#!/usr/bin/env python
# use FFTPACK as a baseline
import FFT
from Numeric import *
import math
import random
import sys
import struct
import fft
pi=math.pi
e=math.e
j=complex(0,1)
lims=(-32768,32767)
def randbuf(n,cpx=1):
res = array( [ random.uniform( lims[0],lims[1] ) for i in range(n) ] )
if cpx:
res = res + j*randbuf(n,0)
return res
def main():
from getopt import getopt
import popen2
opts,args = getopt( sys.argv[1:],'u:n:Rt:' )
opts=dict(opts)
exitcode=0
util = opts.get('-u','./kf_float')
try:
dims = [ int(d) for d in opts['-n'].split(',')]
cpx = opts.get('-R') is None
fmt=opts.get('-t','f')
except KeyError:
sys.stderr.write("""
usage: compfft.py
-n d1[,d2,d3...] : FFT dimension(s)
-u utilname : see sample_code/fftutil.c, default = ./kf_float
-R : real-optimized version\n""")
sys.exit(1)
x = fft.make_random( dims )
cmd = '%s -n %s ' % ( util, ','.join([ str(d) for d in dims]) )
if cpx:
xout = FFT.fftnd(x)
xout = reshape(xout,(size(xout),))
else:
cmd += '-R '
xout = FFT.real_fft(x)
proc = popen2.Popen3( cmd , bufsize=len(x) )
proc.tochild.write( dopack( x , fmt ,cpx ) )
proc.tochild.close()
xoutcomp = dounpack( proc.fromchild.read( ) , fmt ,1 )
#xoutcomp = reshape( xoutcomp , dims )
sig = xout * conjugate(xout)
sigpow = sum( sig )
diff = xout-xoutcomp
noisepow = sum( diff * conjugate(diff) )
snr = 10 * math.log10(abs( sigpow / noisepow ) )
if snr<100:
print xout
print xoutcomp
exitcode=1
print 'NFFT=%s,SNR = %f dB' % (str(dims),snr)
sys.exit(exitcode)
def dopack(x,fmt,cpx):
x = reshape( x, ( size(x),) )
if cpx:
s = ''.join( [ struct.pack('ff',c.real,c.imag) for c in x ] )
else:
s = ''.join( [ struct.pack('f',c) for c in x ] )
return s
def dounpack(x,fmt,cpx):
uf = fmt * ( len(x) / 4 )
s = struct.unpack(uf,x)
if cpx:
return array(s[::2]) + array( s[1::2] )*j
else:
return array(s )
if __name__ == "__main__":
main()