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compare: bel:beb6595f426b2873112a950ab737ddfcffcb262f
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bel:main

2 Commits
ec7a6f4e77 ... beb6595f42

Author SHA1 Message Date
Bel LaPointe
beb6595f42 reststs AND rustfmt changed whitespace 2026-03-11 15:32:22 -06:00
Bel LaPointe
a2a5465fb0 rustfmt 2026-03-11 15:32:02 -06:00
4 changed files with 284 additions and 275 deletions
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4
src/main.rs
View File

@@ -1,9 +1,9 @@
use itertools::Itertools;
mod flags;
mod seq;
mod syn;
mod tone;
mod seq;
fn main() {
let flags = flags::Flags::new();
@@ -15,7 +15,7 @@ fn main() {
));
syn_seq.append(1, "3c1");
if let Some(play) = flags.play {
syn_seq.append(0, play);
syn_seq.append(0, play);
}
play(syn_seq, flags.sample_rate, flags.bpm);

241
src/seq.rs
View File

@@ -1,159 +1,160 @@
use crate::tone;
use crate::syn;
use crate::tone;
pub struct SynSeq {
seqs: std::collections::HashMap<i32, Seq>,
syn: syn::Syn,
seqs: std::collections::HashMap<i32, Seq>,
syn: syn::Syn,
}
pub fn new_syn(syn: syn::Syn) -> SynSeq {
SynSeq{
seqs: std::collections::HashMap::new(),
syn: syn,
}
SynSeq {
seqs: std::collections::HashMap::new(),
syn: syn,
}
}
impl SynSeq {
pub fn append<S: ToString>(&mut self, ch: i32, s: S) {
match self.seqs.get_mut(&ch) {
Some(seq) => seq.append(s),
None => {
let mut seq = new();
seq.append(s);
self.seqs.insert(ch, seq);
},
};
}
pub fn append<S: ToString>(&mut self, ch: i32, s: S) {
match self.seqs.get_mut(&ch) {
Some(seq) => seq.append(s),
None => {
let mut seq = new();
seq.append(s);
self.seqs.insert(ch, seq);
}
};
}
pub fn render(&mut self, left: &mut [f32], right: &mut [f32]) {
for (ch, seq) in self.seqs.iter_mut() {
let ch = ch.clone();
match seq.pop() {
(Some(tone), changed) if changed => {
self.syn.set(ch, Some(tone.clone()))
},
(None, changed) if changed => {
self.syn.set(ch, None);
},
_ => {},
};
}
self.syn.render(left, right);
}
pub fn render(&mut self, left: &mut [f32], right: &mut [f32]) {
for (ch, seq) in self.seqs.iter_mut() {
let ch = ch.clone();
match seq.pop() {
(Some(tone), changed) if changed => self.syn.set(ch, Some(tone.clone())),
(None, changed) if changed => {
self.syn.set(ch, None);
}
_ => {}
};
}
self.syn.render(left, right);
}
pub fn beats(&self) -> usize {
let mut longest = 0 as usize;
for (_, seq) in self.seqs.iter() {
longest = if seq.len() > longest {
seq.len()
} else {
longest
};
}
longest
}
pub fn beats(&self) -> usize {
let mut longest = 0 as usize;
for (_, seq) in self.seqs.iter() {
longest = if seq.len() > longest {
seq.len()
} else {
longest
};
}
longest
}
}
#[derive(PartialEq)]
pub struct Seq {
beats: Vec<(usize, tone::Tone)>,
state: Option<tone::Tone>,
beats: Vec<(usize, tone::Tone)>,
state: Option<tone::Tone>,
}
fn new() -> Seq {
Seq::new()
Seq::new()
}
impl Seq {
fn new() -> Seq {
Seq{
beats: vec![],
state: None,
}
}
fn new() -> Seq {
Seq {
beats: vec![],
state: None,
}
}
fn len(&self) -> usize {
let mut sum = 0 as usize;
for beat in self.beats.iter() {
sum += beat.0 as usize;
}
sum
}
fn len(&self) -> usize {
let mut sum = 0 as usize;
for beat in self.beats.iter() {
sum += beat.0 as usize;
}
sum
}
fn pop(&mut self) -> (Option<tone::Tone>, bool) {
let state_before = self.state.clone();
let tone_after = self._pop();
if state_before != tone_after {
self.state = tone_after.clone();
}
(tone_after, self.state != state_before)
}
fn pop(&mut self) -> (Option<tone::Tone>, bool) {
let state_before = self.state.clone();
let tone_after = self._pop();
if state_before != tone_after {
self.state = tone_after.clone();
}
(tone_after, self.state != state_before)
}
fn _pop(&mut self) -> Option<tone::Tone> {
match self.beats.len() {
0 => None,
_ => match self.beats[0].0 {
1 => Some(self.beats.remove(0).1),
_ => {
self.beats[0].0 -= 1;
Some(self.beats[0].1.clone())
fn _pop(&mut self) -> Option<tone::Tone> {
match self.beats.len() {
0 => None,
_ => match self.beats[0].0 {
1 => Some(self.beats.remove(0).1),
_ => {
self.beats[0].0 -= 1;
Some(self.beats[0].1.clone())
}
},
},
}
}
}
}
fn append<S: ToString>(&mut self, s: S) {
let s: String = s.to_string();
let s: &str = s.as_ref();
for split in s.split_whitespace() {
self.append_one(split.to_string());
}
}
fn append<S: ToString>(&mut self, s: S) {
let s: String = s.to_string();
let s: &str = s.as_ref();
for split in s.split_whitespace() {
self.append_one(split.to_string());
}
}
fn append_one(&mut self, s: String) {
let re = regex::Regex::new(r"^(?<count>[0-9]*)(?<tone>.*)$").unwrap();
let captures = re.captures(&s).unwrap();
fn append_one(&mut self, s: String) {
let re = regex::Regex::new(r"^(?<count>[0-9]*)(?<tone>.*)$").unwrap();
let captures = re.captures(&s).unwrap();
let n = match captures.name("count") {
Some(number) if number.as_str().len() > 0 => number.as_str().parse::<usize>().unwrap(),
_ => 1,
} as usize;
let n = match captures.name("count") {
Some(number) if number.as_str().len() > 0 => number.as_str().parse::<usize>().unwrap(),
_ => 1,
} as usize;
let tone = tone::new(captures.name("tone").unwrap().as_str());
self.beats.push((n, tone));
}
let tone = tone::new(captures.name("tone").unwrap().as_str());
self.beats.push((n, tone));
}
}
#[cfg(test)]
mod test {
use super::*;
use super::*;
#[test]
fn test_seq() {
let mut seq = new();
#[test]
fn test_seq() {
let mut seq = new();
seq.append("c");
seq.append("4d");
seq.append("2-");
seq.append("g 2e");
seq.append("c");
seq.append("4d");
seq.append("2-");
seq.append("g 2e");
assert_eq!(seq.beats.len(), 5);
assert_eq!(seq.len(), 10);
assert_eq!(seq.beats.len(), 5);
assert_eq!(seq.len(), 10);
assert_eq!(seq.beats[0], (1 as usize, tone::new("c")));
assert_eq!(seq.beats[1], (4 as usize, tone::new("d")));
assert_eq!(seq.beats[2], (1 as usize, tone::new("g")));
assert_eq!(seq.beats[3], (2 as usize, tone::new("e")));
assert_eq!(seq.beats[0], (1 as usize, tone::new("c")));
assert_eq!(seq.beats[1], (4 as usize, tone::new("d")));
assert_eq!(seq.beats[2], (2 as usize, tone::new("!")));
assert_eq!(seq.beats[3], (1 as usize, tone::new("g")));
assert_eq!(seq.beats[4], (2 as usize, tone::new("e")));
assert_eq!(seq.pop(), (Some(tone::new("c")), true));
assert_eq!(seq.pop(), (Some(tone::new("d")), true));
for _ in 1..4 {
assert_eq!(seq.pop(), (Some(tone::new("d")), false));
}
assert_eq!(seq.pop(), (Some(tone::new("g")), true));
assert_eq!(seq.pop(), (Some(tone::new("e")), true));
assert_eq!(seq.pop(), (Some(tone::new("e")), false));
assert_eq!(seq.pop(), (None, true));
assert_eq!(seq.pop(), (None, false));
}
assert_eq!(seq.pop(), (Some(tone::new("c")), true));
assert_eq!(seq.pop(), (Some(tone::new("d")), true));
for _ in 1..4 {
assert_eq!(seq.pop(), (Some(tone::new("d")), false));
}
assert_eq!(seq.pop(), (Some(tone::new(".")), true));
assert_eq!(seq.pop(), (Some(tone::new("?")), false));
assert_eq!(seq.pop(), (Some(tone::new("g")), true));
assert_eq!(seq.pop(), (Some(tone::new("e")), true));
assert_eq!(seq.pop(), (Some(tone::new("e")), false));
assert_eq!(seq.pop(), (None, true));
assert_eq!(seq.pop(), (None, false));
}
}

192
src/syn.rs
View File

@@ -1,123 +1,129 @@
use rustysynth::Synthesizer;
use rustysynth::SoundFont;
use rustysynth::Synthesizer;
use rustysynth::SynthesizerSettings;
use std::sync::Arc;
use crate::tone;
pub enum Syn {
Real(Synthesizer),
Text{
m: std::collections::HashMap<i32, std::collections::HashMap<i32, i32>>,
i: u32,
},
Real(Synthesizer),
Text {
m: std::collections::HashMap<i32, std::collections::HashMap<i32, i32>>,
i: u32,
},
}
impl Syn {
pub fn new(debug: bool, sound_font: String, sample_rate: usize) -> Syn {
match debug {
false => Syn::new_real(sound_font, sample_rate),
true => Syn::Text{m: std::collections::HashMap::new(), i: 0},
}
}
pub fn new(debug: bool, sound_font: String, sample_rate: usize) -> Syn {
match debug {
false => Syn::new_real(sound_font, sample_rate),
true => Syn::Text {
m: std::collections::HashMap::new(),
i: 0,
},
}
}
fn new_real(sound_font: String, sample_rate: usize) -> Syn {
let mut sf2 = std::fs::File::open(sound_font).unwrap();
let sound_font = Arc::new(SoundFont::new(&mut sf2).unwrap());
fn new_real(sound_font: String, sample_rate: usize) -> Syn {
let mut sf2 = std::fs::File::open(sound_font).unwrap();
let sound_font = Arc::new(SoundFont::new(&mut sf2).unwrap());
let settings = SynthesizerSettings::new(sample_rate as i32);
let settings = SynthesizerSettings::new(sample_rate as i32);
let synthesizer = Synthesizer::new(&sound_font, &settings).unwrap();
Syn::Real(synthesizer)
}
let synthesizer = Synthesizer::new(&sound_font, &settings).unwrap();
Syn::Real(synthesizer)
}
pub fn set(&mut self, ch: i32, b: Option<tone::Tone>) {
match self {
// channel=[0..16)
// velocity=[0..128)
Syn::Real(syn) => {
syn.note_off_all_channel(ch, false);
},
Syn::Text{m, ..} => {
m.remove(&ch);
},
};
if let Some(tone) = b {
self.tone_on(ch, tone);
};
}
pub fn set(&mut self, ch: i32, b: Option<tone::Tone>) {
match self {
// channel=[0..16)
// velocity=[0..128)
Syn::Real(syn) => {
syn.note_off_all_channel(ch, false);
}
Syn::Text { m, .. } => {
m.remove(&ch);
}
};
if let Some(tone) = b {
self.tone_on(ch, tone);
};
}
fn tone_on(&mut self, ch: i32, b: tone::Tone) {
match self {
// channel=[0..16)
// velocity=[0..128)
Syn::Real(syn) => syn.note_on(ch, b.i32(), 127),
Syn::Text{m, ..} => {
match m.get_mut(&ch) {
Some(m2) => { m2.insert(b.i32(), 127); },
None => {
let mut m2 = std::collections::HashMap::new();
m2.insert(b.i32(), 127);
m.insert(ch, m2);
},
};
},
};
}
fn tone_on(&mut self, ch: i32, b: tone::Tone) {
match self {
// channel=[0..16)
// velocity=[0..128)
Syn::Real(syn) => syn.note_on(ch, b.i32(), 127),
Syn::Text { m, .. } => {
match m.get_mut(&ch) {
Some(m2) => {
m2.insert(b.i32(), 127);
}
None => {
let mut m2 = std::collections::HashMap::new();
m2.insert(b.i32(), 127);
m.insert(ch, m2);
}
};
}
};
}
fn tone_off(&mut self, ch: i32, b: tone::Tone) {
match self {
Syn::Real(syn) => syn.note_off(ch, b.i32()),
Syn::Text{m, ..} => {
match m.get_mut(&ch) {
Some(m) => { m.remove(&b.i32()); },
None => {},
};
fn tone_off(&mut self, ch: i32, b: tone::Tone) {
match self {
Syn::Real(syn) => syn.note_off(ch, b.i32()),
Syn::Text { m, .. } => {
match m.get_mut(&ch) {
Some(m) => {
m.remove(&b.i32());
}
None => {}
};
}
};
}
},
};
}
pub fn render(&mut self, a: &mut [f32], b: &mut [f32]) {
match self {
Syn::Real(syn) => syn.render(a, b),
Syn::Text{m, i} => {
eprintln!("{} | render[{}]({:?})", chrono::prelude::Utc::now(), i, m);
*i += 1;
},
};
}
pub fn render(&mut self, a: &mut [f32], b: &mut [f32]) {
match self {
Syn::Real(syn) => syn.render(a, b),
Syn::Text { m, i } => {
eprintln!("{} | render[{}]({:?})", chrono::prelude::Utc::now(), i, m);
*i += 1;
}
};
}
}
#[cfg(test)]
mod test {
use super::*;
use super::*;
#[test]
fn test_new_real() {
let mut syn = Syn::new(false, "super_small_font.sf2".to_string(), 44100);
#[test]
fn test_new_real() {
let mut syn = Syn::new(false, "super_small_font.sf2".to_string(), 44100);
syn.tone_on(0, tone::new("c"));
syn.tone_on(0, tone::new("d"));
syn.tone_on(0, tone::new("c"));
syn.tone_on(0, tone::new("d"));
syn.tone_off(0, tone::new("d"));
syn.tone_off(0, tone::new("d"));
let mut buffer1 = Vec::<f32>::new();
let mut buffer2 = Vec::<f32>::new();
syn.render(&mut buffer1, &mut buffer2);
}
let mut buffer1 = Vec::<f32>::new();
let mut buffer2 = Vec::<f32>::new();
syn.render(&mut buffer1, &mut buffer2);
}
#[test]
fn test_text() {
let mut syn = Syn::new(true, ".sf2".to_string(), 1);
#[test]
fn test_text() {
let mut syn = Syn::new(true, ".sf2".to_string(), 1);
syn.tone_on(0, tone::new("c"));
syn.tone_on(0, tone::new("d"));
syn.tone_on(0, tone::new("c"));
syn.tone_on(0, tone::new("d"));
syn.tone_off(0, tone::new("d"));
syn.tone_off(0, tone::new("d"));
let mut buffer1 = Vec::<f32>::new();
let mut buffer2 = Vec::<f32>::new();
syn.render(&mut buffer1, &mut buffer2);
}
let mut buffer1 = Vec::<f32>::new();
let mut buffer2 = Vec::<f32>::new();
syn.render(&mut buffer1, &mut buffer2);
}
}

122
src/tone.rs
View File

@@ -3,81 +3,83 @@ pub struct Tone(i32);
// new parses [a-g][+-]?[1-5]? to tone, sharp or flat, down 2 octave..up 1 octave
pub fn new<S: ToString>(s: S) -> Tone {
Tone::new(s.to_string())
Tone::new(s.to_string())
}
impl Tone {
fn new(s: String) -> Tone {
let re = regex::Regex::new(r"^((?<letter>^[a-g])(?<sharpness>[+-]?)(?<octave>[1-5]?)|(?<numeric>[0-9]+)|(?<rest>[^a-zA-Z0-9]))$").unwrap();
let captures = re.captures(&s).expect(format!("tone '{}' does not match regex", s).as_ref());
Tone (match captures.name("numeric") {
Some(number) => number.as_str().parse::<i32>().unwrap(),
None => match captures.name("rest") {
Some(_) => 0,
_ => {
let mut result = match captures.name("letter").unwrap().as_str() {
"a" => 57,
"b" => 59,
"c" => 60,
"d" => 62,
"e" => 64,
"f" => 65,
_ => 67,
} as i32;
fn new(s: String) -> Tone {
let re = regex::Regex::new(r"^((?<letter>^[a-g])(?<sharpness>[+-]?)(?<octave>[1-5]?)|(?<numeric>[0-9]+)|(?<rest>[^a-zA-Z0-9]))$").unwrap();
let captures = re
.captures(&s)
.expect(format!("tone '{}' does not match regex", s).as_ref());
Tone(match captures.name("numeric") {
Some(number) => number.as_str().parse::<i32>().unwrap(),
None => match captures.name("rest") {
Some(_) => 0,
_ => {
let mut result = match captures.name("letter").unwrap().as_str() {
"a" => 57,
"b" => 59,
"c" => 60,
"d" => 62,
"e" => 64,
"f" => 65,
_ => 67,
} as i32;
result += match captures.name("sharpness") {
Some(sharpness) => match sharpness.as_str() {
"+" => 1,
"-" => -1,
_ => 0,
},
None => 0,
} as i32;
result += match captures.name("sharpness") {
Some(sharpness) => match sharpness.as_str() {
"+" => 1,
"-" => -1,
_ => 0,
},
None => 0,
} as i32;
result += match captures.name("octave") {
Some(octave) => match octave.as_str() {
"" => 0,
_ => (octave.as_str().parse::<i32>().unwrap() - 3) * 12,
},
None => 0,
} as i32;
result += match captures.name("octave") {
Some(octave) => match octave.as_str() {
"" => 0,
_ => (octave.as_str().parse::<i32>().unwrap() - 3) * 12,
},
None => 0,
} as i32;
result
result
}
},
},
})
}
})
}
pub fn i32(&self) -> i32 {
self.0
}
pub fn i32(&self) -> i32 {
self.0
}
}
#[cfg(test)]
mod test {
#[test]
fn test_tone_new() {
eprintln!("numeric");
assert_eq!(super::new("60").i32(), 60);
#[test]
fn test_tone_new() {
eprintln!("numeric");
assert_eq!(super::new("60").i32(), 60);
eprintln!("rests");
assert_eq!(super::new("-").i32(), 0);
assert_eq!(super::new(".").i32(), 0);
eprintln!("rests");
assert_eq!(super::new("-").i32(), 0);
assert_eq!(super::new(".").i32(), 0);
eprintln!("alpha");
assert_eq!(super::new("c").i32(), 60);
assert_eq!(super::new("e").i32(), 64);
assert_eq!(super::new("g").i32(), 67);
eprintln!("alpha");
assert_eq!(super::new("c").i32(), 60);
assert_eq!(super::new("e").i32(), 64);
assert_eq!(super::new("g").i32(), 67);
eprintln!("alpha mod");
assert_eq!(super::new("c+").i32(), 60+1);
assert_eq!(super::new("c-").i32(), 60-1);
eprintln!("alpha mod");
assert_eq!(super::new("c+").i32(), 60 + 1);
assert_eq!(super::new("c-").i32(), 60 - 1);
eprintln!("alpha octave");
assert_eq!(super::new("c3").i32(), 60);
assert_eq!(super::new("c4").i32(), 60+12);
eprintln!("alpha octave");
assert_eq!(super::new("c3").i32(), 60);
assert_eq!(super::new("c4").i32(), 60 + 12);
eprintln!("alpha mod octave");
assert_eq!(super::new("c+4").i32(), 60+12+1);
}
eprintln!("alpha mod octave");
assert_eq!(super::new("c+4").i32(), 60 + 12 + 1);
}
}