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denoland-deno/cli/tools/registry/publish_order.rs
David Sherret 147411e64b
feat: npm workspace and better Deno workspace support (#24334)
Adds much better support for the unstable Deno workspaces as well as
support for npm workspaces. npm workspaces is still lacking in that we
only install packages into the root node_modules folder. We'll make it
smarter over time in order for it to figure out when to add node_modules
folders within packages.

This includes a breaking change in config file resolution where we stop
searching for config files on the first found package.json unless it's
in a workspace. For the previous behaviour, the root deno.json needs to
be updated to be a workspace by adding `"workspace":
["./path-to-pkg-json-folder-goes-here"]`. See details in
https://github.com/denoland/deno_config/pull/66

Closes #24340
Closes #24159
Closes #24161
Closes #22020
Closes #18546
Closes #16106
Closes #24160
2024-07-04 00:54:33 +00:00

296 lines
8.8 KiB
Rust

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::collections::HashMap;
use std::collections::HashSet;
use std::collections::VecDeque;
use deno_ast::ModuleSpecifier;
use deno_config::workspace::JsrPackageConfig;
use deno_core::anyhow::bail;
use deno_core::error::AnyError;
use deno_graph::ModuleGraph;
pub struct PublishOrderGraph {
packages: HashMap<String, HashSet<String>>,
in_degree: HashMap<String, usize>,
reverse_map: HashMap<String, Vec<String>>,
}
impl PublishOrderGraph {
pub fn next(&mut self) -> Vec<String> {
let mut package_names_with_depth = self
.in_degree
.iter()
.filter_map(|(name, &degree)| if degree == 0 { Some(name) } else { None })
.map(|item| (item.clone(), self.compute_depth(item, HashSet::new())))
.collect::<Vec<_>>();
// sort by depth to in order to prioritize those packages
package_names_with_depth.sort_by(|a, b| match b.1.cmp(&a.1) {
std::cmp::Ordering::Equal => a.0.cmp(&b.0),
other => other,
});
let sorted_package_names = package_names_with_depth
.into_iter()
.map(|(name, _)| name)
.collect::<Vec<_>>();
for name in &sorted_package_names {
self.in_degree.remove(name);
}
sorted_package_names
}
pub fn finish_package(&mut self, name: &str) {
if let Some(package_names) = self.reverse_map.remove(name) {
for name in package_names {
*self.in_degree.get_mut(&name).unwrap() -= 1;
}
}
}
/// There could be pending packages if there's a circular dependency.
pub fn ensure_no_pending(&self) -> Result<(), AnyError> {
// this is inefficient, but that's ok because it's simple and will
// only ever happen when there's an error
fn identify_cycle<'a>(
current_name: &'a String,
mut visited: HashSet<&'a String>,
packages: &HashMap<String, HashSet<String>>,
) -> Option<Vec<String>> {
if visited.insert(current_name) {
let deps = packages.get(current_name).unwrap();
for dep in deps {
if let Some(mut cycle) =
identify_cycle(dep, visited.clone(), packages)
{
cycle.push(current_name.to_string());
return Some(cycle);
}
}
None
} else {
Some(vec![current_name.to_string()])
}
}
if self.in_degree.is_empty() {
Ok(())
} else {
let mut pkg_names = self.in_degree.keys().collect::<Vec<_>>();
pkg_names.sort(); // determinism
let mut cycle =
identify_cycle(pkg_names[0], HashSet::new(), &self.packages).unwrap();
cycle.reverse();
bail!(
"Circular package dependency detected: {}",
cycle.join(" -> ")
);
}
}
fn compute_depth(
&self,
package_name: &String,
mut visited: HashSet<String>,
) -> usize {
if visited.contains(package_name) {
return 0; // cycle
}
visited.insert(package_name.clone());
let Some(parents) = self.reverse_map.get(package_name) else {
return 0;
};
let max_depth = parents
.iter()
.map(|child| self.compute_depth(child, visited.clone()))
.max()
.unwrap_or(0);
1 + max_depth
}
}
pub fn build_publish_order_graph(
graph: &ModuleGraph,
roots: &[JsrPackageConfig],
) -> Result<PublishOrderGraph, AnyError> {
let packages = build_pkg_deps(graph, roots)?;
Ok(build_publish_order_graph_from_pkgs_deps(packages))
}
fn build_pkg_deps(
graph: &deno_graph::ModuleGraph,
roots: &[JsrPackageConfig],
) -> Result<HashMap<String, HashSet<String>>, AnyError> {
let mut members = HashMap::with_capacity(roots.len());
let mut seen_modules = HashSet::with_capacity(graph.modules().count());
let roots = roots
.iter()
.map(|r| {
(
ModuleSpecifier::from_directory_path(r.config_file.dir_path()).unwrap(),
r,
)
})
.collect::<Vec<_>>();
for (root_dir_url, pkg_config) in &roots {
let mut deps = HashSet::new();
let mut pending = VecDeque::new();
pending.extend(pkg_config.config_file.resolve_export_value_urls()?);
while let Some(specifier) = pending.pop_front() {
let Some(module) = graph.get(&specifier).and_then(|m| m.js()) else {
continue;
};
let mut dep_specifiers =
Vec::with_capacity(module.dependencies.len() + 1);
if let Some(types_dep) = &module.maybe_types_dependency {
if let Some(specifier) = types_dep.dependency.maybe_specifier() {
dep_specifiers.push(specifier);
}
}
for (_, dep) in &module.dependencies {
if let Some(specifier) = dep.maybe_code.maybe_specifier() {
dep_specifiers.push(specifier);
}
if let Some(specifier) = dep.maybe_type.maybe_specifier() {
dep_specifiers.push(specifier);
}
}
for specifier in dep_specifiers {
let specifier = graph.resolve(specifier);
if specifier.scheme() != "file" {
continue;
}
if specifier.as_str().starts_with(root_dir_url.as_str()) {
if seen_modules.insert(specifier.clone()) {
pending.push_back(specifier.clone());
}
} else {
let found_root = roots.iter().find(|(dir_url, _)| {
specifier.as_str().starts_with(dir_url.as_str())
});
if let Some(root) = found_root {
deps.insert(root.1.name.clone());
}
}
}
}
members.insert(pkg_config.name.clone(), deps);
}
Ok(members)
}
fn build_publish_order_graph_from_pkgs_deps(
packages: HashMap<String, HashSet<String>>,
) -> PublishOrderGraph {
let mut in_degree = HashMap::new();
let mut reverse_map: HashMap<String, Vec<String>> = HashMap::new();
// build the graph, in-degree map, and set of all nodes
for (pkg_name, deps) in &packages {
in_degree.insert(pkg_name.clone(), deps.len());
for dep in deps {
reverse_map
.entry(dep.clone())
.or_default()
.push(pkg_name.clone());
}
}
PublishOrderGraph {
packages: packages.clone(),
in_degree,
reverse_map,
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_graph_no_deps() {
let mut graph = build_publish_order_graph_from_pkgs_deps(HashMap::from([
("a".to_string(), HashSet::new()),
("b".to_string(), HashSet::new()),
("c".to_string(), HashSet::new()),
]));
assert_eq!(
graph.next(),
vec!["a".to_string(), "b".to_string(), "c".to_string()],
);
graph.finish_package("a");
assert!(graph.next().is_empty());
graph.finish_package("b");
assert!(graph.next().is_empty());
graph.finish_package("c");
assert!(graph.next().is_empty());
graph.ensure_no_pending().unwrap();
}
#[test]
fn test_graph_single_dep() {
let mut graph = build_publish_order_graph_from_pkgs_deps(HashMap::from([
("a".to_string(), HashSet::from(["b".to_string()])),
("b".to_string(), HashSet::from(["c".to_string()])),
("c".to_string(), HashSet::new()),
]));
assert_eq!(graph.next(), vec!["c".to_string()]);
graph.finish_package("c");
assert_eq!(graph.next(), vec!["b".to_string()]);
graph.finish_package("b");
assert_eq!(graph.next(), vec!["a".to_string()]);
graph.finish_package("a");
assert!(graph.next().is_empty());
graph.ensure_no_pending().unwrap();
}
#[test]
fn test_graph_multiple_dep() {
let mut graph = build_publish_order_graph_from_pkgs_deps(HashMap::from([
(
"a".to_string(),
HashSet::from(["b".to_string(), "c".to_string()]),
),
("b".to_string(), HashSet::from(["c".to_string()])),
("c".to_string(), HashSet::new()),
("d".to_string(), HashSet::new()),
("e".to_string(), HashSet::from(["f".to_string()])),
("f".to_string(), HashSet::new()),
]));
assert_eq!(
graph.next(),
vec!["c".to_string(), "f".to_string(), "d".to_string()]
);
graph.finish_package("f");
assert_eq!(graph.next(), vec!["e".to_string()]);
graph.finish_package("e");
assert!(graph.next().is_empty());
graph.finish_package("d");
assert!(graph.next().is_empty());
graph.finish_package("c");
assert_eq!(graph.next(), vec!["b".to_string()]);
graph.finish_package("b");
assert_eq!(graph.next(), vec!["a".to_string()]);
graph.finish_package("a");
assert!(graph.next().is_empty());
graph.ensure_no_pending().unwrap();
}
#[test]
fn test_graph_circular_dep() {
let mut graph = build_publish_order_graph_from_pkgs_deps(HashMap::from([
("a".to_string(), HashSet::from(["b".to_string()])),
("b".to_string(), HashSet::from(["c".to_string()])),
("c".to_string(), HashSet::from(["a".to_string()])),
]));
assert!(graph.next().is_empty());
assert_eq!(
graph.ensure_no_pending().unwrap_err().to_string(),
"Circular package dependency detected: a -> b -> c -> a"
);
}
}