Some bugfixes when disabling python-bindings. Added some math functions. Exported streamstatus, and added PPM with cliphandler --> to-be tested!
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@ -1,23 +1,44 @@
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//! Provides stream messages that come from a running stream
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use strum_macros::Display;
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use strum_macros::{Display, EnumMessage};
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use super::*;
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/// Gives the stream status of a (possible) stream, either input / output or duplex.
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#[derive(strum_macros::EnumMessage, Debug, Clone, Copy, Display)]
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#[derive(EnumMessage, Debug, Clone, Copy, Display, PartialEq)]
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#[cfg_attr(feature = "python-bindings", pyclass)]
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pub enum StreamStatus {
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/// Stream is not running
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#[strum(message = "NotRunning", detailed_message = "Stream is not running")]
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NotRunning{},
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NotRunning {},
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/// Stream is running properly
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#[strum(message = "Running", detailed_message = "Stream is running")]
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Running{},
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Running {},
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/// An error occured in the stream.
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#[strum(message = "Error", detailed_message = "An error occured with the stream")]
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Error{
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#[strum(
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message = "Error",
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detailed_message = "An error occured with the stream"
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)]
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Error {
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/// In case the stream has an error: e is the field name
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e: StreamError
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e: StreamError,
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},
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}
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#[cfg(feature = "python-bindings")]
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#[cfg_attr(feature = "python-bindings", pymethods)]
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impl StreamStatus {
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fn __eq__(&self, other: &Self) -> bool {
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self == other
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}
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fn hasError(&self) -> bool {
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matches!(self, StreamStatus::Error { .. })
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}
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fn getError(&self) -> Option<StreamError> {
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use StreamStatus::*;
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if let Error { e } = self {
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return Some(*e);
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}
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None
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}
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}
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@ -38,6 +38,7 @@ pub use config::Flt;
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pub mod daq;
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pub mod filter;
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pub mod ps;
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mod math;
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pub mod siggen;
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use filter::*;
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pub mod rt;
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@ -68,6 +69,8 @@ fn lasprs(m: &Bound<'_, PyModule>) -> PyResult<()> {
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m.add_class::<ps::ApsMode>()?;
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m.add_class::<ps::ApsSettings>()?;
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m.add_class::<ps::AvPowerSpectra>()?;
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m.add_class::<rt::PPM>()?;
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m.add_class::<rt::ClipState>()?;
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Ok(())
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}
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@ -1,4 +1,26 @@
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//! General math tools that are internally required
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//!
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//!
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use crate::config::*;
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use ndarray::ArrayView1;
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/// Compute maximum value of an array of float values
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pub fn max(arr: ArrayView1<Flt>) -> Flt {
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arr.fold(
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-Flt::INFINITY,
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|acc, new| if *new > acc { *new } else { acc },
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)
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}
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/// Compute minimum value of an array of float values
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pub fn min(arr: ArrayView1<Flt>) -> Flt {
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arr.fold(
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Flt::INFINITY,
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|acc, new| if *new < acc { *new } else { acc },
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)
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}
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/// Compute maximum absolute value of an array of float values
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pub fn maxabs(arr: ArrayView1<Flt>) -> Flt {
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arr.fold(0., |acc, new| if new.abs() > acc { new.abs() } else { acc })
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}
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@ -11,7 +11,6 @@ use freqweighting::FreqWeighting;
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///
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/// For more information, see the book on numerical recipes.
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#[cfg(feature = "python-bindings")]
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#[cfg_attr(feature = "python-bindings", pyclass)]
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#[derive(Debug)]
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@ -1,5 +1,7 @@
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//! Real time signal analysis blocks, used for visual inspection and showing
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//! data 'on the fly'. Examples are real time power spectra plotting
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//! (Spectrograms, Auto powers, ..., or )
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mod ppm;
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mod rtaps;
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pub use ppm::{PPM, ClipState};
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pub use rtaps::{RtAps, RtApsResult};
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src/rt/ppm.rs
Normal file
245
src/rt/ppm.rs
Normal file
@ -0,0 +1,245 @@
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use crate::daq::InStreamMsg;
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use crate::math::maxabs;
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use crate::slm::{self, SLMSettingsBuilder, SLM};
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use crate::{config::*, FreqWeighting, StandardFilterDescriptor};
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use crate::{daq::StreamMgr, Dcol};
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use crossbeam::channel::{unbounded, Receiver, Sender};
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use crossbeam::utils::Backoff;
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use ndarray_stats::QuantileExt;
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use parking_lot::Mutex;
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use std::default;
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use std::ops::DerefMut;
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use std::sync::Arc;
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use std::time::{Duration, Instant};
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/// When the level reaches ALMOST_CLIPPED_REL_AMP in amplitude, w.r.t. to the
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/// full scale, we mark a channel as almost clipped.
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const ALMOST_CLIPPED_REL_AMP: Flt = 0.95;
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/// If clipping occured, this is the time it keeps saying 'signal is clipped'
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const CLIP_INDICATOR_WAIT_S: Duration = Duration::from_secs(2);
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/// If the signal level falls below this value, we indicate that the signal level is low.
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const LEVEL_THRESHOLD_FOR_LOW_LEVEL: Flt = -50.;
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/// If the signal level falls below this value, we indicate that the signal level is low.
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const LEVEL_THRESHOLD_FOR_HIGH_LEVEL: Flt = -5.;
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type SharedPPMStatus = Arc<Mutex<Vec<PPMChannelStatus>>>;
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/// Peak programme meter implementation, including clip detector. Effectively uses a realtime SLM on all
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/// input channels. Also includes a clipping detector.
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#[derive(Debug)]
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#[cfg_attr(feature = "python-bindings", pyclass)]
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pub struct PPM {
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// Latest and createst status
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status: SharedPPMStatus,
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sender: Sender<PPMMessage>,
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}
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impl PPM {
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/// Initialize a new PPM meter.
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pub fn new(mgr: &mut StreamMgr) -> Self {
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let (sender, rxmsg) = unbounded();
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let (tx, rxstream) = unbounded();
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mgr.addInQueue(tx);
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let status2: SharedPPMStatus = Arc::new(Mutex::new(vec![]));
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let status = status2.clone();
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rayon::spawn(move || {
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let mut slms: Vec<SLM> = vec![];
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let resetall = |slms: &mut Vec<SLM>| {
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let mut status = status.lock();
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*status = Default::default();
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slms.clear();
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};
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let mut sleep_dur = Duration::from_millis(50);
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loop {
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for msg in rxstream.try_iter() {
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match msg {
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InStreamMsg::InStreamData(d) => {
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let mut status = status.lock();
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let floatdata = d.getFloatData();
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'channel: for (chno, (slm, ppmstatus)) in
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slms.iter_mut().zip(status.iter_mut()).enumerate()
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{
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let chdata = floatdata.slice(s![.., chno]);
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let maxabs_new = maxabs(chdata);
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let chdata = chdata
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.as_slice()
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.expect("Data not contiguous on sample axis");
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slm.run(chdata, false);
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// Update levels
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let last_level = slm.Ltlast()[0];
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ppmstatus.level = last_level;
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// If previous clip is there, and some time has elapsed, we remove the clip state
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if let Some(moment) = ppmstatus.clip_time {
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if moment.elapsed() > CLIP_INDICATOR_WAIT_S {
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ppmstatus.clip = ClipState::LevelFine;
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ppmstatus.clip_time = None;
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}
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// Do not update anything else if we are
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// still in clipping mode. We are done
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// updating PPM status for this channel.
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continue 'channel;
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}
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// Update clip status, if we were not clipping
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ppmstatus.clip = if maxabs_new > ALMOST_CLIPPED_REL_AMP {
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ppmstatus.clip_time = Some(Instant::now());
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ClipState::Clipped
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} else if last_level > LEVEL_THRESHOLD_FOR_HIGH_LEVEL {
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ClipState::HighLevel
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} else if last_level < LEVEL_THRESHOLD_FOR_LOW_LEVEL {
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ClipState::LowLevels
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} else {
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ClipState::LevelFine
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}
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}
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}
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InStreamMsg::StreamError(_e) => {
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resetall(&mut slms);
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}
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InStreamMsg::StreamStarted(meta) => {
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// Compute 'good' sleep time, as half the approximate time between two blocks
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let block_time_us =
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((1e6 * meta.framesPerBlock as Flt) / meta.samplerate) as u64;
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sleep_dur = Duration::from_micros(std::cmp::max(1, block_time_us / 2));
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// Re-initalize sound level meters
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slms.clear();
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let mut s = status.lock();
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(0..meta.nchannels()).for_each(|_ch_index| {
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// Create SLM settings. These might be different
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// depending on channel in future
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let slmsettings = SLMSettingsBuilder::default()
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.fs(meta.samplerate)
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.freqWeighting(FreqWeighting::Z)
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.Lref(1.0)
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.filterDescriptors([
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StandardFilterDescriptor::Overall().unwrap()
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])
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.build()
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.unwrap();
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slms.push(SLM::new(slmsettings.clone()));
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// Initialize levels at -300 dB, and clip state
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// at low levels
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s.push(PPMChannelStatus {
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clip: ClipState::LowLevels,
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level: -300.,
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clip_time: None
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});
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});
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}
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InStreamMsg::StreamStopped => {
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// Restore sleep time to sensible polling default
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sleep_dur = Duration::from_millis(50);
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}
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}
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// Loop over any messages coming in from main thread
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for msg in rxmsg.try_iter() {
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match msg {
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PPMMessage::ResetClip {} => {
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// Reset clip state to not clipped.
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let mut s = status.lock();
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s.iter_mut().for_each(|c| c.clip = ClipState::LevelFine);
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}
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PPMMessage::StopThread => {
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resetall(&mut slms);
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return;
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}
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}
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}
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std::thread::sleep(sleep_dur);
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}
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}
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});
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PPM {
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status: status2,
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sender,
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}
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}
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/// Return array of instantaneous PPM level per channel
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pub fn getLevels(&self) -> Dcol {
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Dcol::from_iter(self.status.lock().iter().map(|s| s.level))
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}
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/// Reset clip state. Used to quickly restore the clipping state.
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pub fn resetClip(&self) {
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self.sender.send(PPMMessage::ResetClip).unwrap();
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}
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fn getClipState(&self) -> Vec<ClipState> {
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self.status.lock().iter().map(|s| s.clip).collect()
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}
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}
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impl Drop for PPM {
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fn drop(&mut self) {
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// Stop the thread
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self.sender.send(PPMMessage::StopThread).unwrap();
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}
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}
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/// Enumerator denoting, for each channel what the level approximately is. Low,
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/// fine, high or clipped.
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#[cfg_attr(feature = "python-bindings", pyclass)]
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#[derive(Copy, Debug, Clone, Default)]
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pub enum ClipState {
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/// Level is rather low
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#[default]
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LowLevels,
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/// Default state, fine levels
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LevelFine,
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/// High levels: warning!
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HighLevel,
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/// Signal probably clipped. The instant denotes when in history the clip
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/// happened.
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Clipped,
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}
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#[derive(Debug, Default)]
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struct PPMChannelStatus {
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// Current levels
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level: Flt,
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// If clipped in the past, it gives a timestamp on the time the clip
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// happened. A call to [PPM::resetClip] will reset the clip state.
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clip: ClipState,
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/// Store when clip was
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clip_time: Option<Instant>,
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}
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enum PPMMessage {
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ResetClip,
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StopThread,
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}
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#[cfg(feature = "python-bindings")]
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#[cfg_attr(feature = "python-bindings", pymethods)]
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impl PPM {
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#[new]
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fn new_py(smgr: &mut StreamMgr) -> Self {
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Self::new(smgr)
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}
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#[pyo3(name = "getLevels")]
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fn getLevels_py<'py>(&self, py: Python<'py>) -> Bound<'py, PyArray1<Flt>> {
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self.getLevels().to_pyarray_bound(py)
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}
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#[pyo3(name = "getClipState")]
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fn getClipState_py(&self) -> Vec<ClipState> {
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self.getClipState()
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}
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#[pyo3(name = "resetClip")]
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fn resetClip_py(&self) {
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self.resetClip()
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}
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}
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@ -34,6 +34,7 @@ pub enum TimeWeighting {
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},
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}
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#[cfg(feature = "python-bindings")]
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#[cfg_attr(feature = "python-bindings", pymethods)]
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impl TimeWeighting {
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// This method is still required in Pyo3 0.21, not anymore in 0.22
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