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author | bors[bot] <26634292+bors[bot]@users.noreply.github.com> | 2020-01-29 20:09:49 +0000 |
---|---|---|
committer | GitHub <[email protected]> | 2020-01-29 20:09:49 +0000 |
commit | 5dcd9fdf5e95573de9bc46f32b86d6fbc5e7c18d (patch) | |
tree | 0dd24c080fb5052428023373cb3109bd566f8f83 /crates/ra_prof | |
parent | d92a15c1637860a669970142abe37d1daf5f2c73 (diff) | |
parent | 644c383f65324b5fe1ada42680923c2529accb26 (diff) |
Merge #2895
2895: Rewrite ra_prof's profile printing r=michalt a=michalt
This changes the way we print things to first construct a mapping from
events to the children and uses that mapping to actually print things.
It should not change the actual output that we produce.
The new approach two benefits:
* It avoids a potential quadratic behavior of the previous approach.
For instance, for a vector of N elements:
```
[Message{level: (N - 1)}, ..., Message{level: 1}, Message{level: 0}]
```
we would first do a linear scan to find entry with level 0, then
another scan to find one with level 1, etc.
* It makes it much easier to improve the output in the future, because
we now pre-compute the children for each entry and can easily take
that into account when printing.
Signed-off-by: Michal Terepeta <[email protected]>
Co-authored-by: Michal Terepeta <[email protected]>
Diffstat (limited to 'crates/ra_prof')
-rw-r--r-- | crates/ra_prof/src/lib.rs | 117 |
1 files changed, 71 insertions, 46 deletions
diff --git a/crates/ra_prof/src/lib.rs b/crates/ra_prof/src/lib.rs index c7973ddf4..4a49e9f95 100644 --- a/crates/ra_prof/src/lib.rs +++ b/crates/ra_prof/src/lib.rs | |||
@@ -6,9 +6,9 @@ mod google_cpu_profiler; | |||
6 | 6 | ||
7 | use std::{ | 7 | use std::{ |
8 | cell::RefCell, | 8 | cell::RefCell, |
9 | collections::BTreeMap, | ||
9 | collections::HashSet, | 10 | collections::HashSet, |
10 | io::{stderr, Write}, | 11 | io::{stderr, Write}, |
11 | iter::repeat, | ||
12 | mem, | 12 | mem, |
13 | sync::{ | 13 | sync::{ |
14 | atomic::{AtomicBool, Ordering}, | 14 | atomic::{AtomicBool, Ordering}, |
@@ -17,7 +17,6 @@ use std::{ | |||
17 | time::{Duration, Instant}, | 17 | time::{Duration, Instant}, |
18 | }; | 18 | }; |
19 | 19 | ||
20 | use itertools::Itertools; | ||
21 | use once_cell::sync::Lazy; | 20 | use once_cell::sync::Lazy; |
22 | 21 | ||
23 | pub use crate::memory_usage::{Bytes, MemoryUsage}; | 22 | pub use crate::memory_usage::{Bytes, MemoryUsage}; |
@@ -216,7 +215,7 @@ impl Drop for Profiler { | |||
216 | // (otherwise we could print `0ms` despite user's `>0` filter when | 215 | // (otherwise we could print `0ms` despite user's `>0` filter when |
217 | // `duration` is just a few nanos). | 216 | // `duration` is just a few nanos). |
218 | if duration.as_millis() > longer_than.as_millis() { | 217 | if duration.as_millis() > longer_than.as_millis() { |
219 | print(0, &stack.messages, &mut stdout.lock(), longer_than, None); | 218 | print(&stack.messages, longer_than, &mut stdout.lock()); |
220 | } | 219 | } |
221 | stack.messages.clear(); | 220 | stack.messages.clear(); |
222 | } | 221 | } |
@@ -227,59 +226,85 @@ impl Drop for Profiler { | |||
227 | } | 226 | } |
228 | } | 227 | } |
229 | 228 | ||
230 | fn print( | 229 | fn print(msgs: &[Message], longer_than: Duration, out: &mut impl Write) { |
231 | lvl: usize, | ||
232 | msgs: &[Message], | ||
233 | out: &mut impl Write, | ||
234 | longer_than: Duration, | ||
235 | total: Option<Duration>, | ||
236 | ) { | ||
237 | if msgs.is_empty() { | 230 | if msgs.is_empty() { |
238 | return; | 231 | return; |
239 | } | 232 | } |
240 | // The index of the first element that will be included in the slice when we recurse. | 233 | let children_map = idx_to_children(msgs); |
241 | let mut next_start = 0; | 234 | let root_idx = msgs.len() - 1; |
242 | let indent = repeat(" ").take(lvl).collect::<String>(); | 235 | print_for_idx(root_idx, &children_map, msgs, longer_than, out); |
243 | // We output hierarchy for long calls, but sum up all short calls | 236 | } |
244 | let mut short = Vec::new(); | 237 | |
238 | fn print_for_idx( | ||
239 | current_idx: usize, | ||
240 | children_map: &[Vec<usize>], | ||
241 | msgs: &[Message], | ||
242 | longer_than: Duration, | ||
243 | out: &mut impl Write, | ||
244 | ) { | ||
245 | let current = &msgs[current_idx]; | ||
246 | let current_indent = " ".repeat(current.level); | ||
247 | writeln!(out, "{}{:5}ms - {}", current_indent, current.duration.as_millis(), current.message) | ||
248 | .expect("printing profiling info"); | ||
249 | |||
250 | let longer_than_millis = longer_than.as_millis(); | ||
251 | let children_indices = &children_map[current_idx]; | ||
245 | let mut accounted_for = Duration::default(); | 252 | let mut accounted_for = Duration::default(); |
246 | for (i, &Message { level, duration, message: ref msg }) in msgs.iter().enumerate() { | 253 | let mut short_children = BTreeMap::new(); // Use `BTreeMap` to get deterministic output. |
247 | if level != lvl { | ||
248 | continue; | ||
249 | } | ||
250 | accounted_for += duration; | ||
251 | if duration.as_millis() > longer_than.as_millis() { | ||
252 | writeln!(out, "{}{:5}ms - {}", indent, duration.as_millis(), msg) | ||
253 | .expect("printing profiling info to stdout"); | ||
254 | 254 | ||
255 | print(lvl + 1, &msgs[next_start..i], out, longer_than, Some(duration)); | 255 | for child_idx in children_indices.iter() { |
256 | let child = &msgs[*child_idx]; | ||
257 | if child.duration.as_millis() > longer_than_millis { | ||
258 | print_for_idx(*child_idx, children_map, msgs, longer_than, out); | ||
256 | } else { | 259 | } else { |
257 | short.push((msg, duration)) | 260 | let pair = short_children.entry(&child.message).or_insert((Duration::default(), 0)); |
261 | pair.0 += child.duration; | ||
262 | pair.1 += 1; | ||
258 | } | 263 | } |
264 | accounted_for += child.duration; | ||
265 | } | ||
259 | 266 | ||
260 | next_start = i + 1; | 267 | for (child_msg, (duration, count)) in short_children.iter() { |
268 | let millis = duration.as_millis(); | ||
269 | writeln!(out, " {}{:5}ms - {} ({} calls)", current_indent, millis, child_msg, count) | ||
270 | .expect("printing profiling info"); | ||
261 | } | 271 | } |
262 | short.sort_by_key(|(msg, _time)| *msg); | 272 | |
263 | for (msg, entires) in short.iter().group_by(|(msg, _time)| msg).into_iter() { | 273 | let unaccounted_millis = (current.duration - accounted_for).as_millis(); |
264 | let mut count = 0; | 274 | if !children_indices.is_empty() |
265 | let mut total_duration = Duration::default(); | 275 | && unaccounted_millis > 0 |
266 | entires.for_each(|(_msg, time)| { | 276 | && unaccounted_millis > longer_than_millis |
267 | count += 1; | 277 | { |
268 | total_duration += *time; | 278 | writeln!(out, " {}{:5}ms - ???", current_indent, unaccounted_millis) |
269 | }); | 279 | .expect("printing profiling info"); |
270 | writeln!(out, "{}{:5}ms - {} ({} calls)", indent, total_duration.as_millis(), msg, count) | ||
271 | .expect("printing profiling info to stdout"); | ||
272 | } | 280 | } |
281 | } | ||
273 | 282 | ||
274 | if let Some(total) = total { | 283 | /// Returns a mapping from an index in the `msgs` to the vector with the indices of its children. |
275 | if let Some(unaccounted) = total.checked_sub(accounted_for) { | 284 | /// |
276 | let unaccounted_millis = unaccounted.as_millis(); | 285 | /// This assumes that the entries in `msgs` are in the order of when the calls to `profile` finish. |
277 | if unaccounted_millis > longer_than.as_millis() && unaccounted_millis > 0 { | 286 | /// In other words, a postorder of the call graph. In particular, the root is the last element of |
278 | writeln!(out, "{}{:5}ms - ???", indent, unaccounted_millis) | 287 | /// `msgs`. |
279 | .expect("printing profiling info to stdout"); | 288 | fn idx_to_children(msgs: &[Message]) -> Vec<Vec<usize>> { |
280 | } | 289 | // Initialize with the index of the root; `msgs` and `ancestors` should be never empty. |
290 | assert!(!msgs.is_empty()); | ||
291 | let mut ancestors = vec![msgs.len() - 1]; | ||
292 | let mut result: Vec<Vec<usize>> = vec![vec![]; msgs.len()]; | ||
293 | for (idx, msg) in msgs[..msgs.len() - 1].iter().enumerate().rev() { | ||
294 | // We need to find the parent of the current message, i.e., the last ancestor that has a | ||
295 | // level lower than the current message. | ||
296 | while msgs[*ancestors.last().unwrap()].level >= msg.level { | ||
297 | ancestors.pop(); | ||
281 | } | 298 | } |
299 | result[*ancestors.last().unwrap()].push(idx); | ||
300 | ancestors.push(idx); | ||
301 | } | ||
302 | // Note that above we visited all children from the last to the first one. Let's reverse vectors | ||
303 | // to get the more natural order where the first element is the first child. | ||
304 | for vec in result.iter_mut() { | ||
305 | vec.reverse(); | ||
282 | } | 306 | } |
307 | result | ||
283 | } | 308 | } |
284 | 309 | ||
285 | /// Prints backtrace to stderr, useful for debugging. | 310 | /// Prints backtrace to stderr, useful for debugging. |
@@ -388,7 +413,7 @@ mod tests { | |||
388 | Message { level: 1, duration: Duration::from_nanos(2), message: "bar".to_owned() }, | 413 | Message { level: 1, duration: Duration::from_nanos(2), message: "bar".to_owned() }, |
389 | Message { level: 0, duration: Duration::from_millis(1), message: "foo".to_owned() }, | 414 | Message { level: 0, duration: Duration::from_millis(1), message: "foo".to_owned() }, |
390 | ]; | 415 | ]; |
391 | print(0, &msgs, &mut result, Duration::from_millis(0), Some(Duration::from_millis(1))); | 416 | print(&msgs, Duration::from_millis(0), &mut result); |
392 | // The calls to `bar` are so short that they'll be rounded to 0ms and should get collapsed | 417 | // The calls to `bar` are so short that they'll be rounded to 0ms and should get collapsed |
393 | // when printing. | 418 | // when printing. |
394 | assert_eq!( | 419 | assert_eq!( |
@@ -404,7 +429,7 @@ mod tests { | |||
404 | Message { level: 1, duration: Duration::from_millis(2), message: "bar".to_owned() }, | 429 | Message { level: 1, duration: Duration::from_millis(2), message: "bar".to_owned() }, |
405 | Message { level: 0, duration: Duration::from_millis(5), message: "foo".to_owned() }, | 430 | Message { level: 0, duration: Duration::from_millis(5), message: "foo".to_owned() }, |
406 | ]; | 431 | ]; |
407 | print(0, &msgs, &mut result, Duration::from_millis(0), Some(Duration::from_millis(1))); | 432 | print(&msgs, Duration::from_millis(0), &mut result); |
408 | assert_eq!( | 433 | assert_eq!( |
409 | std::str::from_utf8(&result).unwrap().lines().collect::<Vec<_>>(), | 434 | std::str::from_utf8(&result).unwrap().lines().collect::<Vec<_>>(), |
410 | vec![ | 435 | vec![ |
@@ -426,7 +451,7 @@ mod tests { | |||
426 | Message { level: 1, duration: Duration::from_millis(4), message: "bar".to_owned() }, | 451 | Message { level: 1, duration: Duration::from_millis(4), message: "bar".to_owned() }, |
427 | Message { level: 0, duration: Duration::from_millis(9), message: "foo".to_owned() }, | 452 | Message { level: 0, duration: Duration::from_millis(9), message: "foo".to_owned() }, |
428 | ]; | 453 | ]; |
429 | print(0, &msgs, &mut result, Duration::from_millis(0), None); | 454 | print(&msgs, Duration::from_millis(0), &mut result); |
430 | assert_eq!( | 455 | assert_eq!( |
431 | std::str::from_utf8(&result).unwrap().lines().collect::<Vec<_>>(), | 456 | std::str::from_utf8(&result).unwrap().lines().collect::<Vec<_>>(), |
432 | vec![ | 457 | vec![ |