ref: 592ed220b384f2ee3c3edc5d7bba93669cf0a0c0
dir: /test/ltest.pl/
#!/usr/bin/perl -w # ltest.pl -- program to help generate response/error graphs for DSP 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 $sox='../src/sox'; my $effect='resample'; #my $effect='resample -qs'; #my $effect='resample -q'; #my $effect='resample -ql'; #my $effect='polyphase -cutoff 0.90'; #my $effect='filter 400-2000'; #my $effect='filter 400-2000 1024'; #my ($rate0,$rate1)=(44100,44100); # sample rates my ($rate0,$rate1)=(8000,22050); # sample rates my $p=400; # silence before/after tonepulse my $attack=4000; my $duration=16000; #my ($rate0,$rate1)=(22050,8000); # sample rates #my $p=1102; # silence before/after tonepulse #my $attack=11025; #my $duration=44100; # parse commandline arguments my $updown = 0; # set to 1 for up/down rate-conversion test my ($model,$t,$rms,$lim)=("./model","sw",11585.2, 0.5); while ($_ = shift @ARGV) { if ($_ eq "-l") { ($model,$t,$rms,$lim)=("./lmodel","sl",759250125.0, 50.0); } elsif ($_ eq "-ud") { $updown=1; } else { unshift @ARGV,$_; last; } } if ($#ARGV >= 0) { $effect="@ARGV"; } my $ratechange=0; if ($effect =~ m{^(rabbit|resample|polyphase|rate)}) { $ratechange=1; } # output a nice header explaining the data if ($ratechange==0) { print("# Testing $sox -c1 -r$rate0 i0.xx.$t j0.xx.$t $effect\n"); } else { print("# Testing $sox -c1 -r$rate0 i*.$t -r$rate1 u*.$t $effect\n"); if ($updown==1) { print("# then back down to $rate0\n"); } } print("# with tone pulses from 0.01 to 0.99 percent of Nyquist\n"); # generate the test data my $f; my %q; my $nyq = ($rate0<=$rate1)? 1.0:($rate1/$rate0); my $l=$attack + $duration + $attack; my $env="$attack:$duration:$attack"; # attack, duration, drop for ($f=0.01; $f<.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 ${p}s}; if ($ratechange==0) { qx{$sox -c1 -r$rate0 i$s.$t -r$rate0 o$s.$t $effect} ; @mod = grep {/v2max/} qx{$model -f$s -e$env $rate0 o$s.$t 2>&1}; } else { qx{$sox -c1 -r$rate0 i$s.$t -r$rate1 u$s.$t $effect 2>/dev/null}; if ($updown) { qx{$sox -c1 -r$rate1 u$s.$t -r$rate0 o$s.$t $effect 2>/dev/null}; @mod = grep {/v2max/} qx{$model -f$s -e$env $rate0:$rate0 o$s.$t 2>&1}; }else{ @mod = grep {/v2max/} qx{$model -f$s -e$env $rate0:$rate1 u$s.$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","u$s.$t","o$s.$t"; } exit 0;