/* * iemmatrix * * objects for manipulating simple matrices * mostly refering to matlab/octave matrix functions * * Copyright (c) 2005, Franz Zotter * IEM, Graz, Austria * * For information on usage and redistribution, and for a DISCLAIMER OF ALL * WARRANTIES, see the file, "LICENSE.txt," in this distribution. * */ #include "iemmatrix.h" #include static t_class *mtx_fft_class; typedef struct _MtxFFT_ MtxFFT; struct _MtxFFT_ { t_object x_obj; int size; t_float *f_re; t_float *f_im; t_outlet *list_re_out; t_outlet *list_im_out; t_atom *list_re; t_atom *list_im; }; static void deleteMtxFFT (MtxFFT *x) { if (x->f_re) free (x->f_re); if (x->f_im) free (x->f_im); if (x->list_re) free (x->list_re); if (x->list_im) free (x->list_im); } static void *newMtxFFT (t_symbol *s, int argc, t_atom *argv) { MtxFFT *x = (MtxFFT *) pd_new (mtx_fft_class); inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("matrix"),gensym("")); x->list_re_out = outlet_new (&x->x_obj, gensym("matrix")); x->list_im_out = outlet_new (&x->x_obj, gensym("matrix")); x->size=0; x->f_re=x->f_im=0; x->list_re=x->list_im=0; return ((void *) x); } static void mtxFFTBang (MtxFFT *x) { if (x->list_im) { outlet_anything(x->list_im_out, gensym("matrix"), x->size, x->list_im); outlet_anything(x->list_re_out, gensym("matrix"), x->size, x->list_re); } } static void zeroFloatArray (int n, t_float *f) { while (n--) *f++ = 0.0f; } static void writeFloatIntoList (int n, t_atom *l, t_float *f) { for (;n--;f++, l++) SETFLOAT (l, *f); } static void readFloatFromList (int n, t_atom *l, t_float *f) { while (n--) *f++ = atom_getfloat (l++); } static void mtxFFTMatrixCold (MtxFFT *x, t_symbol *s, int argc, t_atom *argv) { int rows = atom_getint (argv++); int columns = atom_getint (argv++); int size = rows * columns; int in_size = argc-2; t_atom *list_re = x->list_re; t_atom *list_im = x->list_im; t_float *f_re = x->f_re; t_float *f_im = x->f_im; /* fftsize check */ if (!size) post("mtx_fft: invalid dimensions"); else if (in_sizesize = size; x->list_im = list_im; x->list_re = list_re; x->f_re = f_re; x->f_im = f_im; /* main part */ readFloatFromList (size, argv, f_im); } else post("mtx_rowfft: rowvector size no power of 2!"); } static void mtxFFTMatrixHot (MtxFFT *x, t_symbol *s, int argc, t_atom *argv) { int rows = atom_getint (argv++); int columns = atom_getint (argv++); int size = rows * columns; int in_size = argc-2; int fft_count; t_atom *list_re = x->list_re; t_atom *list_im = x->list_im; t_float *f_re = x->f_re; t_float *f_im = x->f_im; /* fftsize check */ if (!size) post("mtx_fft: invalid dimensions"); else if (in_sizesize) post("mtx_fft: left matrix has other dimensions than right matrix"); else if (columns < 4){ post("mtx_fft: matrix must have at least 4 columns"); } else if (columns == (1 << ilog2(columns))) { /* ok, do the FFT! */ /* main part */ readFloatFromList (size, argv, f_re); fft_count = rows; list_re += 2; list_im += 2; while (fft_count--){ mayer_fft (columns, f_re, f_im); writeFloatIntoList (columns, list_re, f_re); writeFloatIntoList (columns, list_im, f_im); f_im += columns; f_re += columns; list_re += columns; list_im += columns; } list_re = x->list_re; list_im = x->list_im; SETSYMBOL(list_re, gensym("matrix")); SETSYMBOL(list_im, gensym("matrix")); SETFLOAT(list_re, rows); SETFLOAT(list_im, rows); SETFLOAT(list_re+1, columns); SETFLOAT(list_im+1, columns); outlet_anything(x->list_im_out, gensym("matrix"), x->size+2, list_im); outlet_anything(x->list_re_out, gensym("matrix"), x->size+2, list_re); } else post("mtx_rowfft: rowvector size no power of 2!"); } void mtx_fft_setup (void) { mtx_fft_class = class_new (gensym("mtx_fft"), (t_newmethod) newMtxFFT, (t_method) deleteMtxFFT, sizeof (MtxFFT), CLASS_DEFAULT, A_GIMME, 0); class_addbang (mtx_fft_class, (t_method) mtxFFTBang); class_addmethod (mtx_fft_class, (t_method) mtxFFTMatrixHot, gensym("matrix"), A_GIMME,0); class_addmethod (mtx_fft_class, (t_method) mtxFFTMatrixCold, gensym(""), A_GIMME,0); } void iemtx_fft_setup(void){ mtx_fft_setup(); }