use crate::util::span::span_to_alpha; use serde::ser::Serializer; use serde::Serialize; use tokio::time::Duration; use watermill::ewmean::EWMean; use watermill::stats::Univariate; pub struct EwmaLatency { /// exponentially weighted of some latency in milliseconds /// TODO: compare crates: ewma vs watermill seconds: EWMean, } /// serialize as milliseconds impl Serialize for EwmaLatency { fn serialize(&self, serializer: S) -> Result where S: Serializer, { serializer.serialize_f32(self.seconds.get() * 1000.0) } } impl EwmaLatency { #[inline] pub fn record(&mut self, duration: Duration) { self.record_secs(duration.as_secs_f32()); } #[inline] pub fn record_secs(&mut self, secs: f32) { self.seconds.update(secs); } /// Current EWMA value in seconds #[inline] pub fn value(&self) -> f32 { self.seconds.get() } /// Current EWMA value in seconds #[inline] pub fn duration(&self) -> Duration { let x = self.seconds.get(); Duration::from_secs_f32(x) } } impl Default for EwmaLatency { fn default() -> Self { // TODO: what should the default span be? 10 requests? let span = 10.0; // TODO: what should the defautt start be? let start = 1.0; Self::new(span, start) } } impl EwmaLatency { // depending on the span, start might not be perfect pub fn new(span: f32, start_ms: f32) -> Self { let alpha = span_to_alpha(span); let mut seconds = EWMean::new(alpha); if start_ms > 0.0 { for _ in 0..(span as u64) { seconds.update(start_ms); } } Self { seconds } } }