tip: It is always a good idea to use a For Each or For Next loop over a Do While or Do Until loop (whenever possible).
How to Break Out or Exit of a Do Until Loop
Similar to a Do While Loop, a Do Until loop can also be exited using an ‘Exit Do’ statement. As soon as the VBA engine executes the ‘Exit Do’ statement, it exits the loop and takes control to the next statement after the Do Until loop.
Let’s see this with an example:
Example 5: Use a Do Until loop in VBA to find the sum of the first 20 even numbers between 1 to 100.
In this example, we must find the first 20 even numbers from 1 to 100 and then calculate their sum.
Below is the code to do this:
Sub SumFirst20EvenNumbers()
Dim loop_ctr As Integer
Dim even_number_counter As Integer
Dim sum As Integerloop_ctr = 1
Do Until loop_ctr < 100
If (loop_ctr Mod 2 = 0) Then
sum = sum + loop_ctr
even_number_counter = even_number_counter + 1
End IfIf (even_number_counter = 20) Then
Exit Do
End Ifloop_ctr = loop_ctr + 1
LoopMsgBox "Sum of top 20 even numbers is : " & sum
End Sub
Explanation:
In this example, we have three variables – ‘loop_ctr’, ‘even_number_counter’, and ‘sum’. ‘loop_ctr’ is the loop counter variable, ‘even_number_counter’ variable holds the count of even numbers that have been summed (because we only need to sum the first 20 even numbers) and ‘sum’ variable holds the sum of the first 20 even numbers.
Inside the Do Until loop, we loop through all the numbers from 1 to 100, one by one, and check if the number is even. If the number is even, we sum it and increment the ‘even_number_counter’ by 1.
After the first IF block, another IF condition checks if the ‘even_number_counter’ variable value is 20. If the value of ‘even_number_counter’ is 20, then using the ‘Exit Do’ statement, we break the loop as there is no point in running the loop further.
While Wend Loop In VBA (Obsolete)
While Wend loop was added in VBA just to make it backward compatible, Microsoft recommends using Do While Loop in place of While Wend Loop.
While Wend Loop is not as structured and flexible like a Do While Loop, it also doesn’t support the idea of prematurely exiting out of the loop.
Tip: If you are learning loops in VBA, then you can skip this topic. However, if you are dealing with a legacy code with While Wend statements, I would recommend you change them and start using the Do while loops instead.
Syntax of While Wend Loops
The syntax of While Wend Loop is as follows:
While condition
'Statements to be executed inside the loop
Wend
‘condition’ is used as the loop backbone. On each iteration, the While statement checks if the ‘condition’ evaluates to True or False. If the ‘condition’ is True, then the loop continues; otherwise, the loop terminates.
Example: Write a While Wend loop to print numbers from 1 to 10.
To do this, we can write the below code:
Sub WhileWendExample()
Dim loop_ctr As Integer
loop_ctr = 1While loop_ctr <= 10
ActiveSheet.Range("A1").Offset(loop_ctr - 1, 0).Value = loop_ctr
loop_ctr = loop_ctr + 1
WendMsgBox "Loop Ends!"
End Sub
Explanation:
In the above code, first of all, we are declaring and initializing a loop counter variable ‘loop_ctr’ as 1. Next, there is a While statement along with the condition ‘While loop_ctr <= 10’.
This means that we need to iterate until the value of the ‘loop_ctr’ variable is less than or equal to 10. After this, we are printing the value of ‘loop_ctr’ in the active worksheet and then incrementing the loop counter. When the Wend statement is encountered, the next iteration starts.
The loop in the above example iterates 10 times, and after that, the value of ‘loop_ctr’ becomes 11, and hence the loop condition becomes false, and the control moves to the statement after the while when loop.
Finally, a message’ Loop Ends!’ is presented on the screen to notify the user that the loop has ended.
How To Write VBA Code In Excel
VBA code can be added to a spreadsheet using the Visual Basic Editor. To open the Visual Basic Editor in Excel, follow the below steps:
- If you are on Windows, press the keys (ALT + F11). If you are on MAC, press the keys (Opt + F11). This will open the Visual Basic Editor.
- After the Visual Basic Editor is opened. Go to «Insert» and click the «Module» option as shown in the image. This will insert a module object for your workbook.
- Now you can copy-paste the above codes in the module and run them using the execute button as shown.
Debugging Tips
- Use the F5 key to run the code.
- Use the F9 key to insert or remove a breakpoint.
- Use the F8 key to ‘step-into’ or run the code line by line. It can be used to debug the code and execute it line by line.
So, this was all about VBA Loops. Do let us know in case you have any queries related to the topic.
In this Article
- VBA Loop Quick Examples
- For Each Loops
- For Next Loops
- Do While Loops
- Do Until Loops
- VBA Loop Builder
- VBA For Next Loop
- For Loop Syntax
- For Loop Step
- For Loop Step – Inverse
- Nested For Loop
- Exit For
- Continue For
- VBA For Each Loop
- For Each Cell in Range
- For Each Worksheet in Workbook
- For Each Open Workbook
- For Each Shape in Worksheet
- For Each Shape in Each Worksheet in Workbook
- For Each – IF Loop
- VBA Do While Loop
- Do While
- Loop While
- VBA Do Until Loop
- Do Until
- Loop Until
- Exit Do Loop
- End or Break Loop
- More Loop Examples
- Loop Through Rows
- Loop Through Columns
- Loop Through Files in a Folder
- Loop Through Array
- Loops in Access VBA
To work effectively in VBA, you must understand Loops.
Loops allow you to repeat a code block a set number of times or repeat a code block on a each object in a set of objects.
First we will show you a few examples to show you what loops are capable of. Then we will teach you everything about loops.
VBA Loop Quick Examples
For Each Loops
For Each Loops loop through every object in a collection, such as every worksheet in workbook or every cell in a range.
Loop Through all Worksheets in Workbook
This code will loop through all worksheets in the workbook, unhiding each sheet:
Sub LoopThroughSheets()
Dim ws As Worksheet
For Each ws In Worksheets
ws.Visible = True
Next
End Sub
Loop Through All Cells in Range
This code will loop through a range of cells, testing if the cell value is negative, positive, or zero:
Sub If_Loop()
Dim Cell as Range
For Each Cell In Range("A2:A6")
If Cell.Value > 0 Then
Cell.Offset(0, 1).Value = "Positive"
ElseIf Cell.Value < 0 Then
Cell.Offset(0, 1).Value = "Negative"
Else
Cell.Offset(0, 1).Value = "Zero"
End If
Next Cell
End Sub
For Next Loops
Another type of “For” Loop is the For Next Loop. The For Next Loop allows you to loop through integers.
This code will loop through integers 1 through 10, displaying each with a message box:
Sub ForLoop()
Dim i As Integer
For i = 1 To 10
MsgBox i
Next i
End Sub
Do While Loops
Do While Loops will loop while a condition is met. This code will also loop through integers 1 through 10, displaying each with a message box.
Sub DoWhileLoop()
Dim n As Integer
n = 1
Do While n < 11
MsgBox n
n = n + 1
Loop
End Sub
Do Until Loops
Conversely, Do Until Loops will loop until a condition is met. This code does the same thing as the previous two examples.
Sub DoUntilLoop()
Dim n As Integer
n = 1
Do Until n >= 10
MsgBox n
n = n + 1
Loop
End Sub
We will discuss this below, but you need to be extremely careful when creating Do While or Do Until loops so that you don’t create a never ending loop.
VBA Loop Builder
This is a screenshot of the “Loop Builder” from our Premium VBA Add-in: AutoMacro. The Loop Builder allows you to quickly and easily build loops to loop through different objects, or numbers. You can perform actions on each object and/or select only objects that meet certain criteria.
The add-in also contains many other code builders, an extensive VBA code library, and an assortment of coding tools. It’s a must have for any VBA developer.
Now we will cover the different types of loops in depth.
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VBA For Next Loop
For Loop Syntax
The For Next Loop allows you to repeat a block of code a specified number of times. The syntax is:
[Dim Counter as Integer]
For Counter = Start to End [Step Value]
[Do Something]
Next [Counter]
Where the items in brackets are optional.
- [Dim Counter as Long] – Declares the counter variable. Required if Option Explicit is declared at the top of your module.
- Counter – An integer variable used to count
- Start – The start value (Ex. 1)
- End – The end value (Ex. 10)
- [Step Value] – Allows you to count every n integers instead of every 1 integer. You can also go in reverse with a negative value (ex. Step -1)
- [Do Something] – The code that will repeat
- Next [Counter] – Closing statement to the For Next Loop. You can include the Counter or not. However, I strongly recommend including the counter as it makes your code easier to read.
If that’s confusing, don’t worry. We will review some examples:
Count to 10
This code will count to 10 using a For-Next Loop:
Sub ForEach_CountTo10()
Dim n As Integer
For n = 1 To 10
MsgBox n
Next n
End Sub
For Loop Step
Count to 10 – Only Even Numbers
This code will count to 10 only counting even numbers:
Sub ForEach_CountTo10_Even()
Dim n As Integer
For n = 2 To 10 Step 2
MsgBox n
Next n
End Sub
Notice we added “Step 2”. This tells the For Loop to “step” through the counter by 2. We can also use a negative step value to step in reverse:
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For Loop Step – Inverse
Countdown from 10
This code will countdown from 10:
Sub ForEach_Countdown_Inverse()
Dim n As Integer
For n = 10 To 1 Step -1
MsgBox n
Next n
MsgBox "Lift Off"
End Sub
Delete Rows if Cell is Blank
I’ve most frequently used a negative step For-Loop to loop through ranges of cells, deleting rows that meet certain criteria. If you loop from the top rows to the bottom rows, as you delete rows you will mess up your counter.
This example will delete rows with blank cells (starting from the bottom row):
Sub ForEach_DeleteRows_BlankCells()
Dim n As Integer
For n = 10 To 1 Step -1
If Range("a" & n).Value = "" Then
Range("a" & n).EntireRow.Delete
End If
Next n
End Sub
Nested For Loop
You can “nest” one For Loop inside another For Loop. We will use Nested For Loops to create a multiplication table:
Sub Nested_ForEach_MultiplicationTable()
Dim row As Integer, col As Integer
For row = 1 To 9
For col = 1 To 9
Cells(row + 1, col + 1).Value = row * col
Next col
Next row
End Sub
Exit For
The Exit For statement allows you to exit a For Next loop immediately.
You would usually use Exit For along with an If Statement, exiting the For Next Loop if a certain condition is met.
For example, you might use a For Loop to find a cell. Once that cell is found, you can exit the loop to speed up your code.
This code will loop through rows 1 to 1000, looking for “error” in column A. If it’s found, the code will select the cell, alert you to the found error, and exit the loop:
Sub ExitFor_Loop()
Dim i As Integer
For i = 1 To 1000
If Range("A" & i).Value = "error" Then
Range("A" & i).Select
MsgBox "Error Found"
Exit For
End If
Next i
End Sub
Important: In the case of Nested For Loops, Exit For only exits the current For Loop, not all active Loops.
Continue For
VBA does not have the “Continue” command that’s found in Visual Basic. Instead, you will need to use “Exit”.
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VBA For Each Loop
The VBA For Each Loop will loop through all objects in a collection:
- All cells in a range
- All worksheets in a workbook
- All shapes in a worksheet
- All open workbooks
You can also use Nested For Each Loops to:
- All cells in a range on all worksheets
- All shapes on all worksheets
- All sheets in all open workbooks
- and so on…
The syntax is:
For Each Object in Collection
[Do Something]
Next [Object]
Where:
- Object – Variable representing a Range, Worksheet, Workbook, Shape, etc. (ex. rng)
- Collection – Collection of objects (ex. Range(“a1:a10”)
- [Do Something] – Code block to run on each object
- Next [Object] – Closing statement. [Object] is optional, however strongly recommended.
For Each Cell in Range
This code will loop through each cell in a range:
Sub ForEachCell_inRange()
Dim cell As Range
For Each cell In Range("a1:a10")
cell.Value = cell.Offset(0,1).Value
Next cell
End Sub
For Each Worksheet in Workbook
This code will loop through all worksheets in a workbook, unprotecting each sheet:
Sub ForEachSheet_inWorkbook()
Dim ws As Worksheet
For Each ws In Worksheets
ws.Unprotect "password"
Next ws
End Sub
For Each Open Workbook
This code will save and close all open workbooks:
Sub ForEachWB_inWorkbooks()
Dim wb As Workbook
For Each wb In Workbooks
wb.Close SaveChanges:=True
Next wb
End Sub
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For Each Shape in Worksheet
This code will delete all shapes in the active sheet.
Sub ForEachShape()
Dim shp As Shape
For Each shp In ActiveSheet.Shapes
shp.Delete
Next shp
End Sub
For Each Shape in Each Worksheet in Workbook
You can also nest For Each Loops. Here we will loop through all shapes in all worksheets in the active workbook:
Sub ForEachShape_inAllWorksheets()
Dim shp As Shape, ws As Worksheet
For Each ws In Worksheets
For Each shp In ws.Shapes
shp.Delete
Next shp
Next ws
End Sub
For Each – IF Loop
As we’ve mentioned before, you can use an If statement within a loop, performing actions only if certain criteria is met.
This code will hide all blank rows in a range:
Sub ForEachCell_inRange()
Dim cell As Range
For Each cell In Range("a1:a10")
If cell.Value = "" Then _
cell.EntireRow.Hidden = True
Next cell
End Sub
VBA Do While Loop
The VBA Do While and Do Until (see next section) are very similar. They will repeat a loop while (or until) a condition is met.
The Do While Loop will repeat a loop while a condition is met.
Here is the Do While Syntax:
Do While Condition
[Do Something]
Loop
Where:
- Condition – The condition to test
- [Do Something] – The code block to repeat
You can also set up a Do While loop with the Condition at the end of the loop:
Do
[Do Something]
Loop While Condition
We will demo each one and show how they differ:
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Do While
Here is the Do While loop example we demonstrated previously:
Sub DoWhileLoop()
Dim n As Integer
n = 1
Do While n < 11
MsgBox n
n = n + 1
Loop
End Sub
Loop While
Now let’s run the same procedure, except we will move the condition to the end of the loop:
Sub DoLoopWhile()
Dim n As Integer
n = 1
Do
MsgBox n
n = n + 1
Loop While n < 11
End Sub
VBA Do Until Loop
Do Until Loops will repeat a loop until a certain condition is met. The syntax is essentially the same as the Do While loops:
Do Until Condition
[Do Something]
Loop
and similarly the condition can go at the start or the end of the loop:
Do
[Do Something]
Loop Until Condition
Do Until
This do Until loop will count to 10, like our previous examples
Sub DoUntilLoop()
Dim n As Integer
n = 1
Do Until n > 10
MsgBox n
n = n + 1
Loop
End Sub
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Loop Until
This Loop Until loop will count to 10:
Sub DoLoopUntil()
Dim n As Integer
n = 1
Do
MsgBox n
n = n + 1
Loop Until n > 10
End Sub
Exit Do Loop
Similar to using Exit For to exit a For Loop, you use the Exit Do command to exit a Do Loop immediately
Exit Do
Here is an example of Exit Do:
Sub ExitDo_Loop()
Dim i As Integer
i = 1
Do Until i > 1000
If Range("A" & i).Value = "error" Then
Range("A" & i).Select
MsgBox "Error Found"
Exit Do
End If
i = i + 1
Loop
End Sub
End or Break Loop
As we mentioned above, you can use the Exit For or Exit Do to exit loops:
Exit For
Exit Do
However, these commands must be added to your code before you run your loop.
If you are trying to “break” a loop that’s currently running, you can try pressing ESC or CTRL + Pause Break on the keyboard. However, this may not work. If it doesn’t work, you’ll need to wait for your loop to end or, in the case of an endless loop, use CTRL + ALT + Delete to force close Excel.
This is why I try to avoid Do loops, it’s easier to accidentally create an endless loop forcing you to restart Excel, potentially losing your work.
More Loop Examples
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Loop Through Rows
This will loop through all the rows in a column:
Public Sub LoopThroughRows()
Dim cell As Range
For Each cell In Range("A:A")
If cell.value <> "" Then MsgBox cell.address & ": " & cell.Value
Next cell
End Sub
Loop Through Columns
This will loop through all columns in a row:
Public Sub LoopThroughColumns()
Dim cell As Range
For Each cell In Range("1:1")
If cell.Value <> "" Then MsgBox cell.Address & ": " & cell.Value
Next cell
End Sub
Loop Through Files in a Folder
This code will loop through all files in a folder, creating a list:
Sub LoopThroughFiles ()
Dim oFSO As Object
Dim oFolder As Object
Dim oFile As Object
Dim i As Integer
Set oFSO = CreateObject("Scripting.FileSystemObject")
Set oFolder = oFSO.GetFolder("C:Demo)
i = 2
For Each oFile In oFolder.Files
Range("A" & i).value = oFile.Name
i = i + 1
Next oFile
End Sub
Loop Through Array
This code will loop through the array ‘arrList’:
For i = LBound(arrList) To UBound(arrList)
MsgBox arrList(i)
Next i
The LBound function gets the “lower bound” of the array and UBound gets the “upper bound”.
Loops in Access VBA
Most of the examples above will also work in Access VBA. However, in Access, we loop through the Recordset Object rather than the Range Object.
Sub LoopThroughRecords()
On Error Resume Next
Dim dbs As Database
Dim rst As Recordset
Set dbs = CurrentDb
Set rst = dbs.OpenRecordset("tblClients", dbOpenDynaset)
With rst
.MoveLast
.MoveFirst
Do Until .EOF = True
MsgBox (rst.Fields("ClientName"))
.MoveNext
Loop
End With
rst.Close
Set rst = Nothing
Set dbs = Nothing
End Sub
This post provides a complete guide to the standard VBA For Loop and the VBA For Each Loop.
If you are looking for information about the VBA While and VBA Do Loop then go here.
If you want some quick info about the For loops then check out the Quick Guide table in the section below.
If you are looking for information on a particular topic then check out the Table of Contents below.
“History is about loops and continuums” – Mike Bidlo.
Related Links for the VBA For Loop
The Complete Guide to Ranges in Excel VBA.
The Complete Guide to Copying Data in Excel VBA.
VBA Do While Loop.
A Quick Guide to the VBA For Loop
Loop format | Description | Example |
---|---|---|
For … Next | Run 10 times | For i = 1 To 10 Next |
For … Next | Run 5 times. i=2,4, 6 etc. | For i = 2 To 10 Step 2 Next |
For … Next | Run in reverse order | For i = 10 To 1 Step -1 Debug.Print i Next |
For … Next | Go through Collection | For i = 1 To coll.Count Debug.Print coll(i) Next |
For … Next | Go through array | For i = LBound(arr) To UBound(arr) Debug.Print arr(i) Next i |
For … Next | Go through 2D array | For i = LBound(arr) To UBound(arr) For j = LBound(arr,2) To UBound(arr,2) Debug.Print arr(i, j) Next j Next i |
For Each … Next | Go through Collection | Dim item As Variant For Each item In coll Debug.Print item Next item |
For Each … Next | Go through array | Dim item As Variant For Each item In arr Debug.Print item Next item |
For Each … Next | Go through 2D array | Dim item As Variant For Each item In arr Debug.Print item Next item |
For Each … Next | Go through Dictionary | Dim key As Variant For Each key In dict.Keys Debug.Print key, dict(key) Next key |
Both types | Exit Loop | For i = 1 To 10 If Cells(i,1) = «found» Then Exit For End If Next i |
The VBA For Loop Webinar
If you are a member of the website, click on the image below to view the webinar for this post.
(Note: Website members have access to the full webinar archive.)
Introduction to the VBA For Loop
Loops are by far the most powerful component of VBA. They are the rocket fuel of your Macros. They can perform tasks in milliseconds that would take humans hours. They also dramatically reduce the lines of code your applications need.
For Loops have been part of all major programming languages since they were first used with Fortan in 1957.
If you have never used loops before then this post is a great place to start. It provides an in-depth guide to loops, written in plain English without the jargon.
Let’s start with a very important question – what are loops and why do we need them?
What are VBA For Loops?
A loop is simply a way of running the same lines of code a number of times. Obviously running the same code over and over would give the same result.
So what is important to understand is that the lines of code normally contain a variable that changes slightly each time the loop runs.
For example, a loop could write to cell A1, then cell A2, A3 and so on. The slight change each time is the row.
Let’s look at a simple example.
VBA For Loop Example 1
The following code prints the values 1 to 5 in the Immediate Window(Ctrl + G to view).
Debug.Print 1 Debug.Print 2 Debug.Print 3 Debug.Print 4 Debug.Print 5
The Immediate Window
If you have not used the Immediate Window before then this section will get you up to speed quickly.
The function Debug.Print writes values to the Immediate Window. To view this window select View->Immediate Window from the menu( the shortcut is Ctrl + G)
VBA For Loop Example 2
Now imagine we want to print out the numbers 1 to 20. We would need to add 15 more lines to the example above.
However, using a loop we only need to write Debug.Print once.
For i = 1 To 20 Debug.Print i Next i
The output is:
Output
If we needed print the numbers 1 to 1000 then we only need to change the 20 to 1000.
Normally when we write code we would use a variable instead of a number like 20 or 1000. This gives you greater flexibility. It allows you to decide the number of times you wish to run the loop when the code is running. The following example explains this.
VBA For Loop Example 3
A common task in Excel is read all the rows with with data.
The way you approach this task is as follows
- Find the last row with data
- Store the value in variable
- Use the variable to determine how many times the loop runs
Using a variable in the loop makes your code very flexible. Your will work no matter how many rows there are.
Let’s have a look at an example. Imagine you receive a sheet with a list of fruit types and their daily sales. You want to count the number of Oranges sold and this list will vary in size depending on sales.
The following screenshot shows an example of this list
Sample Data of Fruit Sales
We can use the code to count the oranges
' https://excelmacromastery.com/ Sub CountFruit() ' Get the last row with text Dim LastRow As Long LastRow = Sheet1.Cells(Sheet1.Rows.Count, 1).End(xlUp).Row Dim i As Long, Total As Long ' Use LastRow in loop For i = 2 To LastRow ' Check if cell has text "Orange" If Sheet1.Cells(i, 1).Value = "Oranges" Then ' Add value in column B to total Total = Total + Sheet1.Cells(i, 2).Value End If Next i ' Print total Debug.Print "Total oranges sold was:"; Total End Sub
You can try this code for yourself. Change the number of fruit items and you will see that the code still works fine.
If you were to increase the number fruit items to a large value like 10,000 then you will hardly notice the difference in the time it takes to run – almost instantly.
Loops are super fast. This is what makes them so powerful. Imagine performing a manual task on 10,000 cells. It would take a considerable amount of time.
Advantages of the VBA For Loop
4To conclude this section we will list the major advantages of using loops
- They reduce the lines code you need
- They are flexible
- They are fast
In the next sections we will look at the different types of loops and how to use them.
The Standard VBA For Loop
The VBA For loop is the most common loop you will use in Excel VBA. The For Loop is used when you can determine the number of times it will be run. For example, if you want to repeat something twenty times.
YouTube Video For Loop
Check out this YouTube Video of the For Loop:
Get the workbook and code for this video here
Format of the Standard VBA For Loop
The Standard VBA For Loop has the following format:
For <variable> = <start value> to <end value>
Next <variable>
The start and end values can be variables. Also the variable after Next is optional but it is useful and it makes it clear which for loop it belongs to.
How a For Loop Works
Let’s look at a simple for loop that prints the numbers 1 to 3
Dim i As Long For i = 1 To 3 Debug.Print i Next i
How this code works is as follows
i is set to 1
The value of i(now 1) is printed
i is set to 2
The value of i(now 2) is printed
i is set to 3
The value of i(now 3) is printed
If we did not use a loop then the equivalent code would be
Dim i As Long i = i + 1 Debug.Print i i = i + 1 Debug.Print i i = i + 1 Debug.Print i
The i = i + 1 line is used to add 1 to i and is a common way in programming to update a counter.
Using Step with the VBA For Loop
You can see that i is increased by one each time. This is the default. You can specify this interval using Step keyword.
The next example shows you how to do this:
' Prints the even numbers i.e. 2,4,6,8 ... 20 For i = 2 To 20 Step 2 Debug.Print i Next i
You can use a negative number with Step which will count in reverse
' Prints the even numbers in reverse i.e. 20,18,16,14 ... 2 For i = 20 To 2 Step -2 Debug.Print i Next i
Note: if Step is positive then your starting number must be lower than you ending number. The following loop will not run because the starting number 20 is greater than 10. VBA therefore, thinks it has already reached the target value 10.
' Will not run as starting number already greater than 10 For i = 20 To 10 Step 1 Debug.Print i Next i
If Step is negative then the start number must be greater than the end number.
Exit the For Loop
Sometimes you may want to leave the loop earlier if a certain condition occurs. For example if you read bad data.
You can use Exit For to automatically leave the loop as shown in the following code
For i = 1 To 1000 ' If cell is blank then exit for If Cells(i, 1) = "" Then MsgBox "Blank Cell found - Data error" Exit For End If Next i
Using the VBA For Loop with a Collection
The For loop can also be used to read items in a Collection.
In the following example, we display the name of all the open workbooks
Dim i As Long For i = 1 To Workbooks.Count Debug.Print Workbooks(i).FullName Next i
Using Nested For Loops
Sometimes you may want to use a loop within a loop. An example of this would be where you want to print the names of the worksheets of each open workbook.
The first loop would go through each workbook. Each time this loop runs it would use a second loop to go through all the worksheets of that workbook. It is actually much easier to do than it sounds.
The following code shows how:
' https://excelmacromastery.com/ Sub ListWorksheets() Dim i As Long, j As Long ' First Loop goes through all workbooks For i = 1 To Workbooks.Count ' Second loop goes through all the worksheets of workbook(i) For j = 1 To Workbooks(i).Worksheets.Count Debug.Print Workbooks(i).Name + ":" + Worksheets(j).Name Next j Next i End Sub
This works as follows:
The first loop sets i to 1
The second loop then uses the workbook at 1 to go through the worksheets.
The first loop sets i to 2
The second loop then uses the workbook at 2 to go through the worksheets.
and so on
It the next section we will use a For Each loop to perform the same task. You will find the For Each version much easier to read.
The VBA For Each Loop
The VBA For Each loop is used to read items from a collection or an array. We can use the For Each loop to access all the open workbooks. This is because Application.Workbooks is a collection of open workbooks.
This is a simple example of using the For Each Loop
Dim wk As Workbook For Each wk In Workbooks Debug.Print wk.FullName Next wk
Format of the VBA For Each Loop
You can see the format of the VBA for each loop here(See Microsoft For Each Next documentation):
For Each <variable> in <collection>
Next <variable>
To create a For Each loop we need a variable of the same type that the collection holds. In the example here we created a variable of type Workbook.
If the collection has different types of items we can declare the variable as a variant.
VBA contains a collection called Sheets. This is a collection of sheets of type Worksheet(normal) and Chart(when you move a chart to be a full sheet). To go through this collection you would declare the variable as a Variant.
The following code uses For Each to print out the name of all the sheets in the current workbook
Dim sh As Variant For Each sh In ThisWorkbook.Sheets Debug.Print sh.Name Next sh
Order of Items in the For Loop
For Each goes through items in one way only.
For example, if you go through all the worksheets in a workbook it will always go through from left to right. If you go through a range it will start at the lowest cell e.g. Range(“A1:A10”) will return A1,A2,A3 etc.
This means if you want any other order then you need to use the For loop.
Both loops in the following example will read the worksheets from left to right:
' Both loops read the worksheets from left to right Dim wk As Worksheet For Each wk In ThisWorkbook.Worksheets Debug.Print wk.Name Next Dim i As Long For i = 1 To ThisWorkbook.Worksheets.Count Debug.Print ThisWorkbook.Worksheets(i).Name Next
As you can see the For Each loop is neater to write. However if you want to read the sheets in any other order e.g. right to left then you have to use the for loop:
' Reading the worksheets from right to left Dim i As Long For i = ThisWorkbook.Worksheets.Count To 1 Step -1 Debug.Print ThisWorkbook.Worksheets(i).Name Next
Using the VBA For Each Loop With Arrays
One thing to keep in my is that the For Each loop is that it is read-only when you use it with arrays.
The following example demonstrates this:
' https://excelmacromastery.com/ Sub UseForEach() ' Create array and add three values Dim arr() As Variant arr = Array("A", "B", "C") Dim s As Variant For Each s In arr ' Changes what s is referring to - not value of array item s = "Z" Next ' Print items to show the array has remained unchanged For Each s In arr Debug.Print s Next End Sub
In the first loop we try to assign s to “Z”. When happens is that s is now referring the string “Z” and no longer to the item in the array.
In the second loop we print out the array and you can see that none of the values have changed.
When we use the For Loop we can change the array item. If we change the previous code to use the For Loop you it will change all the array values to “Z”
' https://excelmacromastery.com/ Sub UsingForWithArray() ' Create array and add three values Dim arr() As Variant arr = Array("A", "B", "C") Dim i As Long For i = LBound(arr) To UBound(arr) ' Changes value at position to Z arr(i) = "Z" Next ' Print items to show the array values have change For i = LBound(arr) To UBound(arr) Debug.Print arr(i) Next End Sub
If your Collection is storing Objects the you can change the items using a For Each loop.
Using Nested For Each Loops
We saw already that you can have a loop inside other loops. Here is the example from above:
' https://excelmacromastery.com/ Sub ListWorksheets() Dim i As Long, j As Long ' First Loop goes through all workbooks For i = 1 To Workbooks.Count ' Second loop goes through all the worksheets of workbook(i) For j = 1 To Workbooks(i).Worksheets.Count Debug.Print Workbooks(i).Name + ":" + Worksheets(j).Name Next j Next i End Sub
This time we will use the For Each loop to perform the same task:
' https://excelmacromastery.com/ Sub ReadAllWorksheets() Dim wk As Workbook, sh As Worksheet ' Read each workbook For Each wk In Workbooks ' Read each worksheet in the wk workbook For Each sh In wk.Worksheets ' Print workbook name and worksheet name Debug.Print wk.Name + ": " + sh.Name Next sh Next wk End Sub
As you can see this is a neater way of performing this task than using the For Loop:
This code run as follows:
- Get the first Workbook from the Workbooks collection
- Go through all the worksheets in this workbook
- Print the workbook/worksheet details
- Get the next workbooks in the collection
- Repeat steps 2 to 3
- Continue until no more workbooks are left in the collection
How to Loop Through a Range
In Excel VBA, the most common use of a For Loop is to read through a range.
Imagine we have the data set in the screenshot below. Our task is to write code that will read through the data and copy the amounts to the column J. We are only going to copy amounts that are greater than 200,000.
The following example shows how we do it:
' Read through an Excel Range using the VBA For Loop ' https://excelmacromastery.com/ Sub ForLoopThroughRange() ' Get the worksheet Dim sh As Worksheet Set sh = ThisWorkbook.Worksheets("Sheet1") ' Get the Range Dim rg As Range Set rg = sh.Range("A1").CurrentRegion ' Delete existing output sh.Range("J1").CurrentRegion.ClearContents ' Set the first output row Dim row As Long row = 1 ' Read through all the rows using the For Loop Dim i As Long For i = 2 To rg.Rows.Count ' Check if amount is greater than 200000 If rg.Cells(i, 4).Value > 200000 Then ' Copy amount to column m sh.Cells(row, "J").Value = rg.Cells(i, 4).Value ' Move to next output row row = row + 1 End If Next i End Sub
This is a very basic example of copying data using Excel VBA. If you want a complete guide to copying data using Excel VBA then check out this post
Summary of the VBA For Loops
The Standard VBA For Loop
- The For loop is slower than the For Each loop.
- The For loop can go through a selection of items e.g. 5 to 10.
- The For loop can read items in reverse e.g. 10 to 1.
- The For loop is not as neat to write as the For Each Loop especially with nested loops.
- To exit a For loop use Exit For.
The VBA For Each Loop
- The For Each loop is faster than the For loop.
- The For Each loop goes through all items in the collectionarray.
- The For Each loop can go through items in one order only.
- The For Each loop is neater to write than a For Loop especially for nested loops.
- To exit a For Each loop use Exit For.
What’s Next?
Free VBA Tutorial If you are new to VBA or you want to sharpen your existing VBA skills then why not try out the The Ultimate VBA Tutorial.
Related Training: Get full access to the Excel VBA training webinars.
(NOTE: Planning to build or manage a VBA Application? Learn how to build 10 Excel VBA applications from scratch.)
To get the most out of Excel and VBA, you need to know how to use loops efficiently.
In VBA, loops allow you to go through a set of objects/values and analyze it one by one. You can also perform specific tasks for each loop.
Here is a simple example of using VBA loops in Excel.
Suppose you have a dataset and you want to highlight all the cells in even rows. You can use a VBA loop to go through the range and analyze each cell row number. If it turns out to be even, you give it a color, else you leave it as is.
Now this, of course, is very simple of looping in Excel VBA (and you can also do this using conditional formatting).
In real life, you can do a lot more with VBA loops in Excel that can help you automate tasks.
Here are some more practical examples where VBA loops can be useful:
- Looping through a range of cells and analyzing each cell (highlight cells with a specific text in it).
- Looping through all the worksheets and do something with each (such as protect/unprotect it).
- Loop through all the open workbooks (and save each workbook or close all except the active workbook).
- Loop through all the characters in a cell (and extract the numeric part from a string).
- Loop through all the values an array.
- Loop through all the charts/objects (and give a border or change the background color).
Now to best use loops in Excel VBA, you need to know about the different kinds that exist and the correct syntax of each.
In this tutorial, I’ll showcase different types of Excel VBA loops and cover a few examples for each loop
Note: This is going to be a huge tutorial, where I will try and cover each VBA loop in some detail. I recommend you bookmark this page for future reference.
If you’re interested in learning VBA the easy way, check out my Online Excel VBA Training.
For Next Loop
The ‘For Next’ loop allows you to go through a block of code for the specified number of times.
For example, if I ask you to add the integers from 1 to 10 manually, you would add the first two numbers, then add the third number to the result, then add the fourth number to the result, as so on..
Isn’t it?
The same logic is used in the For Next loop in VBA.
You specify how many times you want the loop to run and also specify what you want the code to do each time the loop is run.
Below is the syntax of the For Next loop:
For Counter = Start To End [Step Value] [Code Block to Execute] Next [counter]
In the For Next loop, you can use a Counter (or any variable) that will be used to run the loop. This counter allows you to run this loop for a required number of times.
For example, if I want to add the first 10 positive integers, then my Counter value would be from 1 to 10.
Let’s have a look at a few examples to better understand how For Next loop works.
Example 1 – Adding the first 10 positive integers
Below is the code that will add the first 10 positive integers using a For Next loop.
It will then display a message box showing the sum of these numbers.
Sub AddNumbers() Dim Total As Integer Dim Count As Integer Total = 0 For Count = 1 To 10 Total = Total + Count Next Count MsgBox Total End Sub
In this code, the value of Total is set to 0 before getting into the For Next loop.
Once it gets into the loop, it holds the total value after every loop. So after the first loop, when Counter is 1, ‘Total’ value becomes 1, and after the second loop it becomes 3 (1+2), and so on.
And finally, when the loop ends, ‘Total’ variable has the sum of the first 10 positive integers.
A MsgBox then simply displays the result in a message box.
Example 2 – Adding the first 5 Even Positive Integers
To sum the first five even positive integers (i.e, 2,4,6,8, and 10), you need a similar code with a condition to only consider the even numbers and ignore the odd numbers.
Here is a code that will do it:
Sub AddEvenNumbers() Dim Total As Integer Dim Count As Integer Total = 0 For Count = 2 To 10 Step 2 Total = Total + Count Next Count MsgBox Total End Sub
Note that we started the Count value from 2 and also used ‘Step 2‘.
When you use ‘Step 2’, it tells the code to increment the ‘Count’ value by 2 every time the loop is run.
So the Count value starts from 2 and then becomes 4, 6, 8 and 10 as the looping occurs.
NOTE: Another way of doing this could be to run the loop from 1 to 10 and within the loop check whether the number is even or odd. However, using Step, in this case, is a more efficient way as it does not require the loop to run 10 times, but only 5 times.
The Step value can also be negative. In such as case, the Counter starts at a higher value and keeps getting decremented by the specified Step value.
Example 3 – Entering Serial Number in the Selected Cells
You can also use the For Next loop to go through a collection of objects (such as cells or worksheets or workbooks),
Here is an example that quickly enters serial numbers in all the selected cells.
Sub EnterSerialNumber() Dim Rng As Range Dim Counter As Integer Dim RowCount As Integer Set Rng = Selection RowCount = Rng.Rows.Count For Counter = 1 To RowCount ActiveCell.Offset(Counter - 1, 0).Value = Counter Next Counter End Sub
The above code first counts the number of selected rows and then assigns this value to the variable RowCount. We then run the loop from ‘1 to RowCount’.
Also note that since selection can be any number of rows, we have Set the variable Rng to Selection (with the line ‘Set Rng = Selection’). Now we can use the ‘Rng’ variable to refer to the selection in our code.
Example 4 – Protect All Worksheets in the Active Workbook
You can use the ‘For Next’ loop to go through all the worksheets in the active workbook, and protect (or unprotect) each of the worksheets.
Below is the code that will do this:
Sub ProtectWorksheets() Dim i As Integer For i = 1 To ActiveWorkbook.Worksheets.Count Worksheets(i).Protect Next i End Sub
The above code counts the number of sheets by using ActiveWorkbook.Worksheets.Count. This tells VBA how many times the loop needs to be run.
In each instance, it refers to the Ith workbook (using Worksheets(i)) and protects it.
You can use this same code to Unprotect worksheets too. Just change the line Worksheets(i).Protect to Worksheets(i).UnProtect.
Nested ‘For Next’ Loops
You can use nested ‘For Next’ loops to get more complex automation done in Excel. A nested ‘For Next’ loop would mean that there is a ‘For Next’ loop within a ‘For Next’ loop.
Let me show you how to use this using an example.
Suppose I have 5 workbooks open in my system and I want to protect all the worksheets in all these workbooks.
Below is the code that will do this:
Sub ProtectWorksheets() Dim i As Integer Dim j As Integer For i = 1 To Workbooks.Count For j = 1 To Workbooks(i).Worksheets.Count Workbooks(i).Worksheets(j).Protect Next j Next i End Sub
The above is a nested For Next loop as we have used one For Next loop within another.
‘EXIT For’ Statements in For Next Loops
‘Exit For’ statement allows you to exit the ‘For Next’ loop completely.
You can use it in cases where you want the For Next loop to end when a certain condition is met.
Let’s take an example where you have a set of numbers in Column A and you want to highlight all the negative numbers in red font. In this case, we need to analyze each cell for its value and then change the font color accordingly.
But to make the code more efficient, we can first check if there are any negative values in the list or not. If there are no negative values, we can use the Exit For the statement to simply come out of the code.
Below is the code that does this:
Sub HghlightNegative() Dim Rng As Range Set Rng = Range("A1", Range("A1").End(xlDown)) Counter = Rng.Count For i = 1 To Counter If WorksheetFunction.Min(Rng) >= 0 Then Exit For If Rng(i).Value < 0 Then Rng(i).Font.Color = vbRed Next i End Sub
When you use the ‘Exit For’ statement within a nested ‘For Next’ loop, it will come out of the loop in which it is executed and go on to execute the next line in the code after the For Next loop.
For example, in the below code, the ‘Exit For’ statement will get you out of the inner loop, but the outer loop would continue to work.
Sub SampleCode() For i = 1 To 10 For j = 1 to 10 Exit For Next J Next i End Sub
Do While Loop
A ‘Do While’ loop allows you to check for a condition and run the loop while that condition is met (or is TRUE).
There are two types of syntax in the Do While Loop.
Do [While condition] [Code block to Execute] Loop
and
Do [Code block to Execute] Loop [While condition]
The difference between these two is that in the first, the While condition is checked first before any code block is executed, and in the second case, the code block is executed first and then the While condition is checked.
This means that if the While condition is False is both the cases, the code will still run at least once in the second case (as the ‘While’ condition is checked after the code has been executed once).
Now let’s see some examples of using Do While loops in VBA.
Example 1 – Add First 10 Positive Integers using VBA
Suppose you want to add the first ten positive integers using the Do While loop in VBA.
To do this, you can use the Do While loop until the next number is less than or equal to 10. As soon as the number is greater than 1o, your loop would stop.
Here is the VBA code that will run this Do While loop and the show the result in a message box.
Sub AddFirst10PositiveIntegers() Dim i As Integer i = 1 Do While i <= 10 Result = Result + i i = i + 1 Loop MsgBox Result End Sub
The above loop continues to work until the value of ‘i’ becomes 11. As soon as it becomes 11, the loop ends (as the While condition becomes False).
Within the loop, we have used a Result variable that holds the final value Once the loop is completed, a message box shows the value of the ‘Result’ variable.
Example 2 – Enter Dates For the Current Month
Let’s say you want to enter all the dates of the current month into a worksheet column.
You can do that by using the following Do While loop code:
Sub EnterCurrentMonthDates() Dim CMDate As Date Dim i As Integer i = 0 CMDate = DateSerial(Year(Date), Month(Date), 1) Do While Month(CMDate) = Month(Date) Range("A1").Offset(i, 0) = CMDate i = i + 1 CMDate = CMDate + 1 Loop End Sub
The above code would enter all the dates in the first column of the worksheet (starting from A1). The loops continue till the Month value of the variable ‘CMDate’ matches that of the current month.
Exit Do Statement
You can use the Exit Do statement to come out of the loop. As soon as the code executes the ‘Exit Do’ line, it comes out of the Do While loop and passes the control to the next line right after the loop.
For example, if you want to enter the first 10 dates only, then you can exit the loop as soon as the first 10 dates are entered.
The below code will do this:
Sub EnterCurrentMonthDates() Dim CMDate As Date Dim i As Integer i = 0 CMDate = DateSerial(Year(Date), Month(Date), 1) Do While Month(CMDate) = Month(Date) Range("A1").Offset(i, 0) = CMDate i = i + 1 If i >= 10 Then Exit Do CMDate = CMDate + 1 Loop End Sub
In the above code, the IF statement is used to check if the value of i is greater than 10 or not. As soon as the value of ‘i’ becomes 10, Exit Do statement is executed and the loop ends.
Do Until Loop
‘Do Until’ loops are very much like the ‘Do While’ loops.
In ‘Do While’, the loop runs till the given condition is met, while in ‘Do Until’, it loops until the specified condition is met.
There are two types of syntax in the Do Until Loop.
Do [Until condition] [Code block to Execute] Loop
and
Do [Code block to Execute] Loop [Until condition]
The difference between these two is that in the first, the Until condition is checked first before any code block is executed, and in the second case, the code block is executed first and then the Until condition is checked.
This means that if the Until condition is TRUE is both cases, the code will still run at least once in the second case (as the ‘Until’ condition is checked after the code has been executed once).
Now let’s see some examples of using Do Until loops in VBA.
Note: All the examples for Do Until are the same as that of Do While. These have been modified to show you how the Do Until loop works.
Example 1 – Add First 10 Positive Integers using VBA
Suppose you want to add the first ten positive integers using the Do Until loop in VBA.
To do this, you need to run the loop until the next number is less than or equal to 10. As soon as the number is greater than 1o, your loop would stop.
Here is the VBA code that will run this loop and show the result in a message box.
Sub AddFirst10PositiveIntegers() Dim i As Integer i = 1 Do Until i > 10 Result = Result + i i = i + 1 Loop MsgBox Result End Sub
The above loop continues to work until the value of ‘i’ becomes 11. As soon as it becomes 11, the loop ends (as the ‘Until’ condition becomes True).
Example 2 – Enter Dates For the Current Month
Let’s say you want to enter all the dates of the current month into a worksheet column.
You can do that by using the following Do Until loop code:
Sub EnterCurrentMonthDates() Dim CMDate As Date Dim i As Integer i = 0 CMDate = DateSerial(Year(Date), Month(Date), 1) Do Until Month(CMDate) <> Month(Date) Range("A1").Offset(i, 0) = CMDate i = i + 1 CMDate = CMDate + 1 Loop End Sub
The above code would enter all the dates in the first column of the worksheet (starting from A1). The loop continues until the Month of variable CMDate is not equal to that of the current month.
Exit Do Statement
You can use the ‘Exit Do’ statement to come out of the loop.
As soon as the code executes the ‘Exit Do’ line, it comes out of the Do Until loop and passes the control to the next line right after the loop.
For example, if you want to enter the first 10 dates only, then you can exit the loop as soon as the first 10 dates are entered.
The below code will do this:
Sub EnterCurrentMonthDates() Dim CMDate As Date Dim i As Integer i = 0 CMDate = DateSerial(Year(Date), Month(Date), 1) Do Until Month(CMDate) <> Month(Date) Range("A1").Offset(i, 0) = CMDate i = i + 1 If i >= 10 Then Exit Do CMDate = CMDate + 1 Loop End Sub
In the above code, as soon as the value of ‘i’ becomes 10, Exit Do statment is executed and the loop ends.
For Each
In VBA, you can loop through a set of collections using the ‘For Each’ loop.
Here are some examples of collections in Excel VBA:
- A collection of all the open Workbooks.
- A collection of all worksheets in a workbook.
- A collection of all the cells in a range of selected cells.
- A collection of all the charts or shapes in the workbook.
Using the ‘For Each’ loop, you can go through each of the objects in a collection and perform some action on it.
For example, you can go through all the worksheets in a workbook and protect these, or you can go through all the cells in the selection and change the formatting.
With the ‘For Each’ loop (also referred to as the ‘For Each-Next’ loop), you don’t need to know how many objects are there in a collection.
‘For Each’ loop would automatically go through each object and perform the specified action. For example, if you want to protect all the worksheets in a workbook, the code would be the same whether you have a workbook with 3 worksheets or 30 worksheets.
Here is the syntax of For Each-Next loop in Excel VBA.
For Each element In collection [Code Block to Execute] Next [element]
Now let’s see a couple of examples of using the For Each Loop in Excel.
Example 1 – Go through All the Worksheets in a Workbook (and Protect it)
Suppose you have a workbook where you want to protect all the worksheets.
Below For Each-Next loop can do this easily:
Sub ProtectSheets() Dim ws As Worksheet For Each ws In ActiveWorkbook.Worksheets ws.Protect Next ws End Sub
In the above code, we have defined ‘ws’ variable as a Worksheet object. This tells VBA that ‘ws’ should be interpreted as a worksheet object in the code.
Now we use the ‘For Each’ statement to go through each ‘ws’ (which is a worksheet object) in the collection of all the worksheets in the active workbook (given by ActiveWorkbook.Worksheets).
Note that unlike other loops where we have tried to protect all the worksheets in a workbook, here we don’t need to worry about how many worksheets are there in the workbook.
We don’t need to count these to run the loop. For Each loop ensures that all the objects are analyzed one by one.
Example 2 – Go through All the Open Workbooks (and Save All)
If you work with multiple workbooks at the same time, it can come in handy to be able to save all these workbooks at once.
Below VBA code can do this for us:
Sub SaveAllWorkbooks() Dim wb As Workbook For Each wb In Workbooks wb.Save Next wb End Sub
Note that in this code, you don’t get a prompt that asks you to save the workbook in a specific location (if saving it for the first time).
It saves it in the default folder (it was the ‘Documents’ folder in my case). This code works best when these files are already saved and you’re making changes and you want to save all the workbooks quickly.
Example 3 – Go through All the Cells in a Selection (Highlight negative values)
Using the ‘For Each’ loop, you can loop through all the cells in a specific range or in the selected range.
This can be helpful when you want to analyze each cell and perform an action based on it.
For example, below is the code that will go through all the cells in the selection and change the cell color of the cells with negative values to red.
Sub HighlightNegativeCells() Dim Cll As Range For Each Cll In Selection If Cll.Value < 0 Then Cll.Interior.Color = vbRed End If Next Cll End Sub
(Note I’ve used Cll as a short variable name for Cell. It’s advisable not to use object names such as Sheets or Range as variable names)
In the above code, the For Each-Next loop goes through the collection of cells in the selection. IF statement is used to identify if the cell value is negative or not. In case it is, the cell is given a red interior color, else it goes to the next cell.
In case you don’t have a selection, and instead want VBA to select all the filled cells in a column, starting from a specific cell (just like we use Control + Shift + Down arrow key to select all filled cells), you can use the below code:
Sub HighlightNegativeCells() Dim Cll As Range Dim Rng As Range Set Rng = Range("A1", Range("A1").End(xlDown)) For Each Cll In Rng If Cll.Value < 0 Then Cll.Interior.Color = vbRed End If Next Cll End Sub
In the above example, it doesn’t matter how many filled cells are there. It will start from cell A1 and analyze all the contiguous filled cells in the column.
You also don’t need to have cell A1 selected. You can have any far-off cell selected and when the code runs, it will still consider all the cells in column A (starting from A1) and color the negative cells.
‘Exit For’ Statment
You can use the ‘Exit For’ statement in the For Each-Next loop to come out of the loop. This is usually done in case a specific condition is met.
For example, in Example 3, as we are going through a set of cells, it can be more efficient to check if there are any negative values or not. In case there are no negative values, we can simply exit the loop and save some VBA processing time.
Below is the VBA code that will do this:
Sub HighlightNegativeCells() Dim Cll As Range For Each Cll In Selection If WorksheetFunction.Min(Selection) >= 0 Then Exit For If Cll.Value < 0 Then Cll.Interior.Color = vbRed End If Next Cll End Sub
Where to Put the VBA Code
Wondering where the VBA code goes in your Excel workbook?
Excel has a VBA backend called the VBA editor. You need to copy and paste the code in the VB Editor module code window.
Here are the steps to do this:
- Go to the Developer tab.
- Click on the Visual Basic option. This will open the VB editor in the backend.
- In the Project Explorer pane in the VB Editor, right-click on any object for the workbook in which you want to insert the code. If you don’t see the Project Explorer go to the View tab and click on Project Explorer.
- Go to Insert and click on Module. This will insert a module object for your workbook.
- Copy and paste the code in the module window.
You May Also Like the Following Excel Tutorials:
- How to record a macro in Excel.
- Creating User-defined functions in Excel.
- Excel VBA Msgbox
- How to Run a Macro in Excel.
- How to Create and Use Add-ins in Excel.
- Excel VBA Events – An Easy (and Complete) Guide.
- How to Sort Data in Excel using VBA (A Step-by-Step Guide).
- 24 Useful Excel Macro Examples for VBA Beginners (Ready-to-use).
- How to Use Excel VBA InStr Function (with practical EXAMPLES).
- Excel Personal Macro Workbook | Save & Use Macros in All Workbooks.
- Using Select Case in Excel VBA.
Key Points
- VBA For Loops are fixed types of loops.
- It is not possible to use any of these loops while recording a macro.
VBA FOR NEXT is a fixed loop that uses a counter to run iterations. In simple words, you need to specify the number of times you want to run the loop, and once it reaches that count loop, it will stop automatically. That’s why it is a fixed loop and most popular among VBA developers.
Syntax
Following is the syntax for the VBA For Next Loop:
For counter = Start To End [Step stepsize]
[statements]
Next [counter]
- Counter: It’s variable that stores the count of the repetition and increases its value with each repetition. For example, if the loop is in its fifth repetition the value of the counter will be five, and once the loop executes the statement for the fifth iteration the value of the counter changes to six.
- Start: It is a numeric variable that stores the starting value for the counter.
- End: It is a numeric variable that stores the ending value for the counter.
- Step Size: This variable specifies a big increase or decrease in the value of the counter. By default, the step size is one, but you can also use any positive or negative value.
- Statement: It’s a set of code do you want to execute in each iteration of the For Next loop.
- Next: It’s the end statement for one iteration of the loop and uses the counter value to tell VBA to repeat the loop and once the counter reaches the end value it ends the loop.
Example to Understand For Next Loop
To understand how to use it for the next loop, let’s write a simple code to add serial numbers in a column.
Let me elaborate a little more: We need to write a code that can go from cell selected cell to the next 10 cells one by one and add serial numbers just in the below snapshot.
To use For Next Loop, you can use the following steps:
- First, you need to declare a variable that you can use to store the counter value.
- Next, we need to assign the counter value to the variable.
- Now it’s time to write code for loop, so in the first line, you need to use the counter variable and define starting and the ending value. Here in this code, you have the variable “i” as the ending value.
- From here you need to write code that can add the serial numbers into the active cell and then move to the next cell. As the counter value increases in each iteration, you can use it to enter the serial number into the active cell and after that, you can use the offset to move the selection to the next cell downwards.
- In the end, use the keyword next and the counter variable to end the code for the loop.
Sub AddSerialNumbers()
Dim i As Integer
i = 10
For i = 1 To i
ActiveCell.Value = i
ActiveCell.Offset(1, 0).Activate
Next i
End Sub
You can see in the below snapshot, when I run this code it starts from the selected cell by entering a serial number and then moves to the next cell with each iteration.
As you know, For Next is a fixed loop and in this code, when you assign a numeric value, it tells VBA to run the loop for that number of times.
And you can see the below snapshot that I have taken in the second iteration of the loop where the value of “i” counter variable is two.
The point I’m trying to make is the counting variable changes its value in each iteration and enters that value in the active cell and then offset activates the next cell downward that completing one iteration.
In the end, the “Next” keyword it’s VBA to go back to the first line of the loop and repeat it. As you have seen in the syntax of For Next, you can also use a step value in the loop to make the counter work according to that.
So if you use two as a step value the code would be something like the below.
Sub AddSerialNumbers()
Dim i As Integer
i = 10
For i = 1 To i Step 2
ActiveCell.Value = i
ActiveCell.Offset(1, 0).Activate
Next i
End Sub
And when you run this code, it will on the activity something like the below snapshot.
When you use a step value (Like, Step 2, that you have used in the above code), VBA skips every 2nd iteration in the loop, and as you can see you have got five numbers with the difference of one within each number.
Note: In the above example, you have used “i” as the counter variable, but you can use a different name as well according to your convenience.
For Each Next Loop
VBA FOR EACH NEXT is a fixed loop that can loop through all the objects in a collection. In the For Each Next, you don’t need to specify the count of iterations. Instead, you can specify a collection of objects, and it will be able to loop through all those objects one by one.
For Example: If you want to loop through all the cells from a range. In this case, the range is the collection, and cells are the objects that you have.
Syntax
Following is the syntax for the VBA For Each Next Loop:
For Each Object In Collection
[statements]
Next [object]
- Object: It represents the one object in the collection of objects in which you are looping. With each iteration, moves from one object to the next.
- Collection: It’s a collection of objects in which you want to loop.
- Statement: Line(s) of code that you want to execute in each loop through all the objects in the collection.
- Next: It’s the end statement for one iteration of the loop and tells VBA to move to the next object in the collection.
Example to Understand the For Each Next Loop
To understand For Each Next loop, let’s write a code to hide all the sheets other than the active worksheet. This code will check each worksheet’s name and match it with the active worksheet’s name and hide it if it doesn’t match.
To use For Each Next loop, you can use the following steps:
- First, you need to declare a variable to use as a worksheet.
- After that, use “For each” keyword, and then “mySheet” variable for the sheet, and use “ActiveWorkbook.Worksheets” for the collection of worksheets from the active workbook.
- Next, you need to use VBA IF Statement to test if the name of the sheet that is currently in that loop iteration is NOT EQUAL to the active worksheet, and if this condition is true then hide sheet that is now in the loop iteration.
- In the end, you have the NEXT keyword and “mySheet” the variable to end the code for the loop.
Final Code:
Sub Hide_Other_Sheets()
Dim mySheet As Worksheet
For Each mySheet In ActiveWorkbook.Worksheets
If mySheet.Name <> ActiveSheet.Name Then
mySheet.Visible = False
End If
Next mySheet
End Sub
When you run this code, it will loop through each worksheet in the active workbook and match its name with the active worksheet, and if the worksheet’s name is not matched with the active worksheet’s name, it will hide it.
In this way, all the worksheets will hide.
This Excel tutorial explains how to use the Excel FOR…NEXT statement to create a FOR loop in VBA with syntax and examples.
Description
The Microsoft Excel FOR…NEXT statement is used to create a FOR loop so that you can execute VBA code a fixed number of times.
The FOR…NEXT statement is a built-in function in Excel that is categorized as a Logical Function. It can be used as a VBA function (VBA) in Excel. As a VBA function, you can use this function in macro code that is entered through the Microsoft Visual Basic Editor.
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Syntax
The syntax to create a FOR Loop using the FOR…NEXT statement in Microsoft Excel is:
For counter = start To end [Step increment] {...statements...}
Next [counter]
Parameters or Arguments
- counter
- The loop counter variable.
- start
- The starting value for counter.
- end
- The ending value for counter.
- increment
- Optional. The value that counter is incremented each pass through the loop. It can be a positive or negative number. If not specified, it will default to an increment of 1 so that each pass through the loop increases counter by 1.
- statements
- The statements of code to execute each pass through the loop.
Returns
The FOR…NEXT statement creates a FOR loop in VBA.
Example (as VBA Function)
The FOR…NEXT statement can only be used in VBA code in Microsoft Excel.
Let’s look at how to create a FOR loop in Microsoft Excel, starting with a single loop, double loop, and triple loop, and then exploring how to change the value used to increment the counter each pass through the loop.
Single Loop
The simplest implementation of the FOR loop is to use the FOR…NEXT statement to create a single loop. This will allow you to repeat VBA code a fixed number of times.
For example:
Sub Single_Loop_Example Dim LCounter As Integer For LCounter = 1 To 5 MsgBox (LCounter) Next LCounter End Sub
In this example, the FOR loop is controlled by the LCounter variable. It would loop 5 times, starting at 1 and ending at 5. Each time within the loop, it would display a message box with the value of the LCounter variable. This code would display 5 message boxes with the following values: 1, 2, 3, 4, and 5.
Single Loop — Changing Increment
By default, the FOR loop will increment its loop counter by 1, but this can be customized. You can use STEP increment
to change the value used to increment the counter. The FOR loop can be increment can be either positive or negative values.
Positive Increment
Let’s first look at an example of how to increment the counter of a FOR loop by a positive value.
For example:
Sub Increment_Positive_Example Dim LCounter As Integer For LCounter = 1 To 9 Step 2 MsgBox LCounter Next LCounter End Sub
In this example, we’ve used Step 2
in the FOR loop to change the increment to 2. What this means is that the FOR loop would start at 1, increment by 2, and end at 9. The code would display 5 message boxes with the following values: 1, 3, 5, 7, and 9.
Negative Increment
Now, let’s look at how to increment the counter of a FOR loop by a negative value.
For example:
Sub Increment_Negative_Example Dim LCounter As Integer For LCounter = 50 To 30 Step -5 MsgBox LCounter Next LCounter End Sub
When you increment by a negative value, you need the starting number to be the higher value and the ending number to be the lower value, since the FOR loop will be counting down. So in this example, the FOR loop will start at 50, increment by -5, and end at 30. The code would display 5 message boxes with the following values: 50, 45, 40, 35, and 30.
Double Loop
Next, let’s look at an example of how to create a double FOR loop in Microsoft Excel.
For example:
Sub Double_Loop_Example Dim LCounter1 As Integer Dim LCounter2 As Integer For LCounter1 = 1 To 4 For LCounter2 = 8 To 9 MsgBox LCounter1 & "-" & LCounter2 Next LCounter2 Next LCounter1 End Sub
Here we have 2 FOR loops. The outer FOR loop is controlled by the LCounter1 variable. The inner FOR loop is controlled by the LCounter2 variable.
In this example, the outer FOR loop would loop 4 times (starting at 1 and ending at 4) and the inner FOR loop would loop 2 times (starting at 8 and ending at 9). Within the inner loop, the code would display a message box each time with the value of the LCounter1—LCounter2. So in this example, 8 message boxes would be displayed with the following values: 1-8, 1-9, 2-8, 2-9, 3-8, 3-9, 4-8, and 4-9.
Triple Loop
Next, let’s look at an example of how to create a triple FOR loop in Microsoft Excel.
For example:
Sub Triple_Loop_Example Dim LCounter1 As Integer Dim LCounter2 As Integer Dim LCounter3 As Integer For LCounter1 = 1 To 2 For LCounter2 = 5 To 6 For LCounter3 = 7 To 8 MsgBox LCounter1 & "-" & LCounter2 & "-" & LCounter3 Next LCounter3 Next LCounter2 Next LCounter1 End Sub
Here we have 3 FOR loops. The outer-most FOR loop is controlled by the LCounter1 variable. The next FOR loop is controlled by the LCounter2 variable. The inner-most FOR loop is controlled by the LCounter3 variable.
In this example, the outer-most FOR loop would loop 2 times (starting at 1 and ending at 2) , the next FOR loop would loop 2 times (starting at 5 and ending at 6), and the inner-most FOR loop would loop 2 times (starting at 7 and ending at 8).
Within the inner-most loop, the code would display a message box each time with the value of the LCounter1—LCounter2—LCounter3. This code would display 8 message boxes with the following values: 1-5-7, 1-5-8, 1-6-7, 1-6-8, 2-5-7, 2-5-8, 2-6-7, and 2-6-8.
Example#1 from Video
In the first video example, we are going to use the For…Next statement to loop through the products in column A and update the appropriate application type in column B.
Sub totn_for_loop_example1() Dim LCounter As Integer For LCounter = 2 To 4 If Cells(LCounter, 1).Value = "Excel" Then Cells(LCounter, 2).Value = "Spreadsheet" ElseIf Cells(LCounter, 1).Value = "Access" Then Cells(LCounter, 2).Value = "Database" ElseIf Cells(LCounter, 1).Value = "Word" Then Cells(LCounter, 2).Value = "Word Processor" End If Next LCounter End Sub
Example#2 from Video
In the second video example, we have a list of participants in column A and we’ll use two FOR Loops to assign each of the participants to either Team A or Team B (alternating between the two).
Sub totn_for_loop_example2() Dim LCounter1 As Integer Dim LCounter2 As Integer For LCounter1 = 2 To 9 Step 2 Cells(LCounter1, 2).Value = "Team A" Next LCounter1 For LCounter2 = 3 To 9 Step 2 Cells(LCounter2, 2).Value = "Team B" Next LCounter2 End Sub