/* -*- c++ -*- */ /* * Copyright 2003 Free Software Foundation, Inc. * * This file is part of GNU Radio * * GNU Radio is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * GNU Radio is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNU Radio; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #include static char * wisdom_filename () { static char *filename = ".gr_fftw_wisdom"; char *home = getenv ("HOME"); if (home){ char *p = new char[strlen (home) + strlen (filename) + 2]; strcpy (p, home); strcat (p, "/"); strcat (p, filename); return p; } return 0; } static void gri_fftw_import_wisdom () { char *filename = wisdom_filename (); FILE *fp = fopen (filename, "r"); if (fp != 0){ int r = fftwf_import_wisdom_from_file (fp); fclose (fp); if (!r){ fprintf (stderr, "gri_fftw: can't import wisdom from %s\n", filename); } } delete [] filename; } static void gri_fftw_export_wisdom () { char *filename = wisdom_filename (); FILE *fp = fopen (filename, "w"); if (fp != 0){ fftwf_export_wisdom_to_file (fp); fclose (fp); } else { fprintf (stderr, "gri_fftw: "); perror (filename); } delete [] filename; } // ---------------------------------------------------------------- gri_fft_complex::gri_fft_complex (int fft_size, bool forward) { assert (sizeof (fftwf_complex) == sizeof (gr_complex)); if (fft_size <= 0) throw std::out_of_range ("gri_fftw: invalid fft_size"); d_fft_size = fft_size; d_inbuf = (gr_complex *) fftwf_malloc (sizeof (gr_complex) * inbuf_length ()); if (d_inbuf == 0) throw std::runtime_error ("fftwf_malloc"); d_outbuf = (gr_complex *) fftwf_malloc (sizeof (gr_complex) * outbuf_length ()); if (d_outbuf == 0){ fftwf_free (d_inbuf); throw std::runtime_error ("fftwf_malloc"); } // FIXME If there's ever a chance that the planning functions // will be called in multiple threads, we've got to ensure single // threaded access. They are not thread-safe. gri_fftw_import_wisdom (); // load prior wisdom from disk d_plan = fftwf_plan_dft_1d (fft_size, reinterpret_cast(d_inbuf), reinterpret_cast(d_outbuf), forward ? FFTW_FORWARD : FFTW_BACKWARD, FFTW_MEASURE); if (d_plan == NULL) { fprintf(stderr, "gri_fft_complex: error creating plan\n"); throw std::runtime_error ("fftwf_plan_dft_1d failed"); } gri_fftw_export_wisdom (); // store new wisdom to disk } gri_fft_complex::~gri_fft_complex () { fftwf_destroy_plan ((fftwf_plan) d_plan); fftwf_free (d_inbuf); fftwf_free (d_outbuf); } void gri_fft_complex::execute () { fftwf_execute ((fftwf_plan) d_plan); } // ---------------------------------------------------------------- gri_fft_real_fwd::gri_fft_real_fwd (int fft_size) { assert (sizeof (fftwf_complex) == sizeof (gr_complex)); if (fft_size <= 0) throw std::out_of_range ("gri_fftw: invalid fft_size"); d_fft_size = fft_size; d_inbuf = (float *) fftwf_malloc (sizeof (float) * inbuf_length ()); if (d_inbuf == 0) throw std::runtime_error ("fftwf_malloc"); d_outbuf = (gr_complex *) fftwf_malloc (sizeof (gr_complex) * outbuf_length ()); if (d_outbuf == 0){ fftwf_free (d_inbuf); throw std::runtime_error ("fftwf_malloc"); } // FIXME If there's ever a chance that the planning functions // will be called in multiple threads, we've got to ensure single // threaded access. They are not thread-safe. gri_fftw_import_wisdom (); // load prior wisdom from disk d_plan = fftwf_plan_dft_r2c_1d (fft_size, d_inbuf, reinterpret_cast(d_outbuf), FFTW_MEASURE); if (d_plan == NULL) { fprintf(stderr, "gri_fft_real_fwd: error creating plan\n"); throw std::runtime_error ("fftwf_plan_dft_r2c_1d failed"); } gri_fftw_export_wisdom (); // store new wisdom to disk } gri_fft_real_fwd::~gri_fft_real_fwd () { fftwf_destroy_plan ((fftwf_plan) d_plan); fftwf_free (d_inbuf); fftwf_free (d_outbuf); } void gri_fft_real_fwd::execute () { fftwf_execute ((fftwf_plan) d_plan); } // ---------------------------------------------------------------- gri_fft_real_rev::gri_fft_real_rev (int fft_size) { assert (sizeof (fftwf_complex) == sizeof (gr_complex)); if (fft_size <= 0) throw std::out_of_range ("gri_fftw: invalid fft_size"); d_fft_size = fft_size; d_inbuf = (gr_complex *) fftwf_malloc (sizeof (gr_complex) * inbuf_length ()); if (d_inbuf == 0) throw std::runtime_error ("fftwf_malloc"); d_outbuf = (float *) fftwf_malloc (sizeof (float) * outbuf_length ()); if (d_outbuf == 0){ fftwf_free (d_inbuf); throw std::runtime_error ("fftwf_malloc"); } // FIXME If there's ever a chance that the planning functions // will be called in multiple threads, we've got to ensure single // threaded access. They are not thread-safe. gri_fftw_import_wisdom (); // load prior wisdom from disk d_plan = fftwf_plan_dft_c2r_1d (fft_size, reinterpret_cast(d_inbuf), d_outbuf, FFTW_MEASURE); if (d_plan == NULL) { fprintf(stderr, "gri_fft_real_rev: error creating plan\n"); throw std::runtime_error ("fftwf_plan_dft_c2r_1d failed"); } gri_fftw_export_wisdom (); // store new wisdom to disk } gri_fft_real_rev::~gri_fft_real_rev () { fftwf_destroy_plan ((fftwf_plan) d_plan); fftwf_free (d_inbuf); fftwf_free (d_outbuf); } void gri_fft_real_rev::execute () { fftwf_execute ((fftwf_plan) d_plan); }