zed9h · July 17, 2009 03:54
diff --git a/ambient.pl b/ambient.pl
 #!/usr/bin/perl
 use strict;
 use warnings;

 use Math::FFTW;
 use Audio::DSP;
 use Time::HiRes qw(time);

 my $amp = 0xffff;
 my $len = 0xfff;
 my $rate = 48000;
 my $hard = .5; # 0=pink, 1=pink..red

 my $start = time;
 my $epsilon = 0.0001;

 my $dsp = new Audio::DSP(
 	buffer   => $len*2,
 	channels => 1,
 	format   => 16,
 	rate     => $rate,
 );
 $dsp->init() or die $dsp->errstr();


 sub min($$) { $_[0] < $_[1] ? $_[0] : $_[1] }
 sub max($$) { $_[0] > $_[1] ? $_[0] : $_[1] }
 sub clamp($$$) { $_[1] < $_[0] ? $_[0] : $_[1] > $_[2] ? $_[2] : $_[1] }
 for (;;) {
 	my $white = [map {rand($amp-1)-$amp/2} 0..$len];
 	my $coeff = Math::FFTW::fftw_dft_real2complex_1d($white);
 	my $n = scalar(@$coeff)/2;

 	my $t = time;
 	my $pow = (1+$hard/2)+($hard/2)*sin($t/20); # 1=pink, 2=red/brown
 	my $nyquist = $rate/2;
 	my $f = 1;
 	for (3..8) {
 		$f *= .5+.5*abs(sin($t/$_));
 	}
 	my $start_freq = 100 + 400 * $f;
 	my $start_i = int(.99+$n*$start_freq/$nyquist);
 	$start_freq = $start_i/$n*$nyquist;
 	for(my $i=$start_i; $i<$n; $i++) {
 		my $p = $i/($n-1);
 		my $a = $p*$nyquist/$start_freq;
 		my $b = log($a)/log(2);
 		my $c = (2**$b)**$pow;
 		$f = 1./$c;
 		#print "".($p*$nyquist)." $start_freq $a $b $c : $f\n";
 		$coeff->[$i*2+0] *= $f;
 		$coeff->[$i*2+1] *= $f;
 	}

 	for(my $i=1; $i<$n; $i++) {
 		my $p = $i/($n-1);
 		my $f = 1;
 		for (3..8) {
 			$f *= .9+.1*sin($t/$_);
 		}
 		$coeff->[$i*2+0] *= $f;
 		$coeff->[$i*2+1] *= $f;
 	}

 	my $pink = Math::FFTW::fftw_idft_complex2real_1d($coeff);

 	$n = int(.99+$rate*0.001);
 	for(my $i=0; $i<$n; $i++) {
 		my $f = $i/$n;
 		$pink->[ $i] *= $f;
 		$pink->[-$i] *= $f;
 	}

 	$dsp->datacat(pack "s*", @$pink);
 	$dsp->write() or die $dsp->errstr();

 	my $delta = time - $start;
 	my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday) = gmtime($delta);
 	$sec += $delta - int($delta);

 # 	my $n = scalar(@$coeff)/2;
 #  	for(my $i=1; $i<$n; $i+=int($n/60)) {
 # 		printf "%6d %s\n", $i/$n*$nyquist, '#' x int(log(1+sqrt(
 # 				$coeff->[$i*2+0]**2 + 
 # 				$coeff->[$i*2+1]**2 
 # 			))*4);
 # 	}

 	$|=1; 
 #	print "[H[2J";
 	printf "\r";
 	printf "%dd ",    $yday if $yday;
 	printf "%2dh ",   $hour if $hour||$yday;
 	printf "%2dm ",   $min  if $min ||$hour||$yday;
 	printf "%6.3fs ", $sec  if $sec ||$min ||$hour||$yday;


 }
	#!/usr/bin/perl
	use strict;
	use warnings;

	use Math::FFTW;
	use Audio::DSP;
	use Time::HiRes qw(time);

	my $amp = 0xffff;
	my $len = 0xfff;
	my $rate = 48000;
	my $hard = .5; # 0=pink, 1=pink..red

	my $start = time;
	my $epsilon = 0.0001;

	my $dsp = new Audio::DSP(
	buffer => $len*2,
	channels => 1,
	format => 16,
	rate => $rate,
	);
	$dsp->init() or die $dsp->errstr();


	sub min($$) { $_[0] < $_[1] ? $_[0] : $_[1] }
	sub max($$) { $_[0] > $_[1] ? $_[0] : $_[1] }
	sub clamp($$$) { $_[1] < $_[0] ? $_[0] : $_[1] > $_[2] ? $_[2] : $_[1] }
	for (;;) {
	my $white = [map {rand($amp-1)-$amp/2} 0..$len];
	my $coeff = Math::FFTW::fftw_dft_real2complex_1d($white);
	my $n = scalar(@$coeff)/2;

	my $t = time;
	my $pow = (1+$hard/2)+($hard/2)*sin($t/20); # 1=pink, 2=red/brown
	my $nyquist = $rate/2;
	my $f = 1;
	for (3..8) {
	$f = .5+.5abs(sin($t/$_));
	}
	my $start_freq = 100 + 400 * $f;
	my $start_i = int(.99+$n*$start_freq/$nyquist);
	$start_freq = $start_i/$n*$nyquist;
	for(my $i=$start_i; $i<$n; $i++) {
	my $p = $i/($n-1);
	my $a = $p*$nyquist/$start_freq;
	my $b = log($a)/log(2);
	my $c = (2$b)$pow;
	$f = 1./$c;
	#print "".($p*$nyquist)." $start_freq $a $b $c : $f\n";
	$coeff->[$i2+0] = $f;
	$coeff->[$i2+1] = $f;
	}

	for(my $i=1; $i<$n; $i++) {
	my $p = $i/($n-1);
	my $f = 1;
	for (3..8) {
	$f = .9+.1sin($t/$_);
	}
	$coeff->[$i2+0] = $f;
	$coeff->[$i2+1] = $f;
	}

	my $pink = Math::FFTW::fftw_idft_complex2real_1d($coeff);

	$n = int(.99+$rate*0.001);
	for(my $i=0; $i<$n; $i++) {
	my $f = $i/$n;
	$pink->[ $i] *= $f;
	$pink->[-$i] *= $f;
	}

	$dsp->datacat(pack "s*", @$pink);
	$dsp->write() or die $dsp->errstr();

	my $delta = time - $start;
	my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday) = gmtime($delta);
	$sec += $delta - int($delta);

	# my $n = scalar(@$coeff)/2;
	# for(my $i=1; $i<$n; $i+=int($n/60)) {
	# printf "%6d %s\n", $i/$n*$nyquist, '#' x int(log(1+sqrt(
	# $coeff->[$i2+0]*2 +
	# $coeff->[$i2+1]*2
	# ))*4);
	# }

	$\|=1;
	# print "[H[2J";
	printf "\r";
	printf "%dd ", $yday if $yday;
	printf "%2dh ", $hour if $hour\|\|$yday;
	printf "%2dm ", $min if $min \|\|$hour\|\|$yday;
	printf "%6.3fs ", $sec if $sec \|\|$min \|\|$hour\|\|$yday;


	}