EEF instrument generation

master
Ashley N. 2023-08-18 00:55:24 -04:00
parent 01645a02b7
commit 873a08dc00
4 changed files with 222 additions and 20 deletions

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@ -41,7 +41,7 @@ fn run() -> Result<(), Box<dyn Error>> {
SubCommand::with_name( "soundtrack" ) SubCommand::with_name( "soundtrack" )
.about( "Generate an on-console soundtrack from a chiptune tracker module" ) .about( "Generate an on-console soundtrack from a chiptune tracker module" )
.arg_from_usage( "-i, --input=<FILE> 'Specify input module'" ) .arg_from_usage( "-i, --input=<FILE> 'Specify input module'" )
.arg_from_usage( "-o, --output=<FILE> 'Specify output file'") .arg_from_usage( "-o, --output=<FILE> 'Specify output filename (may output multiple files depending on format)'")
.arg( .arg(
Arg::with_name( "TRACKER_FORMAT" ) Arg::with_name( "TRACKER_FORMAT" )
.short( "tf" ) .short( "tf" )

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@ -1,6 +1,6 @@
use std::{error::Error, fs::File, io::Read, convert::TryInto, collections::HashMap}; use std::{error::Error, fs::File, io::Read, convert::TryInto, collections::HashMap, cmp::{min, max}};
use flate2::read::ZlibDecoder; use flate2::read::ZlibDecoder;
use crate::reskit::{utility::{Either, get_string, get_u8, skip, get_u32, get_i8, get_i32, get_u16, get_i16}, soundtrack::types::{SampleRate, SampleFormat, PsgEnvelope}}; use crate::reskit::{utility::{get_string, get_u8, skip, get_u32, get_i8, get_i32, get_u16, get_i16, Ring, arrays_equal}, soundtrack::types::{SampleRate, SampleFormat, PsgEnvelope}};
use super::types::{Sample, Note, PsgSettings}; use super::types::{Sample, Note, PsgSettings};
@ -223,9 +223,10 @@ impl DmfModule {
}; };
println!( "Volume Envelope Size:\t{}", envelope.len() ); println!( "Volume Envelope Size:\t{}", envelope.len() );
println!( "Loop at:\t{:?}", loop_at );
PsgEnvelope { PsgEnvelope {
envelope: Either::Type1( envelope ), envelope,
loop_at, loop_at,
settings: HashMap::new() settings: HashMap::new()
} }
@ -257,9 +258,10 @@ impl DmfModule {
println!( "Arpeggio Envelope Size:\t{}", envelope.len() ); println!( "Arpeggio Envelope Size:\t{}", envelope.len() );
println!( "Arpeggio Macro Fixed:\t{}", settings[ "arpeggio_macro_fixed" ] ); println!( "Arpeggio Macro Fixed:\t{}", settings[ "arpeggio_macro_fixed" ] );
println!( "Loop at:\t{:?}", loop_at );
PsgEnvelope { PsgEnvelope {
envelope: Either::Type2( envelope ), envelope,
loop_at, loop_at,
settings settings
} }
@ -286,9 +288,10 @@ impl DmfModule {
}; };
println!( "Noise Envelope Size:\t{}", envelope.len() ); println!( "Noise Envelope Size:\t{}", envelope.len() );
println!( "Loop at:\t{:?}", loop_at );
PsgEnvelope { PsgEnvelope {
envelope: Either::Type1( envelope ), envelope,
loop_at, loop_at,
settings: HashMap::new() settings: HashMap::new()
} }
@ -315,9 +318,10 @@ impl DmfModule {
}; };
println!( "WavTbl Envelope Size:\t{}\n", envelope.len() ); println!( "WavTbl Envelope Size:\t{}\n", envelope.len() );
println!( "Loop at:\t{:?}", loop_at );
PsgEnvelope { PsgEnvelope {
envelope: Either::Type1( envelope ), envelope,
loop_at, loop_at,
settings: HashMap::new() settings: HashMap::new()
} }
@ -592,9 +596,163 @@ impl DmfModule {
) )
} }
pub fn to_esf( self ) -> Result<Vec<u8>, Box<dyn Error>> { pub fn get_eefs( &self ) -> Result<HashMap<String, Vec<u8>>, Box<dyn Error>> {
let mut eefs: HashMap<String, Vec<u8>> = HashMap::new();
for instrument in &self.instruments {
if let InstrumentType::Psg( settings ) = &instrument.instrument_type {
// Echo uses volume and arpeggio envelopes
// Noise envelopes are usable but cannot be articulated in an instrument.
// For use of the noise envelope, use ESF $0Bnn/$3Bnn and $3Ann in the stream.
// comments using example: 20 vol values, 6 arp values, both repeat from the beginning
// generate the initial portion (always). this is just an expansion
// of the envelopes, without loops, into two Vec<u8>'s.
// 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20
// 01 02 03 04 05 06 -- -- -- -- -- -- -- -- -- -- -- -- -- --
let mut volume_envelope: Vec<u8> = settings.volume.envelope.iter().map( | long | *long as u8 ).collect();
let mut arpeggio_envelope: Vec<i8> = settings.arpeggio.envelope.iter().map( | long | *long as i8 ).collect();
// now take a slice of the repeatable portion of the smaller array,
// and use it to expand the smaller array to the same size as the
// larger array. if there is no repeatable portion, take a one-element
// slice of the last element in the array.
// 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20
// 01 02 03 04 05 06 01 02 03 04 05 06 01 02 03 04 05 06 01 02
let mut volume_repeat_pattern: Ring<u8> = Ring::create(
if let Some( loop_at ) = settings.volume.loop_at {
Vec::from( &volume_envelope[ loop_at.. ] )
} else {
vec![ volume_envelope[ volume_envelope.len() - 1 ] ]
},
None
);
let mut arpeggio_repeat_pattern: Ring<i8> = Ring::create(
if let Some( loop_at ) = settings.arpeggio.loop_at {
Vec::from( &arpeggio_envelope[ loop_at.. ] )
} else {
vec![ arpeggio_envelope[ arpeggio_envelope.len() - 1 ] ]
},
None
);
if volume_envelope.len() < arpeggio_envelope.len() {
let difference = arpeggio_envelope.len() - volume_envelope.len();
for _ in 0..difference {
volume_envelope.push(
volume_repeat_pattern.next().expect( "fatal: internal error (volume_repeat_pattern)" )
);
}
} else if arpeggio_envelope.len() < volume_envelope.len() {
let difference = volume_envelope.len() - arpeggio_envelope.len();
for _ in 0..difference {
arpeggio_envelope.push(
arpeggio_repeat_pattern.next().expect( "fatal: internal error (arpeggio_repeat_pattern)" )
);
}
}
let interval_size = max( volume_repeat_pattern.len(), arpeggio_repeat_pattern.len() );
// now, you generate the repeating portion using the two repeat_pattern iterators.
// each segment at a time is generated by the size of the larger array.
// generate it until the first repeat pattern is regenerated.
// 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 .. (volume repeats from beginning)
// 03 04 05 06 01 02 03 04 05 06 01 02 03 04 05 06 01 02 03 04 .. (arpeggio repeats up from where it left off)
// 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 ..
// 05 06 01 02 03 04 05 06 01 02 03 04 05 06 01 02 03 04 05 06 ..
// 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 ..
// 01 02 03 04 05 06 01 02 03 04 05 06 01 02 03 04 05 06 01 02 ..
let mut volume_repeat: Vec<u8> = Vec::new();
let mut arpeggio_repeat: Vec<i8> = Vec::new();
let mut initial_volume_repeat: Vec<u8> = Vec::new();
let mut initial_arpeggio_repeat: Vec<i8> = Vec::new();
for _ in 0..interval_size {
initial_volume_repeat.push( volume_repeat_pattern.next().expect( "fatal: internal error (volume_repeat_pattern)" ) );
initial_arpeggio_repeat.push( arpeggio_repeat_pattern.next().expect( "fatal: internal error (arpeggio_repeat_pattern)" ) );
}
volume_repeat.append( &mut initial_volume_repeat );
arpeggio_repeat.append( &mut initial_arpeggio_repeat );
loop {
// Guard against OOM
if volume_repeat.len() > 65535 {
return Err( "eef error: psg instrument repeat period too long (try modifying repeating envelopes to have evenly-divisible parameters)" )?
}
let mut volume_repeat_period: Vec<u8> = Vec::new();
let mut arpeggio_repeat_period: Vec<i8> = Vec::new();
for _ in 0..interval_size {
volume_repeat_period.push( volume_repeat_pattern.next().expect( "fatal: internal error (volume_repeat_pattern)" ) );
arpeggio_repeat_period.push( arpeggio_repeat_pattern.next().expect( "fatal: internal error (arpeggio_repeat_pattern)" ) );
}
// End loop once the pattern begins repeating
if arrays_equal( &initial_volume_repeat, &volume_repeat_period ) && arrays_equal( &initial_arpeggio_repeat, &arpeggio_repeat_period ) {
break;
} else {
// If it doesn't repeat, append and generate another period
volume_repeat.append( &mut volume_repeat_period );
arpeggio_repeat.append( &mut arpeggio_repeat_period );
}
}
// Now generate the Echo EEF envelope from volume_envelope/volume_repeat + arpeggio_envelope/arpeggio_repeat
let mut envelope: Vec<u8> = Vec::new();
for i in 0..volume_envelope.len() {
envelope.push( get_eef_volume( volume_envelope[ i ] )? | get_eef_shift( arpeggio_envelope[ i ] )? );
}
// Echo begin loop command
envelope.push( 0xFE );
for i in 0..volume_repeat.len() {
envelope.push( get_eef_volume( volume_repeat[ i ] )? | get_eef_shift( arpeggio_repeat[ i ] )? );
}
// Echo end loop command
envelope.push( 0xFF );
eefs.insert( instrument.name.clone(), envelope );
}
}
Ok( eefs )
}
pub fn get_esf( &self ) -> Result<Vec<u8>, Box<dyn Error>> {
// TODO !! // TODO !!
todo!() todo!()
} }
} }
fn get_eef_volume( dmf_volume: u8 ) -> Result<u8, Box<dyn Error>> {
Ok( max( dmf_volume, 0x0F ) )
}
fn get_eef_shift( dmf_shift: i8 ) -> Result<u8, Box<dyn Error>> {
// Clamp to [-12, 12]
let as_i8: i8 = max( -12, min( dmf_shift, 12 ) );
Ok(
match as_i8 {
0 => 0x00,
1 => 0x10, -1 => 0x80,
2 => 0x20, -2 => 0x90,
3 => 0x30, -3 => 0xA0,
4 => 0x40, -4 => 0xB0,
5 | 6 => 0x50, -5 | -6 => 0xC0,
7 | 8 => 0x60, -7 | -8 => 0xD0,
9 | 10 | 11 | 12 => 0x70, -9 | -10 | -11 | -12 => 0xE0,
_ => return Err( "internal error: arpeggio shift out of defined range" )?
}
)
}

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@ -1,22 +1,20 @@
use std::collections::HashMap; use std::collections::HashMap;
use crate::reskit::utility::Either;
#[derive(Debug)] #[derive(Debug)]
pub struct PsgEnvelope { pub struct PsgEnvelope< DataFormat > {
pub envelope: Either<Vec<u32>, Vec<i32>>, pub envelope: Vec<DataFormat>,
pub loop_at: Option<usize>, pub loop_at: Option<usize>,
pub settings: HashMap<&'static str, bool> pub settings: HashMap<&'static str, bool>
} }
#[derive(Debug)] #[derive(Debug)]
pub struct PsgSettings { pub struct PsgSettings {
pub volume: PsgEnvelope, pub volume: PsgEnvelope< u32 >,
pub arpeggio: PsgEnvelope, pub arpeggio: PsgEnvelope< i32 >,
pub noise: PsgEnvelope, pub noise: PsgEnvelope< u32 >,
pub wavetable: PsgEnvelope pub wavetable: PsgEnvelope< u32 >
} }
#[derive(Debug)] #[derive(Debug)]
pub enum SampleRate { pub enum SampleRate {
Hz8000, Hz8000,

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@ -1,10 +1,56 @@
use std::{slice::Iter, error::Error, str::from_utf8, convert::TryInto}; use std::{slice::Iter, error::Error, str::from_utf8, convert::TryInto};
pub struct Ring< Type: Copy >{
data: Vec< Type >,
position: usize
}
#[derive(Debug)] impl< Type: Copy > Ring< Type > {
pub enum Either< Type1, Type2 > {
Type1( Type1 ), pub fn create( data: Vec< Type >, start_position: Option<usize> ) -> Ring< Type > {
Type2( Type2 ) Ring {
data,
position: if let Some( position ) = start_position {
position
} else {
0
}
}
}
pub fn len( &self ) -> usize {
self.data.len()
}
}
impl< Type: Copy > Iterator for Ring< Type > {
type Item = Type;
fn next( &mut self ) -> Option< Self::Item > {
let item = self.data[ self.position % self.data.len() ];
self.position += 1;
Some( item )
}
}
pub fn arrays_equal< Type: PartialEq >( array1: &Vec<Type>, array2: &Vec<Type> ) -> bool {
if array1.len() != array2.len() {
return false
}
for i1 in 0..array1.len() {
for i2 in 0..array2.len() {
if array1[ i1 ] != array2[ i2 ] {
return false
}
}
}
true
} }
pub fn print_error( error_msg: &str ) { pub fn print_error( error_msg: &str ) {