//! A collection of tools for profiling rust-analyzer. mod stop_watch; mod memory_usage; #[cfg(feature = "cpu_profiler")] mod google_cpu_profiler; mod hprof; mod tree; use std::cell::RefCell; pub use crate::{ hprof::{heartbeat, heartbeat_span, init, init_from, span}, memory_usage::{Bytes, MemoryUsage}, stop_watch::{StopWatch, StopWatchSpan}, }; pub use countme; /// Include `_c: Count` field in important structs to count them. /// /// To view the counts, run with `RA_COUNT=1`. The overhead of disabled count is /// almost zero. pub use countme::Count; thread_local!(static IN_SCOPE: RefCell = RefCell::new(false)); /// Allows to check if the current code is withing some dynamic scope, can be /// useful during debugging to figure out why a function is called. pub struct Scope { prev: bool, } impl Scope { #[must_use] pub fn enter() -> Scope { let prev = IN_SCOPE.with(|slot| std::mem::replace(&mut *slot.borrow_mut(), true)); Scope { prev } } pub fn is_active() -> bool { IN_SCOPE.with(|slot| *slot.borrow()) } } impl Drop for Scope { fn drop(&mut self) { IN_SCOPE.with(|slot| *slot.borrow_mut() = self.prev); } } /// A wrapper around google_cpu_profiler. /// /// Usage: /// 1. Install gpref_tools (), probably packaged with your Linux distro. /// 2. Build with `cpu_profiler` feature. /// 3. Run the code, the *raw* output would be in the `./out.profile` file. /// 4. Install pprof for visualization (). /// 5. Bump sampling frequency to once per ms: `export CPUPROFILE_FREQUENCY=1000` /// 6. Use something like `pprof -svg target/release/rust-analyzer ./out.profile` to see the results. /// /// For example, here's how I run profiling on NixOS: /// /// ```bash /// $ bat -p shell.nix /// with import {}; /// mkShell { /// buildInputs = [ gperftools ]; /// shellHook = '' /// export LD_LIBRARY_PATH="${gperftools}/lib:" /// ''; /// } /// $ set -x CPUPROFILE_FREQUENCY 1000 /// $ nix-shell --run 'cargo test --release --package rust-analyzer --lib -- benchmarks::benchmark_integrated_highlighting --exact --nocapture' /// $ pprof -svg target/release/deps/rust_analyzer-8739592dc93d63cb crates/rust-analyzer/out.profile > profile.svg /// ``` /// /// See this diff for how to profile completions: /// /// #[derive(Debug)] pub struct CpuSpan { _private: (), } #[must_use] pub fn cpu_span() -> CpuSpan { #[cfg(feature = "cpu_profiler")] { google_cpu_profiler::start("./out.profile".as_ref()) } #[cfg(not(feature = "cpu_profiler"))] { eprintln!( r#"cpu profiling is disabled, uncomment `default = [ "cpu_profiler" ]` in Cargo.toml to enable."# ); } CpuSpan { _private: () } } impl Drop for CpuSpan { fn drop(&mut self) { #[cfg(feature = "cpu_profiler")] { google_cpu_profiler::stop(); let profile_data = std::env::current_dir().unwrap().join("out.profile"); eprintln!("Profile data saved to:\n\n {}\n", profile_data.display()); let mut cmd = std::process::Command::new("pprof"); cmd.arg("-svg").arg(std::env::current_exe().unwrap()).arg(&profile_data); let out = cmd.output(); match out { Ok(out) if out.status.success() => { let svg = profile_data.with_extension("svg"); std::fs::write(&svg, &out.stdout).unwrap(); eprintln!("Profile rendered to:\n\n {}\n", svg.display()); } _ => { eprintln!("Failed to run:\n\n {:?}\n", cmd); } } } } } pub fn memory_usage() -> MemoryUsage { MemoryUsage::now() }