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denoland-deno/cli/tools/coverage/merge.rs
2022-11-18 02:59:10 +01:00

836 lines
23 KiB
Rust

// Forked from https://github.com/demurgos/v8-coverage/tree/d0ca18da8740198681e0bc68971b0a6cdb11db3e/rust
// Copyright 2021 Charles Samborski. All rights reserved. MIT license.
// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use super::json_types::CoverageRange;
use super::json_types::FunctionCoverage;
use super::json_types::ProcessCoverage;
use super::json_types::ScriptCoverage;
use super::range_tree::RangeTree;
use super::range_tree::RangeTreeArena;
use std::collections::BTreeMap;
use std::collections::BTreeSet;
use std::collections::HashMap;
use std::iter::Peekable;
pub fn merge_processes(
mut processes: Vec<ProcessCoverage>,
) -> Option<ProcessCoverage> {
if processes.len() <= 1 {
return processes.pop();
}
let mut url_to_scripts: BTreeMap<String, Vec<ScriptCoverage>> =
BTreeMap::new();
for process_cov in processes {
for script_cov in process_cov.result {
url_to_scripts
.entry(script_cov.url.clone())
.or_insert_with(Vec::new)
.push(script_cov);
}
}
let result: Vec<ScriptCoverage> = url_to_scripts
.into_iter()
.enumerate()
.map(|(script_id, (_, scripts))| (script_id, scripts))
.map(|(script_id, scripts)| {
let mut merged: ScriptCoverage = merge_scripts(scripts.to_vec()).unwrap();
merged.script_id = script_id.to_string();
merged
})
.collect();
Some(ProcessCoverage { result })
}
pub fn merge_scripts(
mut scripts: Vec<ScriptCoverage>,
) -> Option<ScriptCoverage> {
if scripts.len() <= 1 {
return scripts.pop();
}
let (script_id, url) = {
let first: &ScriptCoverage = &scripts[0];
(first.script_id.clone(), first.url.clone())
};
let mut range_to_funcs: BTreeMap<CharRange, Vec<FunctionCoverage>> =
BTreeMap::new();
for script_cov in scripts {
for func_cov in script_cov.functions {
let root_range = {
let root_range_cov: &CoverageRange = &func_cov.ranges[0];
CharRange {
start: root_range_cov.start_char_offset,
end: root_range_cov.end_char_offset,
}
};
range_to_funcs
.entry(root_range)
.or_insert_with(Vec::new)
.push(func_cov);
}
}
let functions: Vec<FunctionCoverage> = range_to_funcs
.into_iter()
.map(|(_, funcs)| merge_functions(funcs).unwrap())
.collect();
Some(ScriptCoverage {
script_id,
url,
functions,
})
}
#[derive(Eq, PartialEq, Hash, Copy, Clone, Debug)]
struct CharRange {
start: usize,
end: usize,
}
impl Ord for CharRange {
fn cmp(&self, other: &Self) -> ::std::cmp::Ordering {
if self.start != other.start {
self.start.cmp(&other.start)
} else {
other.end.cmp(&self.end)
}
}
}
impl PartialOrd for CharRange {
fn partial_cmp(&self, other: &Self) -> Option<::std::cmp::Ordering> {
if self.start != other.start {
self.start.partial_cmp(&other.start)
} else {
other.end.partial_cmp(&self.end)
}
}
}
pub fn merge_functions(
mut funcs: Vec<FunctionCoverage>,
) -> Option<FunctionCoverage> {
if funcs.len() <= 1 {
return funcs.pop();
}
let function_name = funcs[0].function_name.clone();
let rta_capacity: usize =
funcs.iter().fold(0, |acc, func| acc + func.ranges.len());
let rta = RangeTreeArena::with_capacity(rta_capacity);
let mut trees: Vec<&mut RangeTree> = Vec::new();
for func in funcs {
if let Some(tree) = RangeTree::from_sorted_ranges(&rta, &func.ranges) {
trees.push(tree);
}
}
let merged = RangeTree::normalize(merge_range_trees(&rta, trees).unwrap());
let ranges = merged.to_ranges();
let is_block_coverage: bool = !(ranges.len() == 1 && ranges[0].count == 0);
Some(FunctionCoverage {
function_name,
ranges,
is_block_coverage,
})
}
fn merge_range_trees<'a>(
rta: &'a RangeTreeArena<'a>,
mut trees: Vec<&'a mut RangeTree<'a>>,
) -> Option<&'a mut RangeTree<'a>> {
if trees.len() <= 1 {
return trees.pop();
}
let (start, end) = {
let first = &trees[0];
(first.start, first.end)
};
let delta: i64 = trees.iter().fold(0, |acc, tree| acc + tree.delta);
let children = merge_range_tree_children(rta, trees);
Some(rta.alloc(RangeTree::new(start, end, delta, children)))
}
struct StartEvent<'a> {
offset: usize,
trees: Vec<(usize, &'a mut RangeTree<'a>)>,
}
fn into_start_events<'a>(trees: Vec<&'a mut RangeTree<'a>>) -> Vec<StartEvent> {
let mut result: BTreeMap<usize, Vec<(usize, &'a mut RangeTree<'a>)>> =
BTreeMap::new();
for (parent_index, tree) in trees.into_iter().enumerate() {
for child in tree.children.drain(..) {
result
.entry(child.start)
.or_insert_with(Vec::new)
.push((parent_index, child));
}
}
result
.into_iter()
.map(|(offset, trees)| StartEvent { offset, trees })
.collect()
}
struct StartEventQueue<'a> {
pending: Option<StartEvent<'a>>,
queue: Peekable<::std::vec::IntoIter<StartEvent<'a>>>,
}
impl<'a> StartEventQueue<'a> {
pub fn new(queue: Vec<StartEvent<'a>>) -> StartEventQueue<'a> {
StartEventQueue {
pending: None,
queue: queue.into_iter().peekable(),
}
}
pub fn set_pending_offset(&mut self, offset: usize) {
self.pending = Some(StartEvent {
offset,
trees: Vec::new(),
});
}
pub fn push_pending_tree(&mut self, tree: (usize, &'a mut RangeTree<'a>)) {
self.pending = self.pending.take().map(|mut start_event| {
start_event.trees.push(tree);
start_event
});
}
}
impl<'a> Iterator for StartEventQueue<'a> {
type Item = StartEvent<'a>;
fn next(&mut self) -> Option<<Self as Iterator>::Item> {
let pending_offset: Option<usize> = match &self.pending {
Some(ref start_event) if !start_event.trees.is_empty() => {
Some(start_event.offset)
}
_ => None,
};
match pending_offset {
Some(pending_offset) => {
let queue_offset =
self.queue.peek().map(|start_event| start_event.offset);
match queue_offset {
None => self.pending.take(),
Some(queue_offset) => {
if pending_offset < queue_offset {
self.pending.take()
} else {
let mut result = self.queue.next().unwrap();
if pending_offset == queue_offset {
let pending_trees = self.pending.take().unwrap().trees;
result.trees.extend(pending_trees.into_iter())
}
Some(result)
}
}
}
}
None => self.queue.next(),
}
}
}
fn merge_range_tree_children<'a>(
rta: &'a RangeTreeArena<'a>,
parent_trees: Vec<&'a mut RangeTree<'a>>,
) -> Vec<&'a mut RangeTree<'a>> {
let mut flat_children: Vec<Vec<&'a mut RangeTree<'a>>> =
Vec::with_capacity(parent_trees.len());
let mut wrapped_children: Vec<Vec<&'a mut RangeTree<'a>>> =
Vec::with_capacity(parent_trees.len());
let mut open_range: Option<CharRange> = None;
for _parent_tree in parent_trees.iter() {
flat_children.push(Vec::new());
wrapped_children.push(Vec::new());
}
let mut start_event_queue =
StartEventQueue::new(into_start_events(parent_trees));
let mut parent_to_nested: HashMap<usize, Vec<&'a mut RangeTree<'a>>> =
HashMap::new();
while let Some(event) = start_event_queue.next() {
open_range = if let Some(open_range) = open_range {
if open_range.end <= event.offset {
for (parent_index, nested) in parent_to_nested {
wrapped_children[parent_index].push(rta.alloc(RangeTree::new(
open_range.start,
open_range.end,
0,
nested,
)));
}
parent_to_nested = HashMap::new();
None
} else {
Some(open_range)
}
} else {
None
};
match open_range {
Some(open_range) => {
for (parent_index, tree) in event.trees {
let child = if tree.end > open_range.end {
let (left, right) = RangeTree::split(rta, tree, open_range.end);
start_event_queue.push_pending_tree((parent_index, right));
left
} else {
tree
};
parent_to_nested
.entry(parent_index)
.or_insert_with(Vec::new)
.push(child);
}
}
None => {
let mut open_range_end: usize = event.offset + 1;
for (_, ref tree) in &event.trees {
open_range_end = if tree.end > open_range_end {
tree.end
} else {
open_range_end
};
}
for (parent_index, tree) in event.trees {
if tree.end == open_range_end {
flat_children[parent_index].push(tree);
continue;
}
parent_to_nested
.entry(parent_index)
.or_insert_with(Vec::new)
.push(tree);
}
start_event_queue.set_pending_offset(open_range_end);
open_range = Some(CharRange {
start: event.offset,
end: open_range_end,
});
}
}
}
if let Some(open_range) = open_range {
for (parent_index, nested) in parent_to_nested {
wrapped_children[parent_index].push(rta.alloc(RangeTree::new(
open_range.start,
open_range.end,
0,
nested,
)));
}
}
let child_forests: Vec<Vec<&'a mut RangeTree<'a>>> = flat_children
.into_iter()
.zip(wrapped_children.into_iter())
.map(|(flat, wrapped)| merge_children_lists(flat, wrapped))
.collect();
let events = get_child_events_from_forests(&child_forests);
let mut child_forests: Vec<
Peekable<::std::vec::IntoIter<&'a mut RangeTree<'a>>>,
> = child_forests
.into_iter()
.map(|forest| forest.into_iter().peekable())
.collect();
let mut result: Vec<&'a mut RangeTree<'a>> = Vec::new();
for event in events.iter() {
let mut matching_trees: Vec<&'a mut RangeTree<'a>> = Vec::new();
for (_parent_index, children) in child_forests.iter_mut().enumerate() {
let next_tree: Option<&'a mut RangeTree<'a>> = {
if children.peek().map_or(false, |tree| tree.start == *event) {
children.next()
} else {
None
}
};
if let Some(next_tree) = next_tree {
matching_trees.push(next_tree);
}
}
if let Some(merged) = merge_range_trees(rta, matching_trees) {
result.push(merged);
}
}
result
}
fn get_child_events_from_forests<'a>(
forests: &[Vec<&'a mut RangeTree<'a>>],
) -> BTreeSet<usize> {
let mut event_set: BTreeSet<usize> = BTreeSet::new();
for forest in forests {
for tree in forest {
event_set.insert(tree.start);
event_set.insert(tree.end);
}
}
event_set
}
// TODO: itertools?
// https://play.integer32.com/?gist=ad2cd20d628e647a5dbdd82e68a15cb6&version=stable&mode=debug&edition=2015
fn merge_children_lists<'a>(
a: Vec<&'a mut RangeTree<'a>>,
b: Vec<&'a mut RangeTree<'a>>,
) -> Vec<&'a mut RangeTree<'a>> {
let mut merged: Vec<&'a mut RangeTree<'a>> = Vec::new();
let mut a = a.into_iter();
let mut b = b.into_iter();
let mut next_a = a.next();
let mut next_b = b.next();
loop {
match (next_a, next_b) {
(Some(tree_a), Some(tree_b)) => {
if tree_a.start < tree_b.start {
merged.push(tree_a);
next_a = a.next();
next_b = Some(tree_b);
} else {
merged.push(tree_b);
next_a = Some(tree_a);
next_b = b.next();
}
}
(Some(tree_a), None) => {
merged.push(tree_a);
merged.extend(a);
break;
}
(None, Some(tree_b)) => {
merged.push(tree_b);
merged.extend(b);
break;
}
(None, None) => break,
}
}
merged
}
#[cfg(test)]
mod tests {
use super::*;
// use test_generator::test_resources;
#[test]
fn empty() {
let inputs: Vec<ProcessCoverage> = Vec::new();
let expected: Option<ProcessCoverage> = None;
assert_eq!(merge_processes(inputs), expected);
}
#[test]
fn two_flat_trees() {
let inputs: Vec<ProcessCoverage> = vec![
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 1,
}],
}],
}],
},
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 2,
}],
}],
}],
},
];
let expected: Option<ProcessCoverage> = Some(ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 3,
}],
}],
}],
});
assert_eq!(merge_processes(inputs), expected);
}
#[test]
fn two_trees_with_matching_children() {
let inputs: Vec<ProcessCoverage> = vec![
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 10,
},
CoverageRange {
start_char_offset: 3,
end_char_offset: 6,
count: 1,
},
],
}],
}],
},
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 20,
},
CoverageRange {
start_char_offset: 3,
end_char_offset: 6,
count: 2,
},
],
}],
}],
},
];
let expected: Option<ProcessCoverage> = Some(ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 30,
},
CoverageRange {
start_char_offset: 3,
end_char_offset: 6,
count: 3,
},
],
}],
}],
});
assert_eq!(merge_processes(inputs), expected);
}
#[test]
fn two_trees_with_partially_overlapping_children() {
let inputs: Vec<ProcessCoverage> = vec![
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 10,
},
CoverageRange {
start_char_offset: 2,
end_char_offset: 5,
count: 1,
},
],
}],
}],
},
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 20,
},
CoverageRange {
start_char_offset: 4,
end_char_offset: 7,
count: 2,
},
],
}],
}],
},
];
let expected: Option<ProcessCoverage> = Some(ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 30,
},
CoverageRange {
start_char_offset: 2,
end_char_offset: 5,
count: 21,
},
CoverageRange {
start_char_offset: 4,
end_char_offset: 5,
count: 3,
},
CoverageRange {
start_char_offset: 5,
end_char_offset: 7,
count: 12,
},
],
}],
}],
});
assert_eq!(merge_processes(inputs), expected);
}
#[test]
fn two_trees_with_with_complementary_children_summing_to_the_same_count() {
let inputs: Vec<ProcessCoverage> = vec![
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 1,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 8,
count: 6,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 5,
count: 5,
},
CoverageRange {
start_char_offset: 5,
end_char_offset: 8,
count: 7,
},
],
}],
}],
},
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 4,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 8,
count: 8,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 5,
count: 9,
},
CoverageRange {
start_char_offset: 5,
end_char_offset: 8,
count: 7,
},
],
}],
}],
},
];
let expected: Option<ProcessCoverage> = Some(ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 9,
count: 5,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 8,
count: 14,
},
],
}],
}],
});
assert_eq!(merge_processes(inputs), expected);
}
#[test]
fn merges_a_similar_sliding_chain_a_bc() {
let inputs: Vec<ProcessCoverage> = vec![
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 7,
count: 10,
},
CoverageRange {
start_char_offset: 0,
end_char_offset: 4,
count: 1,
},
],
}],
}],
},
ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 7,
count: 20,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 6,
count: 11,
},
CoverageRange {
start_char_offset: 2,
end_char_offset: 5,
count: 2,
},
],
}],
}],
},
];
let expected: Option<ProcessCoverage> = Some(ProcessCoverage {
result: vec![ScriptCoverage {
script_id: String::from("0"),
url: String::from("/lib.js"),
functions: vec![FunctionCoverage {
function_name: String::from("lib"),
is_block_coverage: true,
ranges: vec![
CoverageRange {
start_char_offset: 0,
end_char_offset: 7,
count: 30,
},
CoverageRange {
start_char_offset: 0,
end_char_offset: 6,
count: 21,
},
CoverageRange {
start_char_offset: 1,
end_char_offset: 5,
count: 12,
},
CoverageRange {
start_char_offset: 2,
end_char_offset: 4,
count: 3,
},
],
}],
}],
});
assert_eq!(merge_processes(inputs), expected);
}
}