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I have a file header which I am reading and planning on writing which contains information about the contents; version information, and other string values.

Writing to the file is not too difficult, it seems pretty straightforward:

outfile.write(struct.pack('<s', "myapp-0.0.1"))

However, when I try reading back the header from the file in another method:

header_version = struct.unpack('<s', infile.read(struct.calcsize('s')))

I have the following error thrown:

struct.error: unpack requires a string argument of length 2

How do I fix this error and what exactly is failing?

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1 Answer

up vote 2 down vote accepted

Writing to the file is not too difficult, it seems pretty straightforward:

Not quite as straightforward as you think. Try looking at what's in the file, or just printing out what you're writing:

>>> struct.pack('<s', 'myapp-0.0.1')
'm'

As the docs explain:

For the 's' format character, the count is interpreted as the size of the string, not a repeat count like for the other format characters; for example, '10s' means a single 10-byte string, while '10c' means 10 characters. If a count is not given, it defaults to 1.

So, how do you deal with this?

  1. Don't use struct if it's not what you want. The main reason to use struct is to interact with C code that dumps C struct objects directly to/from a buffer/file/socket/whatever, or a binary format spec written in a similar style (e.g. IP headers). It's not meant for general serialization of Python data. As Jon Clements points out in a comment, if all you want to store is a string, just write the string as-is. If you want to store something more complex, consider the json module; if you want something even more flexible and powerful, use pickle.

  2. Use fixed-length strings. If part of your file format spec is that the name must always be 255 characters or less, just write '<255s'. Shorter strings will be padded, longer strings will be truncated (you might want to throw in a check for that to raise an exception instead of silently truncating).

  3. Use some in-band or out-of-band means of passing along the length. The most common is a length prefix. (You may be able to use the 'p' or 'P' formats to help, but it really depends on the C layout/binary format you're trying to match; often you have to do something ugly like struct.pack('<h{}s'.format(len(name)), len(name), name).)


As for why your code is failing, there are multiple reasons. First, read(11) isn't guaranteed to read 11 characters. If there's only 1 character in the file, that's all you'll get. Second, you're not actually calling read(11), you're calling read(1), because struct.calcsize('s') returns 1 (for reasons which should be obvious from the above). Third, either your code isn't exactly what you've shown above, or infile's file pointer isn't at the right place, because that code as written will successfully read in the string 'm' and unpack it as 'm'. (I'm assuming Python 2.x here; 3.x will have more problems, but you wouldn't have even gotten that far.)


For your specific use case ("file header… which contains information about the contents; version information, and other string values"), I'd just use write the strings with newline terminators. (If the strings can have embedded newlines, you could backslash-escape them into \n, use C-style or RFC822-style continuations, quote them, etc.)

This has a number of advantages. For one thing, it makes the format trivially human-readable (and human-editable/-debuggable). And, while sometimes that comes with a space tradeoff, a single-character terminator is at least as efficient, possibly more so, than a length-prefix format would be. And, last but certainly not least, it means the code is dead-simple for both generating and parsing headers.

In a later comment you clarify that you also want to write ints, but that doesn't change anything. A 'i' int value will take 4 bytes, but most apps write a lot of small numbers, which only take 1-2 bytes (+1 for a terminator/separator) if you write them as strings. And if you're not writing small numbers, a Python int can easily be too large to fit in a C int—in which case struct will silently overflow and just write the low 32 bits.

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I believe the problem here is the data type, should give the length of the string: '<s11' –  askewchan Feb 20 '13 at 1:36
    
@askewchan: Almost. But the count comes before the format type, and the string is 11 characters long… –  abarnert Feb 20 '13 at 1:36
2  
And also, if you're literally just writing it, then don't use struct, just use .write() for a file object (maybe adding a trailing NUL if needs be for some delimiting) –  Jon Clements Feb 20 '13 at 1:39
    
I'm writing multiple fields to the header, some of them are strings, some ints, which is why I used struct in the first place. Should I just choose sizes for each of my string types? –  Naftuli Tzvi Kay Feb 20 '13 at 1:59
    
@JonClements: Looking at the complete problem, I think a trailing newline is probably just as good as a trailing NUL, and even simpler… –  abarnert Feb 20 '13 at 2:00
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