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I'm trying to figure out some C code so that I can port it into python. The code is for reading a proprietary binary data file format. It has been straightforward thus far -- it's mainly been structs and I have been using the struct library to ask for particular ctypes from the file. However, I just came up on this bit of code and I'm at a loss for how to implement it in python. In particular, I'm not sure how to deal with the enum or the union.

#define BYTE char 
#define UBYTE unsigned char 
#define WORD short 
#define UWORD unsigned short

typedef enum {

typedef struct
        TEEG_TYPE Teeg;
        long Size;

            void *Ptr;  // Memory pointer
            long Offset

Secondly, in the below struct definition, I'm not sure what the colons after the variable names mean, (e.g., KeyPad:4). Does it mean I'm supposed to read 4 bytes?

typedef struct
    UWORD StimType;
    UBYTE KeyBoard;
    UBYTE KeyPad:4;
    UBYTE Accept:4;
    long Offset;

In case it's useful, an abstract example of the way I've been accessing the file in python is as follows:

from struct import unpack, calcsize

def get(ctype, size=1):
    """Reads and unpacks binary data into the desired ctype."""
    if size == 1:
        size = ''
        size = str(size)

    chunk = + ctype))
    return unpack(size + ctype, chunk)[0]

file = open("file.bin", "rb")

var1 = get('i')
var2 = get('4l')
var3 = get('10s')

share|improve this question
Since I don't really know python, I can't help you there, but the colons after the variable name indicate howmany Bits are used to store it (so keyPad and Accept share a byte, KeyPad residing in its first four bits, Accept in the last four) – Grizzly Sep 28 '10 at 16:37
Unions aren't necessary in Python since it doesn't use strict type checking. In your case above, you can bind both the address to an object, and a long to the same name. – Michael Mior Sep 28 '10 at 17:16
@Micael Mior. Python does do strict type checking - at run time. While you can bind an two different values to the same name, you can never have them share the same address which is what union in C does. – aaronasterling Sep 28 '10 at 17:47
up vote 8 down vote accepted

Enums: There are no enums in the language. Various idioms have been proposed, but none is really widespread. The most straightforward (and in this case sufficient) solution is


Unions: ctypes has unions.

The fieldname : n syntax is called a bitfield and, yeah, does mean "this is n bits big". Again, ctypes has them.

share|improve this answer

I don't know the answer to all of your question, but for enums that you do not need a lookup-by-value on, (is, just using it to avoid magic numbers), I like to use a small class. A regular dict is another option that works fine. If you need lookup-by-value, you may want another structure though.

class TeegType(object):

print TeegType.TEEG_EVENT_TAB1
share|improve this answer

What you really need to know is:

  1. What is the size of an enum?. You will use this answer to generate your unpacking code.
  2. What is the size of a union?. Summary: the size of the largest member.
  3. How do you deal with that pointer? You should take a look at the ctypes module. For what you are doing, it may be easier to work with than the struct module. In particular, it can work with pointers arriving via C.
  4. How do you coerce/cast the data read from the struct into the right type to work with in python? This is why I recommended ctypes in the bullet above; this module has functions for performing the necessary casts.
share|improve this answer

The C enum declaration is a syntactic wrapper around some integer type. See How big an int is will depend on the particular C compiler. I would probably start by trying 16 bits.

The union reserves a block of memory the size of the largest of the contained data types. Again, the exact size will depend on the C implementation, but I would expect 32 bits for a 32-bit architecture, or 64-bits if this is compiled as native 64-bit code. Generally speaking, you will be able to store the contents of the union in a Python integer or long, regardless of whether what has been saved in it is a pointer or an offset.

A more interesting question is why a pointer would ever be written to a disk file. You may find that the union field is only treated as a pointer when the TEEG struct is in memory, but when written to disk, it is always an integer offset.

As for the :4 notation, as several people have noted, these are "bit fields," meaning a sequence of bits, several of which can be packed into a single space. If I recall correctly, bitfields in C are packed into ints, so both of these 4-bit fields will be packed into a single integer. They can be unpacked with appropriate use of Python's "&" (bitwise and) and ">>" (right shift) operators. Again, exactly how the fields have been packed into the integer, and the size of the integer field itself, will depend on the particular C implementation.

Maybe the following code snippet will help you:

SIZEOF_TEEG_TYPE = 2      # First guess for enum is two bytes
FMT_TEEG_TYPE = "h"       # Could be "b", "B", "h", "H", "l", "L", "q" or "Q"

SIZEOF_LONG = 4           # Use 8 in 64-bit Unix architectures
FMT_LONG = "l"            # Use "q" in 64-bit Unix architectures
                          # Life gets more interesting if you are reading 64-bit
                          # using 32-bit Python

SIZEOF_PTR_LONG_UNION = 4 # Use 8 in any 64-bit architecture
FMT_PTR_LONG_UNION = "l"  # Use "q" in any 64-bit architecture
                          # Life gets more interesting if you are reading 64-bit
                          # using 32-bit Python


# Constants for TEEG_EVENTs


# Read a TEEG structure
teeg_type, teeg_size, teeg_offset = struct.unpack( FMT_TEEG_STRUCT, teeg_raw )


# Use TEEG_TYPE information
if teeg_type == TEEG_EVENT_TAB1:
    Do something useful

elif teeg_type == TEEG_EVENT_TAB2:
    Do something else useful

    raise ValueError( "Encountered illegal TEEG_EVENT type %d" % teeg_type )
share|improve this answer

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