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use std::cell::RefCell;
use std::time::{Duration, Instant};
use std::mem;
use std::io::{stderr, Write};
use std::iter::repeat;
use std::collections::{HashSet};
use std::default::Default;
use std::iter::FromIterator;
use std::sync::{RwLock, atomic::{AtomicBool, Ordering}};
use lazy_static::lazy_static;
/// Set profiling filter. It specifies descriptions allowed to profile.
/// This is helpful when call stack has too many nested profiling scopes.
/// Additionally filter can specify maximum depth of profiling scopes nesting.
///
/// #Example
/// ```
/// use ra_prof::{set_filter, Filter};
/// let f = Filter::from_spec("profile1|profile2@2");
/// set_filter(f);
/// ```
pub fn set_filter(f: Filter) {
PROFILING_ENABLED.store(f.depth > 0, Ordering::SeqCst);
let set = HashSet::from_iter(f.allowed.iter().cloned());
let mut old = FILTER.write().unwrap();
let filter_data = FilterData {
depth: f.depth,
allowed: set,
longer_than: f.longer_than,
version: old.version + 1,
};
*old = filter_data;
}
/// This function starts a profiling scope in the current execution stack with a given description.
/// It returns a Profile structure and measure elapsed time between this method invocation and Profile structure drop.
/// It supports nested profiling scopes in case when this function invoked multiple times at the execution stack. In this case the profiling information will be nested at the output.
/// Profiling information is being printed in the stderr.
///
/// #Example
/// ```
/// use ra_prof::{profile, set_filter, Filter};
///
/// let f = Filter::from_spec("profile1|profile2@2");
/// set_filter(f);
/// profiling_function1();
///
/// fn profiling_function1() {
/// let _p = profile("profile1");
/// profiling_function2();
/// }
///
/// fn profiling_function2() {
/// let _p = profile("profile2");
/// }
/// ```
/// This will print in the stderr the following:
/// ```text
/// 0ms - profile
/// 0ms - profile2
/// ```
pub fn profile(desc: &str) -> Profiler {
assert!(!desc.is_empty());
if !PROFILING_ENABLED.load(Ordering::Relaxed) {
return Profiler { desc: None };
}
PROFILE_STACK.with(|stack| {
let mut stack = stack.borrow_mut();
if stack.starts.len() == 0 {
match FILTER.try_read() {
Ok(f) => {
if f.version > stack.filter_data.version {
stack.filter_data = f.clone();
}
}
Err(_) => (),
};
}
if stack.starts.len() > stack.filter_data.depth {
return Profiler { desc: None };
}
if stack.filter_data.allowed.is_empty() || stack.filter_data.allowed.contains(desc) {
stack.starts.push(Instant::now());
Profiler { desc: Some(desc.to_string()) }
} else {
Profiler { desc: None }
}
})
}
pub struct Profiler {
desc: Option<String>,
}
pub struct Filter {
depth: usize,
allowed: Vec<String>,
longer_than: Duration,
}
impl Filter {
// Filtering syntax
// env RA_PROFILE=* // dump everything
// env RA_PROFILE=foo|bar|baz // enabled only selected entries
// env RA_PROFILE=*@3>10 // dump everything, up to depth 3, if it takes more than 10 ms
pub fn from_spec(mut spec: &str) -> Filter {
let longer_than = if let Some(idx) = spec.rfind(">") {
let longer_than = spec[idx + 1..].parse().expect("invalid profile longer_than");
spec = &spec[..idx];
Duration::from_millis(longer_than)
} else {
Duration::new(0, 0)
};
let depth = if let Some(idx) = spec.rfind("@") {
let depth: usize = spec[idx + 1..].parse().expect("invalid profile depth");
spec = &spec[..idx];
depth
} else {
999
};
let allowed =
if spec == "*" { Vec::new() } else { spec.split("|").map(String::from).collect() };
Filter::new(depth, allowed, longer_than)
}
pub fn disabled() -> Filter {
Filter::new(0, Vec::new(), Duration::new(0, 0))
}
pub fn new(depth: usize, allowed: Vec<String>, longer_than: Duration) -> Filter {
Filter { depth, allowed, longer_than }
}
}
struct ProfileStack {
starts: Vec<Instant>,
messages: Vec<Message>,
filter_data: FilterData,
}
struct Message {
level: usize,
duration: Duration,
message: String,
}
impl ProfileStack {
fn new() -> ProfileStack {
ProfileStack { starts: Vec::new(), messages: Vec::new(), filter_data: Default::default() }
}
}
#[derive(Default, Clone)]
struct FilterData {
depth: usize,
version: usize,
allowed: HashSet<String>,
longer_than: Duration,
}
static PROFILING_ENABLED: AtomicBool = AtomicBool::new(false);
lazy_static! {
static ref FILTER: RwLock<FilterData> = RwLock::new(Default::default());
}
thread_local!(static PROFILE_STACK: RefCell<ProfileStack> = RefCell::new(ProfileStack::new()));
impl Drop for Profiler {
fn drop(&mut self) {
match self {
Profiler { desc: Some(desc) } => {
PROFILE_STACK.with(|stack| {
let mut stack = stack.borrow_mut();
let start = stack.starts.pop().unwrap();
let duration = start.elapsed();
let level = stack.starts.len();
let message = mem::replace(desc, String::new());
stack.messages.push(Message { level, duration, message });
if level == 0 {
let stdout = stderr();
if duration >= stack.filter_data.longer_than {
print(0, &stack.messages, &mut stdout.lock());
}
stack.messages.clear();
}
});
}
Profiler { desc: None } => (),
}
}
}
fn print(lvl: usize, msgs: &[Message], out: &mut impl Write) {
let mut last = 0;
let indent = repeat(" ").take(lvl + 1).collect::<String>();
for (i, &Message { level: l, duration: dur, message: ref msg }) in msgs.iter().enumerate() {
if l != lvl {
continue;
}
writeln!(out, "{} {:6}ms - {}", indent, dur.as_millis(), msg)
.expect("printing profiling info to stdout");
print(lvl + 1, &msgs[last..i], out);
last = i;
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_basic_profile() {
let s = vec!["profile1".to_string(), "profile2".to_string()];
let f = Filter::new(2, s, Duration::new(0, 0));
set_filter(f);
profiling_function1();
}
fn profiling_function1() {
let _p = profile("profile1");
profiling_function2();
}
fn profiling_function2() {
let _p = profile("profile2");
}
}
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