#!/usr/bin/perl -w use strict; require Math::BigInt; my $usage = " $0

<#samples> is one of aiff,wave,wave64,rf64 is 8,16,24,32 is 1-8 is any 32-bit value <#samples> is 0-2^64-1 is one of zero,rand "; die $usage unless @ARGV == 6; my %formats = ( 'aiff'=>1, 'wave'=>1, 'wave64'=>1, 'rf64'=>1 ); my %sampletypes = ( 'zero'=>1, 'rand'=>1 ); my @channelmask = ( 0, 1, 3, 7, 0x33, 0x607, 0x60f, 0, 0 ); #@@@@@@ need proper masks for 7,8 my ($format, $bps, $channels, $samplerate, $samples, $sampletype) = @ARGV; my $bigsamples = new Math::BigInt $samples; die $usage unless defined $formats{$format}; die $usage unless $bps == 8 || $bps == 16 || $bps == 24 || $bps == 32; die $usage unless $channels >= 1 && $channels <= 8; die $usage unless $samplerate >= 0 && $samplerate <= 4294967295; die $usage unless defined $sampletypes{$sampletype}; # convert bits-per-sample to bytes-per-sample $bps /= 8; my $datasize = $samples * $bps * $channels; my $bigdatasize = $bigsamples * $bps * $channels; my $padding = int($bigdatasize & 1); # for aiff/wave/rf64 chunk alignment my $padding8 = 8 - int($bigdatasize & 7); $padding8 = 0 if $padding8 == 8; # for wave64 alignment # wave-ish file needs to be WAVEFORMATEXTENSIBLE? my $wavx = ($format eq 'wave' || $format eq 'wave64' || $format eq 'rf64') && ($channels > 2 || ($bps != 8 && $bps != 16)); # write header if ($format eq 'aiff') { die "sample data too big for format\n" if 46 + $datasize + $padding > 4294967295; # header print "FORM"; print pack('N', 46 + $datasize + $padding); print "AIFF"; # COMM chunk print "COMM"; print pack('N', 18); # chunk size = 18 print pack('n', $channels); print pack('N', $samples); print pack('n', $bps * 8); print pack_sane_extended($samplerate); # SSND header print "SSND"; print pack('N', $datasize + 8); # chunk size print pack('N', 0); # ssnd_offset_size print pack('N', 0); # blocksize } elsif ($format eq 'wave' || $format eq 'wave64' || $format eq 'rf64') { die "sample data too big for format\n" if $format eq 'wave' && ($wavx?60:36) + $datasize + $padding > 4294967295; # header if ($format eq 'wave') { print "RIFF"; # +4 for WAVE # +8+{40,16} for fmt chunk # +8 for data chunk header print pack('V', 4 + 8+($wavx?40:16) + 8 + $datasize + $padding); print "WAVE"; } elsif ($format eq 'wave64') { # RIFF GUID 66666972-912E-11CF-A5D6-28DB04C10000 print "\x72\x69\x66\x66\x2E\x91\xCF\x11\xD6\xA5\x28\xDB\x04\xC1\x00\x00"; # +(16+8) for RIFF GUID + size # +16 for WAVE GUID # +16+8+{40,16} for fmt chunk # +16+8 for data chunk header my $bigriffsize = $bigdatasize + (16+8) + 16 + 16+8+($wavx?40:16) + (16+8) + $padding8; print pack_64('V', $bigriffsize); # WAVE GUID 65766177-ACF3-11D3-8CD1-00C04F8EDB8A print "\x77\x61\x76\x65\xF3\xAC\xD3\x11\xD1\x8C\x00\xC0\x4F\x8E\xDB\x8A"; } else { print "RF64"; print pack('V', 0xffffffff); print "WAVE"; # ds64 chunk print "ds64"; print pack('V', 28); # chunk size # +4 for WAVE # +(8+28) for ds64 chunk # +8+{40,16} for fmt chunk # +8 for data chunk header my $bigriffsize = $bigdatasize + 4 + (8+28) + 8+($wavx?40:16) + 8 + $padding; print pack_64('V', $bigriffsize); print pack_64('V', $bigdatasize); print pack_64('V', $bigsamples); print pack('V', 0); # table size } # fmt chunk if ($format ne 'wave64') { print "fmt "; print pack('V', $wavx?40:16); # chunk size } else { # wave64 # fmt GUID 20746D66-ACF3-11D3-8CD1-00C04F8EDB8A print "\x66\x6D\x74\x20\xF3\xAC\xD3\x11\xD1\x8C\x00\xC0\x4F\x8E\xDB\x8A"; print pack('V', 16+8+($wavx?40:16)); # chunk size (+16+8 for GUID and size fields) print pack('V', 0); # ...is 8 bytes for wave64 } print pack('v', $wavx?65534:1); # compression code print pack('v', $channels); print pack('V', $samplerate); print pack('V', $samplerate * $channels * $bps); print pack('v', $channels * $bps); # block align = channels*((bps+7)/8) print pack('v', $bps * 8); # bits per sample = ((bps+7)/8)*8 if ($wavx) { print pack('v', 22); # cbSize print pack('v', $bps * 8); # validBitsPerSample print pack('V', $channelmask[$channels]); # GUID = {0x00000001, 0x0000, 0x0010, {0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71}} print "\x01\x00\x00\x00\x00\x00\x10\x00\x80\x00\x00\xaa\x00\x38\x9b\x71"; } # data header if ($format ne 'wave64') { print "data"; print pack('V', $format eq 'wave'? $datasize : 0xffffffff); } else { # wave64 # data GUID 61746164-ACF3-11D3-8CD1-00C04F8EDB8A print "\x64\x61\x74\x61\xF3\xAC\xD3\x11\xD1\x8C\x00\xC0\x4F\x8E\xDB\x8A"; print pack_64('V', $bigdatasize+16+8); # +16+8 for GUID and size fields } } else { die; } # write sample data if ($sampletype eq 'zero') { my $chunk = 4096; my $buf = pack("x[".($channels*$bps*$chunk)."]"); for (my $s = $samples; $s > 0; $s -= $chunk) { if ($s < $chunk) { print substr($buf, 0, $channels*$bps*$s); } else { print $buf; } } } elsif ($sampletype eq 'rand') { for (my $s = 0; $s < $samples; $s++) { for (my $c = 0; $c < $channels; $c++) { for (my $b = 0; $b < $bps; $b++) { print pack('C', int(rand(256))); } } } } else { die; } # write padding if ($format eq 'wave64') { print pack("x[$padding8]") if $padding8; } else { print "\x00" if $padding; } exit 0; sub pack_sane_extended { my $val = shift; die unless $val > 0; my $shift; for ($shift = 0; ($val>>(31-$shift)) == 0; ++$shift) { } $val <<= $shift; my $exponent = 63 - ($shift + 32); return pack('nNN', $exponent + 16383, $val, 0); } sub pack_64 { my $c = shift; # 'N' for big-endian, 'V' for little-endian, ala pack() my $v1 = shift; # value, must be Math::BigInt my $v2 = $v1->copy(); if ($c eq 'V') { $v1->band(0xffffffff); $v2->brsft(32); } elsif ($c eq 'N') { $v2->band(0xffffffff); $v1->brsft(32); } else { die; } return pack("$c$c", 0+$v1->bstr(), 0+$v2->bstr()); }