ibxm.ScreamTracker3 Maven / Gradle / Ivy
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package ibxm;
import java.io.*;
public class ScreamTracker3 {
private static final int[] effect_map = new int[] {
0xFF,
0x25, /* A: Set Speed.*/
0x0B, /* B: Pattern Jump.*/
0x0D, /* C: Pattern Break.*/
0x0A, /* D: Volume Slide.*/
0x02, /* E: Portamento Down.*/
0x01, /* F: Portamento Up.*/
0x03, /* G: Tone Portamento.*/
0x04, /* H: Vibrato.*/
0x1D, /* I: Tremor.*/
0x00, /* J: Arpeggio.*/
0x06, /* K: Vibrato + Volume Slide.*/
0x05, /* L: Tone Portamento + Volume Slide.*/
0xFF, /* M: */
0xFF, /* N: */
0x09, /* O: Sample Offset.*/
0xFF, /* P: */
0x1B, /* Q: Retrig + Volume Slide.*/
0x07, /* R: Tremolo.*/
0x0E, /* S: Extended Effects.*/
0x0F, /* T: Set Tempo.*/
0x24, /* U: Fine Vibrato.*/
0x10, /* V: Set Global Volume. */
0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF
};
private static final int[] effect_s_map = new int[] {
0x00, /* 0: Set Filter.*/
0x03, /* 1: Glissando.*/
0x05, /* 2: Set Fine Tune.*/
0x04, /* 3: Set Vibrato Waveform.*/
0x07, /* 4: Set Tremolo Waveform.*/
0xFF, /* 5: */
0xFF, /* 6: */
0xFF, /* 7: */
0x08, /* 8: Set Panning.*/
0xFF, /* 9: */
0x09, /* A: Stereo Control.*/
0x06, /* B: Pattern Loop.*/
0x0C, /* C: Note Cut.*/
0x0D, /* D: Note Delay.*/
0x0E, /* E: Pattern Delay.*/
0x0F /* F: Invert Loop.*/
};
public static boolean is_s3m( byte[] header_96_bytes ) {
String s3m_identifier;
s3m_identifier = ascii_text( header_96_bytes, 44, 4 );
return s3m_identifier.equals( "SCRM" );
}
public static Module load_s3m( byte[] header_96_bytes, DataInput data_input ) throws IOException {
int num_pattern_orders, num_instruments, num_patterns, num_channels;
int flags, tracker_version, master_volume, panning, channel_config, sequence_length;
int instrument_idx, pattern_idx, channel_idx, order_idx, panning_offset;
boolean signed_samples, stereo_mode, default_panning;
int[] channel_map, sequence;
byte[] s3m_file;
Module module;
Instrument instrument;
s3m_file = read_s3m_file( header_96_bytes, data_input );
module = new Module();
module.song_title = ascii_text( s3m_file, 0, 28 );
num_pattern_orders = get_num_pattern_orders( s3m_file );
num_instruments = get_num_instruments( s3m_file );
num_patterns = get_num_patterns( s3m_file );
flags = unsigned_short_le( s3m_file, 38 );
tracker_version = unsigned_short_le( s3m_file, 40 );
if( ( flags & 0x40 ) == 0x40 || tracker_version == 0x1300 ) {
module.fast_volume_slides = true;
}
signed_samples = false;
if( unsigned_short_le( s3m_file, 42 ) == 0x01 ) {
signed_samples = true;
}
module.global_volume = s3m_file[ 48 ] & 0xFF;
module.default_speed = s3m_file[ 49 ] & 0xFF;
module.default_tempo = s3m_file[ 50 ] & 0xFF;
master_volume = s3m_file[ 51 ] & 0x7F;
module.channel_gain = ( master_volume << IBXM.FP_SHIFT ) >> 7;
stereo_mode = ( s3m_file[ 51 ] & 0x80 ) == 0x80;
default_panning = ( s3m_file[ 53 ] & 0xFF ) == 0xFC;
channel_map = new int[ 32 ];
num_channels = 0;
for( channel_idx = 0; channel_idx < 32; channel_idx++ ) {
channel_config = s3m_file[ 64 + channel_idx ] & 0xFF;
channel_map[ channel_idx ] = -1;
if( channel_config < 16 ) {
channel_map[ channel_idx ] = num_channels;
num_channels += 1;
}
}
module.set_num_channels( num_channels );
panning_offset = 96 + num_pattern_orders + num_instruments * 2 + num_patterns * 2;
for( channel_idx = 0; channel_idx < 32; channel_idx++ ) {
channel_config = s3m_file[ 64 + channel_idx ] & 0xFF;
if( channel_map[ channel_idx ] >= 0 ) {
panning = 128;
if( stereo_mode ) {
if( channel_config < 8 ) {
panning = 64;
} else {
panning = 192;
}
}
if( default_panning ) {
flags = s3m_file[ panning_offset + channel_idx ] & 0xFF;
if( ( flags & 0x20 ) == 0x20 ) {
panning = ( flags & 0x0F ) << 4;
}
}
module.set_initial_panning( channel_map[ channel_idx ], panning );
}
}
sequence = read_s3m_sequence( s3m_file );
module.set_sequence_length( sequence.length );
for( order_idx = 0; order_idx < sequence.length; order_idx++ ) {
module.set_sequence( order_idx, sequence[ order_idx ] );
}
module.set_num_instruments( num_instruments );
for( instrument_idx = 0; instrument_idx < num_instruments; instrument_idx++ ) {
instrument = read_s3m_instrument( s3m_file, instrument_idx, signed_samples );
module.set_instrument( instrument_idx + 1, instrument );
}
module.set_num_patterns( num_patterns );
for( pattern_idx = 0; pattern_idx < num_patterns; pattern_idx++ ) {
module.set_pattern( pattern_idx, read_s3m_pattern( s3m_file, pattern_idx, channel_map ) );
}
return module;
}
private static int[] read_s3m_sequence( byte[] s3m_file ) {
int num_pattern_orders, sequence_length;
int sequence_idx, order_idx, pattern_order;
int[] sequence;
num_pattern_orders = get_num_pattern_orders( s3m_file );
sequence_length = 0;
for( order_idx = 0; order_idx < num_pattern_orders; order_idx++ ) {
pattern_order = s3m_file[ 96 + order_idx ] & 0xFF;
if( pattern_order == 255 ) {
break;
} else if( pattern_order < 254 ) {
sequence_length += 1;
}
}
sequence = new int[ sequence_length ];
sequence_idx = 0;
for( order_idx = 0; order_idx < num_pattern_orders; order_idx++ ) {
pattern_order = s3m_file[ 96 + order_idx ] & 0xFF;
if( pattern_order == 255 ) {
break;
} else if( pattern_order < 254 ) {
sequence[ sequence_idx ] = pattern_order;
sequence_idx += 1;
}
}
return sequence;
}
private static Instrument read_s3m_instrument( byte[] s3m_file, int instrument_idx, boolean signed_samples ) {
int instrument_offset;
int sample_data_offset, sample_data_length;
int loop_start, loop_length, sample_idx, amplitude;
Instrument instrument;
Sample sample;
short[] sample_data;
instrument_offset = get_instrument_offset( s3m_file, instrument_idx );
instrument = new Instrument();
instrument.name = ascii_text( s3m_file, instrument_offset + 48, 28 );
sample = new Sample();
if( s3m_file[ instrument_offset ] == 1 ) {
sample_data_length = get_sample_data_length( s3m_file, instrument_offset );
loop_start = unsigned_short_le( s3m_file, instrument_offset + 20 );
loop_length = unsigned_short_le( s3m_file, instrument_offset + 24 ) - loop_start;
sample.volume = s3m_file[ instrument_offset + 28 ] & 0xFF;
if( s3m_file[ instrument_offset + 30 ] != 0 ) {
throw new IllegalArgumentException( "ScreamTracker3: Packed samples not supported!" );
}
if( ( s3m_file[ instrument_offset + 31 ] & 0x01 ) == 0 ) {
loop_length = 0;
}
sample.c2_rate = unsigned_short_le( s3m_file, instrument_offset + 32 );
sample_data = new short[ sample_data_length ];
sample_data_offset = get_sample_data_offset( s3m_file, instrument_offset );
if( signed_samples ) {
for( sample_idx = 0; sample_idx < sample_data_length; sample_idx++ ) {
amplitude = s3m_file[ sample_data_offset + sample_idx ] << 8;
sample_data[ sample_idx ] = ( short ) ( amplitude << 8 );
}
} else {
for( sample_idx = 0; sample_idx < sample_data_length; sample_idx++ ) {
amplitude = ( s3m_file[ sample_data_offset + sample_idx ] & 0xFF ) - 128;
sample_data[ sample_idx ] = ( short ) ( amplitude << 8 );
}
}
sample.set_sample_data( sample_data, loop_start, loop_length, false );
}
instrument.set_num_samples( 1 );
instrument.set_sample( 0, sample );
return instrument;
}
private static Pattern read_s3m_pattern( byte[] s3m_file, int pattern_idx, int[] channel_map ) {
int pattern_offset;
int num_channels, num_notes;
int row_idx, channel_idx, note_idx;
int token, key, volume_column, effect, effect_param;
byte[] pattern_data;
Pattern pattern;
num_channels = 0;
for( channel_idx = 0; channel_idx < 32; channel_idx++ ) {
if( channel_map[ channel_idx ] >= num_channels ) {
num_channels = channel_idx + 1;
}
}
num_notes = num_channels * 64;
pattern_data = new byte[ num_notes * 5 ];
row_idx = 0;
pattern_offset = get_pattern_offset( s3m_file, pattern_idx ) + 2;
while( row_idx < 64 ) {
token = s3m_file[ pattern_offset ] & 0xFF;
pattern_offset += 1;
if( token > 0 ) {
channel_idx = channel_map[ token & 0x1F ];
note_idx = ( num_channels * row_idx + channel_idx ) * 5;
if( ( token & 0x20 ) == 0x20 ) {
/* Key + Instrument.*/
if( channel_idx >= 0 ) {
key = s3m_file[ pattern_offset ] & 0xFF;
if( key == 255 ) {
key = 0;
} else if( key == 254 ) {
key = 97;
} else {
key = ( ( key & 0xF0 ) >> 4 ) * 12 + ( key & 0x0F ) + 1;
while( key > 96 ) {
key = key - 12;
}
}
pattern_data[ note_idx ] = ( byte ) key;
pattern_data[ note_idx + 1 ] = s3m_file[ pattern_offset + 1 ];
}
pattern_offset += 2;
}
if( ( token & 0x40 ) == 0x40 ) {
/* Volume.*/
if( channel_idx >= 0 ) {
volume_column = ( s3m_file[ pattern_offset ] & 0xFF ) + 0x10;
pattern_data[ note_idx + 2 ] = ( byte ) volume_column;
}
pattern_offset += 1;
}
if( ( token & 0x80 ) == 0x80 ) {
/* Effect + Param.*/
if( channel_idx >= 0 ) {
effect = s3m_file[ pattern_offset ] & 0xFF;
effect_param = s3m_file[ pattern_offset + 1 ] & 0xFF;
effect = effect_map[ effect & 0x1F ];
if( effect == 0xFF ) {
effect = 0;
effect_param = 0;
}
if( effect == 0x0E ) {
effect = effect_s_map[ ( effect_param & 0xF0 ) >> 4 ];
effect_param = effect_param & 0x0F;
switch( effect ) {
case 0x08:
effect = 0x08;
effect_param = effect_param << 4;
break;
case 0x09:
effect = 0x08;
if( effect_param > 7 ) {
effect_param -= 8;
} else {
effect_param += 8;
}
break;
case 0xFF:
effect = 0;
effect_param = 0;
break;
default:
effect_param = ( ( effect & 0x0F ) << 4 ) | ( effect_param & 0x0F );
effect = 0x0E;
break;
}
}
pattern_data[ note_idx + 3 ] = ( byte ) effect;
pattern_data[ note_idx + 4 ] = ( byte ) effect_param;
}
pattern_offset += 2;
}
} else {
row_idx += 1;
}
}
pattern = new Pattern();
pattern.num_rows = 64;
pattern.set_pattern_data( pattern_data );
return pattern;
}
private static byte[] read_s3m_file( byte[] header_96_bytes, DataInput data_input ) throws IOException {
int s3m_file_length;
int num_pattern_orders, num_instruments, num_patterns;
int instrument_idx, pattern_idx;
int instrument_offset, sample_data_offset, pattern_offset;
byte[] s3m_file;
if( !is_s3m( header_96_bytes ) ) {
throw new IllegalArgumentException( "ScreamTracker3: Not an S3M file!" );
}
s3m_file = header_96_bytes;
s3m_file_length = header_96_bytes.length;
num_pattern_orders = get_num_pattern_orders( s3m_file );
num_instruments = get_num_instruments( s3m_file );
num_patterns = get_num_patterns( s3m_file );
s3m_file_length += num_pattern_orders;
s3m_file_length += num_instruments * 2;
s3m_file_length += num_patterns * 2;
/* Read enough of file to calculate the length.*/
s3m_file = read_more( s3m_file, s3m_file_length, data_input );
for( instrument_idx = 0; instrument_idx < num_instruments; instrument_idx++ ) {
instrument_offset = get_instrument_offset( s3m_file, instrument_idx );
instrument_offset += 80;
if( instrument_offset > s3m_file_length ) {
s3m_file_length = instrument_offset;
}
}
for( pattern_idx = 0; pattern_idx < num_patterns; pattern_idx++ ) {
pattern_offset = get_pattern_offset( s3m_file, pattern_idx );
pattern_offset += 2;
if( pattern_offset > s3m_file_length ) {
s3m_file_length = pattern_offset;
}
}
s3m_file = read_more( s3m_file, s3m_file_length, data_input );
/* Read rest of file.*/
for( instrument_idx = 0; instrument_idx < num_instruments; instrument_idx++ ) {
instrument_offset = get_instrument_offset( s3m_file, instrument_idx );
sample_data_offset = get_sample_data_offset( s3m_file, instrument_offset );
sample_data_offset += get_sample_data_length( s3m_file, instrument_offset );
if( sample_data_offset > s3m_file_length ) {
s3m_file_length = sample_data_offset;
}
}
for( pattern_idx = 0; pattern_idx < num_patterns; pattern_idx++ ) {
pattern_offset = get_pattern_offset( s3m_file, pattern_idx );
pattern_offset += get_pattern_length( s3m_file, pattern_offset );
pattern_offset += 2;
if( pattern_offset > s3m_file_length ) {
s3m_file_length = pattern_offset;
}
}
s3m_file = read_more( s3m_file, s3m_file_length, data_input );
return s3m_file;
}
private static int get_num_pattern_orders( byte[] s3m_file ) {
int num_pattern_orders;
num_pattern_orders = unsigned_short_le( s3m_file, 32 );
return num_pattern_orders;
}
private static int get_num_instruments( byte[] s3m_file ) {
int num_instruments;
num_instruments = unsigned_short_le( s3m_file, 34 );
return num_instruments;
}
private static int get_num_patterns( byte[] s3m_file ) {
int num_patterns;
num_patterns = unsigned_short_le( s3m_file, 36 );
return num_patterns;
}
private static int get_instrument_offset( byte[] s3m_file, int instrument_idx ) {
int instrument_offset, pointer_offset;
pointer_offset = 96 + get_num_pattern_orders( s3m_file );
instrument_offset = unsigned_short_le( s3m_file, pointer_offset + instrument_idx * 2 ) << 4;
return instrument_offset;
}
private static int get_sample_data_offset( byte[] s3m_file, int instrument_offset ) {
int sample_data_offset;
sample_data_offset = 0;
if( s3m_file[ instrument_offset ] == 1 ) {
sample_data_offset = ( s3m_file[ instrument_offset + 13 ] & 0xFF ) << 20;
sample_data_offset |= unsigned_short_le( s3m_file, instrument_offset + 14 ) << 4;
}
return sample_data_offset;
}
private static int get_sample_data_length( byte[] s3m_file, int instrument_offset ) {
int sample_data_length;
sample_data_length = 0;
if( s3m_file[ instrument_offset ] == 1 ) {
sample_data_length = unsigned_short_le( s3m_file, instrument_offset + 16 );
}
return sample_data_length;
}
private static int get_pattern_offset( byte[] s3m_file, int pattern_idx ) {
int pattern_offset, pointer_offset;
pointer_offset = 96 + get_num_pattern_orders( s3m_file );
pointer_offset += get_num_instruments( s3m_file ) * 2;
pattern_offset = unsigned_short_le( s3m_file, pointer_offset + pattern_idx * 2 ) << 4;
return pattern_offset;
}
private static int get_pattern_length( byte[] s3m_file, int pattern_offset ) {
int pattern_length;
pattern_length = unsigned_short_le( s3m_file, pattern_offset );
return pattern_length;
}
private static byte[] read_more( byte[] old_data, int new_length, DataInput data_input ) throws IOException {
byte[] new_data;
new_data = old_data;
if( new_length > old_data.length ) {
new_data = new byte[ new_length ];
System.arraycopy( old_data, 0, new_data, 0, old_data.length );
try {
data_input.readFully( new_data, old_data.length, new_data.length - old_data.length );
} catch( EOFException e ) {
System.out.println( "ScreamTracker3: Module has been truncated!" );
}
}
return new_data;
}
private static int unsigned_short_le( byte[] buffer, int offset ) {
int value;
value = buffer[ offset ] & 0xFF;
value = value | ( ( buffer[ offset + 1 ] & 0xFF ) << 8 );
return value;
}
private static String ascii_text( byte[] buffer, int offset, int length ) {
int idx, chr;
byte[] string_buffer;
String string;
string_buffer = new byte[ length ];
for( idx = 0; idx < length; idx++ ) {
chr = buffer[ offset + idx ];
if( chr < 32 ) {
chr = 32;
}
string_buffer[ idx ] = ( byte ) chr;
}
try {
string = new String( string_buffer, 0, length, "ISO-8859-1" );
} catch( UnsupportedEncodingException e ) {
string = "";
}
return string;
}
}