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I have the next task: I need to read an array of structures from file. There is no problem to read one structure:

structFmt = "=64s 2L 3d"    # char[ 64 ] long[ 2 ] double [ 3 ]
structLen = struct.calcsize( structFmt )
f = open( "path/to/file", "rb" )
structBytes = f.read( structLen )
s = struct.unpack( structFmt, structBytes )

Also there is no problem to read an array of "simple" types:

f = open( "path/to/file", "rb" )
a = array.array( 'i' )
a.fromfile( f, 1024 )

But there is a problem (for me, of course) to read 1024 structures 'structFmt' from file. I think, that it is an overhead to read 1024 times struct and append it to a list. I do not want to use external dependencies like numpy

Can you help me? Thank you.

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To know what the bottleneck really is, you need to profile your code and see what it's spending its time doing. –  martineau Aug 11 '12 at 2:21

2 Answers 2

I would look at mmaping the file and then using ctypes class method from_buffer() call. This will map the ctypes defined array of structs http://docs.python.org/library/ctypes#ctypes-arrays.

This maps the structs over the mmap file without having to explicitly read/convert and copy things.

I don't know if the end result will be appropriate though.

Just for fun here is a quick example using mmap. (I created a file using dd dd if=/dev/zero of=./test.dat bs=96 count=10240

from ctypes import Structure
from ctypes import c_char, c_long, c_double
import mmap
import timeit

class StructFMT(Structure):
     _fields_ = [('ch',c_char * 64),('lo',c_long *2),('db',c_double * 3)]

d_array = StructFMT * 1024

def doit():
    f = open('test.dat','r+b')
    m = mmap.mmap(f.fileno(),0)
    data = d_array.from_buffer(m)

    for i in data:
        i.ch, i.lo[0]*10 ,i.db[2]*1.0   # just access each row and bit of the struct and do something, with the data.


if __name__ == '__main__':
    from timeit import Timer
    t = Timer("doit()", "from __main__ import doit")
    print t.timeit(number=10)
share|improve this answer
What's the point of using mmap, couldn't one just read the entire array into a memory buffer and apply from_buffer() to that? –  martineau Aug 8 '12 at 7:29
you could do that. With mmap however files are directly paged into memory on demand. So for instance if you access the last part of the array you won't have had to read all of the preceding contents into memory first and then use from_buffer(). –  Tim Hoffman Aug 8 '12 at 8:22
If you have a large file to mmap and you only sparsely access part of the structure then this could be a big win. If you read/copy every bit of the file then their probably isn't. Though I/O performance could give mmap an edge. That would need to benchmarked of course. –  Tim Hoffman Aug 8 '12 at 8:26
Well, for an 84K array mmap seems like a bit of overkill -- but the ctypes structure + from_buffer() combo seems like a very efficient way to read them all in with a minimal amount of processing. The fact that it also lends itself to mmaping is a nice feature even it's not needed here. +1 –  martineau Aug 8 '12 at 9:17
people often forget about mmap, it's particularly useful if you are dealing with files significantly bigger than memory and you don't need to copy data around (ie read, do something and forget). –  Tim Hoffman Aug 8 '12 at 12:59

Alas, there is no analog for array that holds complex structs.

The usual technique is to make many calls to struct.unpack and append the results to a list.

structFmt = "=64s 2L 3d"    # char[ 64 ] long[ 2 ] double [ 3 ]
structLen = struct.calcsize( structFmt )
results = []
with open( "path/to/file", "rb" ) as f:
    structBytes = f.read( structLen )
    s = struct.unpack( structFmt, structBytes )

If you're concerned about being efficient, know that struct.unpack caches the parsed structure between successive calls.

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Thank to @RaymondHettinger. I'll compare my decision (in comment to prev. answer) and yours one by their times. BTW, how to count function's execution time ? –  borisbn Aug 8 '12 at 14:49
I tested mmap variant vs struct.unpack. The first one is about 100 times (113 to be exact) faster. –  borisbn Aug 9 '12 at 6:48
@borisbn: You have to be very careful when comparing this method to one based on mmap because the latter doesn't read structures in the file unless you access them. A good comparison would access all of them. –  martineau Aug 9 '12 at 11:23
@martineau: hmmm. You're absolutely right. In first test I accessed first 8192 elements of array. Now I tried to access all elements and... the result is: 63 seconds for mmap and 86 seconds for single read and unpack (plus access to elements in both tests). Here is the whole test - pastebin.com/mr5nReG7. Could you comment it, please ? Thank you. –  borisbn Aug 10 '12 at 5:32
@Raymond Hettinger: Good points, but being able to unpack a large number of structs all at once means you could read an equally large number of them in at a time beforehand, thereby reducing some disk I/O overhead, too. –  martineau Aug 11 '12 at 2:16

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