I've got two posts, with usable code and downloadable workbook, on doing this in Excel/VBA on my blog:

http://yoursumbuddy.com/data-normalizer

http://yoursumbuddy.com/data-normalizer-the-sql/

Here's the code:

```
'Arguments
'List: The range to be normalized.
'RepeatingColsCount: The number of columns, starting with the leftmost,
' whose headings remain the same.
'NormalizedColHeader: The column header for the rolled-up category.
'DataColHeader: The column header for the normalized data.
'NewWorkbook: Put the sheet with the data in a new workbook?
'
'NOTE: The data must be in a contiguous range and the
'rows that will be repeated must be to the left,
'with the rows to be normalized to the right.
Sub NormalizeList(List As Excel.Range, RepeatingColsCount As Long, _
NormalizedColHeader As String, DataColHeader As String, _
Optional NewWorkbook As Boolean = False)
Dim FirstNormalizingCol As Long, NormalizingColsCount As Long
Dim ColsToRepeat As Excel.Range, ColsToNormalize As Excel.Range
Dim NormalizedRowsCount As Long
Dim RepeatingList() As String
Dim NormalizedList() As Variant
Dim ListIndex As Long, i As Long, j As Long
Dim wbSource As Excel.Workbook, wbTarget As Excel.Workbook
Dim wsTarget As Excel.Worksheet
With List
'If the normalized list won't fit, you must quit.
If .Rows.Count * (.Columns.Count - RepeatingColsCount) > .Parent.Rows.Count Then
MsgBox "The normalized list will be too many rows.", _
vbExclamation + vbOKOnly, "Sorry"
Exit Sub
End If
'You have the range to be normalized and the count of leftmost rows to be repeated.
'This section uses those arguments to set the two ranges to parse
'and the two corresponding arrays to fill
FirstNormalizingCol = RepeatingColsCount + 1
NormalizingColsCount = .Columns.Count - RepeatingColsCount
Set ColsToRepeat = .Cells(1).Resize(.Rows.Count, RepeatingColsCount)
Set ColsToNormalize = .Cells(1, FirstNormalizingCol).Resize(.Rows.Count, NormalizingColsCount)
NormalizedRowsCount = ColsToNormalize.Columns.Count * .Rows.Count
ReDim RepeatingList(1 To NormalizedRowsCount, 1 To RepeatingColsCount)
ReDim NormalizedList(1 To NormalizedRowsCount, 1 To 2)
End With
'Fill in every i elements of the repeating array with the repeating row labels.
For i = 1 To NormalizedRowsCount Step NormalizingColsCount
ListIndex = ListIndex + 1
For j = 1 To RepeatingColsCount
RepeatingList(i, j) = List.Cells(ListIndex, j).Value2
Next j
Next i
'We stepped over most rows above, so fill in other repeating array elements.
For i = 1 To NormalizedRowsCount
For j = 1 To RepeatingColsCount
If RepeatingList(i, j) = "" Then
RepeatingList(i, j) = RepeatingList(i - 1, j)
End If
Next j
Next i
'Fill in each element of the first dimension of the normalizing array
'with the former column header (which is now another row label) and the data.
With ColsToNormalize
For i = 1 To .Rows.Count
For j = 1 To .Columns.Count
NormalizedList(((i - 1) * NormalizingColsCount) + j, 1) = .Cells(1, j)
NormalizedList(((i - 1) * NormalizingColsCount) + j, 2) = .Cells(i, j)
Next j
Next i
End With
'Put the normal data in the same workbook, or a new one.
If NewWorkbook Then
Set wbTarget = Workbooks.Add
Set wsTarget = wbTarget.Worksheets(1)
Else
Set wbSource = List.Parent.Parent
With wbSource.Worksheets
Set wsTarget = .Add(after:=.Item(.Count))
End With
End If
With wsTarget
'Put the data from the two arrays in the new worksheet.
.Range("A1").Resize(NormalizedRowsCount, RepeatingColsCount) = RepeatingList
.Cells(1, FirstNormalizingCol).Resize(NormalizedRowsCount, 2) = NormalizedList
'At this point there will be repeated header rows, so delete all but one.
.Range("1:" & NormalizingColsCount - 1).EntireRow.Delete
'Add the headers for the new label column and the data column.
.Cells(1, FirstNormalizingCol).Value = NormalizedColHeader
.Cells(1, FirstNormalizingCol + 1).Value = DataColHeader
End With
End Sub
```

You’d call it like this:

```
Sub TestIt()
NormalizeList ActiveSheet.UsedRange, 1, "Name", "Count", False
End Sub
```

`Melt`

and`Reshape`

are terms used in R, a statistical package I know nothing about :). I would call this "normalizing," in contrast to your title, as the result meets the definition of some level of normalization. – Doug Glancy Sep 28 '12 at 15:20