shithub: sox

ref: 202042e2d8936d3daebfcef88f2f86806f2f9c43
dir: /test/wtest.pl/

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#!/usr/bin/perl -w

# wtest.pl -- program to help generate response/error graphs for adpcm/gsm code.
#
# Copyright (C) 1999 Stanley J. Brooks <stabro@megsinet.net> 
#
# This program 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 of the License, or
# (at your option) any later version.
#
# 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., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

use strict;
$|=1;

# set default values
my $toast='/usr/bin/toast';
my $sox='../sox';
my $fmt='';

my $rate=8000; # sample rates
my $p=200;  # silence before/after tonepulse
my $attack=400;
my $duration=800;

my ($ding,$model,$t,$rms,$lim)=("./ding","./model","sw",11585.2, 0.5);

my $effect=''; # you may want to try a filter

# parse commandline arguments
while ($_ = shift @ARGV) {
  if (m{^-[tgai]$}) {
    $fmt=$_;
  } else {
    unshift @ARGV,$_;
    last;
  }
}
if ($#ARGV >= 0) {
  $effect="@ARGV";
}

my $env="$attack:$duration:$attack"; # attack, duration, drop

# output a nice header explaining the data 
print("# Testing gsm compress/decompress ");
if ($fmt eq '-t') {
  print("by $toast\n");
}else{
  print("by $sox -r$rate in.sw $fmt out.wav $effect\n");
}
print("#   with tone pulses from 0.01 to 0.99 percent of Nyquist\n");
print("#   col 1 is frequency/Nyquist\n");
print("#   col 2 is (power) dB gain\n");
print("#   col 3 is (power) dB level of error signal\n");
print("#\n#freq dB-gain dB-error\n");

# generate the test data
my $f;
my %q;
my $nyq = 1.0; 
my $l=$attack + $duration + $attack;
for ($f=0.01; $f<0.999; $f+=0.01) {
  my @mod;

  my $s=sprintf("%4.2f",$f);
  qx{$sox -2r2 -n i$s.$t synth ${l}s sin $s vol .5 fade h ${attack}s ${l}s ${attack}s pad ${p}s ${p}s};

  if ($fmt eq '-t') {
    qx{$toast -l i$s.$t};
    qx{$toast -dl i$s.$t.gsm};
  }else{
    qx{cp i$s.$t a$s.$t 2>/dev/null};
    qx{$sox -r$rate i$s.$t -g g$s.wav $effect 2>/dev/null};
    unlink "i$s.$t";
    qx{$sox g$s.wav i$s.$t 2>/dev/null};
    qx{cp i$s.$t b$s.$t 2>/dev/null};
    unlink "g$s.wav";
  }

  @mod = grep {/v2max/} qx{$model -f$s -e$env $rate i$s.$t 2>&1};
  print STDERR "$s: ",@mod;
  $_=shift(@mod);
  if (m{s2max *([0-9.]+), *v2max *([0-9.]+), *rmserr *(-?[0-9.]+)}) {
    #print("$s $1\n");
    #print("$s $1 $3\n");
    my $v = ($1 > $lim)? $1 : $lim;
    my $r = ($3 > $lim)? $3 : $lim;
    my $dbv = 20*log($v/$rms)/log(10);
    my $dbr = 20*log($r/$rms)/log(10);
    printf("%s %.3f %.3f\n",$s,$dbv,$dbr);
  }
  unlink "i$s.$t";
}
print("#freq dB-gain dB-error\n");
exit 0;