“The greatest masterpiece in literature is only a dictionary out of order.” – Jean Cocteau
Contents
- 1 A Quick Guide to the VBA Dictionary
- 2 What is the VBA Dictionary?
- 3 Download the Source Code
- 4 Dictionary Webinar
- 5 A Dictionary in real world terms
- 6 A Simple Example of using the VBA Dictionary
- 7 Creating a Dictionary
- 8 Adding Items to the Dictionary
- 9 Assigning a Value
- 10 Checking if a Key Exists
- 11 Storing Multiple Values in One Key
- 12 Other useful functions
- 13 The Key and Case Sensitivity
- 14 Reading through the Dictionary
- 15 Sorting the Dictionary
- 16 Troubleshooting the Dictionary
- 17 Copying the Dictionary to an Array
- 18 Writing the Dictionary to the Worksheet
- 19 Useful Dictionary Examples
- 20 When To Use The Dictionary
- 21 What’s Next?
A Quick Guide to the VBA Dictionary
| Function | Example |
|---|---|
| Early binding reference | “Microsoft Scripting Runtime” (Add using Tools->References from the VB menu) |
| Declare (early binding) | Dim dict As Scripting.Dictionary |
| Create(early binding) | Set dict = New Scripting.Dictionary |
| Declare (late binding) | Dim dict As Object |
| Create(late binding) | Set dict = CreateObject("Scripting.Dictionary") |
| Add item (key must not already exist) | dict.Add Key, Value e.g. dict.Add "Apples", 50 |
| Change value at key. Automatically adds if the key does not exist. | dict(Key) = Value e.g. dict("Oranges") = 60 |
| Get a value from the dictionary using the key | Value = dict(Key) e.g. appleCount = dict("Apples") |
| Check if key exists | dict.Exists(Key) e.g. If dict.Exists("Apples") Then |
| Remove item | dict.Remove Key e.g. dict.Remove "Apples" |
| Remove all items | dict.RemoveAll |
| Go through all items (for each loop) | Dim key As Variant For Each key In dict.Keys Debug.Print key, dict(key) Next key |
| Go through all items (for loop - early binding only) | Dim i As Long For i = 0 To dict.Count - 1 Debug.Print dict.Keys(i), dict.Items(i) Next i |
| Go through all items (for loop - early and late binding) | Dim i As Long For i = 0 To dict.Count - 1 Debug.Print dict.Keys()(i), dict.Items()(i) Next i |
| Get the number of items | dict.Count |
| Make key case sensitive (the dictionary must be empty). | dict.CompareMode = vbBinaryCompare |
| Make key non case sensitive (the dictionary must be empty). | dict.CompareMode = vbTextCompare |
What is the VBA Dictionary?
In VBA we use Arrays and Collections to store groups of values. For example, we could use them to store a list of customer names, student marks or a list of values from a range of cells.
A Dictionary is similar to a Collection. Using both types, we can name an item when we add it. Imagine we are storing the count of different fruit types.
We could use both a Collection and a Dictionary like this
' Add to Dictionary dict.Add Key:="Apple", Item:=5 ' Add to Collection coll.Add Item:=5, Key:="Apple"
Example of Key, Value pairs
In both cases, we are storing the value 5 and giving it the name “Apple”. We can now get the value of Apple from both types like this
' Get value from Dictionary Total = dict("Apple") ' Get value from Collection Total = coll("Apple")
So far so good. The Collection however, has two major faults
- We cannot check if the key already exists.
- We cannot change the value of an existing item.
The first issue is pretty easy to get around: Check Collection Key exists. The second is more difficult.
The VBA Dictionary does not have these issues. You can check if a Key exists and you can change the Item and the Key.
For example, we can use the following code to check if we have an item called Apple.
If dict.Exists("Apple") Then dict("Apple") = 78
These may seem very simple differences. However, it means that the Dictionary is very useful for certain tasks. Particularly when we need to retrieve the value of an item.
Download the Source Code
Dictionary Webinar
If you are a member of the VBA Vault, then click on the image below to access the webinar and the associated source code.
(Note: Website members have access to the full webinar archive.)
A Dictionary in real world terms
If you are still not clear about a Dictionary then think of it this way. A real-world dictionary has a list of keys and items. The Keys are the words and the Items are the definition.
When you want to find the definition of a word you go straight to that word. You don’t read through every item in the Dictionary.
A second real world example is a phone book(remember those?). The Key in a phone book is the name\address and the Item is the phone number. Again you use the name\address combination to quickly find a phone number.
In Excel the VLookup function works in a similar way to a Dictionary. You look up an item based on a unique value.
A Simple Example of using the VBA Dictionary
The code below give a simple but elegant example of using the Dictionary. It does the following
- Adds three fruit types and a value for each to a Dictionary.
- The user is asked to enter the name of a fruit.
- The code checks if this fruit is in the Dictionary.
- If yes then it displays the fruit name and the value.
- If no then it informs the user the fruit does not exist.
' https://excelmacromastery.com/ Sub CheckFruit() ' Select Tools->References from the Visual Basic menu. ' Check box beside "Microsoft Scripting Runtime" in the list. Dim dict As New Scripting.Dictionary ' Add to fruit to Dictionary dict.Add key:="Apple", Item:=51 dict.Add key:="Peach", Item:=34 dict.Add key:="Plum", Item:=43 Dim sFruit As String ' Ask user to enter fruit sFruit = InputBox("Please enter the name of a fruit") If dict.Exists(sFruit) Then MsgBox sFruit & " exists and has value " & dict(sFruit) Else MsgBox sFruit & " does not exist." End If Set dict = Nothing End Sub
This is a simple example but it shows how useful a Dictionary is. We will see a real world example later in the post. Let’s look at the basics of using a Dictionary.
Creating a Dictionary
To use the Dictionary you need to first add the reference.
- Select Tools->References from the Visual Basic menu.
- Find Microsoft Scripting Runtime in the list and place a check in the box beside it.
We declare a dictionary as follows
Dim dict As New Scripting.Dictionary
or
Dim dict As Scripting.Dictionary Set dict = New Scripting.Dictionary
Creating a Dictionary in this way is called “Early Binding”. There is also “Late Binding”. Let’s have a look at what this means.
Early versus Late Binding
To create a Dictionary using Late binding we use the following code. We don’t need to add a reference.
Dim dict As Object Set dict = CreateObject("Scripting.Dictionary")
In technical terms Early binding means we decide exactly what we are using up front. With Late binding this decision is made when the application is running. In simple terms the difference is
- Early binding requires a reference. Late binding doesn’t.
- Early binding allows access to *Intellisense. Late binding doesn’t.
- Early binding may require you to manually add the Reference to the “Microsoft Scripting Runtime” for some users.
(*Intellisense is the feature that shows you the available procedures and properties of an item as you are typing.)
While Microsoft recommends that you use early binding in almost all cases I would differ. A good rule of thumb is to use early binding when developing the code so that you have access to the Intellisense. Use late binding when distributing the code to other users to prevent various library conflict errors occurring.
Adding Items to the Dictionary
| Function | Params | Example |
|---|---|---|
| Add | Key, Item | dict.Add "Apples", 50 |
We can add items to the dictionary using the Add function. Items can also be added by assigning a value which we will look at in the next section.
Let’s look at the Add function first. The Add function has two parameters: Key and Item. Both must be supplied
dict.Add Key:="Orange", Item:=45 dict.Add "Apple", 66 dict.Add "12/12/2015", "John" dict.Add 1, 45.56
In the first add example above we use the parameter names. You don’t have to do this although it can be helpful when you are starting out.
The Key can be any data type. The Item can be any data type, an object, array, collection or even a dictionary. So you could have a Dictionary of Dictionaries, Array and Collections. But most of the time it will be a value(date, number or text).
If we add a Key that already exists in the Dictionary then we will get the error
The following code will give this error
dict.Add Key:="Orange", Item:=45 ' This line gives an error as key exists already dict.Add Key:="Orange", Item:=75
Assigning a Value
| Operation | Format | Example |
|---|---|---|
| Assign | Dictionary(Key) = Item | dict("Oranges") = 60 |
We can change the value of a key using the following code
dict("Orange") = 75
Assigning a value to Key this way has an extra feature. If the Key does not exist it automatically adds the Key and Item to the dictionary. This would be useful where you had a list of sorted items and only wanted the last entry for each one.
' Adds Orange to the dictionary dict("Orange") = 45 ' Changes the value of Orange to 100 dict("Orange") = 100
Don’t forget that you can download all the VBA code used in this post from the top or bottom of the post.
Checking if a Key Exists
| Function | Parameters | Example |
|---|---|---|
| Exists | Key | If dict.Exists("Apples") Then |
We can use the Exists function to check if a key exists in the dictionary
' Checks for the key 'Orange' in the dictionary If dict.Exists("Orange") Then MsgBox "The number of oranges is " & dict("Orange") Else MsgBox "There is no entry for Orange in the dictionary." End If
Storing Multiple Values in One Key
Take a look at the sample data below. We want to store the Amount and Items for each Customer ID.
The Dictionary only stores one value so what can we do?
We could use an array or collection as the value but this is unnecessary. The best way to do it is to use a Class Module.
The following code shows how we can do this
' clsCustomer Class Module Code Public CustomerID As String Public Amount As Long Public Items As Long
' Create a new clsCustomer object Set oCust = New clsCustomer ' Set the values oCust.CustomerID = rg.Cells(i, 1).Value oCust.Amount = rg.Cells(i, 2).Value oCust.Items = rg.Cells(i, 3).Value ' Add the new clsCustomer object to the dictionary dict.Add oCust.CustomerID, oCust
You can see that by using the Class Module we can store as many fields as we want. Examples 2 and 3 at the bottom of the post show how to use a class module with a Dictionary
Other useful functions
| Function | Parameters | Example |
|---|---|---|
| Count | N/A | dict.Count |
| Remove | Key | dict.Remove "Apples" |
| RemoveAll | N/A | dict.RemoveAll |
The three functions in the above table do the following:
- Count – returns the number of items in the Dictionary.
- Remove – removes a given key from the Dictionary.
- RemoveAll – removes all items from the Dictionary
The following sub shows an example of how you would use these functions
' https://excelmacromastery.com/ Sub AddRemoveCount() Dim dict As New Scripting.Dictionary ' Add some items dict.Add "Orange", 55 dict.Add "Peach", 55 dict.Add "Plum", 55 Debug.Print "The number of items is " & dict.Count ' Remove one item dict.Remove "Orange" Debug.Print "The number of items is " & dict.Count ' Remove all items dict.RemoveAll Debug.Print "The number of items is " & dict.Count End Sub
Remember that you can download all the code examples from the post. Just go to the download section at the top.
The Key and Case Sensitivity
Some of the string functions in VBA have a vbCompareMethod. This is used for functions that compare strings. It is used to determine if the case of the letters matter.
© BigStockPhoto.com
The Dictionary uses a similar method. The CompareMode property of the Dictionary is used to determine if the case of the key matters. The settings are
vbTextCompare: Upper and lower case are considered the same.
vbBinaryCompare: Upper and lower case are considered different. This is the default.
With the Dictionary we can use these settings to determine if the case of the key matters.
' https://excelmacromastery.com/ Sub CaseMatters() Dim dict As New Scripting.Dictionary dict.CompareMode = vbBinaryCompare dict.Add "Orange", 1 ' Prints False because it considers Orange and ORANGE different Debug.Print dict.Exists("ORANGE") Set dict = Nothing End Sub
This time we use vbTextCompare which means that the case does not matter
' https://excelmacromastery.com/ Sub CaseMattersNot() Dim dict As New Scripting.Dictionary dict.CompareMode = vbTextCompare dict.Add "Orange", 1 ' Prints true because it considers Orange and ORANGE the same Debug.Print dict.Exists("ORANGE") Set dict = Nothing End Sub
Note: The Dictionary must be empty when you use the CompareMode property or you will get the error: “Invalid procedure call or argument”.
Things to Watch Out For
vbBinaryCompare (the case matters) is the default and this can lead to subtle errors. For example, imagine you have the following data in cells A1 to B2.
Orange, 5
orange, 12
The following code will create two keys – on for “Orange” and one for “orange”. This is subtle as the only difference is the case of the first letter.
' https://excelmacromastery.com/ Sub DiffCase() Dim dict As New Scripting.Dictionary dict.Add Key:=(Range("A1")), Item:=Range("B1") dict.Add Key:=(Range("A2")), Item:=Range("B2") End Sub
If you do use vbTextCompare for the same data you will get an error when you try to add the second key as it considers “Orange” and “orange” the same.
' https://excelmacromastery.com/ Sub UseTextcompare() Dim dict As New Scripting.Dictionary dict.CompareMode = vbTextCompare dict.Add Key:=(Range("A1")), Item:=Range("B1") ' This line will give an error as your are trying to add the same key dict.Add Key:=(Range("A2")), Item:=Range("B2") End Sub
If you use the assign method then it does not take the CompareMode into account. So the following code will still add two keys even though the CompareMode is set to vbTextCompare.
' https://excelmacromastery.com/ Sub Assign() Dim dict As New Scripting.Dictionary dict.CompareMode = vbTextCompare ' Adds two keys dict(Range("A1")) = Range("B1") dict(Range("A2")) = Range("B2") ' Prints 2 Debug.Print dict.Count End Sub
Reading through the Dictionary
We can read through all the items in the Dictionary. We can go through the keys using a For Each loop. We then use the current key to access an item.
Dim k As Variant For Each k In dict.Keys ' Print key and value Debug.Print k, dict(k) Next
We can also loop through the keys although this only works with Early Binding(Update Feb 2020: In Office 365 this now works with both versions):
Dim i As Long For i = 0 To dict.Count - 1 Debug.Print dict.Keys(i), dict.Items(i) Next i
This method works with both Early and Late binding:
Dim i As Long For i = 0 To dict.Count - 1 Debug.Print dict.Keys()(i), dict.Items()(i) Next i
Sorting the Dictionary
Sometimes you may wish to sort the Dictionary either by key or by value.
The Dictionary doesn’t have a sort function so you have to create your own. I have written two sort functions – one for sorting by key and one for sorting by value.
Sorting by keys
To sort the dictionary by the key you can use the SortDictionaryByKey function below
' https://excelmacromastery.com/ Public Function SortDictionaryByKey(dict As Object _ , Optional sortorder As XlSortOrder = xlAscending) As Object Dim arrList As Object Set arrList = CreateObject("System.Collections.ArrayList") ' Put keys in an ArrayList Dim key As Variant, coll As New Collection For Each key In dict arrList.Add key Next key ' Sort the keys arrList.Sort ' For descending order, reverse If sortorder = xlDescending Then arrList.Reverse End If ' Create new dictionary Dim dictNew As Object Set dictNew = CreateObject("Scripting.Dictionary") ' Read through the sorted keys and add to new dictionary For Each key In arrList dictNew.Add key, dict(key) Next key ' Clean up Set arrList = Nothing Set dict = Nothing ' Return the new dictionary Set SortDictionaryByKey = dictNew End Function
The code below, shows you how to use SortDictionaryByKey
' https://excelmacromastery.com/ Sub TestSortByKey() Dim dict As Object Set dict = CreateObject("Scripting.Dictionary") dict.Add "Plum", 99 dict.Add "Apple", 987 dict.Add "Pear", 234 dict.Add "Banana", 560 dict.Add "Orange", 34 PrintDictionary "Original", dict ' Sort Ascending Set dict = SortDictionaryByKey(dict) PrintDictionary "Key Ascending", dict ' Sort Descending Set dict = SortDictionaryByKey(dict, xlDescending) PrintDictionary "Key Descending", dict End Sub Public Sub PrintDictionary(ByVal sText As String, dict As Object) Debug.Print vbCrLf & sText & vbCrLf & String(Len(sText), "=") Dim key As Variant For Each key In dict.keys Debug.Print key, dict(key) Next End Sub
Sorting by values
To sort the dictionary by the values you can use the SortDictionaryByValue function below.
' https://excelmacromastery.com/ Public Function SortDictionaryByValue(dict As Object _ , Optional sortorder As XlSortOrder = xlAscending) As Object On Error GoTo eh Dim arrayList As Object Set arrayList = CreateObject("System.Collections.ArrayList") Dim dictTemp As Object Set dictTemp = CreateObject("Scripting.Dictionary") ' Put values in ArrayList and sort ' Store values in tempDict with their keys as a collection Dim key As Variant, value As Variant, coll As Collection For Each key In dict value = dict(key) ' if the value doesn't exist in dict then add If dictTemp.exists(value) = False Then ' create collection to hold keys ' - needed for duplicate values Set coll = New Collection dictTemp.Add value, coll ' Add the value arrayList.Add value End If ' Add the current key to the collection dictTemp(value).Add key Next key ' Sort the value arrayList.Sort ' Reverse if descending If sortorder = xlDescending Then arrayList.Reverse End If dict.RemoveAll ' Read through the ArrayList and add the values and corresponding ' keys from the dictTemp Dim item As Variant For Each value In arrayList Set coll = dictTemp(value) For Each item In coll dict.Add item, value Next item Next value Set arrayList = Nothing ' Return the new dictionary Set SortDictionaryByValue = dict Done: Exit Function eh: If Err.Number = 450 Then Err.Raise vbObjectError + 100, "SortDictionaryByValue" _ , "Cannot sort the dictionary if the value is an object" End If End Function
The code below shows you how to use SortDictionaryByValue
' https://excelmacromastery.com/ Sub TestSortByValue() Dim dict As Object Set dict = CreateObject("Scripting.Dictionary") dict.Add "Plum", 99 dict.Add "Apple", 987 dict.Add "Pear", 234 dict.Add "Banana", 560 dict.Add "Orange", 34 PrintDictionary "Original", dict ' Sort Ascending Set dict = SortDictionaryByValue(dict) PrintDictionary "Value Ascending", dict ' Sort Descending Set dict = SortDictionaryByValue(dict, xlDescending) PrintDictionary "Value Descending", dict End Sub Public Sub PrintDictionary(ByVal sText As String, dict As Object) Debug.Print vbCrLf & sText & vbCrLf & String(Len(sText), "=") Dim key As Variant For Each key In dict.keys Debug.Print key, dict(key) Next key End Sub
Troubleshooting the Dictionary
This section covers the common errors you may encounter using the Dictionary.
Missing Reference
Issue: You get the error message “User-defined type not defined”
This normally happens when you create the Dictionary but forget to add the reference.
Dim dict As New Scripting.Dictionary
Resolution: Select Tools->Reference from the Visual Basic menu. Place a check in the box beside “Microsoft Scripting Runtime”.
See Section: Creating a Dictionary
Exists is not Working
Issue: You have added a key to the Dictionary but when you use the Exists function it returns false
This is normally an issue with Case Sensitivity(see above).
The following code adds “Apple” as a key. When we check for “apple” it returns false. This is because it takes the case of the letters into account:
dict.Add "Apple", 4 If dict.Exists("apple") Then MsgBox "Exists" Else MsgBox "Does not Exist" End If
You can set the CompareMode property to vbTextCompare and this will ignore the case:
Dim dict As New Scripting.Dictionary dict.CompareMode = vbTextCompare
Resolution: Set the CompareMode to vbTextCompare to ignore case or ensure your data has the correct case.
See Section: The Key and Case Sensitivity
Object Variable Error
Issue: You get the error message “Object variable or With block variable not set” when you try to use the Dictionary.
The normally happens when you forget to use New before you use the Dictionary. For example, the following code will cause this error
Dim dict As Scripting.Dictionary ' This line will give "Object variable..." error dict.Add "Apple", 4
Resolution: Use the New keyword when creating the Dictionary
Dim dict As New Scripting.Dictionary
Or
Dim dict As Scripting.Dictionary Set dict = New Scripting.Dictionary
See Section: Creating a Dictionary
Useful Tips for Troubleshooting the Dictionary
If you are investigating an issue with the Dictionary it can be useful to see the contents.
Use the following sub to Print each Key and Item to the Immediate Window(Ctrl + G).
' https://excelmacromastery.com/ Sub PrintContents(dict As Scripting.Dictionary) Dim k As Variant For Each k In dict.Keys ' Print key and value Debug.Print k, dict(k) Next End Sub
You can use it like this
Dim dict As Scripting.Dictionary Set dict = New Scripting.Dictionary ' Add items to Dictionary here ' Print the contents of the Dictionary to the Immediate Window PrintContents dict
If you are stepping through the code you can also add dict.Count to the Watch Window to see how many items are currently in the Dictionary. Right-click anywhere in the code window and select Add Watch. Type dict.Count into the text box and click Ok.
You can also use the Dictionary itself as a Watch. Add Dict to the Watch window. If you click on the plus sign you will see the contents of the Dictionary. This can be useful but it only shows the key and not the item.
Note: You can only view Watches when the code is running.
Remember that you can download all the code examples from the post. Just go to the download section at the top.
Copying the Dictionary to an Array
As we know the dictionary is made up of Key and Value pairs. The dictionary has a Keys property which is an array of all the keys and an Items property which is an array of all the items(i.e. values).
As both of these properties are arrays, we can write them directly to a worksheet as we will see in the next section.
If we want to copy either the Keys or Items array to a new array then we can do it very easily like this:
Dim arr As Variant arr = dict.Keys
The following example copies the Keys and Items arrays to new arrays. Then the contents of the new arrays are printed to the Immediate Window:
Sub DictionaryToArray() ' Create dictionary and add entries Dim dict As New Dictionary dict.Add "France", 56 dict.Add "USA", 23 dict.Add "Australia", 34 ' Declare variant to use as array Dim arr As Variant ' Copy keys to array arr = dict.Keys ' Print array to Immediate Window(Ctrl + G to View) Call PrintArrayToImmediate(arr, "Keys:") ' Copy items to array arr = dict.Items ' Print array to Immediate Window(Ctrl + G to View) Call PrintArrayToImmediate(arr, "Items:") End Sub ' Prints an array to the Immediate Window(Ctrl + G to View) Sub PrintArrayToImmediate(arr As Variant, headerText As String) Debug.Print vbNewLine & headerText Dim entry As Variant For Each entry In arr Debug.Print entry Next End Sub
When you run the code you wil get the following output:
Note that you can only copy the Items array when it contains basic data types like string, long, date, double etc. If the items are objects then you can not copy them to an array. You’ll need to read through the dictionary using a loop instead.
Writing the Dictionary to the Worksheet
We can write the Dictionary keys or items to the worksheet in one line of code.
When you write out the keys or items they will be written to a row. If you want to write them to a column you can use the WorksheetFunction.Transpose function.
The code below shows examples of how to write the Dictionary to a worksheet:
Sub DictionaryToWorksheet() Dim dict As New Dictionary dict.Add "France", 56 dict.Add "USA", 23 dict.Add "Australia", 34 Dim sh As Worksheet Set sh = ThisWorkbook.Worksheets("Sheet1") ' Write keys to range A1:C1 sh.Range("A1:C1").Value = dict.Keys ' Write items to range A2:C2 sh.Range("A2:C2").Value = dict.Items ' Write keys to range E1:E3 sh.Range("E1:E3").Value = WorksheetFunction.Transpose(dict.Keys) ' Write items to range F1:F3 sh.Range("F1:F3").Value = WorksheetFunction.Transpose(dict.Items) End Sub
Useful Dictionary Examples
The easiest way to see the benefits of the Dictionary is to see some real-world examples of it’s use. So in this section we are going to look at some examples. You can get workbooks and code for these examples by entering your email below:
Example 1 – Summing Single Values
Let’s have a look at a real-world example of using a dictionary. Our data for this example is the World Cup Final matches from 2014.
Our task here is to get the number of goals scored by each team.
The first thing we need to do is to read all the data. The following code reads through all the matches and prints the names of the two teams involved.
' https://excelmacromastery.com/vba-dictionary ' Reads the World Cup data from the 2014 Worksheet ' View the results in the Immediate Window(Ctrl + G) Sub GetTotals() ' Get worksheet Dim wk As Worksheet Set wk = ThisWorkbook.Worksheets("2014") ' Get range for all the matches Dim rg As Range Set rg = wk.Range("A1").CurrentRegion Dim Team1 As String, Team2 As String Dim Goals1 As Long, Goals2 As Long Dim i As Long For i = 2 To rg.Rows.Count ' read the data from each match Team1 = rg.Cells(i, 5).Value Team2 = rg.Cells(i, 9).Value Goals1 = rg.Cells(i, 6).Value Goals2 = rg.Cells(i, 7).Value ' Print each teams/goals to Immediate Window(Ctrl + G) Debug.Print Team1, Team2, Goals1, Goals2 Next i End Sub
What we want to do now is to store each team and the goals they scored. When we meet a team for the first time we add the name as a Key and the number of goals as the Item.
Celebrating a Goal | © BigStockPhoto.com
If the team has already been added then we add the goals they scored in the current match to their total.
We can use the following line to add goals to the current team:
dict(Team1) = dict(Team1) + Goals1
This line is very powerful.
If the teams exists in the Dictionary, the current goals are added to the current total for that team.
If the team does not exist in the Dictionary then it will automatically add the team to the Dictionary and set the value to the goals.
For example, imagine the Dictionary has one entry
Key, Value
Brazil, 5
Then
dict("Brazil") = dict("Brazil") + 3
will update the dictionary so it now looks like this
Key, Value
Brazil, 8
The line
dict("France") = dict("France") + 3
will update the dictionary so it now looks like this
Key, Value
Brazil, 8
France, 3
This saves us having to write code like this:
If dict.Exists(Team1) Then ' If exists add to total dict(Team) = dict(Team) + Goals1 Else ' if doesn't exist then add dict(Team) = Goals1 End If
We write out the values from the Dictionary to the worksheet as follows:
' Write the data from the dictionary to the worksheet ' https://excelmacromastery.com/vba-dictionary Private Sub WriteDictionary(dict As Scripting.Dictionary _ , shReport As Worksheet) ' Write the keys shReport.Range("A1").Resize(dict.Count, 1).Value = WorksheetFunction.Transpose(dict.Keys) ' Write the items shReport.Range("B1").Resize(dict.Count, 1).Value = WorksheetFunction.Transpose(dict.Items) End Sub
We obviously want the scores to be sorted. It is much easier to read this way. There is no easy way to sort a Dictionary. The way to do it is to copy all the items to an array. Sort the array and copy the items back to a Dictionary.
What we can do is sort the data once it has been written to the worksheet. We can use the following code to do this:
' Sort the data on the worksheet ' https://excelmacromastery.com/vba-dictionary Public Sub SortByScore(shReport As Worksheet _ , Optional sortOrder As XlSortOrder = xlDescending) Dim rg As Range Set rg = shReport.Range("A1").CurrentRegion rg.Sort rg.Columns("B"), sortOrder End Sub
Our final GetTotals sub looks like this:
' https://excelmacromastery.com/vba-dictionary Sub GetTotalsFinal() ' Create dictionary Dim dict As New Scripting.Dictionary ' Get worksheet Dim sh As Worksheet Set sh = ThisWorkbook.Worksheets("2014") ' Get range Dim rgMatches As Range Set rgMatches = sh.Range("A1").CurrentRegion Dim team1 As String, team2 As String Dim goals1 As Long, goals2 As Long Dim i As Long ' Read through the range of data For i = 2 To rgMatches.Rows.Count ' read the data to variables team1 = rgMatches.Cells(i, 5).Value team2 = rgMatches.Cells(i, 9).Value goals1 = rgMatches.Cells(i, 6).Value goals2 = rgMatches.Cells(i, 7).Value ' Add the totals for each team to the dictionary. ' If the team doesn't exist it will be automatically added dict(team1) = dict(team1) + goals1 dict(team2) = dict(team2) + goals2 Next i ' Get the report worksheet Dim shReport As Worksheet Set shReport = ThisWorkbook.Worksheets("2014 Report") ' Write the teams and scores to the worksheet WriteDictionary dict, shReport ' Sort the range ' Change to xlAscending to reverse the order SortByScore shReport, xlDescending ' Clean up Set dict = Nothing shReport.Activate End Sub
When you run this code you will get the following results
Teams ordered by number of goals scored
Example 2 – Dealing with Multiple Values
We are going to use the data from the Multiple Values section above
Imagine this data starts at cell A1. Then we can use the code below to read to the dictionary.
The code includes two subs for displaying the data:
- WriteToImmediate prints the contents of the dictionary to the Immediate Window.
- WriteToWorksheet writes the contents of the dictionary to the worksheet called Output.
To run this example:
- Create a worksheet called Customers.
- Add the above data to the worksheet starting at cell A1.
- Create a worksheet called Output and leave it blank.
- Go to the Visual Basic Editor(Alt + F11).
- Select Tools->Reference and then check “Microsoft Scripting Runtime” from the list.
- Create a new class module and add the first piece of code from below.
- Create a new standard module and add the second piece of code from below.
- Press F5 to run and select Main from the menu.
- Check the ImmediateWindow(Ctrl + G) and the Output worksheet to see the results.
' clsCustomer Class Module Code Public CustomerID As String Public Amount As Long Public Items As Long
' Standard module Code ' https://excelmacromastery.com/ Sub Main() Dim dict As Dictionary ' Read the data to the dictionary Set dict = ReadMultiItems ' Write the Dictionary contents to the Immediate Window(Ctrl + G) WriteToImmediate dict ' Write the Dictionary contents to a worksheet WriteToWorksheet dict, ThisWorkbook.Worksheets("Output") End Sub Private Function ReadMultiItems() As Dictionary ' Declare and create the Dictionary Dim dict As New Dictionary ' Get the worksheet Dim sh As Worksheet Set sh = ThisWorkbook.Worksheets("Customers") ' Get the range of all the adjacent data using CurrentRegion Dim rg As Range Set rg = sh.Range("A1").CurrentRegion Dim oCust As clsCustomer, i As Long ' read through the data For i = 2 To rg.Rows.Count ' Create a new clsCustomer object Set oCust = New clsCustomer ' Set the values oCust.CustomerID = rg.Cells(i, 1).Value oCust.Amount = rg.Cells(i, 2).Value oCust.Items = rg.Cells(i, 3).Value ' Add the new clsCustomer object to the dictionary dict.Add oCust.CustomerID, oCust Next i ' Return the dictionary to the Main sub Set ReadMultiItems = dict End Function ' Write the Dictionary contents to the Immediate Window(Ctrl + G) ' https://excelmacromastery.com/ Private Sub WriteToImmediate(dict As Dictionary) Dim key As Variant, oCust As clsCustomer ' Read through the dictionary For Each key In dict.Keys Set oCust = dict(key) With oCust ' Write to the Immediate Window (Ctrl + G) Debug.Print .CustomerID, .Amount, .Items End With Next key End Sub ' Write the Dictionary contents to a worksheet ' https://excelmacromastery.com/ Private Sub WriteToWorksheet(dict As Dictionary, sh As Worksheet) ' Delete all existing data from the worksheet sh.Cells.ClearContents Dim row As Long row = 1 Dim key As Variant, oCust As clsCustomer ' Read through the dictionary For Each key In dict.Keys Set oCust = dict(key) With oCust ' Write out the values sh.Cells(row, 1).Value = .CustomerID sh.Cells(row, 2).Value = .Amount sh.Cells(row, 3).Value = .Items row = row + 1 End With Next key End Sub
Example 3 – Summing Multiple Values
In this example were are going to make a small update to Example 2. In that example there was only one entry per customer in the data.
This time there will be multiple entries for some customers and we want to sum the total Amount and total Items for each customer.
See the updated dataset below:
Note: If you run the “Example 2” code on data with multiple copies of the CustomerID, it will give the “Key already exists error”.
' clsCustomer Class Module Code Public CustomerID As String Public Amount As Long Public Items As Long
' Read from worksheet: CustomerSum ' Write to worksheet: CustomerRepSum ' https://excelmacromastery.com/vba-dictionary Sub MainSum() Dim dict As Dictionary ' Read the data to the dictionary Set dict = ReadMultiItemsSum ' Write the Dictionary contents to the Immediate Window(Ctrl + G) WriteToImmediate dict ' Write the Dictionary contents to a worksheet WriteToWorksheet dict, ThisWorkbook.Worksheets("CustomerRepSum") End Sub ' Read multiple items but this time sums the items ' https://excelmacromastery.com/ Private Function ReadMultiItemsSum() As Dictionary ' Declare and Create the Dictionary Dim dict As New Dictionary ' Get the worksheet Dim sh As Worksheet Set sh = ThisWorkbook.Worksheets("CustomerSum") ' Get the range of all the adjacent data using CurrentRegion Dim rg As Range Set rg = sh.Range("A1").CurrentRegion Dim oCust As clsCustomer, i As Long, customerID As String ' read through the data For i = 2 To rg.Rows.Count customerID = rg.Cells(i, 1).Value ' check if the customerID has been added already If dict.Exists(customerID) = True Then ' Get the existing customer object Set oCust = dict(customerID) Else ' Create a new clsCustomer object Set oCust = New clsCustomer ' Add the new clsCustomer object to the dictionary dict.Add customerID, oCust End If ' Set the values oCust.Amount = oCust.Amount + rg.Cells(i, 2).Value oCust.Items = oCust.Items + rg.Cells(i, 3).Value Next i ' Return the dictionary to the Main sub Set ReadMultiItemsSum = dict End Function ' Write the Dictionary contents to the Immediate Window(Ctrl + G) ' https://excelmacromastery.com/vba-dictionary Private Sub WriteToImmediate(dict As Dictionary) Dim key As Variant, oCust As clsCustomer ' Read through the dictionary For Each key In dict.Keys Set oCust = dict(key) With oCust ' Write to the Immediate Window (Ctrl + G) Debug.Print key, .Amount, .Items End With Next key End Sub ' Write the Dictionary contents to a worksheet ' https://excelmacromastery.com/ Private Sub WriteToWorksheet(dict As Dictionary, sh As Worksheet) ' Delete all existing data from the worksheet sh.Cells.ClearContents Dim row As Long row = 1 Dim key As Variant, oCust As clsCustomer ' Read through the dictionary For Each key In dict.Keys Set oCust = dict(key) With oCust ' Write out the values sh.Cells(row, 1).Value = key sh.Cells(row, 2).Value = .Amount sh.Cells(row, 3).Value = .Items row = row + 1 End With Next key End Sub
When To Use The Dictionary
So when should you use the VBA Dictionary? When you have a task where:
- You have a list of unique items e.g. countries, invoice numbers, customer name and addresses, project ids, product names etc.
- You need to retrieve the value of a unique item.
Key/Values of Countries and Land area in Km2
What’s Next?
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Excellent. Very well covered
Can you pl help with a general programme taking number of keys as variable and dynamically taking the entire table and then place results in the work sheet by totalling for respective keys.
Hi,
I successfully managed to read data from a closed workbook & storing the excel data sheet (it’s rows/columns values) into an array() variant. All works smoothly with the exception that some rows contain more than 255 characters. I’m not getting any error message but the text is simply cut up and until it reaches the 255 character. Is there a way I could increase that maximum limit by using one of the above possibilities such as Dictionaries, Arraylist or Collection? Thanks in advance for your prompt response.
No luck with this method
Dim Key As Variant
For Each Key In dictReadProfile.Keys
Debug.Print Key, dictReadProfile(Key)
Next Key
Using GitHub vba Dictionary which is supposed to exactly emulate the MS version ( I want this App to work on macs as well, obviously)
Great One,
I was just wondering if clsCustomer could contain a Collection ? for exemple item1 item2 … item n
And how you would update it. For exemple when it contains item1 item2 ==> updating it to item1 item2 item 3
Something like MyColl = dict(key).TheColl MyColl.Add item3 and dict(key).TheColl = MyColl would do the job ?
Yes it can contain a collection. How you update it really depends on what you are trying to do.
Very nice reference. Is the only way to do a multidimensional dictionary (i.e., a first and a second key) to store a collection or a dictionary inside another dictionary? I’ve always found that method a bit clunky.
Glad you like it. Yes – that is the only way.
Hello Paul. I really enjoy your content, I think it’s the best VBA learning resource out there.
I have a short question: I’ve seen in this very post, that most times you declare the Dictionary: DictName as Scripting.Dictionary vs in Example 2 it just says DictName as Dictionary (without “Scripting.”). And I’ve also seen that difference elsewhere. Is it the same or does it have any difference?
It doesn’t make much difference. Using Scripting is a way of clarifying that the dictionary is from the scripting library.
I thinks there’s an unused variable in the SortDictionaryByKey functions
coll As New Collection
It seems coll is declared, but never used, not in this function anyway…
Thanks Philip. I have updated the code.
Hi Paul,
the function “SortDictionaryByValue” works fine but it sorts only text. If the values are numbers you get a somewhat unexpected result, I think. I put a loop before filling the ArrayList like this.
Dim mKeys As Variant, mItems As Variant
Dim isNumber As Boolean, i As Integer
isNumber = False
mItems = dict.Items
mKeys = dict.Keys
For i = 0 To dict.Count – 1
If IsNumeric(mItems(i)) = True Then
isNumber = True
Else
isNumber = False
End If
Next
and convert the values if they are all numeric in the section where the ArrayList is generated like this
If isNumber = True Then
value = CDbl(dict(key)) ‘Convert to Double and sort as number
Else
value = dict(key) ‘Sort as text
End If
This way the result of the function sorts the dictionary correctly if there are only numeric values.
I think that this way the function works more like excel would sort in a table.
You have a great blog that illustrates so much for everybody that gets into VBA. Thank you for sharing
your knowledge.
Cheers, Oliver
Thank you for a GREAT resource!
Could you help me understand if it’s possible to use multiple key fields as a UID with the dictionary? I’m trying to compare two sheets; the same data feed but at different points in time. Each row is unique base on the combination of the PO document number, line item number and a delivery date. I’d like to identify when all changes from between the two points in time but not sure how to match the data. Any recommendations on a technique that could work?
You can combine the fields to provide one key as long as it will be unique.
Its not complete when it doesnt have the .item property included..
.item makes using the .Exist function obsolete
dictionary(key) is a shortcut for dictionary.Item(key)
Exist is still required if that value is an object.
Paul,
Thank you for creating and publishing your website & YouTube Channel, they are a great help as I learn VBA! I am developing an Excel Application and look forward to working through The Excel VBA Handbook in the very near future!
I am working my way through your Article on Dictionaries. I have built a dictionary, using a Class Module as you demonstrate in Sect 19.2 Example 2 – Dealing with Multiple Values in this Article.
I have a table of Materials on a worksheet. Each Material Item has a Unique ID in Field 1, and has a total of nine (8) more columns of information. The Sub ran well, however; the dict.count property shows a count of 3,134 items, while the Locals Window shows a count of only 256 Items in the Dictionary.
Is there a limit on the number of Key/Items that can be stored in a Dictionary or is it that the Locals Window will only show a set number of Items.
Thanks again!
Hi Mark, That limit is the Locals Window.
You can use a for loop with Debug.Print to the print the contents to the Immediate Window.
-Paul
Comprehensive and extrememly helpful, thanks for this, amazing work.
Thanks Steve.
I am going through the “How to Design and Code an Excel VBA Application Like a Pro” on the Excel Macro Mastery YouTube channel (the video was Premiered Mar 11, 2020). I have gotten to about the 24:28 mark where I have run into a problem I can’t fix. I am working on a MacBook Air (Big Sur). I have installed the Dictionary class module from github and it seems to be working just fine (when I Debugged the application, I could see my Dictionary listed in the Watch Window). The line that is giving me the issue is the line that says
For Each key In Dict
Debug.Print key, Dict(key)
Next key
When I click on the “Create Report” button to run the macro, I get a run-time error at the codeline I just pasted above:
Run-time Error ‘438’:
Object doesn’t support this property or method
So there is something wrong with the syntax for this line “For Each key In Dict”
Do I need to use something other than a For Each loop or does the key need any qualifiers added to it? I really don’t know this is the first time I have ever worked with a Dictionary in Excel. Any and all help would be most appreicated. I have went through a lot of your videos and they are all awesome. I have learned a lot!!
Jason
Hi Jason,
Try this:
For Each Key in Dict.Keys
Paul
Paul Kelly is the Goat!! That means double important!!
Hello Paul,
First of all, thank you very much for all of your guides, they are extremely clear and helpful.
Using your dictionary guide I have written a code to read through a filtered column range.
As per your suggestion I wrote it first by using Early Binding, and it worked.
Afterwards I wrote a new code, copying the one from before but changing it to Late Binding.
I can read the filtered column and i get a dictionary where the keys are the row number and the items are the value on each row.
But when I tried to debug print the keys and items I got the error:
Property let procedure not defined and property get procedure did not return an object (Error 451)
Could you clarify to me why this error pops up?
Thank you very much in advance.
Here is the code:
Public Sub testsub()
Dim rng1 As Range
Dim count As Long
Dim RColDict As Object
Set RColDict = CreateObject(“Scripting.Dictionary”)
Set rng1 = Range(“A1:A100”).SpecialCells(xlCellTypeVisible).Cells
Set RColDict = ReadColData(rng1)
For count = 0 To RColDict.count – 1
Debug.Print RColDict.Keys(count), RColDict.Items(count)
Next count
End Sub
Public Function ReadColData(ColRng As Range) As Object
Dim RColDict As Object
Set RColDict = CreateObject(“Scripting.Dictionary”)
Dim RngAddressArray() As String
Dim NumberOfAreas As Long
Dim RngAddress As Variant
Set ReadColData = CreateObject(“Scripting.Dictionary”)
NumberOfAreas = ColRng.Areas.count
ReDim RngAddressArray(0 To NumberOfAreas – 1)
RngAddressArray = Split(ColRng.Address, “,”)
For Each RngAddress In RngAddressArray
Set RColDict = ReadColRangeAddress(RColDict, RngAddress)
Next RngAddress
Set ReadColData = RColDict
Set RColDict = Nothing
End Function
Private Function ReadColRangeAddress(RColDict, RngAddress As Variant) As Object
Dim count As Long
Dim StartRow As String, FinalRow As String, ColIndex As String
Dim CellValue As Variant
Set ReadColRangeAddress = CreateObject(“Scripting.Dictionary”)
If UBound(Split(RngAddress, “:”)) > 0 Then
StartRow = Split(RngAddress, “:”)(0)
ColIndex = Split(StartRow, “$”)(1)
StartRow = Split(StartRow, “$”)(2)
FinalRow = Split(RngAddress, “:”)(1)
FinalRow = Split(FinalRow, “$”)(2)
Else
StartRow = Split(RngAddress, “:”)(0)
ColIndex = Split(StartRow, “$”)(1)
StartRow = Split(StartRow, “$”)(2)
FinalRow = StartRow
End If
For count = StartRow To FinalRow
CellValue = Cells(count, ColIndex) ‘Cells accepts letters as column indexes
RColDict.Add count, CellValue
Next count
Set ReadColRangeAddress = RColDict
End Function
Paul,
Thank you so much for the great VBA articles, I have learned so much. I am having one problem though I can’t get passed.
sub Main()
Dim dict As New Dictionary
‘fill dictionary
Call Routine(dict)
end sub
sub Routine(dict As Dictionary)
x = dict.count <—— Compile error: Constant expression required
end sub
If I code around this problem I can use dict.keys later with no problems.
Any help would be greatly appreciated.
Thanks,
Vic
Hi Vic,
It depends on what the variable x is defined as. VBA seems to think that it is a constant. It should be declared using Dim to be a long variable.
-Paul
Great article & great webinar.
Great article & a great webinar.
Hi, I have a scripting.dictionary in Excel vba and would like to pass this dictionary to a C++ DLL. Would you know what the data type in C++ would be please? In C++ the equivalent to a dictionary is called map. I am able to pass double quite easily but with this more complex data type I am unsure what the C++ conversion would be here. Many thanks
Hello Mr. Kelly,
this is my first online post regarding VBA. Your guide was superb and I was able to improve a lot of my tools with dictionaries.
Maybe you can help me with my question:
Property Get Value(strTimestamp As String) As Double
Value = MydictValues.Item(strTimestamp)
End Property
Whenever my code ran this line, it added the string as a new key to the dictionary if it wasn’t already a key. This became a huge issue. I thought this line just gets the value of the key and if the key does not exist it returns null.
I changed my code now to this:
Property Get Value(strTimestamp As String) As Double
If MydictValues.Exists(strTimestamp) Then
Value = MydictValues.Item(strTimestamp)
Else
Err.Raise Number:=1, Description:=”Es wurde für Zeitstempel ein Wert abgefragt, welcher nicht existiert.”
End If
End Property
The error description is german, because I am a native german person. Sorry for my bad english.
Thank you for this very instructive article. This is really useful, I must say. How important is it to include the Clean Up section of your code (Set dict = Nothing). Is this capital? I have inherited some code which seems to end up being short in resources and I would like to know whether it’s worth investing time to check out that those clean-up sections are well implemented everywhere in the code.
Paul – all of your stuff is so great. Thank you.
Question – can one use a user-defined data type variable instead of a class module in order to store multiple values? Class modules are certainly more versatile, but a little bit more horsepower than what I need the dictionary for.
I recently discovered this site and find it a very useful resource for building up my knowledge and skills. Thanks for your excellent deliveries.
you’re welcome Kweku
Great article.
I have a set of customer data of 15 different fields and numerous (1000’s) rows each with a unique Cust ID from Book1 which needs to be copied into Book2 but has the fields in a different order as it will be getting data from other sources. So the column order may not be continuous.
Would it be best to create 15 dictionaries one for each field and have the key for each dictionary linked to the customer ID or row number from Book1 or would you suggest a different method?
Hi Paul, This is my first time posting and I wanted to thank you for the excellent articles. Can you help me understand what is ClearData function that’s used in the below WriteDictionary Sub? I don’t see it defined anywhere in this article. Thank you.
Private Sub WriteDictionary(dict As Scripting.Dictionary _
, shReport As Worksheet)
ClearData shReport
‘ Write the keys
shReport.Range(“A1”).Resize(dict.Count, 1).Value = WorksheetFunction.Transpose(dict.Keys)
‘ Write the items
shReport.Range(“B1”).Resize(dict.Count, 1).Value = WorksheetFunction.Transpose(dict.Items)
End Sub
I removed this now. Typically I use a ClearData function to remove existing data before I write new data. It ensures that you don’t mix new with old.
It looks something like this:
shReport.Range(“A1”).CurrentRegion.Offset(1).ClearContents
Perfect, thanks very much for taking the time to clarify and respond.
Hi Paul, great site! I have a question about dictionaries when pulling from an API. I am using the VBA-JSON converter to get data about different cryptocurrencies, but occasionally a field will be missing from one of them and I would like to know how to catch that with an If statement.
Example of JSON (abbreviated):
{
“_embedded”: {
“records”: [
{
“asset”: “yXLM-GARDNV3Q7YGT4AKSDF25LT32YSCCW4EV22Y2TV3I2PU2MMXJTEDL5T55-1”,
“volume7d”: 10379068759729,
“tomlInfo”: {
“orgName”: “Ultra Stellar LLC dba Ultra Stellar”,
},
},
}
but some of them don’t have a “tomlInfo” key, so it’s giving me a Type Mismatch error when I try accessing Rec(“tomlInfo”)(“orgName”).
My VBA (snippet):
Dim Recs As Collection
Set Recs = AResp(“_embedded”)(“records”) ‘ Response parsed with JSONconverter
Dim Rec As Dictionary
For Each Rec In Recs
‘ Assume findVar.Row and ONc below are valid values
.Cells(findVar.Row, ONc).Value = Rec(“tomlInfo”)(“orgName”)
Next Rec
Is there a good way to skip this part if that key doesn’t exist? I tried using dict.exists, but I don’t know how to use that with nested dictionaries like these…
Thanks for your time
For the sorting, the line “Dim key As Variant, coll As New Collection” – coll is never used in the function. Is this a leftover from an older version?
Hi Paul. It is my first post here and therefore I would like to thank you for amazing resourse for learning vba. You are really great teacher.
I am having a mistake when I try to reproduce the code of example 1 in this row:
Set shReport = ThisWorkbook.Worksheets(“2014 Report”)
Could you give me any syggestions to fix it?
You need a worksheet called 2014 Report in the current workbook.