Mercurial > hg > audiostuff
view spandsp-0.0.3/spandsp-0.0.3/tests/line_model_monitor.cpp @ 5:f762bf195c4b
import spandsp-0.0.3
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
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| date | Fri, 25 Jun 2010 16:00:21 +0200 |
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| children |
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/* * SpanDSP - a series of DSP components for telephony * * line_model_monitor.cpp - Model activity in a telephone line model, using the FLTK toolkit. * * Written by Steve Underwood <steveu@coppice.org> * * Copyright (C) 2006 Steve Underwood * * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2, as * published by the Free Software Foundation. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * $Id: line_model_monitor.cpp,v 1.2 2006/10/24 13:22:03 steveu Exp $ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #if defined(HAVE_FL_FL_H) && defined(HAVE_FL_FL_CARTESIAN_H) #include <inttypes.h> #include <stdio.h> #include <math.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <sys/select.h> #if defined(HAVE_FFTW3_H) #include <fftw3.h> #else #include <fftw.h> #endif #include <FL/Fl.H> #include <FL/Fl_Overlay_Window.H> #include <FL/Fl_Light_Button.H> #include <Fl/Fl_Cartesian.H> #include <Fl/Fl_Audio_Meter.H> #include <FL/fl_draw.H> #include "../src/spandsp/complex.h" //#include "spandsp.h" #include "line_model_monitor.h" Fl_Double_Window *w; Fl_Audio_Meter *audio_meter; Fl_Group *c_spec; Fl_Group *c_right; Fl_Group *c_can; Fl_Group *c_line_model; Ca_Canvas *canvas_spec; Ca_X_Axis *spec_freq; Ca_Y_Axis *spec_amp; Ca_Line *spec_re = NULL; double spec_re_plot[2*512]; Ca_Canvas *canvas_can; Ca_X_Axis *can_x; Ca_Y_Axis *can_y; Ca_Line *can_re = NULL; double can_re_plot[512]; Ca_Canvas *canvas_line_model; Ca_X_Axis *line_model_x; Ca_Y_Axis *line_model_y; Ca_Line *line_model_re = NULL; double line_model_re_plot[512]; static int skip = 0; int in_ptr; #if defined(HAVE_FFTW3_H) double in[1024][2]; double out[1024][2]; #else fftw_complex in[1024]; fftw_complex out[1024]; #endif fftw_plan p; int line_model_monitor_can_update(const float *coeffs, int len) { int i; float min; float max; if (can_re) delete can_re; canvas_can->current(canvas_can); i = 0; min = coeffs[i]; max = coeffs[i]; for (i = 0; i < len; i++) { can_re_plot[2*i] = i; can_re_plot[2*i + 1] = coeffs[i]; if (min > coeffs[i]) min = coeffs[i]; if (max < coeffs[i]) max = coeffs[i]; } can_y->maximum((max == min) ? max + 0.2 : max); can_y->minimum(min); can_re = new Ca_Line(len, can_re_plot, 0, 0, FL_BLUE, CA_NO_POINT); if (++skip >= 100) { skip = 0; Fl::check(); } return 0; } /*- End of function --------------------------------------------------------*/ int line_model_monitor_line_model_update(const float *coeffs, int len) { int i; float min; float max; if (line_model_re) delete line_model_re; canvas_line_model->current(canvas_line_model); i = 0; min = coeffs[i]; max = coeffs[i]; for (i = 0; i < len; i++) { line_model_re_plot[2*i] = i; line_model_re_plot[2*i + 1] = coeffs[i]; if (min > coeffs[i]) min = coeffs[i]; if (max < coeffs[i]) max = coeffs[i]; } line_model_y->maximum((max == min) ? max + 0.2 : max); line_model_y->minimum(min); line_model_re = new Ca_Line(len, line_model_re_plot, 0, 0, FL_BLUE, CA_NO_POINT); if (++skip >= 100) { skip = 0; Fl::check(); } return 0; } /*- End of function --------------------------------------------------------*/ int line_model_monitor_line_spectrum_update(const int16_t amp[], int len) { int i; int x; for (i = 0; i < len; i++) audio_meter->sample(amp[i]/32768.0); if (in_ptr + len < 512) { /* Just add this fragment to the buffer. */ for (i = 0; i < len; i++) #if defined(HAVE_FFTW3_H) in[in_ptr + i][0] = amp[i]; #else in[in_ptr + i].re = amp[i]; #endif in_ptr += len; return 0; } if (len >= 512) { /* We have enough for a whole block. Use the last 512 samples we have. */ x = len - 512; for (i = 0; i < 512; i++) #if defined(HAVE_FFTW3_H) in[i][0] = amp[x + i]; #else in[i].re = amp[x + i]; #endif } else { /* We want the last 512 samples. */ x = 512 - len; for (i = 0; i < x; i++) #if defined(HAVE_FFTW3_H) in[i][0] = in[in_ptr - x + i][0]; #else in[i].re = in[in_ptr - x + i].re; #endif for (i = x; i < 512; i++) #if defined(HAVE_FFTW3_H) in[i][0] = amp[i - x]; #else in[i].re = amp[i - x]; #endif } in_ptr = 0; #if defined(HAVE_FFTW3_H) fftw_execute(p); #else fftw_one(p, in, out); #endif if (spec_re) delete spec_re; canvas_spec->current(canvas_spec); for (i = 0; i < 512; i++) { spec_re_plot[2*i] = i*4000.0/512.0; #if defined(HAVE_FFTW3_H) spec_re_plot[2*i + 1] = 20.0*log10(sqrt(out[i][0]*out[i][0] + out[i][1]*out[i][1])/(256.0*32768)) + 3.14; #else spec_re_plot[2*i + 1] = 20.0*log10(sqrt(out[i].re*out[i].re + out[i].im*out[i].im)/(256.0*32768)) + 3.14; #endif } spec_re = new Ca_Line(512, spec_re_plot, 0, 0, FL_BLUE, CA_NO_POINT); Fl::check(); return 0; } /*- End of function --------------------------------------------------------*/ int start_line_model_monitor(int len) { char buf[132 + 1]; float x; float y; int i; w = new Fl_Double_Window(850, 400, "Telephone line model monitor"); c_spec = new Fl_Group(0, 0, 380, 400); c_spec->box(FL_DOWN_BOX); c_spec->align(FL_ALIGN_TOP | FL_ALIGN_INSIDE); canvas_spec = new Ca_Canvas(60, 30, 300, 300, "Spectrum"); canvas_spec->box(FL_PLASTIC_DOWN_BOX); canvas_spec->color(7); canvas_spec->align(FL_ALIGN_TOP); canvas_spec->border(15); spec_freq = new Ca_X_Axis(65, 330, 290, 30, "Freq (Hz)"); spec_freq->align(FL_ALIGN_BOTTOM); spec_freq->minimum(0); spec_freq->maximum(4000); spec_freq->label_format("%g"); spec_freq->minor_grid_color(fl_gray_ramp(20)); spec_freq->major_grid_color(fl_gray_ramp(15)); spec_freq->label_grid_color(fl_gray_ramp(10)); spec_freq->grid_visible(CA_LABEL_GRID | CA_ALWAYS_VISIBLE); spec_freq->minor_grid_style(FL_DOT); spec_freq->major_step(5); spec_freq->label_step(1); spec_freq->axis_color(FL_BLACK); spec_freq->axis_align(CA_BOTTOM | CA_LINE); spec_amp = new Ca_Y_Axis(20, 35, 40, 290, "Amp (dBmO)"); spec_amp->align(FL_ALIGN_LEFT); spec_amp->minimum(-80.0); spec_amp->maximum(10.0); spec_amp->minor_grid_color(fl_gray_ramp(20)); spec_amp->major_grid_color(fl_gray_ramp(15)); spec_amp->label_grid_color(fl_gray_ramp(10)); //spec_amp->grid_visible(CA_MINOR_TICK | CA_MAJOR_TICK | CA_LABEL_GRID | CA_ALWAYS_VISIBLE); spec_amp->grid_visible(CA_LABEL_GRID | CA_ALWAYS_VISIBLE); spec_amp->minor_grid_style(FL_DOT); spec_amp->major_step(5); spec_amp->label_step(1); spec_amp->axis_color(FL_BLACK); spec_amp->current(); c_spec->end(); c_right = new Fl_Group(440, 0, 465, 405); c_can = new Fl_Group(380, 0, 415, 200); c_can->box(FL_DOWN_BOX); c_can->align(FL_ALIGN_TOP | FL_ALIGN_INSIDE); c_can->current(); canvas_can = new Ca_Canvas(460, 35, 300, 100, "??? coefficients"); canvas_can->box(FL_PLASTIC_DOWN_BOX); canvas_can->color(7); canvas_can->align(FL_ALIGN_TOP); Fl_Group::current()->resizable(canvas_can); canvas_can->border(15); can_x = new Ca_X_Axis(465, 135, 290, 30, "Tap"); can_x->align(FL_ALIGN_BOTTOM); can_x->minimum(0.0); can_x->maximum((float) len); can_x->label_format("%g"); can_x->minor_grid_color(fl_gray_ramp(20)); can_x->major_grid_color(fl_gray_ramp(15)); can_x->label_grid_color(fl_gray_ramp(10)); can_x->grid_visible(CA_LABEL_GRID | CA_ALWAYS_VISIBLE); can_x->minor_grid_style(FL_DOT); can_x->major_step(5); can_x->label_step(1); can_x->axis_align(CA_BOTTOM | CA_LINE); can_x->axis_color(FL_BLACK); can_x->current(); can_y = new Ca_Y_Axis(420, 40, 40, 90, "Amp"); can_y->align(FL_ALIGN_LEFT); can_y->minimum(-0.1); can_y->maximum(0.1); can_y->minor_grid_color(fl_gray_ramp(20)); can_y->major_grid_color(fl_gray_ramp(15)); can_y->label_grid_color(fl_gray_ramp(10)); can_y->grid_visible(CA_LABEL_GRID | CA_ALWAYS_VISIBLE); can_y->minor_grid_style(FL_DOT); can_y->major_step(5); can_y->label_step(1); can_y->axis_color(FL_BLACK); can_y->current(); c_can->end(); c_line_model = new Fl_Group(380, 200, 415, 200); c_line_model->box(FL_DOWN_BOX); c_line_model->align(FL_ALIGN_TOP | FL_ALIGN_INSIDE); c_line_model->current(); canvas_line_model = new Ca_Canvas(460, 235, 300, 100, "Line impulse response model"); canvas_line_model->box(FL_PLASTIC_DOWN_BOX); canvas_line_model->color(7); canvas_line_model->align(FL_ALIGN_TOP); Fl_Group::current()->resizable(canvas_line_model); canvas_line_model->border(15); line_model_x = new Ca_X_Axis(465, 335, 290, 30, "Tap"); line_model_x->align(FL_ALIGN_BOTTOM); line_model_x->minimum(0.0); line_model_x->maximum((float) len); line_model_x->label_format("%g"); line_model_x->minor_grid_color(fl_gray_ramp(20)); line_model_x->major_grid_color(fl_gray_ramp(15)); line_model_x->label_grid_color(fl_gray_ramp(10)); line_model_x->grid_visible(CA_LABEL_GRID | CA_ALWAYS_VISIBLE); line_model_x->minor_grid_style(FL_DOT); line_model_x->major_step(5); line_model_x->label_step(1); line_model_x->axis_align(CA_BOTTOM | CA_LINE); line_model_x->axis_color(FL_BLACK); line_model_x->current(); line_model_y = new Ca_Y_Axis(420, 240, 40, 90, "Amp"); line_model_y->align(FL_ALIGN_LEFT); line_model_y->minimum(-0.1); line_model_y->maximum(0.1); line_model_y->minor_grid_color(fl_gray_ramp(20)); line_model_y->major_grid_color(fl_gray_ramp(15)); line_model_y->label_grid_color(fl_gray_ramp(10)); line_model_y->grid_visible(CA_LABEL_GRID | CA_ALWAYS_VISIBLE); line_model_y->minor_grid_style(FL_DOT); line_model_y->major_step(5); line_model_y->label_step(1); line_model_y->axis_color(FL_BLACK); line_model_y->current(); c_line_model->end(); audio_meter = new Fl_Audio_Meter(810, 40, 10, 250, ""); audio_meter->box(FL_PLASTIC_UP_BOX); audio_meter->type(FL_VERT_AUDIO_METER); c_right->end(); Fl_Group::current()->resizable(c_right); w->end(); w->show(); #if defined(HAVE_FFTW3_H) p = fftw_plan_dft_1d(1024, in, out, FFTW_BACKWARD, FFTW_ESTIMATE); for (i = 0; i < 1024; i++) { in[i][0] = 0.0; in[i][1] = 0.0; } #else p = fftw_create_plan(1024, FFTW_BACKWARD, FFTW_ESTIMATE); for (i = 0; i < 1024; i++) { in[i].re = 0.0; in[i].im = 0.0; } #endif in_ptr = 0; Fl::check(); return 0; } /*- End of function --------------------------------------------------------*/ void line_model_monitor_wait_to_end(void) { fd_set rfds; int res; struct timeval tv; fprintf(stderr, "Processing complete. Press the <enter> key to end\n"); do { usleep(100000); Fl::check(); FD_ZERO(&rfds); FD_SET(0, &rfds); tv.tv_usec = 100000; tv.tv_sec = 0; res = select(1, &rfds, NULL, NULL, &tv); } while (res <= 0); } /*- End of function --------------------------------------------------------*/ void line_model_monitor_update_display(void) { Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); Fl::check(); } /*- End of function --------------------------------------------------------*/ #endif /*- End of file ------------------------------------------------------------*/