I think the bottleneck you have here is twofold.
Depending on your OS and disc controller, the calls to
f being a bigish file are usually efficiently buffered -- usually. In other words, the OS will read one or two sectors (with disc sectors usually several KB) off disc into memory because this is not a lot more expensive than reading 2 bytes from that file. The extra bytes are cached efficiently in memory ready for the next call to read that file. Don't rely on that behavior -- it might be your bottleneck -- but I think there are other issues here.
I am more concerned about the single byte conversions to a short and single calls to numpy. These are not cached at all. You can keep all the shorts in a Python list of ints and convert the whole list to numpy when (and if) needed. You can also make a single call
struct.unpack_from to convert everything in a buffer vs one short at a time.
with open(filename,'rb') as f:
for int in range(0,bytes/2):
# The first 32,767 values are [0,1,2..0x7FFF]
# to allow testing the read values with new_buf[value<0x7FFF]
value=count if count<0x7FFF else random.randint(-32767,32767)
print "file error"
if not os.path.exists(fn):
print "creating file, don't count this..."
I created a file of random shorts signed ints of 165,924,350 bytes (158.24 MB) which comports to 82,962,175 signed 2 byte shorts. With this file, I ran the
read_wopper function above and it ran in:
If you don't need the shorts to be numpy, this function runs in 6 seconds. All this on OS X, python 2.6.1 64 bit, 2.93 gHz Core i7, 8 GB ram. If you change
buf_size=2**16 the run time is:
So your main bottle neck, I think, is the single byte calls to unpack -- not your 2 byte reads from disc. You might want to make sure that your data files are not fragmented and if you are using OS X that your free disc space (and here) is not fragmented.
Edit I posted the full code to create then read a binary file of ints. On my iMac, I consistently get < 15 secs to read the file of random ints. It takes about 1:23 to create since the creation is one short at a time.