34

I have to read a text file into Python. The file encoding is:

file -bi test.csv 
text/plain; charset=us-ascii

This is a third-party file, and I get a new one every day, so I would rather not change it. The file has non ascii characters, such as Ö, for example. I need to read the lines using python, and I can afford to ignore a line which has a non-ascii character.

My problem is that when I read the file in Python, I get the UnicodeDecodeError when reaching the line where a non-ascii character exists, and I cannot read the rest of the file.

Is there a way to avoid this. If I try this:

fileHandle = codecs.open("test.csv", encoding='utf-8');
try:
    for line in companiesFile:
        print(line, end="");
except UnicodeDecodeError:
    pass;

then when the error is reached the for loop ends and I cannot read the remaining of the file. I want to skip the line that causes the mistake and go on. I would rather not do any changes to the input file, if possible.

Is there any way to do this? Thank you very much.

6
  • Why are you using codecs.open() in Python 3? open() handles UTF-8 just fine.
    – Martijn Pieters
    Jul 7 '14 at 17:51
  • I also tried using open, I get the same error Jul 7 '14 at 17:52
  • Do you know what encoding the file is really using? It's clearly not us-ascii as shown by the file output, since it contains non-ascii characters.
    – dano
    Jul 7 '14 at 18:08
  • @Chicoscience: I wasn't addressing your problem; I was puzzled as to why you were using codecs.open() here, as it is inferior to open().
    – Martijn Pieters
    Jul 7 '14 at 18:11
  • Not a problem, Martijn, thanks! Dano, that is strange to me as well, the encoding says ascii but it is clearly not ascii Jul 8 '14 at 11:42
75

Your file doesn't appear to use the UTF-8 encoding. It is important to use the correct codec when opening a file.

You can tell open() how to treat decoding errors, with the errors keyword:

errors is an optional string that specifies how encoding and decoding errors are to be handled–this cannot be used in binary mode. A variety of standard error handlers are available, though any error handling name that has been registered with codecs.register_error() is also valid. The standard names are:

  • 'strict' to raise a ValueError exception if there is an encoding error. The default value of None has the same effect.
  • 'ignore' ignores errors. Note that ignoring encoding errors can lead to data loss.
  • 'replace' causes a replacement marker (such as '?') to be inserted where there is malformed data.
  • 'surrogateescape' will represent any incorrect bytes as code points in the Unicode Private Use Area ranging from U+DC80 to U+DCFF. These private code points will then be turned back into the same bytes when the surrogateescape error handler is used when writing data. This is useful for processing files in an unknown encoding.
  • 'xmlcharrefreplace' is only supported when writing to a file. Characters not supported by the encoding are replaced with the appropriate XML character reference &#nnn;.
  • 'backslashreplace' (also only supported when writing) replaces unsupported characters with Python’s backslashed escape sequences.

Opening the file with anything other than 'strict' ('ignore', 'replace', etc.) will then let you read the file without exceptions being raised.

Note that decoding takes place per buffered block of data, not per textual line. If you must detect errors on a line-by-line basis, use the surrogateescape handler and test each line read for codepoints in the surrogate range:

import re

_surrogates = re.compile(r"[\uDC80-\uDCFF]")

def detect_decoding_errors_line(l, _s=_surrogates.finditer):
    """Return decoding errors in a line of text

    Works with text lines decoded with the surrogateescape
    error handler.

    Returns a list of (pos, byte) tuples

    """
    # DC80 - DCFF encode bad bytes 80-FF
    return [(m.start(), bytes([ord(m.group()) - 0xDC00]))
            for m in _s(l)]

E.g.

with open("test.csv", encoding="utf8", errors="surrogateescape") as f:
    for i, line in enumerate(f, 1):
        errors = detect_decoding_errors_line(line)
        if errors:
            print(f"Found errors on line {i}:")
            for (col, b) in errors:
                print(f" {col + 1:2d}: {b[0]:02x}")

Take into account that not all decoding errors can be recovered from gracefully. While UTF-8 is designed to be robust in the face of small errors, other multi-byte encodings such as UTF-16 and UTF-32 can't cope with dropped or extra bytes, which will then affect how accurately line separators can be located. The above approach can then result in the remainder of the file being treated as one long line. If the file is big enough, that can then in turn lead to a MemoryError exception if the 'line' is large enough.

14
  • I tried to find an alternate solution by catching the decoding exceptions themselves. Unfortunately it appears (in Python 2 at least) that the decoding occurs before line endings are detected, so you don't get consistent results - you might lose more than one line, or you might get hung on the same buffer forever. Jul 7 '14 at 20:40
  • @MartijnPieters The issue with ignore is that it will ignore invalid characters and not the whole line...so, I'd like to use strict and catch the Exception, to do finer-grained error handling. But like OP, I can't figure out how to do this with the for loop...
    – flow2k
    May 28 '19 at 23:09
  • @flow2k You can’t because decoding is done per block of file data, not per line. There is a work-around: use an error handler that replaces erroneous characters then look for the replacements in each line read. If you use surrogateescape as the error handler you can even recover the problematic bytes. I’ve added example code to the answer.
    – Martijn Pieters
    May 28 '19 at 23:32
  • @MarkRansom same idea for you, albeit 5 years late.
    – Martijn Pieters
    May 28 '19 at 23:33
  • 1
    @flow2k what the surrogateescape approach gives you is that you say to the decoder: please soldier on, give me the bad data wrapped up in special codepoints, and hope for the best. We’ll just trust that what comes after isn’t too badly corrupted and we can pretend that line separators are still line separators.
    – Martijn Pieters
    May 29 '19 at 8:57

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