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8 changed files with 331 additions and 290 deletions
109
src/device/clock/moment.rs
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109
src/device/clock/moment.rs
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use crate::*;
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use ::std::sync::{Arc, RwLock, atomic::{AtomicUsize, Ordering::*}};
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use ::atomic_float::AtomicF64;
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use ::tengri::{draw::*, term::*};
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/// A point in time in all time scales (microsecond, sample, MIDI pulse)
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///
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/// ```
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/// let _ = tek::Moment::default();
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/// ```
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#[derive(Debug, Default, Clone)] pub struct Moment {
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pub timebase: Arc<Timebase>,
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/// Current time in microseconds
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pub usec: Microsecond,
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/// Current time in audio samples
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pub sample: SampleCount,
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/// Current time in MIDI pulses
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pub pulse: Pulse,
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}
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///
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/// ```
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/// let _ = tek::Moment2::default();
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/// ```
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#[derive(Debug, Clone, Default)] pub enum Moment2 {
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#[default] None,
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Zero,
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Usec(Microsecond),
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Sample(SampleCount),
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Pulse(Pulse),
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}
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/// Timestamp in microseconds
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///
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/// ```
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///
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/// ```
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#[derive(Debug, Default)] pub struct Microsecond (pub(crate) AtomicF64);
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/// Timestamp in audio samples
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///
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/// ```
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///
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/// ```
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#[derive(Debug, Default)] pub struct SampleCount (pub(crate) AtomicF64);
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/// Timestamp in MIDI pulses
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///
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/// ```
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///
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/// ```
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#[derive(Debug, Default)] pub struct Pulse (pub(crate) AtomicF64);
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impl Moment {
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pub fn zero (timebase: &Arc<Timebase>) -> Self {
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Self { usec: 0.into(), sample: 0.into(), pulse: 0.into(), timebase: timebase.clone() }
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}
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pub fn from_usec (timebase: &Arc<Timebase>, usec: f64) -> Self {
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Self {
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usec: usec.into(),
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sample: timebase.sr.usecs_to_sample(usec).into(),
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pulse: timebase.usecs_to_pulse(usec).into(),
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timebase: timebase.clone(),
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}
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}
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pub fn from_sample (timebase: &Arc<Timebase>, sample: f64) -> Self {
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Self {
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sample: sample.into(),
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usec: timebase.sr.samples_to_usec(sample).into(),
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pulse: timebase.samples_to_pulse(sample).into(),
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timebase: timebase.clone(),
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}
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}
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pub fn from_pulse (timebase: &Arc<Timebase>, pulse: f64) -> Self {
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Self {
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pulse: pulse.into(),
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sample: timebase.pulses_to_sample(pulse).into(),
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usec: timebase.pulses_to_usec(pulse).into(),
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timebase: timebase.clone(),
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}
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}
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#[inline] pub fn update_from_usec (&self, usec: f64) {
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self.usec.set(usec);
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self.pulse.set(self.timebase.usecs_to_pulse(usec));
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self.sample.set(self.timebase.sr.usecs_to_sample(usec));
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}
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#[inline] pub fn update_from_sample (&self, sample: f64) {
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self.usec.set(self.timebase.sr.samples_to_usec(sample));
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self.pulse.set(self.timebase.samples_to_pulse(sample));
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self.sample.set(sample);
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}
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#[inline] pub fn update_from_pulse (&self, pulse: f64) {
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self.usec.set(self.timebase.pulses_to_usec(pulse));
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self.pulse.set(pulse);
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self.sample.set(self.timebase.pulses_to_sample(pulse));
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}
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#[inline] pub fn format_beat (&self) -> Arc<str> {
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self.timebase.format_beats_1(self.pulse.get()).into()
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}
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}
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impl Microsecond {
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#[inline] pub fn format_msu (&self) -> Arc<str> {
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let usecs = self.get() as usize;
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let (seconds, msecs) = (usecs / 1000000, usecs / 1000 % 1000);
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let (minutes, seconds) = (seconds / 60, seconds % 60);
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format!("{minutes}:{seconds:02}:{msecs:03}").into()
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}
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}
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16
src/device/clock/ticker.rs
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16
src/device/clock/ticker.rs
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use crate::*;
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use ::std::sync::{Arc, RwLock, atomic::{AtomicUsize, Ordering::*}};
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use ::atomic_float::AtomicF64;
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use ::tengri::{draw::*, term::*};
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/// Iterator that emits subsequent ticks within a range.
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///
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/// ```
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/// let iter = tek::Ticker::default();
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/// ```
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#[derive(Debug, Default)] pub struct Ticker {
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pub spp: f64,
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pub sample: usize,
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pub start: usize,
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pub end: usize,
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}
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160
src/device/clock/timebase.rs
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160
src/device/clock/timebase.rs
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@ -0,0 +1,160 @@
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use crate::*;
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use ::std::sync::{Arc, RwLock, atomic::{AtomicUsize, Ordering::*}};
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use ::atomic_float::AtomicF64;
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use ::tengri::{draw::*, term::*};
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/// Temporal resolutions: sample rate, tempo, MIDI pulses per quaver (beat)
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///
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/// ```
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/// let _ = tek::Timebase::default();
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/// ```
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#[derive(Debug, Clone)] pub struct Timebase {
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/// Audio samples per second
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pub sr: SampleRate,
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/// MIDI beats per minute
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pub bpm: Bpm,
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/// MIDI ticks per beat
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pub ppq: Ppq,
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}
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/// Audio sample rate in Hz (samples per second)
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///
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/// ```
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///
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/// ```
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#[derive(Debug, Default)] pub struct SampleRate (pub(crate) AtomicF64);
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/// Tempo in beats per minute
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///
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/// ```
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///
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/// ```
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#[derive(Debug, Default)] pub struct Bpm (pub(crate) AtomicF64);
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/// MIDI resolution in PPQ (pulses per quarter note)
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///
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/// ```
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///
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/// ```
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#[derive(Debug, Default)] pub struct Ppq (pub(crate) AtomicF64);
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impl Timebase {
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/// Specify sample rate, BPM and PPQ
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pub fn new (
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s: impl Into<SampleRate>,
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b: impl Into<Bpm>,
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p: impl Into<Ppq>
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) -> Self {
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Self { sr: s.into(), bpm: b.into(), ppq: p.into() }
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}
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/// Iterate over ticks between start and end.
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#[inline] pub fn pulses_between_samples (&self, start: usize, end: usize) -> Ticker {
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Ticker { spp: self.samples_per_pulse(), sample: start, start, end }
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}
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/// Return the duration fo a beat in microseconds
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#[inline] pub fn usec_per_beat (&self) -> f64 { 60_000_000f64 / self.bpm.get() }
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/// Return the number of beats in a second
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#[inline] pub fn beat_per_second (&self) -> f64 { self.bpm.get() / 60f64 }
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/// Return the number of microseconds corresponding to a note of the given duration
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#[inline] pub fn note_to_usec (&self, (num, den): (f64, f64)) -> f64 {
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4.0 * self.usec_per_beat() * num / den
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}
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/// Return duration of a pulse in microseconds (BPM-dependent)
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#[inline] pub fn pulse_per_usec (&self) -> f64 { self.ppq.get() / self.usec_per_beat() }
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/// Return duration of a pulse in microseconds (BPM-dependent)
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#[inline] pub fn usec_per_pulse (&self) -> f64 { self.usec_per_beat() / self.ppq.get() }
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/// Return number of pulses to which a number of microseconds corresponds (BPM-dependent)
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#[inline] pub fn usecs_to_pulse (&self, usec: f64) -> f64 { usec * self.pulse_per_usec() }
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/// Convert a number of pulses to a sample number (SR- and BPM-dependent)
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#[inline] pub fn pulses_to_usec (&self, pulse: f64) -> f64 { pulse / self.usec_per_pulse() }
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/// Return number of pulses in a second (BPM-dependent)
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#[inline] pub fn pulses_per_second (&self) -> f64 { self.beat_per_second() * self.ppq.get() }
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/// Return fraction of a pulse to which a sample corresponds (SR- and BPM-dependent)
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#[inline] pub fn pulses_per_sample (&self) -> f64 {
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self.usec_per_pulse() / self.sr.usec_per_sample()
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}
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/// Return number of samples in a pulse (SR- and BPM-dependent)
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#[inline] pub fn samples_per_pulse (&self) -> f64 {
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self.sr.get() / self.pulses_per_second()
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}
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/// Convert a number of pulses to a sample number (SR- and BPM-dependent)
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#[inline] pub fn pulses_to_sample (&self, p: f64) -> f64 {
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self.pulses_per_sample() * p
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}
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/// Convert a number of samples to a pulse number (SR- and BPM-dependent)
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#[inline] pub fn samples_to_pulse (&self, s: f64) -> f64 {
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s / self.pulses_per_sample()
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}
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/// Return the number of samples corresponding to a note of the given duration
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#[inline] pub fn note_to_samples (&self, note: (f64, f64)) -> f64 {
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self.usec_to_sample(self.note_to_usec(note))
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}
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/// Return the number of samples corresponding to the given number of microseconds
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#[inline] pub fn usec_to_sample (&self, usec: f64) -> f64 {
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usec * self.sr.get() / 1000f64
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}
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/// Return the quantized position of a moment in time given a step
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#[inline] pub fn quantize (&self, step: (f64, f64), time: f64) -> (f64, f64) {
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let step = self.note_to_usec(step);
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(time / step, time % step)
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}
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/// Quantize a collection of events
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#[inline] pub fn quantize_into <E: Iterator<Item=(f64, f64)> + Sized, T> (
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&self, step: (f64, f64), events: E
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) -> Vec<(f64, f64)> {
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events.map(|(time, event)|(self.quantize(step, time).0, event)).collect()
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}
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/// Format a number of pulses into Beat.Bar.Pulse starting from 0
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#[inline] pub fn format_beats_0 (&self, pulse: f64) -> Arc<str> {
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let pulse = pulse as usize;
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let ppq = self.ppq.get() as usize;
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let (beats, pulses) = if ppq > 0 { (pulse / ppq, pulse % ppq) } else { (0, 0) };
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format!("{}.{}.{pulses:02}", beats / 4, beats % 4).into()
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}
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/// Format a number of pulses into Beat.Bar starting from 0
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#[inline] pub fn format_beats_0_short (&self, pulse: f64) -> Arc<str> {
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let pulse = pulse as usize;
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let ppq = self.ppq.get() as usize;
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let beats = if ppq > 0 { pulse / ppq } else { 0 };
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format!("{}.{}", beats / 4, beats % 4).into()
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}
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/// Format a number of pulses into Beat.Bar.Pulse starting from 1
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#[inline] pub fn format_beats_1 (&self, pulse: f64) -> Arc<str> {
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let mut string = String::with_capacity(16);
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self.format_beats_1_to(&mut string, pulse).expect("failed to format {pulse} into beat");
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string.into()
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}
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/// Format a number of pulses into Beat.Bar.Pulse starting from 1
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#[inline] pub fn format_beats_1_to (&self, w: &mut impl std::fmt::Write, pulse: f64) -> Result<(), std::fmt::Error> {
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let pulse = pulse as usize;
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let ppq = self.ppq.get() as usize;
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let (beats, pulses) = if ppq > 0 { (pulse / ppq, pulse % ppq) } else { (0, 0) };
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write!(w, "{}.{}.{pulses:02}", beats / 4 + 1, beats % 4 + 1)
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}
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/// Format a number of pulses into Beat.Bar.Pulse starting from 1
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#[inline] pub fn format_beats_1_short (&self, pulse: f64) -> Arc<str> {
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let pulse = pulse as usize;
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let ppq = self.ppq.get() as usize;
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let beats = if ppq > 0 { pulse / ppq } else { 0 };
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format!("{}.{}", beats / 4 + 1, beats % 4 + 1).into()
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}
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}
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impl SampleRate {
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/// Return the duration of a sample in microseconds (floating)
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#[inline] pub fn usec_per_sample (&self) -> f64 {
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1_000_000f64 / self.get()
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}
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/// Return the duration of a sample in microseconds (floating)
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#[inline] pub fn sample_per_usec (&self) -> f64 {
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self.get() / 1_000_000f64
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}
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/// Convert a number of samples to microseconds (floating)
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#[inline] pub fn samples_to_usec (&self, samples: f64) -> f64 {
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self.usec_per_sample() * samples
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}
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/// Convert a number of microseconds to samples (floating)
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#[inline] pub fn usecs_to_sample (&self, usecs: f64) -> f64 {
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self.sample_per_usec() * usecs
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}
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}
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