Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to find an efficient way of parsing files that holds fixed width lines. Example: first 20 chars represent a column, from 21:30 another one and so on. Let's assume that the line holds 100 chars. What would be an efficient way to parse a line into several components?

I could use string slicing per line, but it's a little bit ugly if the line is big ... any other fast methods?

share|improve this question

5 Answers 5

up vote 26 down vote accepted

Using the Python standard library'sstructmodule would be fairly easy as well as extremely fast since it's written in C.

Here's how it could be used to do what you want. It also allows columns of characters to be skipped by specifying negative values for the number of characters in the field.

import struct

fieldwidths = (2, -10, 24)  # negative widths represent ignored padding fields
fmtstring = ' '.join('{}{}'.format(abs(fw), 'x' if fw < 0 else 's')
                        for fw in fieldwidths)
fieldstruct = struct.Struct(fmtstring)
parse = fieldstruct.unpack_from
print('fmtstring: {!r}, recsize: {} chars'.format(fmtstring, fieldstruct.size))

line = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789\n'
fields = parse(line)
print('fields: {}'.format(fields))

Output:

fmtstring: '2s 10x 24s', recsize: 36 chars
fields: ('AB', 'MNOPQRSTUVWXYZ0123456789')

Update 1:

The following modifications would adapt it work in Python 2 or 3 (and handle Unicode input):

import sys

fieldstruct = struct.Struct(fmtstring)
if sys.version_info[0] < 3:
    parse = fieldstruct.unpack_from
else:
    # converts unicode input to byte string and results back to unicode string
    unpack = fieldstruct.unpack_from
    parse = lambda line: tuple(s.decode() for s in unpack(line.encode()))

Update 2:

Here's a way to do it with string slices, as you were considering but were concerned that it might get too ugly. Nice thing about it — besides not being all that ugly — is that it works unchanged in both Python 2 and 3, as well as being able to handle Unicode strings. I haven't benchmarked it, but suspect it might be competitive with thestructmodule version speedwise. It could be sped-up slightly by removing the ability to have padding fields.

try:
    from itertools import izip_longest  # added in Py 2.6
except ImportError:
    from itertools import zip_longest as izip_longest  # name change in Py 3.x

try:
    from itertools import accumulate  # added in Py 3.2
except ImportError:
    def accumulate(iterable):
        'Return running totals (simplified version).'
        total = next(iterable)
        yield total
        for value in iterable:
            total += value
            yield total

def make_parser(fieldwidths):
    cuts = tuple(cut for cut in accumulate(abs(fw) for fw in fieldwidths))
    pads = tuple(fw < 0 for fw in fieldwidths) # bool values for padding fields
    flds = tuple(izip_longest(pads, (0,)+cuts, cuts))[:-1]  # ignore final one
    parse = lambda line: tuple(line[i:j] for pad, i, j in flds if not pad)
    # optional informational function attributes
    parse.size = sum(abs(fw) for fw in fieldwidths)
    parse.fmtstring = ' '.join('{}{}'.format(abs(fw), 'x' if fw < 0 else 's')
                                                for fw in fieldwidths)
    return parse

line = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789\n'
fieldwidths = (2, -10, 24)  # negative widths represent ignored padding fields
parse = make_parser(fieldwidths)
fields = parse(line)
print('format: {!r}, rec size: {} chars'.format(parse.fmtstring, parse.size))
print('fields: {}'.format(fields))

Output:

format: '2s 10x 24s', rec size: 36 chars
fields: ('AB', 'MNOPQRSTUVWXYZ0123456789')
share|improve this answer
    
+1 that's nice. In a way, I think this is similar to my approach (at least when you're getting the results), but obviously way faster. –  Reiner Gerecke Feb 6 '11 at 20:15
    
How would that work with unicode? Or, a utf-8 encoded string? struct.unpack seems to operate on binary data. I can't get this working. –  Reiner Gerecke Feb 6 '11 at 20:22
1  
@Reiner Gerecke: The struct module is designed to operate on binary data. Files with fixed-width fields are legacy jobs which are also highly likely to pre-date UTF-8 (in mind set, if not in chronology). Bytes read from files are binary data. You don't have unicode in files. You need to decode bytes to get unicode. –  John Machin Feb 6 '11 at 21:53
    
@Reiner Gerecke: Clarification: In those legacy file formats, each field is a fixed number of bytes, not a fixed number of characters. Although unlikely to be encoded in UTF-8, they can be encoded in an encoding that has a variable number of bytes per character e.g. gbk, big5, euc-jp, shift-jis, etc. If you wish to work in unicode, you can't decode the whole record at once; you need to decode each field. –  John Machin Feb 6 '11 at 22:15
    
@John Machin Thank you, I understood what you meant. For some reason I haven't seen this as an approach to legacy file formats, hence me asking about multibyte characters. (And yeah, thinking of unicode was dumb) –  Reiner Gerecke Feb 6 '11 at 22:26

I'm not really sure if this is efficient, but it should be readable (as opposed to do the slicing manually). I defined a function slices that gets a string and column lengths, and returns the substrings. I made it a generator, so for really long lines, it doesn't build a temporary list of substrings.

def slices(s, *args):
    position = 0
    for length in args:
        yield s[position:position + length]
        position += length

Example

In [32]: list(slices('abcdefghijklmnopqrstuvwxyz0123456789', 2))
Out[32]: ['ab']

In [33]: list(slices('abcdefghijklmnopqrstuvwxyz0123456789', 2, 10, 50))
Out[33]: ['ab', 'cdefghijkl', 'mnopqrstuvwxyz0123456789']

In [51]: d,c,h = slices('dogcathouse', 3, 3, 5)
In [52]: d,c,h
Out[52]: ('dog', 'cat', 'house')

But I think the advantage of a generator is lost if you need all columns at once. Where one could benefit from is when you want to process columns one by one, say in a loop.

share|improve this answer
    
+1 Very elegant approach. –  martineau Jun 20 '11 at 18:59

The code below gives a sketch of what you might want to do if you have some serious fixed-column-width file handling to do.

"Serious" = multiple record types in each of multiple file types, records up to 1000 bytes, the layout-definer and "opposing" producer/consumer is a government department with attitude, layout changes result in unused columns, up to a million records in a file, ...

Features: Precompiles the struct formats. Ignores unwanted columns. Converts input strings to required data types (sketch omits error handling). Converts records to object instances (or dicts, or named tuples if you prefer).

Code:

import struct, datetime, cStringIO, pprint

# functions for converting input fields to usable data
cnv_text = lambda s: s.rstrip()
cnv_int = lambda s: int(s)
cnv_date_dmy = lambda s: datetime.datetime.strptime(s, "%d%m%Y") # ddmmyyyy
# etc

# field specs (field name, start pos (1-relative), len, converter func)
fieldspecs = [
    ('surname', 11, 20, cnv_text),
    ('given_names', 31, 20, cnv_text),
    ('birth_date', 51, 8, cnv_date_dmy),
    ('start_date', 71, 8, cnv_date_dmy),
    ]

fieldspecs.sort(key=lambda x: x[1]) # just in case

# build the format for struct.unpack
unpack_len = 0
unpack_fmt = ""
for fieldspec in fieldspecs:
    start = fieldspec[1] - 1
    end = start + fieldspec[2]
    if start > unpack_len:
        unpack_fmt += str(start - unpack_len) + "x"
    unpack_fmt += str(end - start) + "s"
    unpack_len = end
field_indices = range(len(fieldspecs))
print unpack_len, unpack_fmt
unpacker = struct.Struct(unpack_fmt).unpack_from

class Record(object):
    pass
    # or use named tuples

raw_data = """\
....v....1....v....2....v....3....v....4....v....5....v....6....v....7....v....8
          Featherstonehaugh   Algernon Marmaduke  31121969            01012005XX
"""

f = cStringIO.StringIO(raw_data)
headings = f.next()
for line in f:
    # The guts of this loop would of course be hidden away in a function/method
    # and could be made less ugly
    raw_fields = unpacker(line)
    r = Record()
    for x in field_indices:
        setattr(r, fieldspecs[x][0], fieldspecs[x][3](raw_fields[x]))
    pprint.pprint(r.__dict__)
    print "Customer name:", r.given_names, r.surname

Output:

78 10x20s20s8s12x8s
{'birth_date': datetime.datetime(1969, 12, 31, 0, 0),
 'given_names': 'Algernon Marmaduke',
 'start_date': datetime.datetime(2005, 1, 1, 0, 0),
 'surname': 'Featherstonehaugh'}
Customer name: Algernon Marmaduke Featherstonehaugh
share|improve this answer
    
This is by far the best way to go, there is nothing like entering in the start column and end column for pure precision! +1 on ya. –  JeffC Jan 11 at 17:59
> str = '1234567890'
> w = [0,2,5,7,10]
> [ str[ w[i-1] : w[i] ] for i in range(1,len(w)) ]
['12', '345', '67', '890']
share|improve this answer

two more options that are easier and prettier than already mentioned solutions

the first is using pandas

import pandas as pd

path = 'filename.txt'

#using pandas with a column specification   
col_specification =[(0, 20), (21, 30), (31, 50), (51, 100)]
data = pd.read_fwf(path, colspecs=col_specification)

and the second option using numpy.loadtxt

import numpy as np

#using numpy and letting it figure it out automagically
data_also = np.loadtxt(path)

It really depends on in what way you want to use your data.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.