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annotate ext/kissfft/test/mk_test.py @ 409:1f1999b0f577

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Bring in kissfft into this repo (formerly a subrepo, but the remote is not responding)
author Chris Cannam <c.cannam@qmul.ac.uk>
date Tue, 21 Jul 2015 07:34:15 +0100
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c@409 1 #!/usr/bin/env python
c@409 2
c@409 3 import FFT
c@409 4 import sys
c@409 5 import random
c@409 6 import re
c@409 7 j=complex(0,1)
c@409 8
c@409 9 def randvec(n,iscomplex):
c@409 10 if iscomplex:
c@409 11 return [
c@409 12 int(random.uniform(-32768,32767) ) + j*int(random.uniform(-32768,32767) )
c@409 13 for i in range(n) ]
c@409 14 else:
c@409 15 return [ int(random.uniform(-32768,32767) ) for i in range(n) ]
c@409 16
c@409 17 def c_format(v,round=0):
c@409 18 if round:
c@409 19 return ','.join( [ '{%d,%d}' %(int(c.real),int(c.imag) ) for c in v ] )
c@409 20 else:
c@409 21 s= ','.join( [ '{%.60f ,%.60f }' %(c.real,c.imag) for c in v ] )
c@409 22 return re.sub(r'\.?0+ ',' ',s)
c@409 23
c@409 24 def test_cpx( n,inverse ,short):
c@409 25 v = randvec(n,1)
c@409 26 scale = 1
c@409 27 if short:
c@409 28 minsnr=30
c@409 29 else:
c@409 30 minsnr=100
c@409 31
c@409 32 if inverse:
c@409 33 tvecout = FFT.inverse_fft(v)
c@409 34 if short:
c@409 35 scale = 1
c@409 36 else:
c@409 37 scale = len(v)
c@409 38 else:
c@409 39 tvecout = FFT.fft(v)
c@409 40 if short:
c@409 41 scale = 1.0/len(v)
c@409 42
c@409 43 tvecout = [ c * scale for c in tvecout ]
c@409 44
c@409 45
c@409 46 s="""#define NFFT %d""" % len(v) + """
c@409 47 {
c@409 48 double snr;
c@409 49 kiss_fft_cpx test_vec_in[NFFT] = { """ + c_format(v) + """};
c@409 50 kiss_fft_cpx test_vec_out[NFFT] = {""" + c_format( tvecout ) + """};
c@409 51 kiss_fft_cpx testbuf[NFFT];
c@409 52 void * cfg = kiss_fft_alloc(NFFT,%d,0,0);""" % inverse + """
c@409 53
c@409 54 kiss_fft(cfg,test_vec_in,testbuf);
c@409 55 snr = snr_compare(test_vec_out,testbuf,NFFT);
c@409 56 printf("DATATYPE=" xstr(kiss_fft_scalar) ", FFT n=%d, inverse=%d, snr = %g dB\\n",NFFT,""" + str(inverse) + """,snr);
c@409 57 if (snr<""" + str(minsnr) + """)
c@409 58 exit_code++;
c@409 59 free(cfg);
c@409 60 }
c@409 61 #undef NFFT
c@409 62 """
c@409 63 return s
c@409 64
c@409 65 def compare_func():
c@409 66 s="""
c@409 67 #define xstr(s) str(s)
c@409 68 #define str(s) #s
c@409 69 double snr_compare( kiss_fft_cpx * test_vec_out,kiss_fft_cpx * testbuf, int n)
c@409 70 {
c@409 71 int k;
c@409 72 double sigpow,noisepow,err,snr,scale=0;
c@409 73 kiss_fft_cpx err;
c@409 74 sigpow = noisepow = .000000000000000000000000000001;
c@409 75
c@409 76 for (k=0;k<n;++k) {
c@409 77 sigpow += test_vec_out[k].r * test_vec_out[k].r +
c@409 78 test_vec_out[k].i * test_vec_out[k].i;
c@409 79 C_SUB(err,test_vec_out[k],testbuf[k].r);
c@409 80 noisepow += err.r * err.r + err.i + err.i;
c@409 81
c@409 82 if (test_vec_out[k].r)
c@409 83 scale += testbuf[k].r / test_vec_out[k].r;
c@409 84 }
c@409 85 snr = 10*log10( sigpow / noisepow );
c@409 86 scale /= n;
c@409 87 if (snr<10)
c@409 88 printf( "\\npoor snr, try a scaling factor %f\\n" , scale );
c@409 89 return snr;
c@409 90 }
c@409 91 """
c@409 92 return s
c@409 93
c@409 94 def main():
c@409 95
c@409 96 from getopt import getopt
c@409 97 opts,args = getopt(sys.argv[1:],'s')
c@409 98 opts = dict(opts)
c@409 99 short = int( opts.has_key('-s') )
c@409 100
c@409 101 fftsizes = args
c@409 102 if not fftsizes:
c@409 103 fftsizes = [ 1800 ]
c@409 104 print '#include "kiss_fft.h"'
c@409 105 print compare_func()
c@409 106 print "int main() { int exit_code=0;\n"
c@409 107 for n in fftsizes:
c@409 108 n = int(n)
c@409 109 print test_cpx(n,0,short)
c@409 110 print test_cpx(n,1,short)
c@409 111 print """
c@409 112 return exit_code;
c@409 113 }
c@409 114 """
c@409 115
c@409 116 if __name__ == "__main__":
c@409 117 main()