mirror of
https://github.com/dredozubov/polyrhythmix.git
synced 2024-11-25 13:27:43 +00:00
WIP
This commit is contained in:
parent
b89debcbd7
commit
9ad78242c5
2 changed files with 239 additions and 162 deletions
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@ -54,8 +54,6 @@ fn validate_and_parse_part(
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None => {}
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Some(pattern) => match dsl::groups(pattern.as_str()) {
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Ok((_, groups)) => {
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println!("{:?}: {:?}", part, groups);
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// println!("group to 128th: {}", group.to_128th());
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patterns.insert(part, groups);
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}
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Err(_) => {
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399
src/midi/core.rs
399
src/midi/core.rs
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@ -1,10 +1,9 @@
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extern crate derive_more;
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use std::cmp::Ordering;
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use std::cmp::Ordering::*;
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use std::collections::BTreeMap
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;
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use std::collections::BTreeMap;
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use std::iter::Peekable;
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use std::ops::{Add, Mul};
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use std::ops::{Add, Mul, Sub};
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use std::str::FromStr;
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use midly::{
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@ -13,8 +12,8 @@ use midly::{
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use midly::{MetaMessage, TrackEvent};
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use crate::dsl::dsl::{
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group_or_delimited_group, groups, BasicLength, Group, GroupOrNote, Groups, KnownLength, Length,
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ModdedLength, Note, Times, flatten_group,
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flatten_group, group_or_delimited_group, groups, BasicLength, Group, GroupOrNote, Groups,
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KnownLength, Length, ModdedLength, Note, Times, SIXTEENTH,
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};
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use crate::midi::time::TimeSignature;
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use GroupOrNote::*;
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@ -111,6 +110,12 @@ pub struct Event<T> {
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event_type: EventType,
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}
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impl<T> Event<T> {
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pub fn new(tick: T, event_type: EventType) -> Event<T> {
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Event { tick, event_type }
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}
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}
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impl<T> PartialOrd for Event<T>
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where
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T: PartialOrd + Ord,
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@ -183,7 +188,26 @@ pub struct EventGrid<T> {
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events: Vec<Event<T>>,
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/// Length of the note group in Ticks. Rests are implicit, so it's necessary to know
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/// the length of the note group to cycle it.
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length: Tick,
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start: Tick,
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end: Tick,
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}
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impl EventGrid<Tick> {
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pub fn new(events: Vec<Event<Tick>>, end: Tick) -> EventGrid<Tick> {
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let start = if events.len() == 0 {
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Tick(0)
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} else {
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match events.first() {
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Some(x) => x.tick,
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None => Tick(0)
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}
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};
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EventGrid {
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events,
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start: start,
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end: end,
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}
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}
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}
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impl<T> IntoIterator for EventGrid<T> {
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@ -203,71 +227,42 @@ impl<T> EventGrid<T> {
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impl<T> EventGrid<T>
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where
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T: Clone
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T: Clone,
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{
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pub fn extend(&self, other: &EventGrid<T>) -> EventGrid<T> {
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let combined = self.events.iter().cloned().chain(other.events.iter().cloned()).collect();
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EventGrid { events: combined, length: self.length + other.length }
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pub fn unsafe_extend(&self, other: &EventGrid<T>) -> EventGrid<T> {
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let combined = self
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.events
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.iter()
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.cloned()
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.chain(other.events.iter().cloned())
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.collect();
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EventGrid {
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events: combined,
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end: self.end + other.end,
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start: self.start,
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}
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}
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}
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// FIXME: add a mutable version for use in `groups_to_event_grid`
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/// Adds two EventGrids together, manipulates the time of the right `EventGrid` by
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/// adding the length of the left one to timings.
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/// If you need to concat two `EventGrid`s without messing up with times, then use `extend`.
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impl<T: Add<Tick, Output = T> + Clone + Ord + std::fmt::Debug> Add for EventGrid<T> {
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type Output = EventGrid<T>;
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fn add(mut self, other: EventGrid<T>) -> EventGrid<T> {
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let other_events: Vec<Event<T>> = other
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.events
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.into_iter()
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.map(|mut e| {
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e.tick = e.tick + self.length;
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e
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})
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.collect();
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self.events.extend(other_events);
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self.events.sort();
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self.length = self.length + other.length;
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self
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}
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}
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impl<T: Clone + Ord> Mul for EventGrid<T> {
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type Output = EventGrid<T>;
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fn mul(mut self, other: EventGrid<T>) -> EventGrid<T> {
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let other_events: Vec<Event<T>> = other.events;
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self.events.extend(other_events);
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self.events.sort();
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self.length = self.length + other.length;
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self
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/// If you need to concat two `EventGrid`s without messing up with times, then use `unsafe_extend`.
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impl EventGrid<Tick> {
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fn extend(&self, other: EventGrid<Tick>) -> EventGrid<Tick> {
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// FIXME: get rid of unnecessary cloning
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let other_events = other.clone().events.into_iter().map(|mut e| {
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e.tick = e.tick + self.end;
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e
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});
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let mut self_event_copy = self.events.clone();
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self_event_copy.extend(other_events);
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EventGrid { events: self_event_copy, start: self.start, end: self.start + self.length() + other.length()}
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}
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}
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#[test]
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fn test_arith_event_grids() {
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let eg1 = EventGrid {
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events: vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(TICKS_PER_QUARTER_NOTE as u128), event_type: NoteOff(KickDrum) }],
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length: Tick(TICKS_PER_QUARTER_NOTE as u128),
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};
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let eg2 = EventGrid {
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events: vec![Event { tick: Tick(24), event_type: NoteOn(HiHat) }, Event { tick: Tick(TICKS_PER_QUARTER_NOTE as u128), event_type: NoteOff(HiHat) }],
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length: Tick(TICKS_PER_QUARTER_NOTE as u128),
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};
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let mul_res = EventGrid {
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events: vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOn(HiHat) }, Event { tick: Tick(48), event_type: NoteOff(KickDrum) }, Event { tick: Tick(48), event_type: NoteOff(HiHat) }],
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length: Tick(96),
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};
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assert_eq!(eg1.clone() * eg2.clone(), mul_res);
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}
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#[test]
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fn test_add_event_grid() {
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fn test_extend_event_grid() {
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let empty: EventGrid<Tick> = EventGrid::empty();
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let kick_on = Event {
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tick: Tick(0),
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@ -279,34 +274,66 @@ fn test_add_event_grid() {
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};
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let simple_grid = EventGrid {
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events: vec![kick_on, kick_off],
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length: Tick(48),
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start: Tick(0),
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end: Tick(48),
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};
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assert_eq!(empty.clone() + empty.clone(), empty);
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assert_eq!(simple_grid.clone() + empty.clone(), simple_grid);
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assert_eq!(empty.clone() + simple_grid.clone(), simple_grid);
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assert_eq!(empty.clone().extend(empty.clone()), empty);
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assert_eq!(simple_grid.clone().extend(empty.clone()), simple_grid);
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assert_eq!(empty.clone().extend(simple_grid.clone()), simple_grid);
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assert_eq!(
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simple_grid.clone() + simple_grid.clone(),
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simple_grid.clone().extend(simple_grid.clone()),
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EventGrid {
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events: vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOff(KickDrum) }, Event { tick: Tick(48), event_type: NoteOn(KickDrum) }, Event { tick: Tick(72), event_type: NoteOff(KickDrum) }],
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length: Tick(96)
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start: Tick(0),
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end: Tick(96)
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}
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);
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let events = EventGrid { events: vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }], length: Tick(144)};
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let expected = EventGrid { events: vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144+24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144+48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144+96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144+120), event_type: NoteOff(SnareDrum) }], length: Tick(144*2) };
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assert_eq!(events.clone() + events.clone(), expected);
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let events = EventGrid {
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events: vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }],
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start: Tick(24),
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end: Tick(144),
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};
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let expected = EventGrid {
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events: vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144 + 24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144 + 48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144 + 96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144 + 120), event_type: NoteOff(SnareDrum) }],
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start: Tick(24),
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end: Tick(264),
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};
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assert_eq!(events.extend(events.clone()), expected);
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let events2_1 = EventGrid::new(
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vec![
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Event::new(Tick(0), NoteOn(CrashCymbal)),
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Event::new(Tick(96), NoteOff(CrashCymbal)),
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],
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Tick(96),
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);
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let events2_2: EventGrid<Tick> = EventGrid { events: vec![], start: Tick(96), end: Tick(192) };
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let result2 = EventGrid::new(events2_1.events.clone(), Tick(192));
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assert_eq!(events2_1.extend(events2_2), result2);
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let events3 = EventGrid { events: Vec::new(), start: Tick(96), end: Tick(144) };
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assert_eq!(
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events3.extend(events3.clone()),
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EventGrid { events: Vec::new(), start: Tick(96), end: Tick(192) }
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);
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}
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impl<T> EventGrid<T> {
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fn empty() -> Self {
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EventGrid {
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events: Vec::new(),
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length: Tick(0),
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start: Tick(0),
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end: Tick(0),
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}
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}
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}
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impl EventGrid<Tick> {
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pub fn length(&self) -> Tick {
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self.end - self.start
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}
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/// Converts a single-track(!!!!) sorted `EventGrid<Tick>`
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pub fn to_delta(&self) -> EventGrid<Delta> {
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let mut time = Tick(0);
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@ -430,19 +457,13 @@ fn group_to_event_grid(
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let mut time = start.clone();
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let note_length = length.to_ticks();
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let mut grid = EventGrid::empty();
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grid.start = *start;
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notes.iter().for_each(|entry| {
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match entry {
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// SingleGroup(group) => {
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// let mut eg = group_to_event_grid(&group, part, &time.clone());
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// println!("SINGLE GROUP EVENTGRID: {:?}", eg);
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// grid.events.append(&mut eg.events);
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// grid.length = grid.length + eg.length;
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// time = time + grid.length;
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// }
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Note::Rest => {
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let rest_end = time + note_length;
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time = rest_end;
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grid.length = rest_end;
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grid.end = rest_end;
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}
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Note::Hit => {
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let note_end = time + note_length;
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@ -456,60 +477,88 @@ fn group_to_event_grid(
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};
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grid.events.push(note_on);
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grid.events.push(note_off);
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grid.length = note_end;
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grid.end = note_end;
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time = note_end;
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}
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};
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});
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grid.events.sort();
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println!("GRID before cycling: {:?}", grid);
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// FIXME: this one fails. Either fix the cycle_grid and underlying operations (best) or reimplement a hack here(worst)
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cycle_grid(grid, *times)
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}
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#[test]
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fn test_group_to_event_grid() {
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let start_time = Tick(0);
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assert_eq!(
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group_to_event_grid(
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flatten_group(group_or_delimited_group("(2,8x--)").unwrap().1).0.first().unwrap(),
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KickDrum,
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&start_time
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),
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EventGrid { events: vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOff(KickDrum) }, Event { tick: Tick(72), event_type: NoteOn(KickDrum) }, Event { tick: Tick(96), event_type: NoteOff(KickDrum) }], length: Tick(144) }
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);
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let start_time = Tick(12);
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let group = Group {
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notes: vec![Note::Hit],
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length: SIXTEENTH.clone(),
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times: Times(15),
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};
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let grid = EventGrid {
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events: vec![],
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start: start_time,
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end: Tick(192),
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};
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assert_eq!(group_to_event_grid(&group, HiHat, &start_time), grid);
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// assert_eq!(
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// group_to_event_grid(
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// flatten_group(group_or_delimited_group("(2,8x--)").unwrap().1).0.first().unwrap(),
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// KickDrum,
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// &start_time
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// ),
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// EventGrid { events: vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOff(KickDrum) }, Event { tick: Tick(72), event_type: NoteOn(KickDrum) }, Event { tick: Tick(96), event_type: NoteOff(KickDrum) }], length: Tick(144) }
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// );
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}
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fn cycle_grid(event_grid: EventGrid<Tick>, times: Times) -> EventGrid<Tick> {
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let mut grid = EventGrid::empty();
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for _ in 1..(times.0 + 1) {
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grid = grid + event_grid.clone();
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if times.0 <= 0 {
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EventGrid::empty()
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} else {
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// FIXME: think about unnecessary cloning
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(0..).take((times.0 - 1) as usize).fold(event_grid.clone(), |acc, _| acc.extend(event_grid.clone()))
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}
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grid
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}
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#[test]
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fn test_cycle_grid() {
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let empty: EventGrid<Tick> = EventGrid::empty();
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assert_eq!(cycle_grid(EventGrid::empty(), Times(2)), empty);
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let kick_on = Event { tick: Tick(0), event_type: NoteOn(KickDrum) };
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let kick_off = Event { tick: Tick(24), event_type: NoteOff(KickDrum) };
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let simple_grid = EventGrid { events: vec![kick_on, kick_off], length: Tick(48) };
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assert_eq!(cycle_grid(simple_grid.clone(), Times(0)), empty);
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assert_eq!(cycle_grid(simple_grid.clone(), Times(1)), simple_grid);
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assert_eq!(
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cycle_grid(simple_grid.clone(), Times(2)),
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EventGrid {
|
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events: vec![
|
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Event { tick: Tick(0), event_type: NoteOn(KickDrum) },
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Event { tick: Tick(24), event_type: NoteOff(KickDrum) },
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Event { tick: Tick(48), event_type: NoteOn(KickDrum) },
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Event { tick: Tick(72), event_type: NoteOff(KickDrum) }
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],
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length: Tick(96)
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}
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cycle_grid(EventGrid { events: vec![Event { tick: Tick(12), event_type: NoteOn(HiHat) }, Event { tick: Tick(24), event_type: NoteOff(HiHat) }], start: Tick(12), end: Tick(24) }, Times(15)),
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EventGrid::empty()
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);
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||||
|
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let events = EventGrid { events: vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }], length: Tick(144)};
|
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let expected = EventGrid { events: vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144+24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144+48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144+96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144+120), event_type: NoteOff(SnareDrum) }], length: Tick(144*2) };
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assert_eq!(
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cycle_grid(EventGrid { events: Vec::new(), start: Tick(96), end: Tick(144) }, Times(2)),
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EventGrid { events: Vec::new(), start: Tick(96), end: Tick(192) }
|
||||
);
|
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|
||||
let empty: EventGrid<Tick> = EventGrid::empty();
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assert_eq!(cycle_grid(EventGrid::empty(), Times(2)), empty);
|
||||
|
||||
let simple_grid = EventGrid { events: vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOff(KickDrum) }],
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start: Tick(0),
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end: Tick(48),
|
||||
};
|
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assert_eq!(cycle_grid(simple_grid.clone(), Times(0)), empty);
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|
||||
assert_eq!(cycle_grid(simple_grid.clone(), Times(1)), simple_grid);
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|
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assert_eq!(
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cycle_grid(simple_grid.clone(), Times(2)),
|
||||
EventGrid::new(
|
||||
vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOff(KickDrum) }, Event { tick: Tick(48), event_type: NoteOn(KickDrum) }, Event { tick: Tick(72), event_type: NoteOff(KickDrum) }],
|
||||
Tick(96)
|
||||
)
|
||||
);
|
||||
|
||||
let events = EventGrid::new(
|
||||
vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }],
|
||||
Tick(144),
|
||||
);
|
||||
let expected = EventGrid::new(
|
||||
vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144 + 24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144 + 48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(144 + 96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(144 + 120), event_type: NoteOff(SnareDrum) }],
|
||||
Tick(264),
|
||||
);
|
||||
assert_eq!(cycle_grid(events.clone(), Times(2)), expected);
|
||||
}
|
||||
|
||||
|
@ -522,11 +571,17 @@ fn groups_to_event_grid(part: Part, groups: &Groups) -> EventGrid<Tick> {
|
|||
// `group_to_event_grid` doesn't know at which point in time groups starts unless we pass
|
||||
// `time` explicitly. Only the first `Group` in `Groups` starts at zero.
|
||||
let flattened_group = group_to_event_grid(group, part, &time);
|
||||
println!("(groups_to_event_grid) FLATTENED GROUP: {:?}", flattened_group);
|
||||
if part == CrashCymbal {
|
||||
println!("GROUPS: {:?}", groups);
|
||||
println!(
|
||||
"(groups_to_event_grid) FLATTENED GROUP TIME: {:?} - {:?}",
|
||||
part, flattened_group
|
||||
);
|
||||
}
|
||||
|
||||
// Note that using `+` is wrong here as it's messing with timings and it really shouldn't
|
||||
grid = grid.extend(&flattened_group);
|
||||
time = grid.length;
|
||||
grid = grid.extend(flattened_group);
|
||||
time = grid.end;
|
||||
});
|
||||
grid
|
||||
}
|
||||
|
@ -594,12 +649,18 @@ impl Iterator for EventIterator {
|
|||
fn test_event_iterator_impl() {
|
||||
let empty = EventGrid::empty();
|
||||
let kick1 = group_to_event_grid(
|
||||
&flatten_group(group_or_delimited_group("(4x-)").unwrap().1).0.first().unwrap(),
|
||||
&flatten_group(group_or_delimited_group("(4x-)").unwrap().1)
|
||||
.0
|
||||
.first()
|
||||
.unwrap(),
|
||||
KickDrum,
|
||||
&mut Tick(0),
|
||||
);
|
||||
let snare1 = group_to_event_grid(
|
||||
&flatten_group(group_or_delimited_group("(4-x)").unwrap().1).0.first().unwrap(),
|
||||
&flatten_group(group_or_delimited_group("(4-x)").unwrap().1)
|
||||
.0
|
||||
.first()
|
||||
.unwrap(),
|
||||
SnareDrum,
|
||||
&mut Tick(0),
|
||||
);
|
||||
|
@ -659,32 +720,27 @@ fn test_event_iterator_impl() {
|
|||
|
||||
/// Takes a mapping of drum parts and produce an `EventIterator` that return the next MIDI event.
|
||||
/// Calling .collect() on this EventIterator should produce an `EventGrid`.
|
||||
///
|
||||
///
|
||||
/// Returns time as a number of ticks from beginning, has to be turned into the midi delta-time.
|
||||
fn merge_to_iterator(
|
||||
fn merge_into_iterator(
|
||||
groups: BTreeMap<Part, Groups>,
|
||||
time_signature: TimeSignature,
|
||||
) -> EventIterator {
|
||||
println!("INPUT MAP: {:?}", groups);
|
||||
// println!("INPUT MAP: {:?}", groups);
|
||||
// Maps a drum part to a number of 128th notes
|
||||
let length_map: BTreeMap<Part, u32> = groups
|
||||
.iter()
|
||||
.map(|(k, x)| (*k, x.to_128th()))
|
||||
.collect();
|
||||
println!("LENGTH MAP: {:?}", length_map);
|
||||
println!("CONVERGING OVER {:?}", groups.values());
|
||||
let length_map: BTreeMap<Part, u32> = groups.iter().map(|(k, x)| (*k, x.to_128th())).collect();
|
||||
|
||||
// We want exactly length_limit or BAR_LIMIT
|
||||
let converges_over_bars = time_signature
|
||||
.converges(groups.values())
|
||||
.unwrap_or(BAR_LIMIT.clone());
|
||||
|
||||
|
||||
if converges_over_bars == 1 {
|
||||
println!("Converges over {} bar", converges_over_bars);
|
||||
} else {
|
||||
println!("Converges over {} bars", converges_over_bars);
|
||||
}
|
||||
|
||||
|
||||
// length limit in 128th notes
|
||||
let length_limit = converges_over_bars * time_signature.to_128th();
|
||||
println!("LENGTH LIMIT: {}", length_limit);
|
||||
|
@ -697,7 +753,6 @@ fn merge_to_iterator(
|
|||
let times = length_limit / length_128th;
|
||||
println!("TIMES: {}", times);
|
||||
let flattened = groups_to_event_grid(*part, groups);
|
||||
println!("FLATTENED: {:?}", flattened);
|
||||
(flattened, times)
|
||||
}
|
||||
None => (EventGrid::empty(), 0),
|
||||
|
@ -709,7 +764,10 @@ fn merge_to_iterator(
|
|||
let (hihat_grid, hihat_repeats) = flatten(&HiHat);
|
||||
let (crash_grid, crash_repeats) = flatten(&CrashCymbal);
|
||||
|
||||
println!("CYCLED TO: {:?}", cycle_grid(kick_grid.clone(), Times(kick_repeats as u16)));
|
||||
println!(
|
||||
"CYCLED TO: {:?}",
|
||||
cycle_grid(crash_grid.clone(), Times(crash_repeats as u16))
|
||||
);
|
||||
|
||||
EventIterator::new(
|
||||
cycle_grid(kick_grid, Times(kick_repeats as u16)),
|
||||
|
@ -721,14 +779,14 @@ fn merge_to_iterator(
|
|||
}
|
||||
|
||||
#[test]
|
||||
fn test_merge_to_iterator() {
|
||||
fn test_merge_into_iterator() {
|
||||
let snare_group = "8-x--x-";
|
||||
let kick_group = "16xx-x-xx-";
|
||||
|
||||
let kick_events = vec![Event { tick: Tick(0), event_type: NoteOn(KickDrum) }, Event { tick: Tick(12), event_type: NoteOff(KickDrum) }, Event { tick: Tick(12), event_type: NoteOn(KickDrum) }, Event { tick: Tick(24), event_type: NoteOff(KickDrum) }, Event { tick: Tick(36), event_type: NoteOn(KickDrum) }, Event { tick: Tick(48), event_type: NoteOff(KickDrum) }, Event { tick: Tick(60), event_type: NoteOn(KickDrum) }, Event { tick: Tick(72), event_type: NoteOff(KickDrum) }, Event { tick: Tick(72), event_type: NoteOn(KickDrum) }, Event { tick: Tick(84), event_type: NoteOff(KickDrum) }, Event { tick: Tick(96), event_type: NoteOn(KickDrum) }, Event { tick: Tick(108), event_type: NoteOff(KickDrum) }, Event { tick: Tick(108), event_type: NoteOn(KickDrum) }, Event { tick: Tick(120), event_type: NoteOff(KickDrum) }, Event { tick: Tick(132), event_type: NoteOn(KickDrum) }, Event { tick: Tick(144), event_type: NoteOff(KickDrum) }, Event { tick: Tick(156), event_type: NoteOn(KickDrum) }, Event { tick: Tick(168), event_type: NoteOff(KickDrum) }, Event { tick: Tick(168), event_type: NoteOn(KickDrum) }, Event { tick: Tick(180), event_type: NoteOff(KickDrum) }];
|
||||
let snare_events = vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(24+144), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48+144), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96+144), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120+144), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(24+288), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48+288), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96+288), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120+288), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(24+144*3), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48+144*3), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96+144*3), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120+144*3), event_type: NoteOff(SnareDrum) }];
|
||||
let snare_events = vec![Event { tick: Tick(24), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(24 + 144), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48 + 144), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96 + 144), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120 + 144), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(24 + 288), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48 + 288), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96 + 288), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120 + 288), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(24 + 144 * 3), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(48 + 144 * 3), event_type: NoteOff(SnareDrum) }, Event { tick: Tick(96 + 144 * 3), event_type: NoteOn(SnareDrum) }, Event { tick: Tick(120 + 144 * 3), event_type: NoteOff(SnareDrum) }];
|
||||
let four_fourth = TimeSignature::from_str("4/4").unwrap();
|
||||
let flattened_kick_and_snare = merge_to_iterator(
|
||||
let flattened_kick_and_snare = merge_into_iterator(
|
||||
BTreeMap::from_iter([
|
||||
(KickDrum, groups("16xx-x-xx-").unwrap().1),
|
||||
(SnareDrum, groups("8-x--x-").unwrap().1),
|
||||
|
@ -737,25 +795,44 @@ fn test_merge_to_iterator() {
|
|||
)
|
||||
.collect::<Vec<Event<Tick>>>();
|
||||
|
||||
assert_eq!(merge_to_iterator(BTreeMap::from_iter([(KickDrum, groups(kick_group).unwrap().1)]), four_fourth).collect::<Vec<Event<Tick>>>(), kick_events);
|
||||
assert_eq!(merge_to_iterator(BTreeMap::from_iter([(SnareDrum, groups(snare_group).unwrap().1)]), four_fourth).collect::<Vec<Event<Tick>>>(), snare_events);
|
||||
assert_eq!(
|
||||
merge_into_iterator(
|
||||
BTreeMap::from_iter([(KickDrum, groups(kick_group).unwrap().1)]),
|
||||
four_fourth
|
||||
)
|
||||
.collect::<Vec<Event<Tick>>>(),
|
||||
kick_events
|
||||
);
|
||||
assert_eq!(
|
||||
merge_into_iterator(
|
||||
BTreeMap::from_iter([(SnareDrum, groups(snare_group).unwrap().1)]),
|
||||
four_fourth
|
||||
)
|
||||
.collect::<Vec<Event<Tick>>>(),
|
||||
snare_events
|
||||
);
|
||||
assert_eq!(
|
||||
kick_events
|
||||
.iter()
|
||||
.all(|x| flattened_kick_and_snare.contains(x)) &&
|
||||
snare_events
|
||||
.iter()
|
||||
.all(|x| flattened_kick_and_snare.contains(x)),
|
||||
.all(|x| flattened_kick_and_snare.contains(x))
|
||||
&& snare_events
|
||||
.iter()
|
||||
.all(|x| flattened_kick_and_snare.contains(x)),
|
||||
true
|
||||
);
|
||||
}
|
||||
|
||||
// The length of a beat is not standard, so in order to fully describe the length of a MIDI tick the MetaMessage::Tempo event should be present.
|
||||
pub fn create_smf<'a>(groups: BTreeMap<Part, Groups>, time_signature: TimeSignature, text: &'a str, tempo: u16) -> Smf<'a> {
|
||||
pub fn create_smf<'a>(
|
||||
groups: BTreeMap<Part, Groups>,
|
||||
time_signature: TimeSignature,
|
||||
text: &'a str,
|
||||
tempo: u16,
|
||||
) -> Smf<'a> {
|
||||
let tracks = create_tracks(groups, time_signature, text, MidiTempo::from_tempo(tempo)); // FIXME
|
||||
// https://majicdesigns.github.io/MD_MIDIFile/page_timing.html
|
||||
// says " If it is not specified the MIDI default is 48 ticks per quarter note."
|
||||
// As it's required in `Header`, let's use the same value.
|
||||
// https://majicdesigns.github.io/MD_MIDIFile/page_timing.html
|
||||
// says " If it is not specified the MIDI default is 48 ticks per quarter note."
|
||||
// As it's required in `Header`, let's use the same value.
|
||||
let metrical = midly::Timing::Metrical(TICKS_PER_QUARTER_NOTE.into());
|
||||
Smf {
|
||||
header: Header {
|
||||
|
@ -767,36 +844,33 @@ pub fn create_smf<'a>(groups: BTreeMap<Part, Groups>, time_signature: TimeSignat
|
|||
}
|
||||
|
||||
/// Translates drum parts to a single MIDI track.
|
||||
///
|
||||
///
|
||||
/// /// # Arguments
|
||||
///
|
||||
/// * `parts_and_groups` - Drum parts parsed from the command line.
|
||||
/// * `time_signature` - Time signature parsed from the command line.
|
||||
/// * `text_event` - Text message to be embedded into the MIDI file.
|
||||
///
|
||||
///
|
||||
/// # Returns
|
||||
///
|
||||
///
|
||||
/// Multi-track vectors of MIDI events in `midly` format.
|
||||
///
|
||||
///
|
||||
fn create_tracks<'a>(
|
||||
parts_and_groups: BTreeMap<Part, Groups>,
|
||||
time_signature: TimeSignature,
|
||||
text_event: &'a str,
|
||||
midi_tempo: MidiTempo
|
||||
midi_tempo: MidiTempo,
|
||||
) -> Vec<Vec<midly::TrackEvent<'a>>> {
|
||||
let events_iter = merge_to_iterator(parts_and_groups, time_signature);
|
||||
let events_iter = merge_into_iterator(parts_and_groups, time_signature);
|
||||
let events: Vec<Event<Tick>> = events_iter.collect();
|
||||
// Notice this time can be incorrect, but it shouldn't matter.
|
||||
let time = match events.last() {
|
||||
|
||||
let track_time = match events.last() {
|
||||
Some(ev) => ev.tick,
|
||||
None => {
|
||||
panic!("Result has no midi notes")
|
||||
}
|
||||
};
|
||||
let event_grid_tick = EventGrid {
|
||||
events,
|
||||
length: time,
|
||||
};
|
||||
let event_grid_tick = EventGrid::new(events, track_time);
|
||||
let event_grid = event_grid_tick.to_delta();
|
||||
let mut drums = Vec::new();
|
||||
|
||||
|
@ -825,10 +899,12 @@ fn create_tracks<'a>(
|
|||
kind: TrackEventKind::Meta(MetaMessage::MidiPort(10.into())),
|
||||
});
|
||||
|
||||
drums.push(TrackEvent { delta: 0.into(), kind: TrackEventKind::Meta(MetaMessage::Tempo(midi_tempo.0)) });
|
||||
drums.push(TrackEvent {
|
||||
delta: 0.into(),
|
||||
kind: TrackEventKind::Meta(MetaMessage::Tempo(midi_tempo.0)),
|
||||
});
|
||||
|
||||
let (midi_time_signature_numerator, midi_time_signature_denominator) =
|
||||
time_signature.to_midi();
|
||||
let (midi_time_signature_numerator, midi_time_signature_denominator) = time_signature.to_midi();
|
||||
drums.push(TrackEvent {
|
||||
delta: 0.into(),
|
||||
kind: TrackEventKind::Meta(MetaMessage::TimeSignature(
|
||||
|
@ -838,8 +914,11 @@ fn create_tracks<'a>(
|
|||
8,
|
||||
)),
|
||||
});
|
||||
|
||||
drums.push(TrackEvent { delta: 0.into(), kind: TrackEventKind::Meta(MetaMessage::Text(text_event.as_bytes())) });
|
||||
|
||||
drums.push(TrackEvent {
|
||||
delta: 0.into(),
|
||||
kind: TrackEventKind::Meta(MetaMessage::Text(text_event.as_bytes())),
|
||||
});
|
||||
|
||||
for event in event_grid.events {
|
||||
let midi_message = match event.event_type {
|
||||
|
|
Loading…
Reference in a new issue