diff options
Diffstat (limited to 'externals/extra/0.43.3/0.43.2/pique')
-rw-r--r-- | externals/extra/0.43.3/0.43.2/pique/pique-help.pd | 33 | ||||
-rw-r--r-- | externals/extra/0.43.3/0.43.2/pique/pique.c | 243 |
2 files changed, 276 insertions, 0 deletions
diff --git a/externals/extra/0.43.3/0.43.2/pique/pique-help.pd b/externals/extra/0.43.3/0.43.2/pique/pique-help.pd new file mode 100644 index 00000000..1689c95b --- /dev/null +++ b/externals/extra/0.43.3/0.43.2/pique/pique-help.pd @@ -0,0 +1,33 @@ +#N canvas 143 0 729 407 12; +#X obj 47 11 pique; +#X text 105 12 -- find peaks in an FFT spectrum; +#X obj 214 174 rfft~; +#X obj 131 129 osc~ 2000; +#X graph graph2 0 -64 63 64 519 179 719 39; +#X array fft-real 64 float; +#X pop; +#X graph graph3 0 -64 63 64 519 327 719 187; +#X array fft-imag 64 float; +#X pop; +#X obj 214 215 tabwrite~ fft-real; +#X obj 245 240 tabwrite~ fft-imag; +#X obj 315 158 metro 1000; +#X obj 315 116 loadbang; +#X msg 315 138 1; +#X obj 91 349 pique; +#X msg 91 322 64 fft-real fft-imag 10; +#X obj 91 376 print; +#X obj 205 132 osc~ 5000; +#X text 25 37 pique takes unwindowed FFT analyses as input (they should be stored in arrays) and outputs a list of peaks \, giving their peak number \, frequency \, amplitude \, and phase (as a cosine/sine pair.); +#X text 13 289 message argumnets: number of FFT points \, fft real part \, fft imaginary part \, maximum number of peaks to report.; +#X text 578 387 updated for Pd 0.31.; +#X connect 2 0 6 0; +#X connect 2 1 7 0; +#X connect 3 0 2 0; +#X connect 8 0 6 0; +#X connect 8 0 7 0; +#X connect 9 0 10 0; +#X connect 10 0 8 0; +#X connect 11 0 13 0; +#X connect 12 0 11 0; +#X connect 14 0 2 0; diff --git a/externals/extra/0.43.3/0.43.2/pique/pique.c b/externals/extra/0.43.3/0.43.2/pique/pique.c new file mode 100644 index 00000000..7c8b899b --- /dev/null +++ b/externals/extra/0.43.3/0.43.2/pique/pique.c @@ -0,0 +1,243 @@ +/* Copyright (c) 1999 Miller Puckette. The +contents of this file are free for any use, but BOTH THE AUTHOR AND UCSD +DISCLAIM ALL WARRANTIES related to it. Although not written in Java, this +still should not be used to control any machinery containing a sharp blade or +combustible materiel, or as part of any life support system or weapon. */ + +#include "m_pd.h" +#include <math.h> +#include <stdio.h> +/* These pragmas are only used for MSVC, not MinGW or Cygwin <hans@at.or.at> */ +#ifdef _MSC_VER +#pragma warning( disable : 4244 ) +#pragma warning( disable : 4305 ) +#endif + +static t_class *pique_class; + +typedef struct _pique +{ + t_object x_obj; + int x_n; + t_float x_errthresh; + t_float *x_freq; + t_float *x_amp; + t_float *x_ampre; + t_float *x_ampim; +} t_pique; + +static void *pique_new(t_floatarg f) +{ + int n = f; + t_pique *x = (t_pique *)pd_new(pique_class); + if (n < 1) n = 100; + x->x_n = n; + x->x_errthresh = 0; + x->x_freq = t_getbytes(n * sizeof(*x->x_freq)); + x->x_amp = t_getbytes(n * sizeof(*x->x_amp)); + x->x_ampre = t_getbytes(n * sizeof(*x->x_ampre)); + x->x_ampim = t_getbytes(n * sizeof(*x->x_ampim)); + outlet_new(&x->x_obj, &s_list); + return (x); +} + +static t_float hanning(t_float pidetune, t_float sinpidetune) +{ + t_float pi = 3.141592653589793; + if (pidetune < 0.01 && pidetune > -0.01) return (1); + else if (pidetune > 3.14 && pidetune < 3.143) return (0.5); + else if (pidetune < -3.14 && pidetune > -3.143) return (0.5); + else return (sinpidetune/pidetune - 0.5 * + (sinpidetune/(pidetune+pi) + sinpidetune/(pidetune-pi))); +} + +static t_float peakerror(t_word *fpreal, t_word *fpimag, t_float pidetune, + t_float norm, t_float peakreal, t_float peakimag) +{ + t_float sinpidetune = sin(pidetune); + t_float cospidetune = cos(pidetune); + t_float windowshould = hanning(pidetune, sinpidetune); + t_float realshould = windowshould * ( + peakreal * cospidetune + peakimag * sinpidetune); + t_float imagshould = windowshould * ( + peakimag * cospidetune - peakreal * sinpidetune); + t_float realgot = norm * (fpreal[0].w_float - + 0.5 * (fpreal[1].w_float + fpreal[-1].w_float)); + t_float imaggot = norm * (fpimag[0].w_float - + 0.5 * (fpimag[1].w_float + fpimag[-1].w_float)); + t_float realdev = realshould - realgot, imagdev = imagshould - imaggot; + + /* post("real %f->%f; imag %f->%f", realshould, realgot, + imagshould, imaggot); */ + return (realdev * realdev + imagdev * imagdev); +} + +static void pique_doit(int npts, t_word *fpreal, t_word *fpimag, + int npeak, int *nfound, t_float *fpfreq, t_float *fpamp, + t_float *fpampre, t_float *fpampim, t_float errthresh) +{ + t_float srate = sys_getsr(); /* not sure how to get this correctly */ + t_float oneovern = 1.0/ (t_float)npts; + t_float fperbin = srate * oneovern; + t_float pow1, pow2 = 0, pow3 = 0, pow4 = 0, pow5 = 0; + t_float re1, re2 = 0, re3 = fpreal->w_float; + t_float im1, im2 = 0, im3 = 0, powthresh, relativeerror; + int count, peakcount = 0, n2 = (npts >> 1); + t_float *fp1, *fp2; + t_word *wp1, *wp2; + for (count = n2, wp1 = fpreal, wp2 = fpimag, powthresh = 0; + count--; wp1++, wp2++) + powthresh += (wp1->w_float) * (wp1->w_float) + + (wp2->w_float) * (wp2->w_float) ; + powthresh *= 0.00001; + for (count = 1; count < n2; count++) + { + t_float windreal, windimag, pi = 3.141592653589793; + t_float detune, pidetune, sinpidetune, cospidetune, + ampcorrect, freqout, ampout, ampoutreal, ampoutimag; + t_float rpeak, rpeaknext, rpeakprev; + t_float ipeak, ipeaknext, ipeakprev; + t_float errleft, errright; + fpreal++; + fpimag++; + re1 = re2; + re2 = re3; + re3 = fpreal->w_float; + im1 = im2; + im2 = im3; + im3 = fpimag->w_float; + if (count < 2) continue; + pow1 = pow2; + pow2 = pow3; + pow3 = pow4; + pow4 = pow5; + /* get Hanning-windowed spectrum by convolution */ + windreal = re2 - 0.5 * (re1 + re3); + windimag = im2 - 0.5 * (im1 + im3); + pow5 = windreal * windreal + windimag * windimag; + /* if (count < 30) post("power %f", pow5); */ + if (count < 5) continue; + /* check for a peak. The actual bin is count-3. */ + if (pow3 <= pow2 || pow3 <= pow4 || pow3 <= pow1 || pow3 <= pow5 + || pow3 < powthresh) + continue; + /* go back for the raw FFT values around the peak. */ + rpeak = fpreal[-3].w_float; + rpeaknext = fpreal[-2].w_float; + rpeakprev = fpreal[-4].w_float; + ipeak = fpimag[-3].w_float; + ipeaknext = fpimag[-2].w_float; + ipeakprev = fpimag[-4].w_float; + /* recalculate Hanning-windowed spectrum by convolution */ + windreal = rpeak - 0.5 * (rpeaknext + rpeakprev); + windimag = ipeak - 0.5 * (ipeaknext + ipeakprev); + + detune = ((rpeakprev - rpeaknext) * + (2.0 * rpeak - rpeakprev - rpeaknext) + + (ipeakprev - ipeaknext) * + (2.0 * ipeak - ipeakprev - ipeaknext)) / + (4.0 * pow3); + /* if (count < 30) post("detune %f", detune); */ + if (detune > 0.7 || detune < -0.7) continue; + /* the frequency is the sum of the bin frequency and detuning */ + freqout = fperbin * ((t_float)(count-3) + detune); + pidetune = pi * detune; + sinpidetune = sin(pidetune); + cospidetune = cos(pidetune); + ampcorrect = 1.0 / hanning(pidetune, sinpidetune); + /* Multiply by 2 to get real-sinusoid peak amplitude + and divide by N to normalize FFT */ + ampcorrect *= 2. * oneovern; + /* amplitude is peak height, corrected for Hanning window shape */ + + ampout = ampcorrect * sqrt(pow3); + ampoutreal = ampcorrect * + (windreal * cospidetune - windimag * sinpidetune); + ampoutimag = ampcorrect * + (windreal * sinpidetune + windimag * cospidetune); + if (errthresh > 0) + { + /* post("peak %f %f", freqout, ampout); */ + errleft = peakerror(fpreal-4, fpimag-4, pidetune+pi, + 2. * oneovern, ampoutreal, ampoutimag); + errright = peakerror(fpreal-2, fpimag-2, pidetune-pi, + 2. * oneovern, ampoutreal, ampoutimag); + relativeerror = (errleft + errright)/(ampout * ampout); + if (relativeerror > errthresh) continue; + } + /* post("power %f, error %f, relative %f", + pow3, errleft + errright, relativeerror); */ + *fpfreq++ = freqout; + *fpamp++ = ampout; + *fpampre++ = ampoutreal; + *fpampim++ = ampoutimag; + if (++peakcount == npeak) break; + } + *nfound = peakcount; +} + +static void pique_list(t_pique *x, t_symbol *s, int argc, t_atom *argv) +{ + int npts = atom_getintarg(0, argc, argv); + t_symbol *symreal = atom_getsymbolarg(1, argc, argv); + t_symbol *symimag = atom_getsymbolarg(2, argc, argv); + int npeak = atom_getintarg(3, argc, argv); + int n; + t_garray *a; + t_word *fpreal, *fpimag; + if (npts < 8 || npeak < 1) error("pique: bad npoints or npeak"); + if (npeak > x->x_n) npeak = x->x_n; + if (!(a = (t_garray *)pd_findbyclass(symreal, garray_class)) || + !garray_getfloatwords(a, &n, &fpreal) || + n < npts) + error("%s: missing or bad array", symreal->s_name); + else if (!(a = (t_garray *)pd_findbyclass(symimag, garray_class)) || + !garray_getfloatwords(a, &n, &fpimag) || + n < npts) + error("%s: missing or bad array", symimag->s_name); + else + { + int nfound, i; + t_float *fpfreq = x->x_freq; + t_float *fpamp = x->x_amp; + t_float *fpampre = x->x_ampre; + t_float *fpampim = x->x_ampim; + pique_doit(npts, fpreal, fpimag, npeak, + &nfound, fpfreq, fpamp, fpampre, fpampim, x->x_errthresh); + for (i = 0; i < nfound; i++, fpamp++, fpfreq++, fpampre++, fpampim++) + { + t_atom at[5]; + SETFLOAT(at, (t_float)i); + SETFLOAT(at+1, *fpfreq); + SETFLOAT(at+2, *fpamp); + SETFLOAT(at+3, *fpampre); + SETFLOAT(at+4, *fpampim); + outlet_list(x->x_obj.ob_outlet, &s_list, 5, at); + } + } +} + +static void pique_errthresh(t_pique *x, t_floatarg f) +{ + x->x_errthresh = f; +} + +static void pique_free(t_pique *x) +{ + int n = x->x_n; + t_freebytes(x->x_freq, n * sizeof(*x->x_freq)); + t_freebytes(x->x_amp, n * sizeof(*x->x_amp)); + t_freebytes(x->x_ampre, n * sizeof(*x->x_ampre)); + t_freebytes(x->x_ampim, n * sizeof(*x->x_ampim)); +} + +void pique_setup(void) +{ + pique_class = class_new(gensym("pique"), (t_newmethod)pique_new, + (t_method)pique_free, sizeof(t_pique),0, A_DEFFLOAT, 0); + class_addlist(pique_class, pique_list); + class_addmethod(pique_class, (t_method)pique_errthresh, + gensym("errthresh"), A_FLOAT, 0); + post("pique 0.1 for PD version 23"); +} + |