14

I have defined the following Array Dim myArray(10,5) as Long and would like to sort it. What would be the best method to do that?

I will need to handle a lot of data like a 1000 x 5 Matrix. It contains mainly numbers and dates and need to sort it according to a certain column

  • 1
    See the accepted answer to this question. I don't exactly know how you want to sort it, but you can modify that implementation of the QuickSort algorithm however you need. – Cody Gray Feb 2 '11 at 10:22
  • 1
    Hi BlackLabrador, I think we might need a little more information about what exactly you want to do here... Are you trying to sort all 50 items into one long list, or sort by a 'column', or by a 'row', or some other way? If you edit your post to include this sort of information you're much more likely to get more/more useful answers. – Simon Cowen Feb 2 '11 at 17:14
  • Thanks for your comments. Will have a look to Cody's link – BlackLabrador Feb 3 '11 at 2:56

11 Answers 11

31

Here's a multi-column and a single-column QuickSort for VBA, modified from a code sample posted by Jim Rech on Usenet.

Notes:

You'll notice that I do a lot more defensive coding than you'll see in most of the code samples out there on the web: this is an Excel forum, and you've got to anticipate nulls and empty values... Or nested arrays and objects in arrays if your source array comes from (say) a third-party realtime market data source.

Empty values and invalid items are sent to the end of the list.

To sort multi-column arrays, your call will be:

 QuickSortArray MyArray,,,2
...Passing '2' as the column to sort on and excluding the optional parameters that pass the upper and lower bounds of the search domain.

Sorting single-column arrays (vectors), instead use:

QuickSortVector Myarray
Here too excluding the optional parameters.

[EDITED] - fixed an odd formatting glitch in the <code> tags, which seem to have a problem with hyperlinks in code comments.

The Hyperlink I excised was Detecting an Array Variant in VBA.

Public Sub QuickSortArray(ByRef SortArray As Variant, Optional lngMin As Long = -1, Optional lngMax As Long = -1, Optional lngColumn As Long = 0)
    On Error Resume Next

    'Sort a 2-Dimensional array

    ' SampleUsage: sort arrData by the contents of column 3
    '
    '   QuickSortArray arrData, , , 3

    '
    'Posted by Jim Rech 10/20/98 Excel.Programming

    'Modifications, Nigel Heffernan:

    '       ' Escape failed comparison with empty variant
    '       ' Defensive coding: check inputs

    Dim i As Long
    Dim j As Long
    Dim varMid As Variant
    Dim arrRowTemp As Variant
    Dim lngColTemp As Long

    If IsEmpty(SortArray) Then
        Exit Sub
    End If
    If InStr(TypeName(SortArray), "()") < 1 Then  'IsArray() is somewhat broken: Look for brackets in the type name
        Exit Sub
    End If
    If lngMin = -1 Then
        lngMin = LBound(SortArray, 1)
    End If
    If lngMax = -1 Then
        lngMax = UBound(SortArray, 1)
    End If
    If lngMin >= lngMax Then    ' no sorting required
        Exit Sub
    End If

    i = lngMin
    j = lngMax

    varMid = Empty
    varMid = SortArray((lngMin + lngMax) \ 2, lngColumn)

    ' We  send 'Empty' and invalid data items to the end of the list:
    If IsObject(varMid) Then  ' note that we don't check isObject(SortArray(n)) - varMid *might* pick up a valid default member or property
        i = lngMax
        j = lngMin
    ElseIf IsEmpty(varMid) Then
        i = lngMax
        j = lngMin
    ElseIf IsNull(varMid) Then
        i = lngMax
        j = lngMin
    ElseIf varMid = "" Then
        i = lngMax
        j = lngMin
    ElseIf VarType(varMid) = vbError Then
        i = lngMax
        j = lngMin
    ElseIf VarType(varMid) > 17 Then
        i = lngMax
        j = lngMin
    End If

    While i <= j
        While SortArray(i, lngColumn) < varMid And i < lngMax
            i = i + 1
        Wend
        While varMid < SortArray(j, lngColumn) And j > lngMin
            j = j - 1
        Wend

        If i <= j Then
            ' Swap the rows
            ReDim arrRowTemp(LBound(SortArray, 2) To UBound(SortArray, 2))
            For lngColTemp = LBound(SortArray, 2) To UBound(SortArray, 2)
                arrRowTemp(lngColTemp) = SortArray(i, lngColTemp)
                SortArray(i, lngColTemp) = SortArray(j, lngColTemp)
                SortArray(j, lngColTemp) = arrRowTemp(lngColTemp)
            Next lngColTemp
            Erase arrRowTemp

            i = i + 1
            j = j - 1
        End If
    Wend

    If (lngMin < j) Then Call QuickSortArray(SortArray, lngMin, j, lngColumn)
    If (i < lngMax) Then Call QuickSortArray(SortArray, i, lngMax, lngColumn)
    
End Sub

... And the single-column array version:

Public Sub QuickSortVector(ByRef SortArray As Variant, Optional lngMin As Long = -1, Optional lngMax As Long = -1)
    On Error Resume Next

    'Sort a 1-Dimensional array

    ' SampleUsage: sort arrData
    '
    '   QuickSortVector arrData

    '
    ' Originally posted by Jim Rech 10/20/98 Excel.Programming


    ' Modifications, Nigel Heffernan:
    '       ' Escape failed comparison with an empty variant in the array
    '       ' Defensive coding: check inputs

    Dim i As Long
    Dim j As Long
    Dim varMid As Variant
    Dim varX As Variant

    If IsEmpty(SortArray) Then
        Exit Sub
    End If
    If InStr(TypeName(SortArray), "()") < 1 Then  'IsArray() is somewhat broken: Look for brackets in the type name
        Exit Sub
    End If
    If lngMin = -1 Then
        lngMin = LBound(SortArray)
    End If
    If lngMax = -1 Then
        lngMax = UBound(SortArray)
    End If
    If lngMin >= lngMax Then    ' no sorting required
        Exit Sub
    End If

    i = lngMin
    j = lngMax

    varMid = Empty
    varMid = SortArray((lngMin + lngMax) \ 2)

    ' We  send 'Empty' and invalid data items to the end of the list:
    If IsObject(varMid) Then  ' note that we don't check isObject(SortArray(n)) - varMid *might* pick up a default member or property
        i = lngMax
        j = lngMin
    ElseIf IsEmpty(varMid) Then
        i = lngMax
        j = lngMin
    ElseIf IsNull(varMid) Then
        i = lngMax
        j = lngMin
    ElseIf varMid = "" Then
        i = lngMax
        j = lngMin
    ElseIf VarType(varMid) = vbError Then
        i = lngMax
        j = lngMin
    ElseIf VarType(varMid) > 17 Then
        i = lngMax
        j = lngMin
    End If

    While i <= j

        While SortArray(i) < varMid And i < lngMax
            i = i + 1
        Wend
        While varMid < SortArray(j) And j > lngMin
            j = j - 1
        Wend

        If i <= j Then
            ' Swap the item
            varX = SortArray(i)
            SortArray(i) = SortArray(j)
            SortArray(j) = varX

            i = i + 1
            j = j - 1
        End If

    Wend

    If (lngMin < j) Then Call QuickSortVector(SortArray, lngMin, j)
    If (i < lngMax) Then Call QuickSortVector(SortArray, i, lngMax)

End Sub

I used to use BubbleSort for this kind of thing, but it slows down, severely, after the array exceeds 1024 rows. I include the code below for your reference: please note that I haven't provided source code for ArrayDimensions, so this will not compile for you unless you refactor it - or split it out into 'Array' and 'vector' versions.

Public Sub BubbleSort(ByRef InputArray, Optional SortColumn As Integer = 0, Optional Descending As Boolean = False)
' Sort a 1- or 2-Dimensional array.

Dim iFirstRow   As Integer
Dim iLastRow    As Integer
Dim iFirstCol   As Integer
Dim iLastCol    As Integer
Dim i           As Integer
Dim j           As Integer
Dim k           As Integer
Dim varTemp     As Variant
Dim OutputArray As Variant

Dim iDimensions As Integer

iDimensions = ArrayDimensions(InputArray)

    Select Case iDimensions
    Case 1

        iFirstRow = LBound(InputArray)
        iLastRow = UBound(InputArray)
        
        For i = iFirstRow To iLastRow - 1
            For j = i + 1 To iLastRow
                If InputArray(i) > InputArray(j) Then
                    varTemp = InputArray(j)
                    InputArray(j) = InputArray(i)
                    InputArray(i) = varTemp
                End If
            Next j
        Next i
        
    Case 2

        iFirstRow = LBound(InputArray, 1)
        iLastRow = UBound(InputArray, 1)
        
        iFirstCol = LBound(InputArray, 2)
        iLastCol = UBound(InputArray, 2)
        
        If SortColumn  InputArray(j, SortColumn) Then
                    For k = iFirstCol To iLastCol
                        varTemp = InputArray(j, k)
                        InputArray(j, k) = InputArray(i, k)
                        InputArray(i, k) = varTemp
                    Next k
                End If
            Next j
        Next i

    End Select
        

    If Descending Then
    
        OutputArray = InputArray
        
        For i = LBound(InputArray, 1) To UBound(InputArray, 1)
        
            k = 1 + UBound(InputArray, 1) - i
            For j = LBound(InputArray, 2) To UBound(InputArray, 2)
                InputArray(i, j) = OutputArray(k, j)
            Next j
        Next i
 
        Erase OutputArray
        
    End If

End Sub

This answer may have arrived a bit late to solve your problem when you needed to, but other people will pick it up when they Google for answers for similar problems.

| improve this answer | |
  • 1
    Why does the QuickSortArray Sub flip the columns? The resulting array is a mirror of the original, but sorted. – lukehawk Apr 28 '16 at 21:41
  • @lukehawk - I can't reproduce that, and there's nothing in the 'row swapper' loop that would obviously do it: can you expand on your point so I can look into this in a bit more depth? – Nigel Heffernan Apr 29 '16 at 8:58
  • 1
    Sorry, Nile. I had an array with the dimensions backwards, and it was sorting the columns, not the rows. Kind of a weird one-off. Your code is fine. Apologies for the mix-up. So just to be clear, the Redim on the arrRowTemp should be outside the while loop? Since you just need to allocate the memory once, and over-write it every time after that? – lukehawk Apr 29 '16 at 12:37
  • 1
    This is a good solution, but DONT FORGET TO SET Option Base 1 if your array was defined as the same. When I sort a 2-d array with one value of the second column (also the sorting column) is zero. After the sorting completed the value of the first column was also set to zero. I spent almost two hours on this. Finally it became all right after I set Option Base 1 to the module. – Phil Jan 24 '18 at 9:14
  • 1
    For QuickSortArray() I suggest to define Optional lngColumn As Long = -1 (not 0) and add If lngColumn = -1 Then lngColumn = LBound(SortArray) to get a defined result in each case. For me the code then works fine regardless of Option Base setting (but may not have tested all eventualities). I also added If lngColumn < LBound(SortArray) Then lngColumn = LBound(SortArray) and If lngColumn > UBound(SortArray) Then lngColumn = UBound(SortArray) but this may be a matter of taste. – martin.lindenlauf Sep 4 '19 at 20:45
8

The hard part is that VBA provides no straightforward way to swap rows in a 2D array. For each swap, you're going to have to loop over 5 elements and swap each one, which will be very inefficient.

I'm guessing that a 2D array is really not what you should be using anyway though. Does each column have a specific meaning? If so, should you not be using an array of a user-defined type, or an array of objects that are instances of a class module? Even if the 5 columns don't have specific meanings, you could still do this, but define the UDT or class module to have just a single member that is a 5-element array.

For the sort algorithm itself, I would use a plain ol' Insertion Sort. 1000 items is actually not that big, and you probably won't notice the difference between an Insertion Sort and Quick Sort, so long as we've made sure that each swap will not be too slow. If you do use a Quick Sort, you'll need to code it carefully to make sure you won't run out of stack space, which can be done, but it's complicated, and Quick Sort is tricky enough already.

So assuming you use an array of UDTs, and assuming the UDT contains variants named Field1 through Field5, and assuming we want to sort on Field2 (for example), then the code might look something like this...

Type MyType
    Field1 As Variant
    Field2 As Variant
    Field3 As Variant
    Field4 As Variant
    Field5 As Variant
End Type

Sub SortMyDataByField2(ByRef Data() As MyType)
    Dim FirstIdx as Long, LastIdx as Long
    FirstIdx = LBound(Data)
    LastIdx = UBound(Data)

    Dim I as Long, J as Long, Temp As MyType
    For I=FirstIdx to LastIdx-1
        For J=I+1 to LastIdx
            If Data(I).Field2 > Data(J).Field2 Then
                Temp = Data(I)
                Data(I) = Data(J)
                Data(J) = Temp
            End If
        Next J
    Next I
End Sub
| improve this answer | |
  • You are, of course, sorting a vector of records. If only there was some readily-available library that captured tabulated data in a 'Recordset', indexed it with a BTree, and called a compiled-to-the-metal 'Sort' function... :o) – Nigel Heffernan Apr 29 '16 at 9:09
2

sometimes the most brainless answer is the best answer.

  1. add blank sheet
  2. download your array to that sheet
  3. add the sort fields
  4. apply the sort
  5. reupload the sheet data back to your array it will be the same dimension
  6. delete the sheet

tadaa. wont win you any programming prizes but it gets the job done fast.

| improve this answer | |
1

I'm going to offer up a slight bit of different code to Steve's approach.

All valid points on efficiency, but to be frank.. when I was looking for a solution, I could have cared less about efficiency. Its VBA... I treat it like it deserves.

You want to sort a 2-d array. Plain simple dirty simple insert sort that will accept a variable size array and sort on a selected column.

Sub sort_2d_array(ByRef arrayin As Variant, colid As Integer)
'theWidth = LBound(arrayin, 2) - UBound(arrayin, 2)
For i = LBound(arrayin, 1) To UBound(arrayin, 1)
    searchVar = arrayin(i, colid)
    For ii = LBound(arrayin, 1) To UBound(arrayin, 1)
        compareVar = arrayin(ii, colid)
        If (CInt(searchVar) > CInt(compareVar)) Then
            For jj = LBound(arrayin, 2) To UBound(arrayin, 2)
                larger1 = arrayin(i, jj)
                smaller1 = arrayin(ii, jj)
                arrayin(i, jj) = smaller1
                arrayin(ii, jj) = larger1
            Next jj
            i = LBound(arrayin, 1)
            searchVar = arrayin(i, colid)
        End If
        Next ii
    Next i
End Sub
| improve this answer | |
  • Your snark deserves a down-vote. BASIC is venerable and deserves respect. – Excel Hero Apr 13 at 19:34
0

For what it's worth (I can't show code at this point...let me see if I can edit it to post), I created an array of custom objects (so each of the properties come with whichever element its sorted by), populated a set of cells with each elements object properties of interest then used the excel sort function through vba to sort the column. Im sure theres probably a more efficient way of sorting it, rather than exporting it to cells, I just havent figured it out yet. This actually helped me a lot because when I needed to add a dimension, I just added a let and get property for the next dimension of the array.

| improve this answer | |
0

You could make a separate array with 2 columns. Column 1 would be what your sorting on and 2 is what row is in other array. Sort this array by column 1 (only switching the two columns when swap). Then you could use the 2 arrays to process data as needed. Huge arrays could give you memory problems though

| improve this answer | |
0

This is a tough one since it depends on many parameters, but after analyzing many algorithms I go with this one that overall has a stellar performance. On my machine which is not really fast, I sorted a 3 column array with 100k rows in 1 second. I tried fewer rows and it was a split second, however for one million rows I got between 9 and 26 seconds with different data (percentage of unsorted data has an impact anyway).

One routine for Ascending and one for Descending sorting. iCol, which is the 2nd argument is the index of the column on which the array is supposed to be sorted.

Public Sub MedianThreeQuickSort1_2D_Asc(ByRef pvarArray As Variant, _
                                        ByVal iCol As Integer, _
                                            Optional ByVal plngLeft As Long, _
                                                Optional ByVal plngRight As Long)
'Grade A+
'NOTE: recursive routine, omit plngLeft & plngRight; they are used internally during recursion
    Dim j As Integer
    Dim lngFirst As Long
    Dim lngLast As Long
    Dim varMid As Variant
    Dim lngIndex As Long
    Dim varSwap As Variant
    Dim a As Long
    Dim b As Long
    Dim c As Long
    
    If plngRight = 0 Then
        plngLeft = LBound(pvarArray, 1)
        plngRight = UBound(pvarArray, 1)
    End If
    
    lngFirst = plngLeft
    lngLast = plngRight
    lngIndex = plngRight - plngLeft + 1
    a = Int(lngIndex * Rnd) + plngLeft
    b = Int(lngIndex * Rnd) + plngLeft
    c = Int(lngIndex * Rnd) + plngLeft
    If pvarArray(a, iCol) <= pvarArray(b, iCol) And pvarArray(b, iCol) <= pvarArray(c, iCol) Then
        lngIndex = b
    Else
        If pvarArray(b, iCol) <= pvarArray(a, iCol) And pvarArray(a, iCol) <= pvarArray(c, iCol) Then
            lngIndex = a
        Else
            lngIndex = c
        End If
    End If
    
    varMid = pvarArray(lngIndex, iCol)
    Do
        Do While pvarArray(lngFirst, iCol) < varMid And lngFirst < plngRight
            lngFirst = lngFirst + 1
        Loop
        Do While varMid < pvarArray(lngLast, iCol) And lngLast > plngLeft
            lngLast = lngLast - 1
        Loop
        
        If lngFirst <= lngLast Then
            For j = LBound(pvarArray, 2) To UBound(pvarArray, 2)
                varSwap = pvarArray(lngLast, j)
                pvarArray(lngLast, j) = pvarArray(lngFirst, j)
                pvarArray(lngFirst, j) = varSwap
            Next j
            
            lngFirst = lngFirst + 1
            lngLast = lngLast - 1
        End If
    Loop Until lngFirst > lngLast
    
    If (lngLast - plngLeft) < (plngRight - lngFirst) Then
        If plngLeft < lngLast Then MedianThreeQuickSort1_2D_Asc pvarArray, iCol, plngLeft, lngLast
        If lngFirst < plngRight Then MedianThreeQuickSort1_2D_Asc pvarArray, iCol, lngFirst, plngRight
    Else
        If lngFirst < plngRight Then MedianThreeQuickSort1_2D_Asc pvarArray, iCol, lngFirst, plngRight
        If plngLeft < lngLast Then MedianThreeQuickSort1_2D_Asc pvarArray, iCol, plngLeft, lngLast
    End If
End Sub

Public Sub MedianThreeQuickSort1_2D_Desc(ByRef pvarArray As Variant, _
                                        ByVal iCol As Integer, _
                                            Optional ByVal plngLeft As Long, _
                                                Optional ByVal plngRight As Long)
'Grade A+
'NOTE: recursive routine, omit plngLeft & plngRight; they are used internally during recursion
    Dim j As Integer
    Dim lngFirst As Long
    Dim lngLast As Long
    Dim varMid As Variant
    Dim lngIndex As Long
    Dim varSwap As Variant
    Dim a As Long
    Dim b As Long
    Dim c As Long
    
    If plngRight = 0 Then
        plngLeft = LBound(pvarArray, 1)
        plngRight = UBound(pvarArray, 1)
    End If
    
    lngFirst = plngLeft
    lngLast = plngRight
    lngIndex = plngRight - plngLeft + 1
    a = Int(lngIndex * Rnd) + plngLeft
    b = Int(lngIndex * Rnd) + plngLeft
    c = Int(lngIndex * Rnd) + plngLeft
    If pvarArray(a, iCol) <= pvarArray(b, iCol) And pvarArray(b, iCol) <= pvarArray(c, iCol) Then
        lngIndex = b
    Else
        If pvarArray(b, iCol) <= pvarArray(a, iCol) And pvarArray(a, iCol) <= pvarArray(c, iCol) Then
            lngIndex = a
        Else
            lngIndex = c
        End If
    End If
    
    varMid = pvarArray(lngIndex, iCol)
    Do
        Do While pvarArray(lngFirst, iCol) > varMid And lngFirst < plngRight
            lngFirst = lngFirst + 1
        Loop
        
        Do While varMid > pvarArray(lngLast, iCol) And lngLast > plngLeft
            lngLast = lngLast - 1
        Loop
        
        If lngFirst <= lngLast Then
            For j = LBound(pvarArray, 2) To UBound(pvarArray, 2)
                varSwap = pvarArray(lngLast, j)
                pvarArray(lngLast, j) = pvarArray(lngFirst, j)
                pvarArray(lngFirst, j) = varSwap
            Next j
            
            lngFirst = lngFirst + 1
            lngLast = lngLast - 1
        End If
    Loop Until lngFirst > lngLast
    
    If (lngLast - plngLeft) < (plngRight - lngFirst) Then
        If plngLeft < lngLast Then MedianThreeQuickSort1_2D_Desc pvarArray, iCol, plngLeft, lngLast
        If lngFirst < plngRight Then MedianThreeQuickSort1_2D_Desc pvarArray, iCol, lngFirst, plngRight
    Else
        If lngFirst < plngRight Then MedianThreeQuickSort1_2D_Desc pvarArray, iCol, lngFirst, plngRight
        If plngLeft < lngLast Then MedianThreeQuickSort1_2D_Desc pvarArray, iCol, plngLeft, lngLast
    End If
End Sub
| improve this answer | |
0

When sorting a multiple column array, I don't rearrange the elements. Instead I pass through another array S with the same number of elements, and number the items 1,2,3,....

Then I use the values in S as the index of the column to be sorted, and when I need to swap elements, I swap the values in S.

On returning from the sort, I can rearrange the original array if I need to, based on the sort sequence in S. It is quite easy to adapt quick sort to allow for this.

| improve this answer | |
0

I have a similar array of Doubles to sort, so I've decided to write a native .dll. For testing, I was using 64-bit integers, so you can use it for sorting the last dimension of Long and ULong arrays.

    <DllImport("Arrayman.dll", EntryPoint:="SortLng")>
    Sub sort(ByRef Array1stItem As Long, ByRef Indices1stItem As Integer, ByVal nItemsToSort As Long)
    'Note: For sorting ULong integers, replace EntryPoint:="SortLng" with EntryPoint:="SortULng"
    End Sub

In your example, you'd call it as

Dim idx(5)
sort(myArray(3,0), idx(0), idx.count)

to sort items from (3, 0) to (3, 5). The lowest number is at myArray(3, idx(0)) and the highest at myArray(3, idx(5)).

ArrayMan.dll, more info and an example can be found on GitHub

| improve this answer | |
-1

It seems to me that the QuickSort code above can not handle spaces. I have an array with numbers and spaces. When I sort this array, the records with spaces are mixed up between the records with numbers. It took me a lot of time to find out, so probably it is good to keep it in mind when you use this code.

best, Marcel

| improve this answer | |
  • You've fallen into a very common error: you're trying to sort mixed data. Some of your data is numeric, and should be sorted as numbers; and some of it is text (if it contains a space, it's text) and this should be sorted alphabetically. Most systems and 'Sort' functions will treat mixed data as text, and that's what you're seeing. There are 'Smart Search' functions that separate out numbers and strings, and some of them are 'smart' enough to sort Version 1, Version 2.0 and Version 13 by separating out the numeric identifier... But that's not the question here! – Nigel Heffernan Apr 29 '16 at 15:10
-1

It's a good, strong code. Tested it out of habit. Not for nothing.

varMid = SortArray((lngMin + lngMax) \ 2, lngColumn)

'Catch an error when (lngMin + lngMax) \ 2 is not an integer.

'Replace it with

Dim row_Mid as long
row_Mid = Int((lngMin + lngMax) \ 2)
varMid = SortArray(row_Mid, lngColumn)

Gentlemen, write the tests...

| improve this answer | |
  • This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. - From Review – Helge Becker Aug 31 at 23:01

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