From 5ebae9f842a9d841758f79ee00a38e3b97bb633c Mon Sep 17 00:00:00 2001 From: Hans-Christoph Steiner Date: Fri, 2 Dec 2005 19:12:41 +0000 Subject: generalized locations so that UNIX-style dir layout can also be used in addition to the Windows/MacOSX-style dir layout; fixed random bugs; added more the clean targets svn path=/trunk/; revision=4120 --- packages/patches/fftw_support-0.39-1.patch | 298 +++++++++++++++++++++++++++++ 1 file changed, 298 insertions(+) create mode 100644 packages/patches/fftw_support-0.39-1.patch (limited to 'packages/patches/fftw_support-0.39-1.patch') diff --git a/packages/patches/fftw_support-0.39-1.patch b/packages/patches/fftw_support-0.39-1.patch new file mode 100644 index 00000000..fb787d9a --- /dev/null +++ b/packages/patches/fftw_support-0.39-1.patch @@ -0,0 +1,298 @@ +Index: d_fft.c +=================================================================== +RCS file: /cvsroot/pure-data/pd/src/d_fft.c,v +retrieving revision 1.2 +diff -u -w -r1.2 d_fft.c +--- d_fft.c 6 Sep 2004 20:20:33 -0000 1.2 ++++ d_fft.c 2 Dec 2005 05:37:43 -0000 +@@ -4,6 +4,12 @@ + + #include "m_pd.h" + ++#ifdef HAVE_LIBFFTW3F ++#include "fftw3.h" ++#include ++#endif ++ ++#ifndef HAVE_LIBFFTW3F + /* ------------------------ fft~ and ifft~ -------------------------------- */ + static t_class *sigfft_class, *sigifft_class; + +@@ -244,6 +250,259 @@ + class_sethelpsymbol(sigrifft_class, gensym("fft~")); + } + ++#else ++ ++/* Support for fftw3 by Tim Blechmann */ ++ ++/* ------------------------ fft~ and ifft~ -------------------------------- */ ++ ++static t_class *sigfftw_class, *sigifftw_class; ++ ++typedef struct fftw ++{ ++ t_object x_obj; ++ float x_f; ++ ++ fftwf_plan plan; ++ fftwf_iodim dim; ++} t_sigfftw; ++ ++static void *sigfftw_new(void) ++{ ++ t_sigfftw *x = (t_sigfftw *)pd_new(sigfftw_class); ++ outlet_new(&x->x_obj, gensym("signal")); ++ outlet_new(&x->x_obj, gensym("signal")); ++ inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_signal, &s_signal); ++ x->x_f = 0; ++ return (x); ++} ++ ++static void sigfftw_free(t_sigfftw * x) ++{ ++ fftwf_destroy_plan(x->plan); ++} ++ ++static t_int *sigfftw_perform(t_int *w) ++{ ++ fftwf_execute(*(fftwf_plan *)w[1]); ++ ++ return (w+2); ++} ++ ++static void sigfftw_dsp(t_sigfftw *x, t_signal **sp) ++{ ++ int n = sp[0]->s_n; ++ float *in1 = sp[0]->s_vec; ++ float *in2 = sp[1]->s_vec; ++ float *out1 = sp[2]->s_vec; ++ float *out2 = sp[3]->s_vec; ++ ++ x->dim.n=n; ++ x->dim.is=1; ++ x->dim.os=1; ++ x->plan = fftwf_plan_guru_split_dft(1, &(x->dim), 0, NULL, in1, ++ in2, out1, out2, FFTW_MEASURE); ++ dsp_add(sigfftw_perform, 1, &x->plan); ++} ++ ++static void sigifftw_dsp(t_sigfftw *x, t_signal **sp) ++{ ++ int n = sp[0]->s_n; ++ float *in1 = sp[0]->s_vec; ++ float *in2 = sp[1]->s_vec; ++ float *out1 = sp[2]->s_vec; ++ float *out2 = sp[3]->s_vec; ++ ++ x->dim.n=n; ++ x->dim.is=1; ++ x->dim.os=1; ++ x->plan = fftwf_plan_guru_split_dft(1, &(x->dim), 0, NULL, in2, ++ in1, out2, out1, FFTW_MEASURE); ++ dsp_add(sigfftw_perform, 1, &x->plan); ++} ++ ++static void sigfftw_setup(void) ++{ ++ sigfftw_class = class_new(gensym("fft~"), sigfftw_new, ++ (t_method) sigfftw_free, ++ sizeof(t_sigfftw), 0, 0); ++ CLASS_MAINSIGNALIN(sigfftw_class, t_sigfftw, x_f); ++ class_addmethod(sigfftw_class, (t_method)sigfftw_dsp, ++ gensym("dsp"), 0); ++ ++ sigifftw_class = class_new(gensym("ifft~"), sigfftw_new, ++ (t_method) sigfftw_free, ++ sizeof(t_sigfftw), 0, 0); ++ CLASS_MAINSIGNALIN(sigifftw_class, t_sigfftw, x_f); ++ class_addmethod(sigifftw_class, (t_method)sigifftw_dsp, ++ gensym("dsp"), 0); ++ class_sethelpsymbol(sigifftw_class, gensym("fft~")); ++ ++} ++ ++ ++/* ----------------------- rfft~ --------------------------------- */ ++ ++static t_class *sigrfftw_class; ++ ++typedef struct rfftw ++{ ++ t_object x_obj; ++ float x_f; ++ ++ fftwf_plan plan; ++ fftwf_iodim dim; ++} t_sigrfftw; ++ ++static void *sigrfftw_new(void) ++{ ++ t_sigrfftw *x = (t_sigrfftw *)pd_new(sigrfftw_class); ++ outlet_new(&x->x_obj, gensym("signal")); ++ outlet_new(&x->x_obj, gensym("signal")); ++ x->x_f = 0; ++ return (x); ++} ++ ++static void sigrfftw_free(t_sigrfftw *x) ++{ ++ fftwf_destroy_plan(x->plan); ++} ++ ++/* ++ * for compatibility reasons with the mayer fft, we'll have to invert ++ * some samples ... this is ugly, but someone might rely on that ... ++ */ ++static void sigrfftw_invert(t_sample * s, t_int n) ++{ ++ while (n!=0) ++ { ++ --n; ++ s[n]=-s[n]; ++ } ++} ++ ++static t_int *sigrfftw_perform(t_int *w) ++{ ++ fftwf_execute(*(fftwf_plan*)w[1]); ++ sigrfftw_invert((t_sample*)w[2],(t_int)w[3]); ++ ++ return (w+4); ++} ++ ++static void sigrfftw_dsp(t_sigrfftw *x, t_signal **sp) ++{ ++ int n = sp[0]->s_n, n2 = (n>>1); ++ float *in = sp[0]->s_vec; ++ float *out1 = sp[1]->s_vec; ++ float *out2 = sp[2]->s_vec; ++ ++ if (n < 4) ++ { ++ error("fft: minimum 4 points"); ++ return; ++ } ++ else ++ { ++ x->dim.n=n; ++ x->dim.is=1; ++ x->dim.os=1; ++ x->plan = fftwf_plan_guru_split_dft_r2c(1, &(x->dim), 0, NULL, ++ in, out1, out2, ++ FFTW_MEASURE); ++ dsp_add(sigrfftw_perform,3,&x->plan,out2+1,n2-1); ++ } ++ ++ dsp_add_zero(out1 + n2, n2); ++ dsp_add_zero(out2 + n2, n2); ++} ++ ++static void sigrfftw_setup(void) ++{ ++ sigrfftw_class = class_new(gensym("rfft~"), sigrfftw_new, ++ (t_method)sigrfftw_free, ++ sizeof(t_sigrfftw), 0, 0); ++ CLASS_MAINSIGNALIN(sigrfftw_class, t_sigrfftw, x_f); ++ class_addmethod(sigrfftw_class, (t_method)sigrfftw_dsp, ++ gensym("dsp"), 0); ++ class_sethelpsymbol(sigrfftw_class, gensym("fft~")); ++} ++ ++ ++/* ----------------------- rifft~ -------------------------------- */ ++ ++static t_class *sigrifftw_class; ++ ++typedef struct rifftw ++{ ++ t_object x_obj; ++ float x_f; ++ ++ fftwf_plan plan; ++ fftwf_iodim dim; ++} t_sigrifftw; ++ ++static void *sigrifftw_new(void) ++{ ++ t_sigrifftw *x = (t_sigrifftw *)pd_new(sigrifftw_class); ++ inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_signal, &s_signal); ++ outlet_new(&x->x_obj, gensym("signal")); ++ x->x_f = 0; ++ return (x); ++} ++ ++static void sigrifftw_free(t_sigrifftw *x) ++{ ++ fftwf_destroy_plan(x->plan); ++} ++ ++static t_int *sigrifftw_perform(t_int *w) ++{ ++ sigrfftw_invert((t_sample *)w[2],w[3]); ++ fftwf_execute(*(fftwf_plan*)w[1]); ++ ++ return (w+4); ++} ++ ++static void sigrifftw_dsp(t_sigrifftw *x, t_signal **sp) ++{ ++ int n = sp[0]->s_n, n2 = (n>>1); ++ float *in1 = sp[0]->s_vec; ++ float *in2 = sp[1]->s_vec; ++ float *out = sp[2]->s_vec; ++ ++ if (n < 4) ++ { ++ error("fft: minimum 4 points"); ++ return; ++ } ++ ++ else ++ { ++ x->dim.n=n; ++ x->dim.is=1; ++ x->dim.os=1; ++ x->plan = fftwf_plan_guru_split_dft_c2r(1, &(x->dim), 0, NULL, ++ in1, in2, out, ++ FFTW_MEASURE); ++ dsp_add(sigrifftw_perform,3,&x->plan,in2,n2); ++ } ++} ++ ++static void sigrifftw_setup(void) ++{ ++ sigrifftw_class = class_new(gensym("rifft~"), sigrifftw_new, ++ (t_method)sigrifftw_free, ++ sizeof(t_sigrifftw), 0, 0); ++ CLASS_MAINSIGNALIN(sigrifftw_class, t_sigrifftw, x_f); ++ class_addmethod(sigrifftw_class, (t_method)sigrifftw_dsp, ++ gensym("dsp"), 0); ++ class_sethelpsymbol(sigrifftw_class, gensym("fft~")); ++} ++ ++#endif /* HAVE_LIBFFTW3F */ ++/* end of FFTW support */ ++ ++ + /* ----------------------- framp~ -------------------------------- */ + + static t_class *sigframp_class; +@@ -335,8 +594,16 @@ + + void d_fft_setup(void) + { ++ sigframp_setup(); ++ ++#ifndef HAVE_LIBFFTW3F + sigfft_setup(); + sigrfft_setup(); + sigrifft_setup(); +- sigframp_setup(); ++#else ++ sigfftw_setup(); /* added by Tim Blechmann to support fftw */ ++ sigrifftw_setup(); ++ sigrfftw_setup(); ++#endif /* HAVE_LIBFFTW3F */ ++ + } -- cgit v1.2.1