1use std::borrow::Cow;
4use std::cmp::Ordering;
5use std::collections::{BTreeMap, BTreeSet, VecDeque};
6use std::fmt::{Display, Formatter, Write};
7use std::ops::Bound;
8use std::sync::Arc;
9use std::time::Instant;
10use std::{iter, slice, thread};
11
12use dashmap::DashMap;
13use either::Either;
14use futures::{FutureExt, StreamExt};
15use itertools::Itertools;
16use pubgrub::{Id, IncompId, Incompatibility, Kind, Range, Ranges, State};
17use rustc_hash::{FxHashMap, FxHashSet};
18use tokio::sync::mpsc::{self, Receiver, Sender};
19use tokio::sync::oneshot;
20use tokio_stream::wrappers::ReceiverStream;
21use tracing::{Level, debug, info, instrument, trace, warn};
22
23use uv_configuration::{Constraints, Excludes, Overrides};
24use uv_distribution::{ArchiveMetadata, DistributionDatabase};
25use uv_distribution_types::{
26 BuiltDist, CompatibleDist, DerivationChain, Dist, DistErrorKind, ExcludeNewerValue, Identifier,
27 IncompatibleDist, IncompatibleSource, IncompatibleWheel, IndexCapabilities, IndexLocations,
28 IndexMetadata, IndexUrl, InstalledDist, Name, PythonRequirementKind, RemoteSource, Requirement,
29 ResolvedDist, ResolvedDistRef, SourceDist, VersionOrUrlRef, implied_markers,
30};
31use uv_git::GitResolver;
32use uv_normalize::{ExtraName, GroupName, PackageName};
33use uv_pep440::{MIN_VERSION, Version, VersionSpecifiers, release_specifiers_to_ranges};
34use uv_pep508::{
35 MarkerEnvironment, MarkerExpression, MarkerOperator, MarkerTree, MarkerValueString,
36};
37use uv_platform_tags::{IncompatibleTag, Tags};
38use uv_pypi_types::{ConflictItem, ConflictItemRef, ConflictKindRef, Conflicts, VerbatimParsedUrl};
39use uv_static::EnvVars;
40use uv_torch::TorchStrategy;
41use uv_types::{BuildContext, HashStrategy, InstalledPackagesProvider};
42use uv_warnings::warn_user_once;
43
44use crate::candidate_selector::{Candidate, CandidateDist, CandidateSelector};
45use crate::dependency_provider::UvDependencyProvider;
46use crate::error::{NoSolutionError, ResolveError};
47use crate::fork_indexes::ForkIndexes;
48use crate::fork_strategy::ForkStrategy;
49use crate::fork_urls::ForkUrls;
50use crate::manifest::Manifest;
51use crate::pins::FilePins;
52use crate::preferences::{PreferenceSource, Preferences};
53use crate::pubgrub::{
54 DependencySource, PubGrubDependency, PubGrubPackage, PubGrubPackageInner, PubGrubPriorities,
55 PubGrubPython,
56};
57use crate::python_requirement::PythonRequirement;
58use crate::resolution::ResolverOutput;
59use crate::resolution_mode::ResolutionStrategy;
60pub(crate) use crate::resolver::availability::{
61 ResolverVersion, UnavailableErrorChain, UnavailablePackage, UnavailableReason,
62 UnavailableVersion,
63};
64use crate::resolver::batch_prefetch::BatchPrefetcher;
65pub use crate::resolver::derivation::DerivationChainBuilder;
66pub use crate::resolver::environment::ResolverEnvironment;
67use crate::resolver::environment::{
68 ForkingPossibility, fork_version_by_marker, fork_version_by_python_requirement,
69};
70pub(crate) use crate::resolver::fork_map::{ForkMap, ForkSet};
71pub use crate::resolver::index::InMemoryIndex;
72use crate::resolver::indexes::Indexes;
73pub use crate::resolver::provider::{
74 DefaultResolverProvider, MetadataResponse, PackageVersionsResult, ResolverProvider,
75 VersionsResponse, WheelMetadataResult,
76};
77pub use crate::resolver::reporter::{BuildId, Reporter};
78use crate::resolver::system::SystemDependency;
79pub(crate) use crate::resolver::urls::Urls;
80use crate::universal_marker::{ConflictMarker, UniversalMarker};
81use crate::yanks::AllowedYanks;
82use crate::{DependencyMode, Exclusions, FlatIndex, Options, ResolutionMode, VersionMap, marker};
83pub(crate) use provider::MetadataUnavailable;
84
85mod availability;
86mod batch_prefetch;
87mod derivation;
88mod environment;
89mod fork_map;
90mod index;
91mod indexes;
92mod provider;
93mod reporter;
94mod system;
95mod urls;
96
97const CONFLICT_THRESHOLD: usize = 5;
99
100pub struct Resolver<Provider: ResolverProvider, InstalledPackages: InstalledPackagesProvider> {
101 state: ResolverState<InstalledPackages>,
102 provider: Provider,
103}
104
105struct ResolverState<InstalledPackages: InstalledPackagesProvider> {
108 project: Option<PackageName>,
109 requirements: Vec<Requirement>,
110 constraints: Constraints,
111 overrides: Overrides,
112 excludes: Excludes,
113 preferences: Preferences,
114 git: GitResolver,
115 capabilities: IndexCapabilities,
116 locations: IndexLocations,
117 exclusions: Exclusions,
118 urls: Urls,
119 indexes: Indexes,
120 dependency_mode: DependencyMode,
121 hasher: HashStrategy,
122 env: ResolverEnvironment,
123 current_environment: MarkerEnvironment,
125 tags: Option<Tags>,
126 python_requirement: PythonRequirement,
127 conflicts: Conflicts,
128 workspace_members: BTreeSet<PackageName>,
129 selector: CandidateSelector,
130 index: InMemoryIndex,
131 installed_packages: InstalledPackages,
132 unavailable_packages: DashMap<PackageName, UnavailablePackage>,
134 incomplete_packages: DashMap<PackageName, DashMap<Version, MetadataUnavailable>>,
136 options: Options,
138 reporter: Option<Arc<dyn Reporter>>,
140}
141
142impl<'a, Context: BuildContext, InstalledPackages: InstalledPackagesProvider>
143 Resolver<DefaultResolverProvider<'a, Context>, InstalledPackages>
144{
145 pub fn new(
164 manifest: Manifest,
165 options: Options,
166 python_requirement: &'a PythonRequirement,
167 env: ResolverEnvironment,
168 current_environment: &MarkerEnvironment,
169 conflicts: Conflicts,
170 tags: Option<&'a Tags>,
171 flat_index: &'a FlatIndex,
172 index: &'a InMemoryIndex,
173 hasher: &'a HashStrategy,
174 build_context: &'a Context,
175 installed_packages: InstalledPackages,
176 database: DistributionDatabase<'a, Context>,
177 ) -> Result<Self, ResolveError> {
178 let provider = DefaultResolverProvider::new(
179 database,
180 flat_index,
181 tags,
182 python_requirement.target(),
183 AllowedYanks::from_manifest(&manifest, &env, options.dependency_mode),
184 hasher,
185 options.exclude_newer.clone(),
186 build_context.locations(),
187 build_context.build_options(),
188 build_context.capabilities(),
189 );
190
191 Self::new_custom_io(
192 manifest,
193 options,
194 hasher,
195 env,
196 current_environment,
197 tags.cloned(),
198 python_requirement,
199 conflicts,
200 index,
201 build_context.git(),
202 build_context.capabilities(),
203 build_context.locations(),
204 provider,
205 installed_packages,
206 )
207 }
208}
209
210impl<Provider: ResolverProvider, InstalledPackages: InstalledPackagesProvider>
211 Resolver<Provider, InstalledPackages>
212{
213 pub fn new_custom_io(
215 manifest: Manifest,
216 options: Options,
217 hasher: &HashStrategy,
218 env: ResolverEnvironment,
219 current_environment: &MarkerEnvironment,
220 tags: Option<Tags>,
221 python_requirement: &PythonRequirement,
222 conflicts: Conflicts,
223 index: &InMemoryIndex,
224 git: &GitResolver,
225 capabilities: &IndexCapabilities,
226 locations: &IndexLocations,
227 provider: Provider,
228 installed_packages: InstalledPackages,
229 ) -> Result<Self, ResolveError> {
230 let state = ResolverState {
231 index: index.clone(),
232 git: git.clone(),
233 capabilities: capabilities.clone(),
234 selector: CandidateSelector::for_resolution(&options, &manifest, &env),
235 dependency_mode: options.dependency_mode,
236 urls: Urls::from_manifest(&manifest, &env, git, options.dependency_mode),
237 indexes: Indexes::from_manifest(&manifest, &env, options.dependency_mode),
238 project: manifest.project,
239 workspace_members: manifest.workspace_members,
240 requirements: manifest.requirements,
241 constraints: manifest.constraints,
242 overrides: manifest.overrides,
243 excludes: manifest.excludes,
244 preferences: manifest.preferences,
245 exclusions: manifest.exclusions,
246 hasher: hasher.clone(),
247 locations: locations.clone(),
248 env,
249 current_environment: current_environment.clone(),
250 tags,
251 python_requirement: python_requirement.clone(),
252 conflicts,
253 installed_packages,
254 unavailable_packages: DashMap::default(),
255 incomplete_packages: DashMap::default(),
256 options,
257 reporter: None,
258 };
259 Ok(Self { state, provider })
260 }
261
262 #[must_use]
264 pub fn with_reporter(self, reporter: Arc<dyn Reporter>) -> Self {
265 Self {
266 state: ResolverState {
267 reporter: Some(reporter.clone()),
268 ..self.state
269 },
270 provider: self
271 .provider
272 .with_reporter(reporter.into_distribution_reporter()),
273 }
274 }
275
276 pub async fn resolve(self) -> Result<ResolverOutput, ResolveError> {
278 let state = Arc::new(self.state);
279 let provider = Arc::new(self.provider);
280
281 let (request_sink, request_stream) = mpsc::channel(300);
285
286 let requests_fut = state.clone().fetch(provider.clone(), request_stream).fuse();
288
289 let solver = state.clone();
291 let (tx, rx) = oneshot::channel();
292 thread::Builder::new()
293 .name("uv-resolver".into())
294 .spawn(move || {
295 let result = solver.solve(&request_sink);
296
297 let _ = tx.send(result);
299 })
300 .unwrap();
301
302 let resolve_fut = async move { rx.await.map_err(|_| ResolveError::ChannelClosed) };
303
304 let ((), resolution) = tokio::try_join!(requests_fut, resolve_fut)?;
306
307 state.on_complete();
308 resolution
309 }
310}
311
312impl<InstalledPackages: InstalledPackagesProvider> ResolverState<InstalledPackages> {
313 #[instrument(skip_all)]
314 fn solve(
315 self: Arc<Self>,
316 request_sink: &Sender<Request>,
317 ) -> Result<ResolverOutput, ResolveError> {
318 debug!(
319 "Solving with installed Python version: {}",
320 self.python_requirement.exact()
321 );
322 debug!(
323 "Solving with target Python version: {}",
324 self.python_requirement.target()
325 );
326 if !self.options.exclude_newer.is_empty() {
327 debug!("Solving with exclude-newer: {}", self.options.exclude_newer);
328 }
329
330 let mut visited = FxHashSet::default();
331
332 let root = PubGrubPackage::from(PubGrubPackageInner::Root(self.project.clone()));
333 let pubgrub = State::init(root.clone(), MIN_VERSION.clone());
334 let prefetcher = BatchPrefetcher::new(
335 self.capabilities.clone(),
336 self.index.clone(),
337 request_sink.clone(),
338 );
339 let state = ForkState::new(
340 pubgrub,
341 self.env.clone(),
342 self.python_requirement.clone(),
343 prefetcher,
344 );
345 let mut preferences = self.preferences.clone();
346 let mut forked_states = self.env.initial_forked_states(state)?;
347 let mut resolutions = vec![];
348
349 'FORK: while let Some(mut state) = forked_states.pop() {
350 if let Some(split) = state.env.end_user_fork_display() {
351 let requires_python = state.python_requirement.target();
352 debug!("Solving {split} (requires-python: {requires_python:?})");
353 }
354 let start = Instant::now();
355 loop {
356 let highest_priority_pkg =
357 if let Some(initial) = state.initial_id.take() {
358 initial
362 } else {
363 let result = state.pubgrub.unit_propagation(state.next);
365 match result {
366 Err(err) => {
367 return Err(self.convert_no_solution_err(
369 err,
370 state.fork_urls,
371 state.fork_indexes,
372 state.env,
373 self.current_environment.clone(),
374 &visited,
375 ));
376 }
377 Ok(conflicts) => {
378 for (affected, incompatibility) in conflicts {
379 state.record_conflict(affected, None, incompatibility);
382 }
383 }
384 }
385
386 if self.dependency_mode.is_transitive() {
388 Self::pre_visit(
389 state
390 .pubgrub
391 .partial_solution
392 .prioritized_packages()
393 .map(|(id, range)| (&state.pubgrub.package_store[id], range)),
394 &self.urls,
395 &self.indexes,
396 &state.python_requirement,
397 request_sink,
398 )?;
399 }
400
401 Self::reprioritize_conflicts(&mut state);
402
403 trace!(
404 "Assigned packages: {}",
405 state
406 .pubgrub
407 .partial_solution
408 .extract_solution()
409 .filter(|(p, _)| !state.pubgrub.package_store[*p].is_proxy())
410 .map(|(p, v)| format!("{}=={}", state.pubgrub.package_store[p], v))
411 .join(", ")
412 );
413 let Some((highest_priority_pkg, _)) =
417 state.pubgrub.partial_solution.pick_highest_priority_pkg(
418 |id, _range| state.priorities.get(&state.pubgrub.package_store[id]),
419 )
420 else {
421 if tracing::enabled!(Level::DEBUG) {
423 state.prefetcher.log_tried_versions();
424 }
425 debug!(
426 "{} resolution took {:.3}s",
427 state.env,
428 start.elapsed().as_secs_f32()
429 );
430
431 let resolution = state.into_resolution();
432
433 if matches!(
442 self.options.resolution_mode,
443 ResolutionMode::Lowest | ResolutionMode::Highest
444 ) {
445 for (package, version) in &resolution.nodes {
446 preferences.insert(
447 package.name.clone(),
448 package.index.clone(),
449 resolution
450 .env
451 .try_universal_markers()
452 .unwrap_or(UniversalMarker::TRUE),
453 version.clone(),
454 PreferenceSource::Resolver,
455 );
456 }
457 }
458
459 resolutions.push(resolution);
460 continue 'FORK;
461 };
462 trace!(
463 "Chose package for decision: {}. remaining choices: {}",
464 state.pubgrub.package_store[highest_priority_pkg],
465 state
466 .pubgrub
467 .partial_solution
468 .undecided_packages()
469 .filter(|(p, _)| !state.pubgrub.package_store[**p].is_proxy())
470 .map(|(p, _)| state.pubgrub.package_store[*p].to_string())
471 .join(", ")
472 );
473
474 highest_priority_pkg
475 };
476
477 state.next = highest_priority_pkg;
478
479 let next_id = state.next;
481 let next_package = &state.pubgrub.package_store[state.next];
482
483 let url = next_package
484 .name()
485 .and_then(|name| state.fork_urls.get(name));
486 let index = next_package
487 .name()
488 .and_then(|name| state.fork_indexes.get(name));
489
490 self.request_package(next_package, url, index, request_sink)?;
502
503 let version = if let Some(version) = state.initial_version.take() {
504 version
508 } else {
509 let term_intersection = state
510 .pubgrub
511 .partial_solution
512 .term_intersection_for_package(next_id)
513 .expect("a package was chosen but we don't have a term");
514 let decision = self.choose_version(
515 next_package,
516 next_id,
517 index.map(IndexMetadata::url),
518 term_intersection.unwrap_positive(),
519 &mut state.pins,
520 &preferences,
521 &state.fork_urls,
522 &state.env,
523 &state.python_requirement,
524 &state.pubgrub,
525 &mut visited,
526 request_sink,
527 )?;
528
529 let Some(version) = decision else {
531 debug!("No compatible version found for: {next_package}");
532
533 let term_intersection = state
534 .pubgrub
535 .partial_solution
536 .term_intersection_for_package(next_id)
537 .expect("a package was chosen but we don't have a term");
538
539 if let PubGrubPackageInner::Package { name, .. } = &**next_package {
540 if let Some(entry) = self.unavailable_packages.get(name) {
542 state
543 .pubgrub
544 .add_incompatibility(Incompatibility::custom_term(
545 next_id,
546 term_intersection.clone(),
547 UnavailableReason::Package(entry.clone()),
548 ));
549 continue;
550 }
551 }
552
553 state
554 .pubgrub
555 .add_incompatibility(Incompatibility::no_versions(
556 next_id,
557 term_intersection.clone(),
558 ));
559 continue;
560 };
561
562 let version = match version {
563 ResolverVersion::Unforked(version) => version,
564 ResolverVersion::Forked(forks) => {
565 forked_states.extend(self.version_forks_to_fork_states(state, forks));
566 continue 'FORK;
567 }
568 ResolverVersion::Unavailable(version, reason) => {
569 state.add_unavailable_version(version, reason);
570 continue;
571 }
572 };
573
574 if url.is_none() {
576 state.prefetcher.prefetch_batches(
577 next_package,
578 index,
579 &version,
580 term_intersection.unwrap_positive(),
581 state
582 .pubgrub
583 .partial_solution
584 .unchanging_term_for_package(next_id),
585 &state.python_requirement,
586 &self.selector,
587 &state.env,
588 )?;
589 }
590
591 version
592 };
593
594 state.prefetcher.version_tried(next_package, &version);
595
596 self.on_progress(next_package, &version);
597
598 if !state
599 .added_dependencies
600 .entry(next_id)
601 .or_default()
602 .insert(version.clone())
603 {
604 state
607 .pubgrub
608 .partial_solution
609 .add_decision(next_id, version);
610 continue;
611 }
612
613 let forked_deps = self.get_dependencies_forking(
615 next_id,
616 next_package,
617 &version,
618 &state.pins,
619 &state.fork_urls,
620 &state.env,
621 &state.python_requirement,
622 &state.pubgrub,
623 )?;
624
625 match forked_deps {
626 ForkedDependencies::Unavailable(reason) => {
627 state
630 .pubgrub
631 .add_incompatibility(Incompatibility::custom_version(
632 next_id,
633 version.clone(),
634 UnavailableReason::Version(reason),
635 ));
636 }
637 ForkedDependencies::Unforked(dependencies) => {
638 state
640 .visit_package_version_dependencies(
641 next_id,
642 &version,
643 &self.urls,
644 &self.indexes,
645 &dependencies,
646 &self.git,
647 &self.workspace_members,
648 self.selector.resolution_strategy(),
649 )
650 .map_err(|err| {
651 enrich_dependency_error(err, next_id, &version, &state.pubgrub)
652 })?;
653
654 self.visit_dependencies(&dependencies, &state, request_sink)
656 .map_err(|err| {
657 enrich_dependency_error(err, next_id, &version, &state.pubgrub)
658 })?;
659
660 state.add_package_version_dependencies(next_id, &version, dependencies);
662 }
663 ForkedDependencies::Forked {
664 mut forks,
665 diverging_packages,
666 } => {
667 debug!(
668 "Pre-fork {} took {:.3}s",
669 state.env,
670 start.elapsed().as_secs_f32()
671 );
672
673 match (self.options.fork_strategy, self.options.resolution_mode) {
675 (ForkStrategy::Fewest, _) | (_, ResolutionMode::Lowest) => {
676 forks.sort_by(|a, b| {
680 a.cmp_requires_python(b)
681 .reverse()
682 .then_with(|| a.cmp_upper_bounds(b))
683 });
684 }
685 (ForkStrategy::RequiresPython, _) => {
686 forks.sort_by(|a, b| {
690 a.cmp_requires_python(b).then_with(|| a.cmp_upper_bounds(b))
691 });
692 }
693 }
694
695 for new_fork_state in self.forks_to_fork_states(
696 state,
697 &version,
698 forks,
699 request_sink,
700 &diverging_packages,
701 ) {
702 forked_states.push(new_fork_state?);
703 }
704 continue 'FORK;
705 }
706 }
707 }
708 }
709 if resolutions.len() > 1 {
710 info!(
711 "Solved your requirements for {} environments",
712 resolutions.len()
713 );
714 }
715 if tracing::enabled!(Level::DEBUG) {
716 for resolution in &resolutions {
717 if let Some(env) = resolution.env.end_user_fork_display() {
718 let packages: FxHashSet<_> = resolution
719 .nodes
720 .keys()
721 .map(|package| &package.name)
722 .collect();
723 debug!(
724 "Distinct solution for {env} with {} package(s)",
725 packages.len()
726 );
727 }
728 }
729 }
730 for resolution in &resolutions {
731 Self::trace_resolution(resolution);
732 }
733 ResolverOutput::from_state(
734 &resolutions,
735 &self.requirements,
736 &self.constraints,
737 &self.overrides,
738 &self.preferences,
739 &self.index,
740 &self.git,
741 &self.python_requirement,
742 &self.conflicts,
743 self.selector.resolution_strategy(),
744 self.options.clone(),
745 )
746 }
747
748 fn reprioritize_conflicts(state: &mut ForkState) {
752 for package in state.conflict_tracker.prioritize.drain(..) {
753 let changed = state
754 .priorities
755 .mark_conflict_early(&state.pubgrub.package_store[package]);
756 if changed {
757 debug!(
758 "Package {} has too many conflicts (affected), prioritizing",
759 &state.pubgrub.package_store[package]
760 );
761 } else {
762 debug!(
763 "Package {} has too many conflicts (affected), already {:?}",
764 state.pubgrub.package_store[package],
765 state.priorities.get(&state.pubgrub.package_store[package])
766 );
767 }
768 }
769
770 for package in state.conflict_tracker.deprioritize.drain(..) {
771 let changed = state
772 .priorities
773 .mark_conflict_late(&state.pubgrub.package_store[package]);
774 if changed {
775 debug!(
776 "Package {} has too many conflicts (culprit), deprioritizing and backtracking",
777 state.pubgrub.package_store[package],
778 );
779 let backtrack_level = state.pubgrub.backtrack_package(package);
780 if let Some(backtrack_level) = backtrack_level {
781 debug!("Backtracked {backtrack_level} decisions");
782 } else {
783 debug!(
784 "Package {} is not decided, cannot backtrack",
785 state.pubgrub.package_store[package]
786 );
787 }
788 } else {
789 debug!(
790 "Package {} has too many conflicts (culprit), already {:?}",
791 state.pubgrub.package_store[package],
792 state.priorities.get(&state.pubgrub.package_store[package])
793 );
794 }
795 }
796 }
797
798 fn trace_resolution(combined: &Resolution) {
804 if !tracing::enabled!(Level::TRACE) {
805 return;
806 }
807 trace!("Resolution: {:?}", combined.env);
808 for edge in &combined.edges {
809 trace!(
810 "Resolution edge: {} -> {}",
811 edge.from
812 .as_ref()
813 .map(PackageName::as_str)
814 .unwrap_or("ROOT"),
815 edge.to,
816 );
817 let mut msg = String::new();
820 write!(msg, "{}", edge.from_version).unwrap();
821 if let Some(ref extra) = edge.from_extra {
822 write!(msg, " (extra: {extra})").unwrap();
823 }
824 if let Some(ref dev) = edge.from_group {
825 write!(msg, " (group: {dev})").unwrap();
826 }
827
828 write!(msg, " -> ").unwrap();
829
830 write!(msg, "{}", edge.to_version).unwrap();
831 if let Some(ref extra) = edge.to_extra {
832 write!(msg, " (extra: {extra})").unwrap();
833 }
834 if let Some(ref dev) = edge.to_group {
835 write!(msg, " (group: {dev})").unwrap();
836 }
837 if let Some(marker) = edge.marker.contents() {
838 write!(msg, " ; {marker}").unwrap();
839 }
840 trace!("Resolution edge: {msg}");
841 }
842 }
843
844 fn forks_to_fork_states<'a>(
846 &'a self,
847 current_state: ForkState,
848 version: &'a Version,
849 forks: Vec<Fork>,
850 request_sink: &'a Sender<Request>,
851 diverging_packages: &'a [PackageName],
852 ) -> impl Iterator<Item = Result<ForkState, ResolveError>> + 'a {
853 debug!(
854 "Splitting resolution on {}=={} over {} into {} resolution{} with separate markers",
855 current_state.pubgrub.package_store[current_state.next],
856 version,
857 diverging_packages
858 .iter()
859 .map(ToString::to_string)
860 .join(", "),
861 forks.len(),
862 if forks.len() == 1 { "" } else { "s" }
863 );
864 assert!(forks.len() >= 2);
865 let package = current_state.next;
871 let mut cur_state = Some(current_state);
872 let forks_len = forks.len();
873 forks
874 .into_iter()
875 .enumerate()
876 .map(move |(i, fork)| {
877 let is_last = i == forks_len - 1;
878 let forked_state = cur_state.take().unwrap();
879 if !is_last {
880 cur_state = Some(forked_state.clone());
881 }
882
883 let env = fork.env.clone();
884 (fork, forked_state.with_env(env))
885 })
886 .map(move |(fork, mut forked_state)| {
887 forked_state
889 .visit_package_version_dependencies(
890 package,
891 version,
892 &self.urls,
893 &self.indexes,
894 &fork.dependencies,
895 &self.git,
896 &self.workspace_members,
897 self.selector.resolution_strategy(),
898 )
899 .map_err(|err| {
900 enrich_dependency_error(err, package, version, &forked_state.pubgrub)
901 })?;
902
903 self.visit_dependencies(&fork.dependencies, &forked_state, request_sink)
905 .map_err(|err| {
906 enrich_dependency_error(err, package, version, &forked_state.pubgrub)
907 })?;
908
909 forked_state.add_package_version_dependencies(package, version, fork.dependencies);
911
912 Ok(forked_state)
913 })
914 }
915
916 #[expect(clippy::unused_self)]
918 fn version_forks_to_fork_states(
919 &self,
920 current_state: ForkState,
921 forks: Vec<VersionFork>,
922 ) -> impl Iterator<Item = ForkState> + '_ {
923 let mut cur_state = Some(current_state);
929 let forks_len = forks.len();
930 forks.into_iter().enumerate().map(move |(i, fork)| {
931 let is_last = i == forks_len - 1;
932 let mut forked_state = cur_state.take().unwrap();
933 if !is_last {
934 cur_state = Some(forked_state.clone());
935 }
936 forked_state.initial_id = Some(fork.id);
937 forked_state.initial_version = fork.version;
938 forked_state.with_env(fork.env)
939 })
940 }
941
942 fn visit_dependencies(
944 &self,
945 dependencies: &[PubGrubDependency],
946 state: &ForkState,
947 request_sink: &Sender<Request>,
948 ) -> Result<(), ResolveError> {
949 for dependency in dependencies {
950 let PubGrubDependency {
951 package,
952 version: _,
953 parent: _,
954 source: _,
955 } = dependency;
956 let url = package.name().and_then(|name| state.fork_urls.get(name));
957 let index = package.name().and_then(|name| state.fork_indexes.get(name));
958 self.visit_package(package, url, index, request_sink)?;
959 }
960 Ok(())
961 }
962
963 fn visit_package(
966 &self,
967 package: &PubGrubPackage,
968 url: Option<&VerbatimParsedUrl>,
969 index: Option<&IndexMetadata>,
970 request_sink: &Sender<Request>,
971 ) -> Result<(), ResolveError> {
972 if url.is_none()
974 && package
975 .name()
976 .map(|name| self.urls.any_url(name))
977 .unwrap_or(true)
978 {
979 return Ok(());
980 }
981
982 self.request_package(package, url, index, request_sink)
983 }
984
985 fn request_package(
986 &self,
987 package: &PubGrubPackage,
988 url: Option<&VerbatimParsedUrl>,
989 index: Option<&IndexMetadata>,
990 request_sink: &Sender<Request>,
991 ) -> Result<(), ResolveError> {
992 let Some(name) = package.name_no_root() else {
994 return Ok(());
995 };
996
997 if let Some(url) = url {
998 if !self.hasher.allows_url(&url.verbatim) {
1000 return Err(ResolveError::UnhashedPackage(name.clone()));
1001 }
1002
1003 let dist = Dist::from_url(name.clone(), url.clone())?;
1005 if self.index.distributions().register(dist.distribution_id()) {
1006 request_sink.blocking_send(Request::Dist(dist))?;
1007 }
1008 } else if let Some(index) = index {
1009 if self
1011 .index
1012 .explicit()
1013 .register((name.clone(), index.url().clone()))
1014 {
1015 request_sink.blocking_send(Request::Package(name.clone(), Some(index.clone())))?;
1016 }
1017 } else {
1018 if self.index.implicit().register(name.clone()) {
1020 request_sink.blocking_send(Request::Package(name.clone(), None))?;
1021 }
1022 }
1023 Ok(())
1024 }
1025
1026 fn pre_visit<'data>(
1029 packages: impl Iterator<Item = (&'data PubGrubPackage, &'data Range<Version>)>,
1030 urls: &Urls,
1031 indexes: &Indexes,
1032 python_requirement: &PythonRequirement,
1033 request_sink: &Sender<Request>,
1034 ) -> Result<(), ResolveError> {
1035 for (package, range) in packages {
1038 let PubGrubPackageInner::Package {
1039 name,
1040 extra: None,
1041 group: None,
1042 marker: MarkerTree::TRUE,
1043 } = &**package
1044 else {
1045 continue;
1046 };
1047 if urls.any_url(name) {
1050 continue;
1051 }
1052 if indexes.contains_key(name) {
1054 continue;
1055 }
1056 request_sink.blocking_send(Request::Prefetch(
1057 name.clone(),
1058 range.clone(),
1059 python_requirement.clone(),
1060 ))?;
1061 }
1062 Ok(())
1063 }
1064
1065 #[cfg_attr(feature = "tracing-durations-export", instrument(skip_all, fields(%package)))]
1073 fn choose_version(
1074 &self,
1075 package: &PubGrubPackage,
1076 id: Id<PubGrubPackage>,
1077 index: Option<&IndexUrl>,
1078 range: &Range<Version>,
1079 pins: &mut FilePins,
1080 preferences: &Preferences,
1081 fork_urls: &ForkUrls,
1082 env: &ResolverEnvironment,
1083 python_requirement: &PythonRequirement,
1084 pubgrub: &State<UvDependencyProvider>,
1085 visited: &mut FxHashSet<PackageName>,
1086 request_sink: &Sender<Request>,
1087 ) -> Result<Option<ResolverVersion>, ResolveError> {
1088 match &**package {
1089 PubGrubPackageInner::Root(_) => {
1090 Ok(Some(ResolverVersion::Unforked(MIN_VERSION.clone())))
1091 }
1092
1093 PubGrubPackageInner::Python(_) => {
1094 Ok(None)
1097 }
1098
1099 PubGrubPackageInner::System(_) => {
1100 let Some(version) = range.as_singleton() else {
1103 return Ok(None);
1104 };
1105 Ok(Some(ResolverVersion::Unforked(version.clone())))
1106 }
1107
1108 PubGrubPackageInner::Marker { name, .. }
1109 | PubGrubPackageInner::Extra { name, .. }
1110 | PubGrubPackageInner::Group { name, .. }
1111 | PubGrubPackageInner::Package { name, .. } => {
1112 if let Some(url) = package.name().and_then(|name| fork_urls.get(name)) {
1113 self.choose_version_url(id, name, range, url, env, python_requirement, pubgrub)
1114 } else {
1115 self.choose_version_registry(
1116 package,
1117 id,
1118 name,
1119 index,
1120 range,
1121 preferences,
1122 env,
1123 python_requirement,
1124 pubgrub,
1125 pins,
1126 visited,
1127 request_sink,
1128 )
1129 }
1130 }
1131 }
1132 }
1133
1134 fn choose_version_url(
1137 &self,
1138 id: Id<PubGrubPackage>,
1139 name: &PackageName,
1140 range: &Range<Version>,
1141 url: &VerbatimParsedUrl,
1142 env: &ResolverEnvironment,
1143 python_requirement: &PythonRequirement,
1144 pubgrub: &State<UvDependencyProvider>,
1145 ) -> Result<Option<ResolverVersion>, ResolveError> {
1146 debug!(
1147 "Searching for a compatible version of {name} @ {} ({range})",
1148 url.verbatim
1149 );
1150
1151 let dist = Dist::from_url(name.clone(), url.clone())?;
1152 let distribution_id = dist.distribution_id();
1153 let response = self
1154 .index
1155 .distributions()
1156 .wait_blocking(&distribution_id)
1157 .ok_or_else(|| ResolveError::UnregisteredTask(dist.to_string()))?;
1158
1159 let metadata = match &*response {
1161 MetadataResponse::Found(archive) => &archive.metadata,
1162 MetadataResponse::Unavailable(reason) => {
1163 self.unavailable_packages
1164 .insert(name.clone(), reason.into());
1165 return Ok(None);
1166 }
1167 MetadataResponse::Error(dist, err) => {
1170 return Err(ResolveError::Dist(
1171 DistErrorKind::from_requested_dist(dist, &**err),
1172 dist.clone(),
1173 DerivationChain::default(),
1174 err.clone(),
1175 ));
1176 }
1177 };
1178
1179 let version = &metadata.version;
1180
1181 if !range.contains(version) {
1183 return Ok(None);
1184 }
1185
1186 if let Dist::Built(dist) = &dist {
1189 let filename = match &dist {
1190 BuiltDist::Registry(dist) => &dist.best_wheel().filename,
1191 BuiltDist::DirectUrl(dist) => &dist.filename,
1192 BuiltDist::Path(dist) => &dist.filename,
1193 };
1194
1195 if env.marker_environment().is_none() && !self.options.artifact_environments.is_empty()
1198 {
1199 let wheel_marker = implied_markers(filename);
1200 for environment_marker in self.options.artifact_environments.iter().copied() {
1203 if env.included_by_marker(environment_marker)
1205 && !find_environments(id, pubgrub).is_disjoint(environment_marker)
1206 {
1207 if wheel_marker.is_disjoint(environment_marker) {
1209 return Ok(Some(ResolverVersion::Unavailable(
1210 version.clone(),
1211 UnavailableVersion::IncompatibleDist(IncompatibleDist::Wheel(
1212 IncompatibleWheel::MissingPlatform(environment_marker),
1213 )),
1214 )));
1215 }
1216 }
1217 }
1218 }
1219
1220 if !python_requirement.target().matches_wheel_tag(filename) {
1222 return Ok(Some(ResolverVersion::Unavailable(
1223 filename.version.clone(),
1224 UnavailableVersion::IncompatibleDist(IncompatibleDist::Wheel(
1225 IncompatibleWheel::Tag(IncompatibleTag::AbiPythonVersion),
1226 )),
1227 )));
1228 }
1229 }
1230
1231 if let Some(requires_python) = metadata.requires_python.as_ref() {
1233 if !python_requirement.target().is_contained_by(requires_python) {
1234 let kind = if python_requirement.installed() == python_requirement.target() {
1235 PythonRequirementKind::Installed
1236 } else {
1237 PythonRequirementKind::Target
1238 };
1239 return Ok(Some(ResolverVersion::Unavailable(
1240 version.clone(),
1241 UnavailableVersion::IncompatibleDist(IncompatibleDist::Source(
1242 IncompatibleSource::RequiresPython(requires_python.clone(), kind),
1243 )),
1244 )));
1245 }
1246 }
1247
1248 Ok(Some(ResolverVersion::Unforked(version.clone())))
1249 }
1250
1251 fn choose_version_registry(
1254 &self,
1255 package: &PubGrubPackage,
1256 id: Id<PubGrubPackage>,
1257 name: &PackageName,
1258 index: Option<&IndexUrl>,
1259 range: &Range<Version>,
1260 preferences: &Preferences,
1261 env: &ResolverEnvironment,
1262 python_requirement: &PythonRequirement,
1263 pubgrub: &State<UvDependencyProvider>,
1264 pins: &mut FilePins,
1265 visited: &mut FxHashSet<PackageName>,
1266 request_sink: &Sender<Request>,
1267 ) -> Result<Option<ResolverVersion>, ResolveError> {
1268 let versions_response = if let Some(index) = index {
1270 self.index
1271 .explicit()
1272 .wait_blocking(&(name.clone(), index.clone()))
1273 .ok_or_else(|| ResolveError::UnregisteredTask(name.to_string()))?
1274 } else {
1275 self.index
1276 .implicit()
1277 .wait_blocking(name)
1278 .ok_or_else(|| ResolveError::UnregisteredTask(name.to_string()))?
1279 };
1280 visited.insert(name.clone());
1281
1282 let version_maps = match *versions_response {
1283 VersionsResponse::Found(ref version_maps) => version_maps.as_slice(),
1284 VersionsResponse::NoIndex => {
1285 self.unavailable_packages
1286 .insert(name.clone(), UnavailablePackage::NoIndex);
1287 &[]
1288 }
1289 VersionsResponse::Offline => {
1290 self.unavailable_packages
1291 .insert(name.clone(), UnavailablePackage::Offline);
1292 &[]
1293 }
1294 VersionsResponse::NotFound => {
1295 self.unavailable_packages
1296 .insert(name.clone(), UnavailablePackage::NotFound);
1297 &[]
1298 }
1299 };
1300
1301 debug!("Searching for a compatible version of {package} ({range})");
1302
1303 let Some(candidate) = self.selector.select(
1305 name,
1306 range,
1307 version_maps,
1308 preferences,
1309 &self.installed_packages,
1310 &self.exclusions,
1311 index,
1312 env,
1313 self.tags.as_ref(),
1314 ) else {
1315 return Ok(None);
1317 };
1318
1319 let dist = match candidate.dist() {
1320 CandidateDist::Compatible(dist) => dist,
1321 CandidateDist::Incompatible {
1322 incompatible_dist: incompatibility,
1323 prioritized_dist: _,
1324 } => {
1325 return Ok(Some(ResolverVersion::Unavailable(
1327 candidate.version().clone(),
1328 UnavailableVersion::IncompatibleDist(incompatibility.clone()),
1331 )));
1332 }
1333 };
1334
1335 if let Some((requires_python, incompatibility)) =
1337 Self::check_requires_python(dist, python_requirement)
1338 {
1339 if matches!(self.options.fork_strategy, ForkStrategy::RequiresPython) {
1340 if env.marker_environment().is_none() {
1341 let forks = fork_version_by_python_requirement(
1342 requires_python,
1343 python_requirement,
1344 env,
1345 );
1346 if !forks.is_empty() {
1347 debug!(
1348 "Forking Python requirement `{}` on `{}` for {}=={} ({})",
1349 python_requirement.target(),
1350 requires_python,
1351 name,
1352 candidate.version(),
1353 forks
1354 .iter()
1355 .map(ToString::to_string)
1356 .collect::<Vec<_>>()
1357 .join(", ")
1358 );
1359 let forks = forks
1360 .into_iter()
1361 .map(|env| VersionFork {
1362 env,
1363 id,
1364 version: None,
1365 })
1366 .collect();
1367 return Ok(Some(ResolverVersion::Forked(forks)));
1368 }
1369 }
1370 }
1371
1372 return Ok(Some(ResolverVersion::Unavailable(
1373 candidate.version().clone(),
1374 UnavailableVersion::IncompatibleDist(incompatibility),
1375 )));
1376 }
1377
1378 if let Some(forked) = self.fork_version_registry(
1380 &candidate,
1381 dist,
1382 version_maps,
1383 package,
1384 id,
1385 name,
1386 index,
1387 range,
1388 preferences,
1389 env,
1390 pubgrub,
1391 pins,
1392 request_sink,
1393 )? {
1394 return Ok(Some(forked));
1395 }
1396
1397 let filename = match dist.for_installation() {
1398 ResolvedDistRef::InstallableRegistrySourceDist { sdist, .. } => sdist
1399 .filename()
1400 .unwrap_or(Cow::Borrowed("unknown filename")),
1401 ResolvedDistRef::InstallableRegistryBuiltDist { wheel, .. } => wheel
1402 .filename()
1403 .unwrap_or(Cow::Borrowed("unknown filename")),
1404 ResolvedDistRef::Installed { .. } => Cow::Borrowed("installed"),
1405 };
1406
1407 debug!(
1408 "Selecting: {}=={} [{}] ({})",
1409 name,
1410 candidate.version(),
1411 candidate.choice_kind(),
1412 filename,
1413 );
1414 self.visit_candidate(&candidate, dist, package, name, pins, request_sink)?;
1415
1416 let version = candidate.version().clone();
1417 Ok(Some(ResolverVersion::Unforked(version)))
1418 }
1419
1420 fn fork_version_registry(
1433 &self,
1434 candidate: &Candidate,
1435 dist: &CompatibleDist,
1436 version_maps: &[VersionMap],
1437 package: &PubGrubPackage,
1438 id: Id<PubGrubPackage>,
1439 name: &PackageName,
1440 index: Option<&IndexUrl>,
1441 range: &Range<Version>,
1442 preferences: &Preferences,
1443 env: &ResolverEnvironment,
1444 pubgrub: &State<UvDependencyProvider>,
1445 pins: &mut FilePins,
1446 request_sink: &Sender<Request>,
1447 ) -> Result<Option<ResolverVersion>, ResolveError> {
1448 if env.marker_environment().is_some() {
1450 return Ok(None);
1451 }
1452
1453 if dist.implied_markers().is_true() {
1456 return Ok(None);
1457 }
1458
1459 for marker in self.options.artifact_environments.iter().copied() {
1462 if env.included_by_marker(marker) {
1464 if dist.implied_markers().is_disjoint(marker)
1466 && !find_environments(id, pubgrub).is_disjoint(marker)
1467 {
1468 let Some((left, right)) = fork_version_by_marker(env, marker) else {
1470 return Ok(Some(ResolverVersion::Unavailable(
1471 candidate.version().clone(),
1472 UnavailableVersion::IncompatibleDist(IncompatibleDist::Wheel(
1473 IncompatibleWheel::MissingPlatform(marker),
1474 )),
1475 )));
1476 };
1477
1478 debug!(
1479 "Forking on required platform `{}` for {}=={} ({})",
1480 marker.try_to_string().unwrap_or_else(|| "true".to_string()),
1481 name,
1482 candidate.version(),
1483 [&left, &right]
1484 .iter()
1485 .map(ToString::to_string)
1486 .collect::<Vec<_>>()
1487 .join(", ")
1488 );
1489 let forks = vec![
1490 VersionFork {
1491 env: left,
1492 id,
1493 version: None,
1494 },
1495 VersionFork {
1496 env: right,
1497 id,
1498 version: None,
1499 },
1500 ];
1501 return Ok(Some(ResolverVersion::Forked(forks)));
1502 }
1503 }
1504 }
1505
1506 if !candidate.version().is_local() {
1508 return Ok(None);
1509 }
1510
1511 debug!(
1512 "Looking at local version: {}=={}",
1513 name,
1514 candidate.version()
1515 );
1516
1517 let range = range.clone().intersection(&Range::singleton(
1519 candidate.version().clone().without_local(),
1520 ));
1521
1522 let Some(base_candidate) = self.selector.select(
1523 name,
1524 &range,
1525 version_maps,
1526 preferences,
1527 &self.installed_packages,
1528 &self.exclusions,
1529 index,
1530 env,
1531 self.tags.as_ref(),
1532 ) else {
1533 return Ok(None);
1534 };
1535 let CandidateDist::Compatible(base_dist) = base_candidate.dist() else {
1536 return Ok(None);
1537 };
1538
1539 let mut remainder = {
1541 let mut remainder = base_dist.implied_markers();
1542 remainder.and(dist.implied_markers().negate());
1543 remainder
1544 };
1545 if remainder.is_false() {
1546 return Ok(None);
1547 }
1548
1549 if !env.included_by_marker(remainder) {
1553 return Ok(None);
1554 }
1555
1556 if !env.included_by_marker(dist.implied_markers()) {
1559 let filename = match dist.for_installation() {
1560 ResolvedDistRef::InstallableRegistrySourceDist { sdist, .. } => sdist
1561 .filename()
1562 .unwrap_or(Cow::Borrowed("unknown filename")),
1563 ResolvedDistRef::InstallableRegistryBuiltDist { wheel, .. } => wheel
1564 .filename()
1565 .unwrap_or(Cow::Borrowed("unknown filename")),
1566 ResolvedDistRef::Installed { .. } => Cow::Borrowed("installed"),
1567 };
1568
1569 debug!(
1570 "Preferring non-local candidate: {}=={} [{}] ({})",
1571 name,
1572 base_candidate.version(),
1573 base_candidate.choice_kind(),
1574 filename,
1575 );
1576 self.visit_candidate(
1577 &base_candidate,
1578 base_dist,
1579 package,
1580 name,
1581 pins,
1582 request_sink,
1583 )?;
1584
1585 return Ok(Some(ResolverVersion::Unforked(
1586 base_candidate.version().clone(),
1587 )));
1588 }
1589
1590 for value in [
1599 arcstr::literal!("darwin"),
1600 arcstr::literal!("linux"),
1601 arcstr::literal!("win32"),
1602 ] {
1603 let sys_platform = MarkerTree::expression(MarkerExpression::String {
1604 key: MarkerValueString::SysPlatform,
1605 operator: MarkerOperator::Equal,
1606 value,
1607 });
1608 if dist.implied_markers().is_disjoint(sys_platform)
1609 && !remainder.is_disjoint(sys_platform)
1610 {
1611 remainder.or(sys_platform);
1612 }
1613 }
1614
1615 let Some((base_env, local_env)) = fork_version_by_marker(env, remainder) else {
1617 return Ok(None);
1618 };
1619
1620 debug!(
1621 "Forking platform for {}=={} ({})",
1622 name,
1623 candidate.version(),
1624 [&base_env, &local_env]
1625 .iter()
1626 .map(ToString::to_string)
1627 .collect::<Vec<_>>()
1628 .join(", ")
1629 );
1630 self.visit_candidate(candidate, dist, package, name, pins, request_sink)?;
1631 self.visit_candidate(
1632 &base_candidate,
1633 base_dist,
1634 package,
1635 name,
1636 pins,
1637 request_sink,
1638 )?;
1639
1640 let forks = vec![
1641 VersionFork {
1642 env: base_env.clone(),
1643 id,
1644 version: Some(base_candidate.version().clone()),
1645 },
1646 VersionFork {
1647 env: local_env.clone(),
1648 id,
1649 version: Some(candidate.version().clone()),
1650 },
1651 ];
1652 Ok(Some(ResolverVersion::Forked(forks)))
1653 }
1654
1655 fn visit_candidate(
1657 &self,
1658 candidate: &Candidate,
1659 dist: &CompatibleDist,
1660 package: &PubGrubPackage,
1661 name: &PackageName,
1662 pins: &mut FilePins,
1663 request_sink: &Sender<Request>,
1664 ) -> Result<(), ResolveError> {
1665 pins.insert(candidate, dist);
1668
1669 if matches!(&**package, PubGrubPackageInner::Package { .. }) {
1671 if self.dependency_mode.is_transitive() {
1672 let dist = dist.for_resolution();
1673 if self.index.distributions().register(dist.distribution_id()) {
1674 if name != dist.name() {
1675 return Err(ResolveError::MismatchedPackageName {
1676 request: "distribution",
1677 expected: name.clone(),
1678 actual: dist.name().clone(),
1679 });
1680 }
1681 if !self
1683 .hasher
1684 .allows_package(candidate.name(), candidate.version())
1685 {
1686 return Err(ResolveError::UnhashedPackage(candidate.name().clone()));
1687 }
1688
1689 let request = Request::from(dist);
1690 request_sink.blocking_send(request)?;
1691 }
1692 }
1693 }
1694
1695 Ok(())
1696 }
1697
1698 fn check_requires_python<'dist>(
1701 dist: &'dist CompatibleDist,
1702 python_requirement: &PythonRequirement,
1703 ) -> Option<(&'dist VersionSpecifiers, IncompatibleDist)> {
1704 let requires_python = dist.requires_python()?;
1705 if python_requirement.target().is_contained_by(requires_python) {
1706 None
1707 } else {
1708 let incompatibility = if matches!(dist, CompatibleDist::CompatibleWheel { .. }) {
1709 IncompatibleDist::Wheel(IncompatibleWheel::RequiresPython(
1710 requires_python.clone(),
1711 if python_requirement.installed() == python_requirement.target() {
1712 PythonRequirementKind::Installed
1713 } else {
1714 PythonRequirementKind::Target
1715 },
1716 ))
1717 } else {
1718 IncompatibleDist::Source(IncompatibleSource::RequiresPython(
1719 requires_python.clone(),
1720 if python_requirement.installed() == python_requirement.target() {
1721 PythonRequirementKind::Installed
1722 } else {
1723 PythonRequirementKind::Target
1724 },
1725 ))
1726 };
1727 Some((requires_python, incompatibility))
1728 }
1729 }
1730
1731 #[instrument(skip_all, fields(%package, %version))]
1733 fn get_dependencies_forking(
1734 &self,
1735 id: Id<PubGrubPackage>,
1736 package: &PubGrubPackage,
1737 version: &Version,
1738 pins: &FilePins,
1739 fork_urls: &ForkUrls,
1740 env: &ResolverEnvironment,
1741 python_requirement: &PythonRequirement,
1742 pubgrub: &State<UvDependencyProvider>,
1743 ) -> Result<ForkedDependencies, ResolveError> {
1744 let result = self.get_dependencies(
1745 id,
1746 package,
1747 version,
1748 pins,
1749 fork_urls,
1750 env,
1751 python_requirement,
1752 pubgrub,
1753 );
1754 if env.marker_environment().is_some() {
1755 result.map(|deps| match deps {
1756 Dependencies::Available(deps) | Dependencies::Unforkable(deps) => {
1757 ForkedDependencies::Unforked(deps)
1758 }
1759 Dependencies::Unavailable(err) => ForkedDependencies::Unavailable(err),
1760 })
1761 } else {
1762 Ok(result?.fork(env, python_requirement, &self.conflicts))
1763 }
1764 }
1765
1766 #[instrument(skip_all, fields(%package, %version))]
1768 fn get_dependencies(
1769 &self,
1770 id: Id<PubGrubPackage>,
1771 package: &PubGrubPackage,
1772 version: &Version,
1773 pins: &FilePins,
1774 fork_urls: &ForkUrls,
1775 env: &ResolverEnvironment,
1776 python_requirement: &PythonRequirement,
1777 pubgrub: &State<UvDependencyProvider>,
1778 ) -> Result<Dependencies, ResolveError> {
1779 let dependencies = match &**package {
1780 PubGrubPackageInner::Root(_) => {
1781 let no_dev_deps = BTreeMap::default();
1782 let requirements = self.flatten_requirements(
1783 &self.requirements,
1784 &no_dev_deps,
1785 None,
1786 None,
1787 None,
1788 env,
1789 python_requirement,
1790 );
1791
1792 requirements
1793 .flat_map(move |requirement| {
1794 PubGrubDependency::from_requirement(
1795 &self.conflicts,
1796 requirement,
1797 None,
1798 Some(package),
1799 )
1800 })
1801 .collect()
1802 }
1803
1804 PubGrubPackageInner::Package {
1805 name,
1806 extra,
1807 group,
1808 marker: _,
1809 } => {
1810 if self.dependency_mode.is_direct() {
1812 return Ok(Dependencies::Unforkable(Vec::default()));
1813 }
1814
1815 let owned_id;
1817 let distribution_id = if let Some((_, metadata_id)) =
1818 pins.dist_and_id(name, version)
1819 {
1820 metadata_id
1821 } else if let Some(url) = fork_urls.get(name) {
1822 let dist = Dist::from_url(name.clone(), url.clone())?;
1823 owned_id = dist.distribution_id();
1824 &owned_id
1825 } else {
1826 debug_assert!(
1827 false,
1828 "Dependencies were requested for a package without a pinned distribution"
1829 );
1830 return Err(ResolveError::UnregisteredTask(format!("{name}=={version}")));
1831 };
1832
1833 if self.dependency_mode.is_transitive()
1835 && self.unavailable_packages.get(name).is_some()
1836 && self.installed_packages.get_packages(name).is_empty()
1837 {
1838 debug_assert!(
1839 false,
1840 "Dependencies were requested for a package that is not available"
1841 );
1842 return Err(ResolveError::PackageUnavailable(name.clone()));
1843 }
1844
1845 let response = self
1847 .index
1848 .distributions()
1849 .wait_blocking(distribution_id)
1850 .ok_or_else(|| ResolveError::UnregisteredTask(format!("{name}=={version}")))?;
1851
1852 let metadata = match &*response {
1853 MetadataResponse::Found(archive) => &archive.metadata,
1854 MetadataResponse::Unavailable(reason) => {
1855 let unavailable_version = UnavailableVersion::from(reason);
1856 let message = unavailable_version.singular_message();
1857 if let Some(err) = reason.source() {
1858 warn!("{name} {message}: {err}");
1860 } else {
1861 warn!("{name} {message}");
1862 }
1863 self.incomplete_packages
1864 .entry(name.clone())
1865 .or_default()
1866 .insert(version.clone(), reason.clone());
1867 return Ok(Dependencies::Unavailable(unavailable_version));
1868 }
1869 MetadataResponse::Error(dist, err) => {
1870 let chain = DerivationChainBuilder::from_state(id, version, pubgrub)
1871 .unwrap_or_default();
1872 return Err(ResolveError::Dist(
1873 DistErrorKind::from_requested_dist(dist, &**err),
1874 dist.clone(),
1875 chain,
1876 err.clone(),
1877 ));
1878 }
1879 };
1880
1881 if let Some(requires_python) = &metadata.requires_python {
1884 if !python_requirement.target().is_contained_by(requires_python) {
1885 return Ok(Dependencies::Unavailable(
1886 UnavailableVersion::RequiresPython(requires_python.clone()),
1887 ));
1888 }
1889 }
1890
1891 let system_dependencies = self
1893 .options
1894 .torch_backend
1895 .as_ref()
1896 .filter(|torch_backend| matches!(torch_backend, TorchStrategy::Cuda { .. }))
1897 .filter(|torch_backend| torch_backend.has_system_dependency(name))
1898 .and_then(|_| pins.get(name, version).and_then(ResolvedDist::index))
1899 .map(IndexUrl::url)
1900 .and_then(SystemDependency::from_index)
1901 .into_iter()
1902 .inspect(|system_dependency| {
1903 debug!(
1904 "Adding system dependency `{}` for `{package}@{version}`",
1905 system_dependency
1906 );
1907 })
1908 .map(PubGrubDependency::from);
1909
1910 let requirements = self.flatten_requirements(
1911 &metadata.requires_dist,
1912 &metadata.dependency_groups,
1913 extra.as_ref(),
1914 group.as_ref(),
1915 Some(name),
1916 env,
1917 python_requirement,
1918 );
1919
1920 requirements
1921 .filter(|requirement| !self.excludes.contains(&requirement.name))
1922 .flat_map(|requirement| {
1923 PubGrubDependency::from_requirement(
1924 &self.conflicts,
1925 requirement,
1926 group.as_ref(),
1927 Some(package),
1928 )
1929 })
1930 .chain(system_dependencies)
1931 .collect()
1932 }
1933
1934 PubGrubPackageInner::Python(_) => return Ok(Dependencies::Unforkable(Vec::default())),
1935
1936 PubGrubPackageInner::System(_) => return Ok(Dependencies::Unforkable(Vec::default())),
1937
1938 PubGrubPackageInner::Marker { name, marker } => {
1940 return Ok(Dependencies::Unforkable(
1941 [MarkerTree::TRUE, *marker]
1942 .into_iter()
1943 .map(move |marker| PubGrubDependency {
1944 package: PubGrubPackage::from(PubGrubPackageInner::Package {
1945 name: name.clone(),
1946 extra: None,
1947 group: None,
1948 marker,
1949 }),
1950 version: Range::singleton(version.clone()),
1951 parent: None,
1952 source: DependencySource::Unspecified,
1953 })
1954 .collect(),
1955 ));
1956 }
1957
1958 PubGrubPackageInner::Extra {
1960 name,
1961 extra,
1962 marker,
1963 } => {
1964 return Ok(Dependencies::Unforkable(
1965 [MarkerTree::TRUE, *marker]
1966 .into_iter()
1967 .dedup()
1968 .flat_map(move |marker| {
1969 [None, Some(extra)]
1970 .into_iter()
1971 .map(move |extra| PubGrubDependency {
1972 package: PubGrubPackage::from(PubGrubPackageInner::Package {
1973 name: name.clone(),
1974 extra: extra.cloned(),
1975 group: None,
1976 marker,
1977 }),
1978 version: Range::singleton(version.clone()),
1979 parent: None,
1980 source: DependencySource::Unspecified,
1981 })
1982 })
1983 .collect(),
1984 ));
1985 }
1986
1987 PubGrubPackageInner::Group {
1989 name,
1990 group,
1991 marker,
1992 } => {
1993 return Ok(Dependencies::Unforkable(
1994 [MarkerTree::TRUE, *marker]
1995 .into_iter()
1996 .dedup()
1997 .map(|marker| PubGrubDependency {
1998 package: PubGrubPackage::from(PubGrubPackageInner::Package {
1999 name: name.clone(),
2000 extra: None,
2001 group: Some(group.clone()),
2002 marker,
2003 }),
2004 version: Range::singleton(version.clone()),
2005 parent: None,
2006 source: DependencySource::Unspecified,
2007 })
2008 .collect(),
2009 ));
2010 }
2011 };
2012 Ok(Dependencies::Available(dependencies))
2013 }
2014
2015 fn flatten_requirements<'a>(
2019 &'a self,
2020 dependencies: &'a [Requirement],
2021 dev_dependencies: &'a BTreeMap<GroupName, Box<[Requirement]>>,
2022 extra: Option<&'a ExtraName>,
2023 dev: Option<&'a GroupName>,
2024 name: Option<&PackageName>,
2025 env: &'a ResolverEnvironment,
2026 python_requirement: &'a PythonRequirement,
2027 ) -> impl Iterator<Item = Cow<'a, Requirement>> {
2028 let python_marker = python_requirement.to_marker_tree();
2029
2030 if let Some(dev) = dev {
2031 Either::Left(Either::Left(self.requirements_for_extra(
2034 dev_dependencies.get(dev).into_iter().flatten(),
2035 extra,
2036 env,
2037 python_marker,
2038 python_requirement,
2039 )))
2040 } else if !dependencies
2041 .iter()
2042 .any(|req| name == Some(&req.name) && !req.extras.is_empty())
2043 {
2044 Either::Left(Either::Right(self.requirements_for_extra(
2046 dependencies.iter(),
2047 extra,
2048 env,
2049 python_marker,
2050 python_requirement,
2051 )))
2052 } else {
2053 let mut requirements = self
2054 .requirements_for_extra(
2055 dependencies.iter(),
2056 extra,
2057 env,
2058 python_marker,
2059 python_requirement,
2060 )
2061 .collect::<Vec<_>>();
2062
2063 let mut seen = FxHashSet::<(ExtraName, MarkerTree)>::default();
2066 let mut queue: VecDeque<_> = requirements
2067 .iter()
2068 .filter(|req| name == Some(&req.name))
2069 .flat_map(|req| req.extras.iter().cloned().map(|extra| (extra, req.marker)))
2070 .collect();
2071 while let Some((extra, marker)) = queue.pop_front() {
2072 if !seen.insert((extra.clone(), marker)) {
2073 continue;
2074 }
2075 for requirement in self.requirements_for_extra(
2076 dependencies,
2077 Some(&extra),
2078 env,
2079 python_marker,
2080 python_requirement,
2081 ) {
2082 let requirement = match requirement {
2083 Cow::Owned(mut requirement) => {
2084 requirement.marker.and(marker);
2085 requirement
2086 }
2087 Cow::Borrowed(requirement) => {
2088 let mut marker = marker;
2089 marker.and(requirement.marker);
2090 Requirement {
2091 name: requirement.name.clone(),
2092 extras: requirement.extras.clone(),
2093 groups: requirement.groups.clone(),
2094 source: requirement.source.clone(),
2095 origin: requirement.origin.clone(),
2096 marker: marker.simplify_extras(slice::from_ref(&extra)),
2097 }
2098 }
2099 };
2100 if name == Some(&requirement.name) {
2101 queue.extend(
2103 requirement
2104 .extras
2105 .iter()
2106 .cloned()
2107 .map(|extra| (extra, requirement.marker)),
2108 );
2109 } else {
2110 requirements.push(Cow::Owned(requirement));
2112 }
2113 }
2114 }
2115
2116 let mut self_constraints = vec![];
2120 for req in &requirements {
2121 if name == Some(&req.name) && !req.source.is_empty() {
2122 self_constraints.push(Requirement {
2123 name: req.name.clone(),
2124 extras: Box::new([]),
2125 groups: req.groups.clone(),
2126 source: req.source.clone(),
2127 origin: req.origin.clone(),
2128 marker: req.marker,
2129 });
2130 }
2131 }
2132
2133 requirements.retain(|req| name != Some(&req.name) || req.extras.is_empty());
2135 requirements.extend(self_constraints.into_iter().map(Cow::Owned));
2136
2137 Either::Right(requirements.into_iter())
2138 }
2139 }
2140
2141 fn requirements_for_extra<'data, 'parameters>(
2144 &'data self,
2145 dependencies: impl IntoIterator<Item = &'data Requirement> + 'parameters,
2146 extra: Option<&'parameters ExtraName>,
2147 env: &'parameters ResolverEnvironment,
2148 python_marker: MarkerTree,
2149 python_requirement: &'parameters PythonRequirement,
2150 ) -> impl Iterator<Item = Cow<'data, Requirement>> + 'parameters
2151 where
2152 'data: 'parameters,
2153 {
2154 self.overrides
2155 .apply(dependencies)
2156 .filter(move |requirement| {
2157 Self::is_requirement_applicable(
2158 requirement,
2159 extra,
2160 env,
2161 python_marker,
2162 python_requirement,
2163 )
2164 })
2165 .flat_map(move |requirement| {
2166 iter::once(requirement.clone()).chain(self.constraints_for_requirement(
2167 requirement,
2168 extra,
2169 env,
2170 python_marker,
2171 python_requirement,
2172 ))
2173 })
2174 }
2175
2176 fn is_requirement_applicable(
2179 requirement: &Requirement,
2180 extra: Option<&ExtraName>,
2181 env: &ResolverEnvironment,
2182 python_marker: MarkerTree,
2183 python_requirement: &PythonRequirement,
2184 ) -> bool {
2185 match extra {
2187 Some(source_extra) => {
2188 if requirement.evaluate_markers(env.marker_environment(), &[]) {
2190 return false;
2191 }
2192 if !requirement
2193 .evaluate_markers(env.marker_environment(), slice::from_ref(source_extra))
2194 {
2195 return false;
2196 }
2197 if !env.included_by_group(ConflictItemRef::from((&requirement.name, source_extra)))
2198 {
2199 return false;
2200 }
2201 }
2202 None => {
2203 if !requirement.evaluate_markers(env.marker_environment(), &[]) {
2204 return false;
2205 }
2206 }
2207 }
2208
2209 if python_marker.is_disjoint(requirement.marker) {
2212 trace!(
2213 "Skipping {requirement} because of Requires-Python: {requires_python}",
2214 requires_python = python_requirement.target(),
2215 );
2216 return false;
2217 }
2218
2219 if !env.included_by_marker(requirement.marker) {
2222 trace!("Skipping {requirement} because of {env}");
2223 return false;
2224 }
2225
2226 true
2227 }
2228
2229 fn constraints_for_requirement<'data, 'parameters>(
2232 &'data self,
2233 requirement: Cow<'data, Requirement>,
2234 extra: Option<&'parameters ExtraName>,
2235 env: &'parameters ResolverEnvironment,
2236 python_marker: MarkerTree,
2237 python_requirement: &'parameters PythonRequirement,
2238 ) -> impl Iterator<Item = Cow<'data, Requirement>> + 'parameters
2239 where
2240 'data: 'parameters,
2241 {
2242 self.constraints
2243 .get(&requirement.name)
2244 .into_iter()
2245 .flatten()
2246 .filter_map(move |constraint| {
2247 let constraint = if constraint.marker.is_true() {
2250 if requirement.marker.is_true() {
2254 Cow::Borrowed(constraint)
2255 } else {
2256 let mut marker = constraint.marker;
2257 marker.and(requirement.marker);
2258
2259 if marker.is_false() {
2260 trace!(
2261 "Skipping {constraint} because of disjoint markers: `{}` vs. `{}`",
2262 constraint.marker.try_to_string().unwrap(),
2263 requirement.marker.try_to_string().unwrap(),
2264 );
2265 return None;
2266 }
2267
2268 Cow::Owned(Requirement {
2269 name: constraint.name.clone(),
2270 extras: constraint.extras.clone(),
2271 groups: constraint.groups.clone(),
2272 source: constraint.source.clone(),
2273 origin: constraint.origin.clone(),
2274 marker,
2275 })
2276 }
2277 } else {
2278 let requires_python = python_requirement.target();
2279
2280 let mut marker = constraint.marker;
2281 marker.and(requirement.marker);
2282
2283 if marker.is_false() {
2284 trace!(
2285 "Skipping {constraint} because of disjoint markers: `{}` vs. `{}`",
2286 constraint.marker.try_to_string().unwrap(),
2287 requirement.marker.try_to_string().unwrap(),
2288 );
2289 return None;
2290 }
2291
2292 if python_marker.is_disjoint(marker) {
2296 trace!(
2297 "Skipping constraint {requirement} because of Requires-Python: {requires_python}"
2298 );
2299 return None;
2300 }
2301
2302 if marker == constraint.marker {
2303 Cow::Borrowed(constraint)
2304 } else {
2305 Cow::Owned(Requirement {
2306 name: constraint.name.clone(),
2307 extras: constraint.extras.clone(),
2308 groups: constraint.groups.clone(),
2309 source: constraint.source.clone(),
2310 origin: constraint.origin.clone(),
2311 marker,
2312 })
2313 }
2314 };
2315
2316 if !env.included_by_marker(constraint.marker) {
2319 trace!("Skipping {constraint} because of {env}");
2320 return None;
2321 }
2322
2323 match extra {
2325 Some(source_extra) => {
2326 if !constraint
2327 .evaluate_markers(env.marker_environment(), slice::from_ref(source_extra))
2328 {
2329 return None;
2330 }
2331 if !env.included_by_group(ConflictItemRef::from((&requirement.name, source_extra)))
2332 {
2333 return None;
2334 }
2335 }
2336 None => {
2337 if !constraint.evaluate_markers(env.marker_environment(), &[]) {
2338 return None;
2339 }
2340 }
2341 }
2342
2343 Some(constraint)
2344 })
2345 }
2346
2347 async fn fetch<Provider: ResolverProvider>(
2349 self: Arc<Self>,
2350 provider: Arc<Provider>,
2351 request_stream: Receiver<Request>,
2352 ) -> Result<(), ResolveError> {
2353 let mut response_stream = ReceiverStream::new(request_stream)
2354 .map(|request| self.process_request(request, &*provider).boxed_local())
2355 .buffer_unordered(usize::MAX);
2359
2360 while let Some(response) = response_stream.next().await {
2361 match response? {
2362 Some(Response::Package(name, index, version_map)) => {
2363 trace!("Received package metadata for: {name}");
2364 if let Some(index) = index {
2365 self.index
2366 .explicit()
2367 .done((name, index), Arc::new(version_map));
2368 } else {
2369 self.index.implicit().done(name, Arc::new(version_map));
2370 }
2371 }
2372 Some(Response::Installed { dist, metadata }) => {
2373 trace!("Received installed distribution metadata for: {dist}");
2374 self.index
2375 .distributions()
2376 .done(dist.distribution_id(), Arc::new(metadata));
2377 }
2378 Some(Response::Dist { dist, metadata }) => {
2379 let dist_kind = match dist {
2380 Dist::Built(_) => "built",
2381 Dist::Source(_) => "source",
2382 };
2383 trace!("Received {dist_kind} distribution metadata for: {dist}");
2384 if let MetadataResponse::Unavailable(reason) = &metadata {
2385 let message = UnavailableVersion::from(reason).singular_message();
2386 if let Some(err) = reason.source() {
2387 warn!("{dist} {message}: {err}");
2389 } else {
2390 warn!("{dist} {message}");
2391 }
2392 }
2393 self.index
2394 .distributions()
2395 .done(dist.distribution_id(), Arc::new(metadata));
2396 }
2397 None => {}
2398 }
2399 }
2400
2401 Ok::<(), ResolveError>(())
2402 }
2403
2404 #[instrument(skip_all, fields(%request))]
2405 async fn process_request<Provider: ResolverProvider>(
2406 &self,
2407 request: Request,
2408 provider: &Provider,
2409 ) -> Result<Option<Response>, ResolveError> {
2410 match request {
2411 Request::Package(package_name, index) => {
2413 let package_versions = provider
2414 .get_package_versions(&package_name, index.as_ref())
2415 .boxed_local()
2416 .await
2417 .map_err(ResolveError::Client)?;
2418
2419 Ok(Some(Response::Package(
2420 package_name,
2421 index.map(IndexMetadata::into_url),
2422 package_versions,
2423 )))
2424 }
2425
2426 Request::Dist(dist) => {
2428 if let Some(version) = dist.version() {
2429 if let Some(index) = dist.index() {
2430 let versions_response = self.index.implicit().get(dist.name());
2432 if let Some(VersionsResponse::Found(version_maps)) =
2433 versions_response.as_deref()
2434 {
2435 for version_map in version_maps {
2436 if version_map.index() == Some(index) {
2437 let Some(metadata) = version_map.get_metadata(version) else {
2438 continue;
2439 };
2440 debug!("Found registry-provided metadata for: {dist}");
2441 return Ok(Some(Response::Dist {
2442 dist,
2443 metadata: MetadataResponse::Found(
2444 ArchiveMetadata::from_metadata23(metadata.clone()),
2445 ),
2446 }));
2447 }
2448 }
2449 }
2450
2451 let versions_response = self
2453 .index
2454 .explicit()
2455 .get(&(dist.name().clone(), index.clone()));
2456 if let Some(VersionsResponse::Found(version_maps)) =
2457 versions_response.as_deref()
2458 {
2459 for version_map in version_maps {
2460 let Some(metadata) = version_map.get_metadata(version) else {
2461 continue;
2462 };
2463 debug!("Found registry-provided metadata for: {dist}");
2464 return Ok(Some(Response::Dist {
2465 dist,
2466 metadata: MetadataResponse::Found(
2467 ArchiveMetadata::from_metadata23(metadata.clone()),
2468 ),
2469 }));
2470 }
2471 }
2472 }
2473 }
2474
2475 let metadata = provider
2476 .get_or_build_wheel_metadata(&dist)
2477 .boxed_local()
2478 .await?;
2479
2480 if let MetadataResponse::Found(metadata) = &metadata {
2481 if &metadata.metadata.name != dist.name() {
2482 return Err(ResolveError::MismatchedPackageName {
2483 request: "distribution metadata",
2484 expected: dist.name().clone(),
2485 actual: metadata.metadata.name.clone(),
2486 });
2487 }
2488 }
2489
2490 Ok(Some(Response::Dist { dist, metadata }))
2491 }
2492
2493 Request::Installed(dist) => {
2494 let metadata = provider.get_installed_metadata(&dist).boxed_local().await?;
2495
2496 if let MetadataResponse::Found(metadata) = &metadata {
2497 if &metadata.metadata.name != dist.name() {
2498 return Err(ResolveError::MismatchedPackageName {
2499 request: "installed metadata",
2500 expected: dist.name().clone(),
2501 actual: metadata.metadata.name.clone(),
2502 });
2503 }
2504 }
2505
2506 Ok(Some(Response::Installed { dist, metadata }))
2507 }
2508
2509 Request::Prefetch(package_name, range, python_requirement) => {
2511 let versions_response = self
2513 .index
2514 .implicit()
2515 .wait(&package_name)
2516 .await
2517 .ok_or_else(|| ResolveError::UnregisteredTask(package_name.to_string()))?;
2518
2519 let version_map = match *versions_response {
2520 VersionsResponse::Found(ref version_map) => version_map,
2521 VersionsResponse::NoIndex => {
2523 self.unavailable_packages
2524 .insert(package_name.clone(), UnavailablePackage::NoIndex);
2525
2526 return Ok(None);
2527 }
2528 VersionsResponse::Offline => {
2529 self.unavailable_packages
2530 .insert(package_name.clone(), UnavailablePackage::Offline);
2531
2532 return Ok(None);
2533 }
2534 VersionsResponse::NotFound => {
2535 self.unavailable_packages
2536 .insert(package_name.clone(), UnavailablePackage::NotFound);
2537
2538 return Ok(None);
2539 }
2540 };
2541
2542 let env = ResolverEnvironment::universal(vec![]);
2545
2546 let Some(candidate) = self.selector.select(
2549 &package_name,
2550 &range,
2551 version_map,
2552 &self.preferences,
2553 &self.installed_packages,
2554 &self.exclusions,
2555 None,
2556 &env,
2557 self.tags.as_ref(),
2558 ) else {
2559 return Ok(None);
2560 };
2561
2562 let Some(dist) = candidate.compatible() else {
2564 return Ok(None);
2565 };
2566
2567 for version_map in version_map {
2569 if let Some(metadata) = version_map.get_metadata(candidate.version()) {
2570 let dist = dist.for_resolution();
2571 if version_map.index() == dist.index() {
2572 debug!("Found registry-provided metadata for: {dist}");
2573
2574 let metadata = MetadataResponse::Found(
2575 ArchiveMetadata::from_metadata23(metadata.clone()),
2576 );
2577
2578 let dist = dist.to_owned();
2579 if &package_name != dist.name() {
2580 return Err(ResolveError::MismatchedPackageName {
2581 request: "distribution",
2582 expected: package_name,
2583 actual: dist.name().clone(),
2584 });
2585 }
2586
2587 let response = match dist {
2588 ResolvedDist::Installable { dist, .. } => Response::Dist {
2589 dist: (*dist).clone(),
2590 metadata,
2591 },
2592 ResolvedDist::Installed { dist } => Response::Installed {
2593 dist: (*dist).clone(),
2594 metadata,
2595 },
2596 };
2597
2598 return Ok(Some(response));
2599 }
2600 }
2601 }
2602
2603 if dist.wheel().is_none() {
2607 if !self.selector.use_highest_version(&package_name, &env) {
2608 if let Some((lower, _)) = range.iter().next() {
2609 if lower == &Bound::Unbounded {
2610 debug!(
2611 "Skipping prefetch for unbounded minimum-version range: {package_name} ({range})"
2612 );
2613 return Ok(None);
2614 }
2615 }
2616 }
2617 }
2618
2619 let requires_python = match dist {
2621 CompatibleDist::InstalledDist(_) => None,
2622 CompatibleDist::SourceDist { sdist, .. }
2623 | CompatibleDist::IncompatibleWheel { sdist, .. } => {
2624 sdist.file.requires_python.as_ref()
2625 }
2626 CompatibleDist::CompatibleWheel { wheel, .. } => {
2627 wheel.file.requires_python.as_ref()
2628 }
2629 };
2630 if let Some(requires_python) = requires_python.as_ref() {
2631 if !python_requirement.target().is_contained_by(requires_python) {
2632 return Ok(None);
2633 }
2634 }
2635
2636 if !self
2638 .hasher
2639 .allows_package(candidate.name(), candidate.version())
2640 {
2641 return Ok(None);
2642 }
2643
2644 let dist = dist.for_resolution();
2646 if self.index.distributions().register(dist.distribution_id()) {
2647 let dist = dist.to_owned();
2648 if &package_name != dist.name() {
2649 return Err(ResolveError::MismatchedPackageName {
2650 request: "distribution",
2651 expected: package_name,
2652 actual: dist.name().clone(),
2653 });
2654 }
2655
2656 let response = match dist {
2657 ResolvedDist::Installable { dist, .. } => {
2658 let metadata = provider
2659 .get_or_build_wheel_metadata(&dist)
2660 .boxed_local()
2661 .await?;
2662
2663 Response::Dist {
2664 dist: (*dist).clone(),
2665 metadata,
2666 }
2667 }
2668 ResolvedDist::Installed { dist } => {
2669 let metadata =
2670 provider.get_installed_metadata(&dist).boxed_local().await?;
2671
2672 Response::Installed {
2673 dist: (*dist).clone(),
2674 metadata,
2675 }
2676 }
2677 };
2678
2679 Ok(Some(response))
2680 } else {
2681 Ok(None)
2682 }
2683 }
2684 }
2685 }
2686
2687 fn convert_no_solution_err(
2688 &self,
2689 mut err: pubgrub::NoSolutionError<UvDependencyProvider>,
2690 fork_urls: ForkUrls,
2691 fork_indexes: ForkIndexes,
2692 env: ResolverEnvironment,
2693 current_environment: MarkerEnvironment,
2694 visited: &FxHashSet<PackageName>,
2695 ) -> ResolveError {
2696 err = NoSolutionError::collapse_local_version_segments(NoSolutionError::collapse_proxies(
2697 err,
2698 ));
2699
2700 let mut unavailable_packages = FxHashMap::default();
2701 for package in err.packages() {
2702 if let PubGrubPackageInner::Package { name, .. } = &**package {
2703 if let Some(reason) = self.unavailable_packages.get(name) {
2704 unavailable_packages.insert(name.clone(), reason.clone());
2705 }
2706 }
2707 }
2708
2709 let mut incomplete_packages = FxHashMap::default();
2710 for package in err.packages() {
2711 if let PubGrubPackageInner::Package { name, .. } = &**package {
2712 if let Some(versions) = self.incomplete_packages.get(name) {
2713 for entry in versions.iter() {
2714 let (version, reason) = entry.pair();
2715 incomplete_packages
2716 .entry(name.clone())
2717 .or_insert_with(BTreeMap::default)
2718 .insert(version.clone(), reason.clone());
2719 }
2720 }
2721 }
2722 }
2723
2724 let mut available_indexes = FxHashMap::default();
2725 let mut included_versions = FxHashMap::default();
2726 let mut available_versions = FxHashMap::default();
2727
2728 let available_version_cutoff: Option<ExcludeNewerValue> =
2729 std::env::var(EnvVars::UV_TEST_AVAILABLE_VERSION_CUTOFF)
2730 .ok()
2731 .and_then(|s| s.parse().ok());
2732
2733 for package in err.packages() {
2734 let Some(name) = package.name() else { continue };
2735 if !visited.contains(name) {
2736 continue;
2741 }
2742 let versions_response = if let Some(index) = fork_indexes.get(name) {
2743 self.index
2744 .explicit()
2745 .get(&(name.clone(), index.url().clone()))
2746 } else {
2747 self.index.implicit().get(name)
2748 };
2749 if let Some(response) = versions_response {
2750 if let VersionsResponse::Found(ref version_maps) = *response {
2751 for version_map in version_maps {
2753 let package_included_versions = included_versions
2754 .entry(name.clone())
2755 .or_insert_with(BTreeSet::new);
2756 let package_available_versions = available_versions
2757 .entry(name.clone())
2758 .or_insert_with(BTreeSet::new);
2759
2760 for (version, dists) in version_map.iter(&Ranges::full()) {
2761 let excluded_from_included = || {
2766 let Some(exclude_newer) = version_map.exclude_newer() else {
2767 return false;
2768 };
2769 let Some(prioritized_dist) = dists.prioritized_dist() else {
2770 return true;
2771 };
2772 prioritized_dist.files().all(|file| {
2773 file.upload_time_utc_ms.is_none_or(|upload_time| {
2774 upload_time >= exclude_newer.timestamp_millis()
2775 })
2776 })
2777 };
2778
2779 if !excluded_from_included() {
2780 package_included_versions.insert(version.clone());
2781 }
2782
2783 let excluded_from_available = || {
2789 let Some(ref exclude_newer) = available_version_cutoff else {
2790 return false;
2791 };
2792 let Some(prioritized_dist) = dists.prioritized_dist() else {
2793 return false;
2794 };
2795 prioritized_dist.files().all(|file| {
2796 file.upload_time_utc_ms.is_some_and(|upload_time| {
2797 upload_time >= exclude_newer.timestamp_millis()
2798 })
2799 })
2800 };
2801
2802 if !excluded_from_available() {
2803 package_available_versions.insert(version.clone());
2804 }
2805 }
2806 }
2807
2808 available_indexes
2810 .entry(name.clone())
2811 .or_insert(BTreeSet::new())
2812 .extend(
2813 version_maps
2814 .iter()
2815 .filter_map(|version_map| version_map.index().cloned()),
2816 );
2817 }
2818 }
2819 }
2820
2821 ResolveError::NoSolution(Box::new(NoSolutionError::new(
2822 err,
2823 self.index.clone(),
2824 included_versions,
2825 available_versions,
2826 available_indexes,
2827 self.selector.clone(),
2828 self.python_requirement.clone(),
2829 self.locations.clone(),
2830 self.capabilities.clone(),
2831 unavailable_packages,
2832 incomplete_packages,
2833 fork_urls,
2834 fork_indexes,
2835 env,
2836 current_environment,
2837 self.tags.clone(),
2838 self.workspace_members.clone(),
2839 self.options.clone(),
2840 )))
2841 }
2842
2843 fn on_progress(&self, package: &PubGrubPackage, version: &Version) {
2844 if let Some(reporter) = self.reporter.as_ref() {
2845 match &**package {
2846 PubGrubPackageInner::Root(_) => {}
2847 PubGrubPackageInner::Python(_) => {}
2848 PubGrubPackageInner::System(_) => {}
2849 PubGrubPackageInner::Marker { .. } => {}
2850 PubGrubPackageInner::Extra { .. } => {}
2851 PubGrubPackageInner::Group { .. } => {}
2852 PubGrubPackageInner::Package { name, .. } => {
2853 reporter.on_progress(name, &VersionOrUrlRef::Version(version));
2854 }
2855 }
2856 }
2857 }
2858
2859 fn on_complete(&self) {
2860 if let Some(reporter) = self.reporter.as_ref() {
2861 reporter.on_complete();
2862 }
2863 }
2864}
2865
2866#[derive(Clone)]
2868pub(crate) struct ForkState {
2869 pubgrub: State<UvDependencyProvider>,
2877 initial_id: Option<Id<PubGrubPackage>>,
2880 initial_version: Option<Version>,
2883 next: Id<PubGrubPackage>,
2885 pins: FilePins,
2894 fork_urls: ForkUrls,
2900 fork_indexes: ForkIndexes,
2905 priorities: PubGrubPriorities,
2911 added_dependencies: FxHashMap<Id<PubGrubPackage>, FxHashSet<Version>>,
2914 env: ResolverEnvironment,
2929 python_requirement: PythonRequirement,
2942 conflict_tracker: ConflictTracker,
2943 prefetcher: BatchPrefetcher,
2947}
2948
2949impl ForkState {
2950 fn new(
2951 pubgrub: State<UvDependencyProvider>,
2952 env: ResolverEnvironment,
2953 python_requirement: PythonRequirement,
2954 prefetcher: BatchPrefetcher,
2955 ) -> Self {
2956 Self {
2957 initial_id: None,
2958 initial_version: None,
2959 next: pubgrub.root_package,
2960 pubgrub,
2961 pins: FilePins::default(),
2962 fork_urls: ForkUrls::default(),
2963 fork_indexes: ForkIndexes::default(),
2964 priorities: PubGrubPriorities::default(),
2965 added_dependencies: FxHashMap::default(),
2966 env,
2967 python_requirement,
2968 conflict_tracker: ConflictTracker::default(),
2969 prefetcher,
2970 }
2971 }
2972
2973 fn visit_package_version_dependencies(
2976 &mut self,
2977 for_package: Id<PubGrubPackage>,
2978 for_version: &Version,
2979 urls: &Urls,
2980 indexes: &Indexes,
2981 dependencies: &[PubGrubDependency],
2982 git: &GitResolver,
2983 workspace_members: &BTreeSet<PackageName>,
2984 resolution_strategy: &ResolutionStrategy,
2985 ) -> Result<(), ResolveError> {
2986 for dependency in dependencies {
2987 let PubGrubDependency {
2988 package,
2989 version,
2990 parent: _,
2991 source,
2992 } = dependency;
2993
2994 let mut has_url = false;
2995 if let Some(name) = package.name() {
2996 for url in urls.get_url(&self.env, name, source.verbatim_url(), git)? {
3001 self.fork_urls.insert(name, url, &self.env)?;
3002 has_url = true;
3003 }
3004
3005 if let Some(index) = source.explicit_index() {
3006 self.fork_indexes.insert(name, index, &self.env)?;
3007 }
3008
3009 for index in indexes.get(name, &self.env) {
3011 self.fork_indexes.insert(name, index, &self.env)?;
3012 }
3013 }
3014
3015 if let Some(name) = self.pubgrub.package_store[for_package]
3016 .name_no_root()
3017 .filter(|name| !workspace_members.contains(name))
3018 {
3019 debug!(
3020 "Adding transitive dependency for {name}=={for_version}: {package}{version}"
3021 );
3022 } else {
3023 debug!("Adding direct dependency: {package}{version}");
3025
3026 let missing_lower_bound = version
3028 .bounding_range()
3029 .map(|(lowest, _highest)| lowest == Bound::Unbounded)
3030 .unwrap_or(true);
3031 let strategy_lowest = matches!(
3032 resolution_strategy,
3033 ResolutionStrategy::Lowest | ResolutionStrategy::LowestDirect(..)
3034 );
3035
3036 if !has_url && missing_lower_bound && strategy_lowest {
3037 let name = package.name_no_root().unwrap();
3038 let bound_on_other_package = dependencies.iter().any(|other| {
3045 Some(name) == other.package.name()
3046 && !other
3047 .version
3048 .bounding_range()
3049 .map(|(lowest, _highest)| lowest == Bound::Unbounded)
3050 .unwrap_or(true)
3051 });
3052
3053 if !bound_on_other_package {
3054 warn_user_once!(
3055 "The direct dependency `{name}` is unpinned. \
3056 Consider setting a lower bound when using `--resolution lowest` \
3057 or `--resolution lowest-direct` to avoid using outdated versions.",
3058 );
3059 }
3060 }
3061 }
3062
3063 self.priorities.insert(package, version, &self.fork_urls);
3065 if let Some(base_package) = package.base_package() {
3068 self.priorities
3069 .insert(&base_package, version, &self.fork_urls);
3070 }
3071 }
3072
3073 Ok(())
3074 }
3075
3076 fn add_package_version_dependencies(
3078 &mut self,
3079 for_package: Id<PubGrubPackage>,
3080 for_version: &Version,
3081 dependencies: Vec<PubGrubDependency>,
3082 ) {
3083 for dependency in &dependencies {
3084 let PubGrubDependency {
3085 package,
3086 version,
3087 parent: _,
3088 source: _,
3089 } = dependency;
3090
3091 let Some(base_package) = package.base_package() else {
3092 continue;
3093 };
3094
3095 let proxy_package = self.pubgrub.package_store.alloc(package.clone());
3096 let base_package_id = self.pubgrub.package_store.alloc(base_package.clone());
3097 self.pubgrub
3098 .add_proxy_package(proxy_package, base_package_id, version.clone());
3099 }
3100
3101 let conflict = self.pubgrub.add_package_version_dependencies(
3102 self.next,
3103 for_version.clone(),
3104 dependencies.into_iter().map(|dependency| {
3105 let PubGrubDependency {
3106 package,
3107 version,
3108 parent: _,
3109 source: _,
3110 } = dependency;
3111 (package, version)
3112 }),
3113 );
3114
3115 if let Some(incompatibility) = conflict {
3118 self.record_conflict(for_package, Some(for_version), incompatibility);
3119 }
3120 }
3121
3122 fn record_conflict(
3123 &mut self,
3124 affected: Id<PubGrubPackage>,
3125 version: Option<&Version>,
3126 incompatibility: IncompId<PubGrubPackage, Ranges<Version>, UnavailableReason>,
3127 ) {
3128 let mut culprit_is_real = false;
3129 for (incompatible, _term) in self.pubgrub.incompatibility_store[incompatibility].iter() {
3130 if incompatible == affected {
3131 continue;
3132 }
3133 if self.pubgrub.package_store[affected].name()
3134 == self.pubgrub.package_store[incompatible].name()
3135 {
3136 continue;
3139 }
3140 culprit_is_real = true;
3141 let culprit_count = self
3142 .conflict_tracker
3143 .culprit
3144 .entry(incompatible)
3145 .or_default();
3146 *culprit_count += 1;
3147 if *culprit_count == CONFLICT_THRESHOLD {
3148 self.conflict_tracker.deprioritize.push(incompatible);
3149 }
3150 }
3151 if culprit_is_real {
3154 if tracing::enabled!(Level::DEBUG) {
3155 let incompatibility = self.pubgrub.incompatibility_store[incompatibility]
3156 .iter()
3157 .map(|(package, _term)| &self.pubgrub.package_store[package])
3158 .join(", ");
3159 if let Some(version) = version {
3160 debug!(
3161 "Recording dependency conflict of {}=={} from incompatibility of ({})",
3162 self.pubgrub.package_store[affected], version, incompatibility
3163 );
3164 } else {
3165 debug!(
3166 "Recording unit propagation conflict of {} from incompatibility of ({})",
3167 self.pubgrub.package_store[affected], incompatibility
3168 );
3169 }
3170 }
3171
3172 let affected_count = self.conflict_tracker.affected.entry(self.next).or_default();
3173 *affected_count += 1;
3174 if *affected_count == CONFLICT_THRESHOLD {
3175 self.conflict_tracker.prioritize.push(self.next);
3176 }
3177 }
3178 }
3179
3180 fn add_unavailable_version(&mut self, version: Version, reason: UnavailableVersion) {
3181 if let UnavailableVersion::IncompatibleDist(
3185 IncompatibleDist::Source(IncompatibleSource::RequiresPython(requires_python, kind))
3186 | IncompatibleDist::Wheel(IncompatibleWheel::RequiresPython(requires_python, kind)),
3187 ) = reason
3188 {
3189 let package = &self.next;
3190 let python = self.pubgrub.package_store.alloc(PubGrubPackage::from(
3191 PubGrubPackageInner::Python(match kind {
3192 PythonRequirementKind::Installed => PubGrubPython::Installed,
3193 PythonRequirementKind::Target => PubGrubPython::Target,
3194 }),
3195 ));
3196 self.pubgrub
3197 .add_incompatibility(Incompatibility::from_dependency(
3198 *package,
3199 Range::singleton(version.clone()),
3200 (python, release_specifiers_to_ranges(requires_python)),
3201 ));
3202 self.pubgrub
3203 .partial_solution
3204 .add_decision(self.next, version);
3205 return;
3206 }
3207 self.pubgrub
3208 .add_incompatibility(Incompatibility::custom_version(
3209 self.next,
3210 version.clone(),
3211 UnavailableReason::Version(reason),
3212 ));
3213 }
3214
3215 fn with_env(mut self, env: ResolverEnvironment) -> Self {
3221 self.env = env;
3222 if let Some(req) = self.env.narrow_python_requirement(&self.python_requirement) {
3224 debug!("Narrowed `requires-python` bound to: {}", req.target());
3225 self.python_requirement = req;
3226 }
3227 self
3228 }
3229
3230 fn source(
3234 &self,
3235 name: &PackageName,
3236 version: &Version,
3237 ) -> (Option<&VerbatimParsedUrl>, Option<&IndexUrl>) {
3238 let url = self.fork_urls.get(name);
3239 let index = url
3240 .is_none()
3241 .then(|| {
3242 self.pins
3243 .get(name, version)
3244 .expect("Every package should be pinned")
3245 .index()
3246 })
3247 .flatten();
3248 (url, index)
3249 }
3250
3251 fn into_resolution(self) -> Resolution {
3252 let solution: FxHashMap<_, _> = self.pubgrub.partial_solution.extract_solution().collect();
3253 let edge_count: usize = solution
3254 .keys()
3255 .map(|package| self.pubgrub.incompatibilities[package].len())
3256 .sum();
3257 let mut edges: Vec<ResolutionDependencyEdge> = Vec::with_capacity(edge_count);
3258 for (package, self_version) in &solution {
3259 for id in &self.pubgrub.incompatibilities[package] {
3260 let pubgrub::Kind::FromDependencyOf(
3261 self_package,
3262 ref self_range,
3263 dependency_package,
3264 ref dependency_range,
3265 ) = self.pubgrub.incompatibility_store[*id].kind
3266 else {
3267 continue;
3268 };
3269 if *package != self_package {
3270 continue;
3271 }
3272 if !self_range.contains(self_version) {
3273 continue;
3274 }
3275 let Some(dependency_version) = solution.get(&dependency_package) else {
3276 continue;
3277 };
3278 if !dependency_range.contains(dependency_version) {
3279 continue;
3280 }
3281
3282 let self_package = &self.pubgrub.package_store[self_package];
3283 let dependency_package = &self.pubgrub.package_store[dependency_package];
3284
3285 let (self_name, self_extra, self_group) = match &**self_package {
3286 PubGrubPackageInner::Package {
3287 name: self_name,
3288 extra: self_extra,
3289 group: self_group,
3290 marker: _,
3291 } => (Some(self_name), self_extra.as_ref(), self_group.as_ref()),
3292
3293 PubGrubPackageInner::Root(_) => (None, None, None),
3294
3295 _ => continue,
3296 };
3297
3298 let (self_url, self_index) = self_name
3299 .map(|self_name| self.source(self_name, self_version))
3300 .unwrap_or((None, None));
3301
3302 match **dependency_package {
3303 PubGrubPackageInner::Package {
3304 name: ref dependency_name,
3305 extra: ref dependency_extra,
3306 group: ref dependency_dev,
3307 marker: ref dependency_marker,
3308 } => {
3309 debug_assert!(
3310 dependency_extra.is_none(),
3311 "Packages should depend on an extra proxy"
3312 );
3313 debug_assert!(
3314 dependency_dev.is_none(),
3315 "Packages should depend on a group proxy"
3316 );
3317
3318 if self_group.is_none() {
3321 if self_name == Some(dependency_name) {
3322 continue;
3323 }
3324 }
3325
3326 let (to_url, to_index) = self.source(dependency_name, dependency_version);
3327
3328 let edge = ResolutionDependencyEdge {
3329 from: self_name.cloned(),
3330 from_version: self_version.clone(),
3331 from_url: self_url.cloned(),
3332 from_index: self_index.cloned(),
3333 from_extra: self_extra.cloned(),
3334 from_group: self_group.cloned(),
3335 to: dependency_name.clone(),
3336 to_version: dependency_version.clone(),
3337 to_url: to_url.cloned(),
3338 to_index: to_index.cloned(),
3339 to_extra: dependency_extra.clone(),
3340 to_group: dependency_dev.clone(),
3341 marker: *dependency_marker,
3342 };
3343 edges.push(edge);
3344 }
3345
3346 PubGrubPackageInner::Marker {
3347 name: ref dependency_name,
3348 marker: ref dependency_marker,
3349 } => {
3350 if self_group.is_none() {
3353 if self_name == Some(dependency_name) {
3354 continue;
3355 }
3356 }
3357
3358 let (to_url, to_index) = self.source(dependency_name, dependency_version);
3359
3360 let edge = ResolutionDependencyEdge {
3361 from: self_name.cloned(),
3362 from_version: self_version.clone(),
3363 from_url: self_url.cloned(),
3364 from_index: self_index.cloned(),
3365 from_extra: self_extra.cloned(),
3366 from_group: self_group.cloned(),
3367 to: dependency_name.clone(),
3368 to_version: dependency_version.clone(),
3369 to_url: to_url.cloned(),
3370 to_index: to_index.cloned(),
3371 to_extra: None,
3372 to_group: None,
3373 marker: *dependency_marker,
3374 };
3375 edges.push(edge);
3376 }
3377
3378 PubGrubPackageInner::Extra {
3379 name: ref dependency_name,
3380 extra: ref dependency_extra,
3381 marker: ref dependency_marker,
3382 } => {
3383 if self_group.is_none() {
3384 debug_assert!(
3385 self_name != Some(dependency_name),
3386 "Extras should be flattened"
3387 );
3388 }
3389 let (to_url, to_index) = self.source(dependency_name, dependency_version);
3390
3391 let edge = ResolutionDependencyEdge {
3393 from: self_name.cloned(),
3394 from_version: self_version.clone(),
3395 from_url: self_url.cloned(),
3396 from_index: self_index.cloned(),
3397 from_extra: self_extra.cloned(),
3398 from_group: self_group.cloned(),
3399 to: dependency_name.clone(),
3400 to_version: dependency_version.clone(),
3401 to_url: to_url.cloned(),
3402 to_index: to_index.cloned(),
3403 to_extra: Some(dependency_extra.clone()),
3404 to_group: None,
3405 marker: *dependency_marker,
3406 };
3407 edges.push(edge);
3408
3409 let edge = ResolutionDependencyEdge {
3411 from: self_name.cloned(),
3412 from_version: self_version.clone(),
3413 from_url: self_url.cloned(),
3414 from_index: self_index.cloned(),
3415 from_extra: self_extra.cloned(),
3416 from_group: self_group.cloned(),
3417 to: dependency_name.clone(),
3418 to_version: dependency_version.clone(),
3419 to_url: to_url.cloned(),
3420 to_index: to_index.cloned(),
3421 to_extra: None,
3422 to_group: None,
3423 marker: *dependency_marker,
3424 };
3425 edges.push(edge);
3426 }
3427
3428 PubGrubPackageInner::Group {
3429 name: ref dependency_name,
3430 group: ref dependency_group,
3431 marker: ref dependency_marker,
3432 } => {
3433 debug_assert!(
3434 self_name != Some(dependency_name),
3435 "Groups should be flattened"
3436 );
3437
3438 let (to_url, to_index) = self.source(dependency_name, dependency_version);
3439
3440 let edge = ResolutionDependencyEdge {
3443 from: self_name.cloned(),
3444 from_version: self_version.clone(),
3445 from_url: self_url.cloned(),
3446 from_index: self_index.cloned(),
3447 from_extra: self_extra.cloned(),
3448 from_group: self_group.cloned(),
3449 to: dependency_name.clone(),
3450 to_version: dependency_version.clone(),
3451 to_url: to_url.cloned(),
3452 to_index: to_index.cloned(),
3453 to_extra: None,
3454 to_group: Some(dependency_group.clone()),
3455 marker: *dependency_marker,
3456 };
3457 edges.push(edge);
3458 }
3459
3460 _ => {}
3461 }
3462 }
3463 }
3464
3465 let nodes = solution
3466 .into_iter()
3467 .filter_map(|(package, version)| {
3468 if let PubGrubPackageInner::Package {
3469 name,
3470 extra,
3471 group,
3472 marker: MarkerTree::TRUE,
3473 } = &*self.pubgrub.package_store[package]
3474 {
3475 let (url, index) = self.source(name, &version);
3476 Some((
3477 ResolutionPackage {
3478 name: name.clone(),
3479 extra: extra.clone(),
3480 dev: group.clone(),
3481 url: url.cloned(),
3482 index: index.cloned(),
3483 },
3484 version,
3485 ))
3486 } else {
3487 None
3488 }
3489 })
3490 .collect();
3491
3492 Resolution {
3493 nodes,
3494 edges,
3495 pins: self.pins,
3496 env: self.env,
3497 }
3498 }
3499}
3500
3501#[derive(Debug)]
3503pub(crate) struct Resolution {
3504 pub(crate) nodes: FxHashMap<ResolutionPackage, Version>,
3505 pub(crate) edges: Vec<ResolutionDependencyEdge>,
3508 pub(crate) pins: FilePins,
3510 pub(crate) env: ResolverEnvironment,
3512}
3513
3514#[derive(Clone, Debug, Eq, Hash, PartialEq)]
3517pub(crate) struct ResolutionPackage {
3518 pub(crate) name: PackageName,
3519 pub(crate) extra: Option<ExtraName>,
3520 pub(crate) dev: Option<GroupName>,
3521 pub(crate) url: Option<VerbatimParsedUrl>,
3523 pub(crate) index: Option<IndexUrl>,
3525}
3526
3527#[derive(Clone, Debug, Eq, Hash, PartialEq)]
3530pub(crate) struct ResolutionDependencyEdge {
3531 pub(crate) from: Option<PackageName>,
3533 pub(crate) from_version: Version,
3534 pub(crate) from_url: Option<VerbatimParsedUrl>,
3535 pub(crate) from_index: Option<IndexUrl>,
3536 pub(crate) from_extra: Option<ExtraName>,
3537 pub(crate) from_group: Option<GroupName>,
3538 pub(crate) to: PackageName,
3539 pub(crate) to_version: Version,
3540 pub(crate) to_url: Option<VerbatimParsedUrl>,
3541 pub(crate) to_index: Option<IndexUrl>,
3542 pub(crate) to_extra: Option<ExtraName>,
3543 pub(crate) to_group: Option<GroupName>,
3544 pub(crate) marker: MarkerTree,
3545}
3546
3547impl ResolutionDependencyEdge {
3548 pub(crate) fn universal_marker(&self) -> UniversalMarker {
3549 UniversalMarker::new(self.marker, ConflictMarker::TRUE)
3553 }
3554}
3555
3556#[derive(Debug)]
3558#[expect(clippy::large_enum_variant)]
3559pub(crate) enum Request {
3560 Package(PackageName, Option<IndexMetadata>),
3562 Dist(Dist),
3564 Installed(InstalledDist),
3566 Prefetch(PackageName, Range<Version>, PythonRequirement),
3568}
3569
3570impl<'a> From<ResolvedDistRef<'a>> for Request {
3571 fn from(dist: ResolvedDistRef<'a>) -> Self {
3572 match dist {
3578 ResolvedDistRef::InstallableRegistrySourceDist { sdist, prioritized } => {
3579 let source = prioritized.source_dist().expect("a source distribution");
3582 assert_eq!(
3583 (&sdist.name, &sdist.version),
3584 (&source.name, &source.version),
3585 "expected chosen sdist to match prioritized sdist"
3586 );
3587 Self::Dist(Dist::Source(SourceDist::Registry(source)))
3588 }
3589 ResolvedDistRef::InstallableRegistryBuiltDist {
3590 wheel, prioritized, ..
3591 } => {
3592 assert_eq!(
3593 Some(&wheel.filename),
3594 prioritized.best_wheel().map(|(wheel, _)| &wheel.filename),
3595 "expected chosen wheel to match best wheel"
3596 );
3597 let built = prioritized.built_dist().expect("at least one wheel");
3600 Self::Dist(Dist::Built(BuiltDist::Registry(built)))
3601 }
3602 ResolvedDistRef::Installed { dist } => Self::Installed(dist.clone()),
3603 }
3604 }
3605}
3606
3607impl Display for Request {
3608 fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
3609 match self {
3610 Self::Package(package_name, _) => {
3611 write!(f, "Versions {package_name}")
3612 }
3613 Self::Dist(dist) => {
3614 write!(f, "Metadata {dist}")
3615 }
3616 Self::Installed(dist) => {
3617 write!(f, "Installed metadata {dist}")
3618 }
3619 Self::Prefetch(package_name, range, _) => {
3620 write!(f, "Prefetch {package_name} {range}")
3621 }
3622 }
3623 }
3624}
3625
3626#[derive(Debug)]
3627#[expect(clippy::large_enum_variant)]
3628enum Response {
3629 Package(PackageName, Option<IndexUrl>, VersionsResponse),
3631 Dist {
3633 dist: Dist,
3634 metadata: MetadataResponse,
3635 },
3636 Installed {
3638 dist: InstalledDist,
3639 metadata: MetadataResponse,
3640 },
3641}
3642
3643enum Dependencies {
3649 Unavailable(UnavailableVersion),
3651 Available(Vec<PubGrubDependency>),
3657 Unforkable(Vec<PubGrubDependency>),
3663}
3664
3665impl Dependencies {
3666 fn fork(
3673 self,
3674 env: &ResolverEnvironment,
3675 python_requirement: &PythonRequirement,
3676 conflicts: &Conflicts,
3677 ) -> ForkedDependencies {
3678 let deps = match self {
3679 Self::Available(deps) => deps,
3680 Self::Unforkable(deps) => return ForkedDependencies::Unforked(deps),
3681 Self::Unavailable(err) => return ForkedDependencies::Unavailable(err),
3682 };
3683 let mut name_to_deps: BTreeMap<PackageName, Vec<PubGrubDependency>> = BTreeMap::new();
3684 for dep in deps {
3685 let name = dep
3686 .package
3687 .name()
3688 .expect("dependency always has a name")
3689 .clone();
3690 name_to_deps.entry(name).or_default().push(dep);
3691 }
3692 let Forks {
3693 mut forks,
3694 diverging_packages,
3695 } = Forks::new(name_to_deps, env, python_requirement, conflicts);
3696 if forks.is_empty() {
3697 ForkedDependencies::Unforked(vec![])
3698 } else if forks.len() == 1 {
3699 ForkedDependencies::Unforked(forks.pop().unwrap().dependencies)
3700 } else {
3701 ForkedDependencies::Forked {
3702 forks,
3703 diverging_packages: diverging_packages.into_iter().collect(),
3704 }
3705 }
3706 }
3707}
3708
3709#[derive(Debug)]
3716enum ForkedDependencies {
3717 Unavailable(UnavailableVersion),
3719 Unforked(Vec<PubGrubDependency>),
3723 Forked {
3729 forks: Vec<Fork>,
3730 diverging_packages: Vec<PackageName>,
3732 },
3733}
3734
3735#[derive(Debug, Default)]
3740struct Forks {
3741 forks: Vec<Fork>,
3743 diverging_packages: BTreeSet<PackageName>,
3745}
3746
3747impl Forks {
3748 fn new(
3749 name_to_deps: BTreeMap<PackageName, Vec<PubGrubDependency>>,
3750 env: &ResolverEnvironment,
3751 python_requirement: &PythonRequirement,
3752 conflicts: &Conflicts,
3753 ) -> Self {
3754 let python_marker = python_requirement.to_marker_tree();
3755
3756 let mut forks = vec![Fork::new(env.clone())];
3757 let mut diverging_packages = BTreeSet::new();
3758 for (name, mut deps) in name_to_deps {
3759 assert!(!deps.is_empty(), "every name has at least one dependency");
3760 if let [dep] = deps.as_slice() {
3771 if marker::requires_python(dep.package.marker())
3779 .is_none_or(|bound| !python_requirement.raises(&bound))
3780 {
3781 let dep = deps.pop().unwrap();
3782 let marker = dep.package.marker();
3783 for fork in &mut forks {
3784 if fork.env.included_by_marker(marker) {
3785 fork.add_dependency(dep.clone());
3786 }
3787 }
3788 continue;
3789 }
3790 } else {
3791 if let Some(dep) = deps.first() {
3793 let marker = dep.package.marker();
3794 if deps.iter().all(|dep| marker == dep.package.marker()) {
3795 if marker::requires_python(marker)
3799 .is_none_or(|bound| !python_requirement.raises(&bound))
3800 {
3801 for dep in deps {
3802 for fork in &mut forks {
3803 if fork.env.included_by_marker(marker) {
3804 fork.add_dependency(dep.clone());
3805 }
3806 }
3807 }
3808 continue;
3809 }
3810 }
3811 }
3812 }
3813 for dep in deps {
3814 let mut forker = match ForkingPossibility::new(env, &dep) {
3815 ForkingPossibility::Possible(forker) => forker,
3816 ForkingPossibility::DependencyAlwaysExcluded => {
3817 continue;
3820 }
3821 ForkingPossibility::NoForkingPossible => {
3822 for fork in &mut forks {
3825 fork.add_dependency(dep.clone());
3826 }
3827 continue;
3828 }
3829 };
3830 diverging_packages.insert(name.clone());
3832
3833 let mut new = vec![];
3834 for fork in std::mem::take(&mut forks) {
3835 let Some((remaining_forker, envs)) = forker.fork(&fork.env) else {
3836 new.push(fork);
3837 continue;
3838 };
3839 forker = remaining_forker;
3840
3841 for fork_env in envs {
3842 let mut new_fork = fork.clone();
3843 new_fork.set_env(fork_env);
3844 if forker.included(&new_fork.env) {
3849 new_fork.add_dependency(dep.clone());
3850 }
3851 if new_fork.env.included_by_marker(python_marker) {
3854 new.push(new_fork);
3855 }
3856 }
3857 }
3858 forks = new;
3859 }
3860 }
3861 for set in conflicts.iter() {
3876 let mut new = vec![];
3877 for fork in std::mem::take(&mut forks) {
3878 let mut has_conflicting_dependency = false;
3886 for item in set.iter() {
3887 if fork.contains_conflicting_item(item.as_ref()) {
3888 has_conflicting_dependency = true;
3889 diverging_packages.insert(item.package().clone());
3890 break;
3891 }
3892 }
3893 if !has_conflicting_dependency {
3894 new.push(fork);
3895 continue;
3896 }
3897
3898 let non_excluded: Vec<_> = set
3904 .iter()
3905 .filter(|item| fork.env.included_by_group(item.as_ref()))
3906 .collect();
3907 if non_excluded.len() < 2 {
3908 let dominated = non_excluded.iter().all(|item| {
3913 !conflicts.iter().any(|other_set| {
3914 !std::ptr::eq(set, other_set)
3915 && other_set.contains(item.package(), item.kind().as_ref())
3916 && other_set
3917 .iter()
3918 .filter(|other_item| {
3919 other_item.package() != item.package()
3920 || other_item.kind() != item.kind()
3921 })
3922 .any(|other_item| {
3923 fork.env.included_by_group(other_item.as_ref())
3924 })
3925 })
3926 });
3927 if dominated {
3928 let rules: Vec<_> = set
3933 .iter()
3934 .filter(|item| !fork.env.included_by_group(item.as_ref()))
3935 .cloned()
3936 .map(Err)
3937 .collect();
3938 if let Some(filtered) = fork.filter(rules) {
3939 new.push(filtered);
3940 }
3941 continue;
3942 }
3943 }
3944
3945 if let Some(fork_none) = fork.clone().filter(set.iter().cloned().map(Err)) {
3947 new.push(fork_none);
3948 }
3949
3950 for (i, _) in set.iter().enumerate() {
3958 let fork_allows_group = fork.clone().filter(
3959 set.iter()
3960 .cloned()
3961 .enumerate()
3962 .map(|(j, group)| if i == j { Ok(group) } else { Err(group) }),
3963 );
3964 if let Some(fork_allows_group) = fork_allows_group {
3965 new.push(fork_allows_group);
3966 }
3967 }
3968 }
3969 forks = new;
3970 }
3971 Self {
3972 forks,
3973 diverging_packages,
3974 }
3975 }
3976}
3977
3978#[derive(Clone, Debug)]
3988struct Fork {
3989 dependencies: Vec<PubGrubDependency>,
3998 conflicts: crate::FxHashbrownSet<ConflictItem>,
4004 env: ResolverEnvironment,
4016}
4017
4018impl Fork {
4019 fn new(env: ResolverEnvironment) -> Self {
4022 Self {
4023 dependencies: vec![],
4024 conflicts: crate::FxHashbrownSet::default(),
4025 env,
4026 }
4027 }
4028
4029 fn add_dependency(&mut self, dep: PubGrubDependency) {
4031 if let Some(conflicting_item) = dep.conflicting_item() {
4032 self.conflicts.insert(conflicting_item.to_owned());
4033 }
4034 self.dependencies.push(dep);
4035 }
4036
4037 fn set_env(&mut self, env: ResolverEnvironment) {
4042 self.env = env;
4043 self.dependencies.retain(|dep| {
4044 let marker = dep.package.marker();
4045 if self.env.included_by_marker(marker) {
4046 return true;
4047 }
4048 if let Some(conflicting_item) = dep.conflicting_item() {
4049 self.conflicts.remove(&conflicting_item);
4050 }
4051 false
4052 });
4053 }
4054
4055 fn contains_conflicting_item(&self, item: ConflictItemRef<'_>) -> bool {
4058 self.conflicts.contains(&item)
4059 }
4060
4061 fn filter(
4068 mut self,
4069 rules: impl IntoIterator<Item = Result<ConflictItem, ConflictItem>>,
4070 ) -> Option<Self> {
4071 self.env = self.env.filter_by_group(rules)?;
4072 self.dependencies.retain(|dep| {
4073 let Some(conflicting_item) = dep.conflicting_item() else {
4074 return true;
4075 };
4076 if self.env.included_by_group(conflicting_item) {
4077 return true;
4078 }
4079 match conflicting_item.kind() {
4080 ConflictKindRef::Project => {
4083 if dep.parent.is_some() {
4084 return true;
4085 }
4086 }
4087 ConflictKindRef::Group(_) => {}
4088 ConflictKindRef::Extra(_) => {}
4089 }
4090 self.conflicts.remove(&conflicting_item);
4091 false
4092 });
4093 Some(self)
4094 }
4095
4096 fn cmp_requires_python(&self, other: &Self) -> Ordering {
4098 let self_bound = self.env.requires_python().unwrap_or_default();
4108 let other_bound = other.env.requires_python().unwrap_or_default();
4109 self_bound.lower().cmp(other_bound.lower())
4110 }
4111
4112 fn cmp_upper_bounds(&self, other: &Self) -> Ordering {
4114 let self_upper_bounds = self
4119 .dependencies
4120 .iter()
4121 .filter(|dep| {
4122 dep.version
4123 .bounding_range()
4124 .is_some_and(|(_, upper)| !matches!(upper, Bound::Unbounded))
4125 })
4126 .count();
4127 let other_upper_bounds = other
4128 .dependencies
4129 .iter()
4130 .filter(|dep| {
4131 dep.version
4132 .bounding_range()
4133 .is_some_and(|(_, upper)| !matches!(upper, Bound::Unbounded))
4134 })
4135 .count();
4136
4137 self_upper_bounds.cmp(&other_upper_bounds)
4138 }
4139}
4140
4141impl Eq for Fork {}
4142
4143impl PartialEq for Fork {
4144 fn eq(&self, other: &Self) -> bool {
4145 self.dependencies == other.dependencies && self.env == other.env
4146 }
4147}
4148
4149#[derive(Debug, Clone)]
4150pub(crate) struct VersionFork {
4151 env: ResolverEnvironment,
4153 id: Id<PubGrubPackage>,
4155 version: Option<Version>,
4157}
4158
4159fn enrich_dependency_error(
4161 error: ResolveError,
4162 id: Id<PubGrubPackage>,
4163 version: &Version,
4164 pubgrub: &State<UvDependencyProvider>,
4165) -> ResolveError {
4166 let Some(name) = pubgrub.package_store[id].name_no_root() else {
4167 return error;
4168 };
4169 let chain = DerivationChainBuilder::from_state(id, version, pubgrub).unwrap_or_default();
4170 ResolveError::Dependencies(Box::new(error), name.clone(), version.clone(), chain)
4171}
4172
4173fn find_environments(id: Id<PubGrubPackage>, state: &State<UvDependencyProvider>) -> MarkerTree {
4175 let package = &state.package_store[id];
4176 if package.is_root() {
4177 return MarkerTree::TRUE;
4178 }
4179
4180 let mut ancestors = FxHashSet::default();
4183 let mut stack = vec![id];
4184 let mut root = None;
4185 ancestors.insert(id);
4186
4187 while let Some(current) = stack.pop() {
4188 let Some(incompatibilities) = state.incompatibilities.get(¤t) else {
4189 continue;
4190 };
4191
4192 for index in incompatibilities {
4193 let incompat = &state.incompatibility_store[*index];
4194 if let Kind::FromDependencyOf(parent, _, child, _) = &incompat.kind {
4195 if current != *child {
4196 continue;
4197 }
4198 if ancestors.insert(*parent) {
4199 if state.package_store[*parent].is_root() {
4200 root = Some(*parent);
4201 }
4202 stack.push(*parent);
4203 }
4204 }
4205 }
4206 }
4207
4208 let Some(root) = root else {
4209 return MarkerTree::FALSE;
4210 };
4211
4212 let mut environments = FxHashMap::default();
4215 let mut queue = VecDeque::from([root]);
4216 environments.insert(root, MarkerTree::TRUE);
4217
4218 while let Some(current) = queue.pop_front() {
4219 let Some(current_environment) = environments.get(¤t).copied() else {
4220 continue;
4221 };
4222 let Some(incompatibilities) = state.incompatibilities.get(¤t) else {
4223 continue;
4224 };
4225
4226 for index in incompatibilities {
4227 let incompat = &state.incompatibility_store[*index];
4228 let Kind::FromDependencyOf(parent, _, child, _) = &incompat.kind else {
4229 continue;
4230 };
4231 if current != *parent || !ancestors.contains(child) {
4232 continue;
4233 }
4234
4235 let mut next_environment = state.package_store[*child].marker();
4236 next_environment.and(current_environment);
4237
4238 let entry = environments.entry(*child).or_insert(MarkerTree::FALSE);
4239 let mut combined = *entry;
4240 combined.or(next_environment);
4241 if combined != *entry {
4242 *entry = combined;
4243 queue.push_back(*child);
4244 }
4245 }
4246 }
4247
4248 environments.remove(&id).unwrap_or(MarkerTree::FALSE)
4249}
4250
4251#[derive(Debug, Default, Clone)]
4252struct ConflictTracker {
4253 affected: FxHashMap<Id<PubGrubPackage>, usize>,
4255 prioritize: Vec<Id<PubGrubPackage>>,
4259 culprit: FxHashMap<Id<PubGrubPackage>, usize>,
4261 deprioritize: Vec<Id<PubGrubPackage>>,
4265}