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I am trying to create an Excel workbook where I can auto-set, or auto-adjust the widths of the columns before saving the workbook.

I have been reading the Python-Excel tutorial in hopes of finding some functions in xlwt that emulate xlrd ones (such as sheet_names(), cellname(row, col), cell_type, cell_value, and so on...) For example, suppose I have the following:

from xlwt import Workbook    
wb = Workbook()
sh1 = wb.add_sheet('sheet1' , cell_overwrite_ok = True)    
sh2 = wb.get_sheet(0)

wb.get_sheet(0) is similar to the rb.sheet_by_index(0) function offered in xlrd, except that the former allows you to modify the contents (provided the user has set cell_overwrite_ok = True)

Assuming xlwt DOES offer the functions I am looking for, I was planning on going through every worksheet again, but this time keeping track of the content that takes the most space for a particular column, and set the column width based on that. Of course, I can also keep track of the max width for a specific column as I write to the sheet, but I feel like it would be cleaner to set the widths after all the data has been already written.

Does anyone know if I can do this? If not, what do you recommend doing in order to adjust the column widths?

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4 Answers 4

up vote 28 down vote accepted

I just implemented a wrapper class that tracks the widths of items as you enter them. It seems to work pretty well.

import arial10

class FitSheetWrapper(object):
    """Try to fit columns to max size of any entry.
    To use, wrap this around a worksheet returned from the 
    workbook's add_sheet method, like follows:

        sheet = FitSheetWrapper(book.add_sheet(sheet_name))

    The worksheet interface remains the same: this is a drop-in wrapper
    for auto-sizing columns.
    def __init__(self, sheet):
        self.sheet = sheet
        self.widths = dict()

    def write(self, r, c, label='', *args, **kwargs):
        self.sheet.write(r, c, label, *args, **kwargs)
        width = arial10.fitwidth(label)
        if width > self.widths.get(c, 0):
            self.widths[c] = width
            self.sheet.col(c).width = width

    def __getattr__(self, attr):
        return getattr(self.sheet, attr)

All the magic is in John Yeung's arial10 module. This has good widths for Arial 10, which is the default Excel font. If you want to write worksheets using other fonts, you'll need to change the fitwidth function, ideally taking into account the style argument passed to FitSheetWrapper.write.

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Very nice solution. I had to wrap width = arial10.fitwidth(label) with int(..) since xlwt-0.7.5 raises a ValueError otherwise. If you get a slightly smaller-than-required cell-width, try math.ceil(int(..)). –  zmode Jul 27 '13 at 10:01
Link to arial10 module was broken for me. But I found it on github: github.com/GeekPeduli/Sahana-Eden/blob/master/modules/… –  Humphrey Oct 17 '13 at 0:38
unfortunately this will not work for longer labels, as total width can be higher than 65535 (which is excel maximum) –  Jerzyk Mar 27 '14 at 21:29
Humphrey's link is broken now as well, but arial10 seems to be preserved here: github.com/juanpex/django-model-report/blob/master/model_report/… –  btown Apr 9 at 19:41

There is no automatic facility for this in xlwt. You have to follow the general pattern you describe, of keeping track of the max width as you're writing, and setting the column width at the end, sometime after you've seen all the data but before you've saved the workbook.

Note that this is the cleanest and most efficient approach available when dealing with Excel files. If your notion of "after the data has already been written" means after you've already committed the cell values ("writing") but before actually saving the workbook, then the method described above is doing exactly this. If what you mean is after you've already saved the workbook, you want to read it again to get the max widths, and then save it again with new column widths, this will be much slower, and will involve using both xlwt and xlrd (and possibly xlutils as well). Also note that when you are using the genuine Microsoft Excel, there is no notion of "updating" a file. It may seem like that from a user point of view, but what is happening behind the scenes is that every time you do a save, Excel blows away the existing file and writes a brand new one from scratch.

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If one is not interested in using another class (FitSheetWrapper), then this can be implemented using WorkSheet column Method.

work = xlwt.WorkBook()
sheet = work.add_sheet('Sheet1')
for row_index in range(0,max_row):
   for column_index in range(0,max_col) :
      cwidth = sheet.col(column_index).width
      if (len(column_data)*367) > cwidth:  
          sheet.col(column_index).width = (len(column_data)*367) #(Modify column width to match biggest data in that column)


Default value of width is 2962 units and excel points it to as 8.11 units. Hence i am multiplying 367 to length of data.

This is adapted from Kevins FitSheetWrapper.

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FitSheetWrapper should have a little modify with xlwt3 in 3.3.4

line 19:


width = arial10.fitwidth(label)


width = int(arial10.fitwidth(label))  

reason: \Python\3.3.3\Lib\site-packages\xlwt3\biffrecords.py

1624 def __init__(self, first_col, last_col, width, xf_index, options):
1625        self._rec_data = pack('<6H', first_col, last_col, width, xf_index, options, 0)

width must be integer.

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