# Am I missing something or is this Microsoft algorithm for calculating the excel column characters incorrect?

I'm trying to write a function in Python that takes in a column number and outputs the corresponding Excel column code (for example: 5 -> "E", 27 -> "AA"). I tried implementing the algorithm given here: http://support.microsoft.com/kb/833402, which is the following visual basic:

``````Function ConvertToLetter(iCol As Integer) As String
Dim iAlpha As Integer
Dim iRemainder As Integer
iAlpha = Int(iCol / 27)
iRemainder = iCol - (iAlpha * 26)
If iAlpha > 0 Then
ConvertToLetter = Chr(iAlpha + 64)
End If
If iRemainder > 0 Then
ConvertToLetter = ConvertToLetter & Chr(iRemainder + 64)
End If
End Function
``````

My python version:

``````def excelcolumn(colnum):
alpha = colnum // 27
remainder = colnum - (alpha*26)
out = ""
if alpha > 0:
out = chr(alpha+64)
if remainder > 0:
out = out + chr(remainder+64)
return out
``````

This works fine until column number 53 which results in "A[", as `alpha = 53 // 27 == 1` and thus `remainder = 53 - 1*26 == 27` meaning the second character `chr(64+27)` will be "[". Am I missing something? My VBA skills are quite lackluster so that might be the issue.

edit: I am using Python 3.3.1

• Perfect, thanks for the link – Ben Southgate Dec 12 '13 at 17:12

## 3 Answers

The Microsoft formula is incorrect. I'll bet they never tested it beyond 53. When I tested it myself in Excel it gave the same incorrect answer that yours did.

Here's how I'd do it:

``````def excelcolumn(colnum):
alpha, remainder = colnum // 26, colnum % 26
out = "" if alpha == 0 else chr(alpha - 1 + ord('A'))
out += chr(remainder + ord('A'))
return out
``````

Not that this assumes a 0-based column number while the VBA code assumes 1-based.

If you need to extend beyond 701 columns you need something slightly different as noted in the comments:

``````def excelcolumn(colnum):
if colnum < 26:
return chr(colnum + ord('A'))
return excelcolumn(colnum // 26 - 1) + chr(colnum % 26 + ord('A'))
``````
• Nice, this works flawlessly up to column 701 ("ZZ") (which is more than enough for my purposes). After that point the alpha goes beyond the capital letter character indices and some further restrictions are necessary. It seems that a more generalizable algorithm would be hard to implement cleanly. – Ben Southgate Dec 12 '13 at 16:46
• If you want to go beyond "ZZ", you should use a recursive function. – sancho.s Dec 12 '13 at 16:48
• This is a great generalizable answer (Python 2 heads up), more than I could manage with my current head cold grogginess: stackoverflow.com/a/182009/1718488 – Ben Southgate Dec 12 '13 at 17:15
• @ben - Great! I was sure this question should have an answer for the generic case in SO. Actually, I think I had code for this that I used some time ago, probably in VBA, and probably based on something I found here in SO... Found it stackoverflow.com/questions/12796973/… – sancho.s Dec 12 '13 at 20:15

Here is one way to do it:

``````def xl_col_to_name(col_num):
col_str = ''

while col_num:
remainder = col_num % 26

if remainder == 0:
remainder = 26

# Convert the remainder to a character.
col_letter = chr(ord('A') + remainder - 1)

# Accumulate the column letters, right to left.
col_str = col_letter + col_str

# Get the next order of magnitude.
col_num = int((col_num - 1) / 26)

return col_str
``````

Which gives:

``````>>> xl_col_to_name(5)
'E'
>>> xl_col_to_name(27)
'AA'
>>> xl_col_to_name(256)
'IV'
>>> xl_col_to_name(1000)
'ALL'
``````

This is taken from the utility functions in the XlsxWriter module.

• This question actually came about while using your infinitely helpful and awesome package! I didn't think to actually look within xlsxwriter itself until after I wrote the question, a bit of stupidity on my part. Again, really great job on xlsxwriter. – Ben Southgate Dec 16 '13 at 15:02

I am going to answer your specific question:

... is this Microsoft algorithm for calculating the excel column characters incorrect?

YES. Generally speaking, when you want to have the integer division (typically called `DIV`) of two numbers, and the remainder (typically called `MOD`), you should use the same value as the denominator. Thus, you should use either 26 or 27 in both places.

So, the algorithm is incorrect (and it is easy to see that with `iCol=27`, where `iAlpha=1` and `iRemainder=1`, while it should be `iRemainder=0`).

In this particular case, the number should be 26. Since this gives you numbers starting at zero, you should probably add `ascii("A")` (=65), generically speaking, instead of 64. The double error made it work for some cases.

The (hardly acceptable) confusion may stem from the fact that, from `A` to `Z` there are 26 columns, from `A` to `ZZ` there are 26*27 columns, from `A` to `ZZZ` there are 26*27*27 columns, and so on.

Code that works for any column, and non-recursive:

``````def excelcolumn(colnum):
if colnum < 1:
raise ValueError("Index is too small")
result = ""
while True:
if colnum > 26:
colnum, r = divmod(colnum - 1, 26)
result = chr(r + ord('A')) + result
else:
return chr(colnum + ord('A') - 1) + result
``````

(taken from here).