// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use deno_core::parking_lot::Mutex; use deno_core::serde::Deserialize; use deno_core::serde::Serialize; use deno_core::serde_json::json; use std::cmp; use std::collections::HashMap; use std::collections::VecDeque; use std::fmt; use std::time::Duration; use std::time::Instant; use super::logging::lsp_debug; #[derive(Debug, Deserialize, Serialize, PartialEq, Eq)] #[serde(rename_all = "camelCase")] pub struct PerformanceAverage { pub name: String, pub count: u32, pub average_duration: u32, } impl PartialOrd for PerformanceAverage { fn partial_cmp(&self, other: &Self) -> Option { Some(self.cmp(other)) } } impl Ord for PerformanceAverage { fn cmp(&self, other: &Self) -> cmp::Ordering { self.name.cmp(&other.name) } } /// A structure which serves as a start of a measurement span. #[derive(Debug)] pub struct PerformanceMark { name: String, count: u32, start: Instant, } /// A structure which holds the information about the measured span. #[derive(Debug, Clone)] pub struct PerformanceMeasure { pub name: String, pub count: u32, pub duration: Duration, } impl fmt::Display for PerformanceMeasure { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!( f, "{} ({}ms)", self.name, self.duration.as_micros() as f64 / 1000.0 ) } } impl From for PerformanceMeasure { fn from(value: PerformanceMark) -> Self { Self { name: value.name, count: value.count, duration: value.start.elapsed(), } } } /// A simple structure for marking a start of something to measure the duration /// of and measuring that duration. Each measurement is identified by a string /// name and a counter is incremented each time a new measurement is marked. /// /// The structure will limit the size of measurements to the most recent 1000, /// and will roll off when that limit is reached. #[derive(Debug)] pub struct Performance { counts: Mutex>, measurements_by_type: Mutex>, max_size: usize, measures: Mutex>, } impl Default for Performance { fn default() -> Self { Self { counts: Default::default(), measurements_by_type: Default::default(), max_size: 3_000, measures: Default::default(), } } } impl Performance { /// Return the count and average duration of a measurement identified by name. #[cfg(test)] pub fn average(&self, name: &str) -> Option<(usize, Duration)> { let mut items = Vec::new(); for measure in self.measures.lock().iter() { if measure.name == name { items.push(measure.duration); } } let len = items.len(); if len > 0 { let average = items.into_iter().sum::() / len as u32; Some((len, average)) } else { None } } /// Return an iterator which provides the names, count, and average duration /// of each measurement. pub fn averages(&self) -> Vec { let mut averages: HashMap> = HashMap::new(); for measure in self.measures.lock().iter() { averages .entry(measure.name.clone()) .or_default() .push(measure.duration); } averages .into_iter() .map(|(k, d)| { let count = d.len() as u32; let a = d.into_iter().sum::() / count; PerformanceAverage { name: k, count, average_duration: a.as_millis() as u32, } }) .collect() } pub fn measurements_by_type(&self) -> Vec<(String, u32, f64)> { let measurements_by_type = self.measurements_by_type.lock(); measurements_by_type .iter() .map(|(name, (count, duration))| (name.to_string(), *count, *duration)) .collect::>() } pub fn averages_as_f64(&self) -> Vec<(String, u32, f64)> { let mut averages: HashMap> = HashMap::new(); for measure in self.measures.lock().iter() { averages .entry(measure.name.clone()) .or_default() .push(measure.duration); } averages .into_iter() .map(|(k, d)| { let count = d.len() as u32; let a = d.into_iter().sum::() / count; (k, count, a.as_micros() as f64 / 1000.0) }) .collect() } fn mark_inner, V: Serialize>( &self, name: S, maybe_args: Option, ) -> PerformanceMark { let name = name.as_ref(); let mut counts = self.counts.lock(); let count = counts.entry(name.to_string()).or_insert(0); *count += 1; { let mut measurements_by_type = self.measurements_by_type.lock(); let measurement = measurements_by_type .entry(name.to_string()) .or_insert((0, 0.0)); measurement.0 += 1; } let msg = if let Some(args) = maybe_args { json!({ "type": "mark", "name": name, "count": count, "args": args, }) } else { json!({ "type": "mark", "name": name, }) }; lsp_debug!("{},", msg); PerformanceMark { name: name.to_string(), count: *count, start: Instant::now(), } } /// Marks the start of a measurement which returns a performance mark /// structure, which is then passed to `.measure()` to finalize the duration /// and add it to the internal buffer. pub fn mark>(&self, name: S) -> PerformanceMark { self.mark_inner(name, None::<()>) } /// Marks the start of a measurement which returns a performance mark /// structure, which is then passed to `.measure()` to finalize the duration /// and add it to the internal buffer. pub fn mark_with_args, V: Serialize>( &self, name: S, args: V, ) -> PerformanceMark { self.mark_inner(name, Some(args)) } /// A function which accepts a previously created performance mark which will /// be used to finalize the duration of the span being measured, and add the /// measurement to the internal buffer. pub fn measure(&self, mark: PerformanceMark) -> Duration { let measure = PerformanceMeasure::from(mark); lsp_debug!( "{},", json!({ "type": "measure", "name": measure.name, "count": measure.count, "duration": measure.duration.as_micros() as f64 / 1000.0, }) ); let duration = measure.duration; { let mut measurements_by_type = self.measurements_by_type.lock(); let measurement = measurements_by_type .entry(measure.name.to_string()) .or_insert((0, 0.0)); measurement.1 += duration.as_micros() as f64 / 1000.0; } let mut measures = self.measures.lock(); measures.push_front(measure); while measures.len() > self.max_size { measures.pop_back(); } duration } pub fn to_vec(&self) -> Vec { let measures = self.measures.lock(); measures.iter().cloned().collect() } } #[cfg(test)] mod tests { use super::*; #[test] fn test_average() { let performance = Performance::default(); let mark1 = performance.mark("a"); let mark2 = performance.mark("a"); let mark3 = performance.mark("b"); performance.measure(mark2); performance.measure(mark1); performance.measure(mark3); let (count, _) = performance.average("a").expect("should have had value"); assert_eq!(count, 2); let (count, _) = performance.average("b").expect("should have had value"); assert_eq!(count, 1); assert!(performance.average("c").is_none()); } #[test] fn test_averages() { let performance = Performance::default(); let mark1 = performance.mark("a"); let mark2 = performance.mark("a"); performance.measure(mark2); performance.measure(mark1); let averages = performance.averages(); assert_eq!(averages.len(), 1); assert_eq!(averages[0].count, 2); } }