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How do I get the maximum signed short integer in Python (i.e. SHRT_MAX in C's limits.h)?

I want to normalize samples from a single channel of a *.wav file, so instead of a bunch of 16-bit signed integers, I want a bunch of floats between 1 and -1. Here's what I've got (the pertinent code is in the normalized_samples() function):

def samples(clip, chan_no = 0):
    # *.wav files generally come in 8-bit unsigned ints or 16-bit signed ints
    # python's wave module gives sample width in bytes, so STRUCT_FMT
    # basically converts the wave.samplewidth into a struct fmt string
    STRUCT_FMT = {  1 : 'B',
                    2 : 'h' }

    for i in range(clip.getnframes()):
        yield struct.unpack(STRUCT_FMT[clip.getsampwidth()] * clip.getnchannels(), 
                clip.readframes(1))[chan_no]

def normalized_samples(clip, chan_no = 0):
    for sample in samples(clip, chan_no):
        yield float(sample) / float(32767) ### THIS IS WHERE I NEED HELP
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If they are 16 bit samples then you divide them by 32768, no matter what the size of the largest regular integer is. python has only two kinds of integers until version 3, a "regular" limited size int and an unlimited binint. There is no short int type. –  GregS Feb 22 '10 at 1:32
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4 Answers

up vote 1 down vote accepted

in module sys, sys.maxint. Though I'm not sure that is the correct way to solve your problem.

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You'd divide by sys.maxint???? –  John Machin Feb 22 '10 at 1:55
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GregS is right, this is not the right way to solve the problem. If your samples are known 8 or 16 bit, you don't want to be dividing them by a number that varies by platform.

You may be running into trouble because a signed 16-bit int actually ranges from -32768 to 32767. Dividing by 32767 is going to give you < -1 in the extreme negative case.

Try this:

yield float(sample + 2**15) / 2**15 - 1.0

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Here is a way using cython

getlimit.py

import pyximport; pyximport.install()
import limits

print limits.shrt_max

limits.pyx

import cython
cdef extern from "limits.h":
    cdef int SHRT_MAX

shrt_max = SHRT_MAX
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I can't imagine circumstances on a modern computer (i.e. one that uses 2's complement integers) where this would fail:

assert -32768 <= signed_16_bit_integer <= 32767

To do exactly what you asked for:

if signed_16_bit_integer >= 0:
    afloat = signed_16_bit_integer / 32767.0
else:
    afloat = signed_16_bit_integer / -32768.0

Having read your code a bit more closely: you have sample_width_in_bytes so just divide by 255 or 256 if it's B and by 32768 if it's h

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