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uv/crates/uv-resolver/src/error.rs
Tim de Jager eaf517efd8
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Add method to get packages involved in a NoSolutionError (#14457) 
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## Summary

<!-- What's the purpose of the change? What does it do, and why? -->

In pixi we overlay the PyPI packages over the conda packages and we
sometimes need to figure out what PyPI packages are involved in the
no-solution error. We could parse the error message, but this is pretty
error-prone, so it would be good to get access to more information. A
lot of information in this module is private and should probably stay
this way, but package names are easy enough to expose. This would help
us a lot!

I collect into a HashSet to remove duplication, and did not want to
expose a rustc_hash datastructure directly, thats's why I've chosen to
expose as an iterator :)

Let me know if any changes need to be done, and thanks!

---------

Co-authored-by: Zanie Blue <contact@zanie.dev>
2025-07-04 18:08:23 +00:00

1507 lines
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use std::collections::{BTreeMap, BTreeSet, Bound};
use std::fmt::Formatter;
use std::sync::Arc;
use indexmap::IndexSet;
use itertools::Itertools;
use owo_colors::OwoColorize;
use pubgrub::{
DefaultStringReporter, DerivationTree, Derived, External, Range, Ranges, Reporter, Term,
};
use rustc_hash::FxHashMap;
use tracing::trace;
use uv_distribution_types::{
DerivationChain, DistErrorKind, IndexCapabilities, IndexLocations, IndexUrl, RequestedDist,
};
use uv_normalize::{ExtraName, InvalidNameError, PackageName};
use uv_pep440::{LocalVersionSlice, LowerBound, Version, VersionSpecifier};
use uv_pep508::{MarkerEnvironment, MarkerExpression, MarkerTree, MarkerValueVersion};
use uv_platform_tags::Tags;
use uv_pypi_types::ParsedUrl;
use uv_redacted::DisplaySafeUrl;
use uv_static::EnvVars;
use crate::candidate_selector::CandidateSelector;
use crate::dependency_provider::UvDependencyProvider;
use crate::fork_indexes::ForkIndexes;
use crate::fork_urls::ForkUrls;
use crate::prerelease::AllowPrerelease;
use crate::pubgrub::{PubGrubPackage, PubGrubPackageInner, PubGrubReportFormatter};
use crate::python_requirement::PythonRequirement;
use crate::resolution::ConflictingDistributionError;
use crate::resolver::{
MetadataUnavailable, ResolverEnvironment, UnavailablePackage, UnavailableReason,
};
use crate::{InMemoryIndex, Options};
#[derive(Debug, thiserror::Error)]
pub enum ResolveError {
#[error(transparent)]
Client(#[from] uv_client::Error),
#[error(transparent)]
Distribution(#[from] uv_distribution::Error),
#[error("The channel closed unexpectedly")]
ChannelClosed,
#[error(transparent)]
Join(#[from] tokio::task::JoinError),
#[error("Attempted to wait on an unregistered task: `{_0}`")]
UnregisteredTask(String),
#[error(
"Requirements contain conflicting URLs for package `{package_name}`{}:\n- {}",
if env.marker_environment().is_some() {
String::new()
} else {
format!(" in {env}")
},
urls.iter()
.map(|url| format!("{}{}", DisplaySafeUrl::from(url.clone()), if url.is_editable() { " (editable)" } else { "" }))
.collect::<Vec<_>>()
.join("\n- ")
)]
ConflictingUrls {
package_name: PackageName,
urls: Vec<ParsedUrl>,
env: ResolverEnvironment,
},
#[error(
"Requirements contain conflicting indexes for package `{package_name}`{}:\n- {}",
if env.marker_environment().is_some() {
String::new()
} else {
format!(" in {env}")
},
indexes.iter()
.map(std::string::ToString::to_string)
.collect::<Vec<_>>()
.join("\n- ")
)]
ConflictingIndexesForEnvironment {
package_name: PackageName,
indexes: Vec<IndexUrl>,
env: ResolverEnvironment,
},
#[error("Requirements contain conflicting indexes for package `{0}`: `{1}` vs. `{2}`")]
ConflictingIndexes(PackageName, String, String),
#[error(
"Package `{0}` attempted to resolve via URL: {1}. URL dependencies must be expressed as direct requirements or constraints. Consider adding `{0} @ {1}` to your dependencies or constraints file."
)]
DisallowedUrl(PackageName, String),
#[error(transparent)]
DistributionType(#[from] uv_distribution_types::Error),
#[error(transparent)]
ParsedUrl(#[from] uv_pypi_types::ParsedUrlError),
#[error("{0} `{1}`")]
Dist(
DistErrorKind,
Box<RequestedDist>,
DerivationChain,
#[source] Arc<uv_distribution::Error>,
),
#[error(transparent)]
NoSolution(#[from] Box<NoSolutionError>),
#[error("Attempted to construct an invalid version specifier")]
InvalidVersion(#[from] uv_pep440::VersionSpecifierBuildError),
#[error(
"In `--require-hashes` mode, all requirements must be pinned upfront with `==`, but found: `{0}`"
)]
UnhashedPackage(PackageName),
#[error("found conflicting distribution in resolution: {0}")]
ConflictingDistribution(ConflictingDistributionError),
#[error("Package `{0}` is unavailable")]
PackageUnavailable(PackageName),
#[error("Invalid extra value in conflict marker: {reason}: {raw_extra}")]
InvalidExtraInConflictMarker {
reason: String,
raw_extra: ExtraName,
},
#[error("Invalid {kind} value in conflict marker: {name_error}")]
InvalidValueInConflictMarker {
kind: &'static str,
#[source]
name_error: InvalidNameError,
},
#[error(
"The index returned metadata for the wrong package: expected {request} for {expected}, got {request} for {actual}"
)]
MismatchedPackageName {
request: &'static str,
expected: PackageName,
actual: PackageName,
},
}
impl<T> From<tokio::sync::mpsc::error::SendError<T>> for ResolveError {
/// Drop the value we want to send to not leak the private type we're sending.
/// The tokio error only says "channel closed", so we don't lose information.
fn from(_value: tokio::sync::mpsc::error::SendError<T>) -> Self {
Self::ChannelClosed
}
}
pub type ErrorTree = DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>;
/// A wrapper around [`pubgrub::error::NoSolutionError`] that displays a resolution failure report.
pub struct NoSolutionError {
error: pubgrub::NoSolutionError<UvDependencyProvider>,
index: InMemoryIndex,
available_versions: FxHashMap<PackageName, BTreeSet<Version>>,
available_indexes: FxHashMap<PackageName, BTreeSet<IndexUrl>>,
selector: CandidateSelector,
python_requirement: PythonRequirement,
index_locations: IndexLocations,
index_capabilities: IndexCapabilities,
unavailable_packages: FxHashMap<PackageName, UnavailablePackage>,
incomplete_packages: FxHashMap<PackageName, BTreeMap<Version, MetadataUnavailable>>,
fork_urls: ForkUrls,
fork_indexes: ForkIndexes,
env: ResolverEnvironment,
current_environment: MarkerEnvironment,
tags: Option<Tags>,
workspace_members: BTreeSet<PackageName>,
options: Options,
}
impl NoSolutionError {
/// Create a new [`NoSolutionError`] from a [`pubgrub::NoSolutionError`].
pub(crate) fn new(
error: pubgrub::NoSolutionError<UvDependencyProvider>,
index: InMemoryIndex,
available_versions: FxHashMap<PackageName, BTreeSet<Version>>,
available_indexes: FxHashMap<PackageName, BTreeSet<IndexUrl>>,
selector: CandidateSelector,
python_requirement: PythonRequirement,
index_locations: IndexLocations,
index_capabilities: IndexCapabilities,
unavailable_packages: FxHashMap<PackageName, UnavailablePackage>,
incomplete_packages: FxHashMap<PackageName, BTreeMap<Version, MetadataUnavailable>>,
fork_urls: ForkUrls,
fork_indexes: ForkIndexes,
env: ResolverEnvironment,
current_environment: MarkerEnvironment,
tags: Option<Tags>,
workspace_members: BTreeSet<PackageName>,
options: Options,
) -> Self {
Self {
error,
index,
available_versions,
available_indexes,
selector,
python_requirement,
index_locations,
index_capabilities,
unavailable_packages,
incomplete_packages,
fork_urls,
fork_indexes,
env,
current_environment,
tags,
workspace_members,
options,
}
}
/// Given a [`DerivationTree`], collapse any [`External::FromDependencyOf`] incompatibilities
/// wrap an [`PubGrubPackageInner::Extra`] package.
pub(crate) fn collapse_proxies(derivation_tree: ErrorTree) -> ErrorTree {
fn collapse(derivation_tree: ErrorTree) -> Option<ErrorTree> {
match derivation_tree {
DerivationTree::Derived(derived) => {
match (&*derived.cause1, &*derived.cause2) {
(
DerivationTree::External(External::FromDependencyOf(package1, ..)),
DerivationTree::External(External::FromDependencyOf(package2, ..)),
) if package1.is_proxy() && package2.is_proxy() => None,
(
DerivationTree::External(External::FromDependencyOf(package, ..)),
cause,
) if package.is_proxy() => collapse(cause.clone()),
(
cause,
DerivationTree::External(External::FromDependencyOf(package, ..)),
) if package.is_proxy() => collapse(cause.clone()),
(cause1, cause2) => {
let cause1 = collapse(cause1.clone());
let cause2 = collapse(cause2.clone());
match (cause1, cause2) {
(Some(cause1), Some(cause2)) => {
Some(DerivationTree::Derived(Derived {
cause1: Arc::new(cause1),
cause2: Arc::new(cause2),
..derived
}))
}
(Some(cause), None) | (None, Some(cause)) => Some(cause),
_ => None,
}
}
}
}
DerivationTree::External(_) => Some(derivation_tree),
}
}
collapse(derivation_tree)
.expect("derivation tree should contain at least one external term")
}
/// Simplifies the version ranges on any incompatibilities to remove the `[max]` sentinel.
///
/// The `[max]` sentinel is used to represent the maximum local version of a package, to
/// implement PEP 440 semantics for local version equality. For example, `1.0.0+foo` needs to
/// satisfy `==1.0.0`.
pub(crate) fn collapse_local_version_segments(derivation_tree: ErrorTree) -> ErrorTree {
fn strip(derivation_tree: ErrorTree) -> Option<ErrorTree> {
match derivation_tree {
DerivationTree::External(External::NotRoot(_, _)) => Some(derivation_tree),
DerivationTree::External(External::NoVersions(package, versions)) => {
if SentinelRange::from(&versions).is_complement() {
return None;
}
let versions = SentinelRange::from(&versions).strip();
Some(DerivationTree::External(External::NoVersions(
package, versions,
)))
}
DerivationTree::External(External::FromDependencyOf(
package1,
versions1,
package2,
versions2,
)) => {
let versions1 = SentinelRange::from(&versions1).strip();
let versions2 = SentinelRange::from(&versions2).strip();
Some(DerivationTree::External(External::FromDependencyOf(
package1, versions1, package2, versions2,
)))
}
DerivationTree::External(External::Custom(package, versions, reason)) => {
let versions = SentinelRange::from(&versions).strip();
Some(DerivationTree::External(External::Custom(
package, versions, reason,
)))
}
DerivationTree::Derived(mut derived) => {
let cause1 = strip((*derived.cause1).clone());
let cause2 = strip((*derived.cause2).clone());
match (cause1, cause2) {
(Some(cause1), Some(cause2)) => Some(DerivationTree::Derived(Derived {
cause1: Arc::new(cause1),
cause2: Arc::new(cause2),
terms: std::mem::take(&mut derived.terms)
.into_iter()
.map(|(pkg, term)| {
let term = match term {
Term::Positive(versions) => {
Term::Positive(SentinelRange::from(&versions).strip())
}
Term::Negative(versions) => {
Term::Negative(SentinelRange::from(&versions).strip())
}
};
(pkg, term)
})
.collect(),
shared_id: derived.shared_id,
})),
(Some(cause), None) | (None, Some(cause)) => Some(cause),
_ => None,
}
}
}
}
strip(derivation_tree).expect("derivation tree should contain at least one term")
}
/// Given a [`DerivationTree`], identify the largest required Python version that is missing.
pub fn find_requires_python(&self) -> LowerBound {
fn find(derivation_tree: &ErrorTree, minimum: &mut LowerBound) {
match derivation_tree {
DerivationTree::Derived(derived) => {
find(derived.cause1.as_ref(), minimum);
find(derived.cause2.as_ref(), minimum);
}
DerivationTree::External(External::FromDependencyOf(.., package, version)) => {
if let PubGrubPackageInner::Python(_) = &**package {
if let Some((lower, ..)) = version.bounding_range() {
let lower = LowerBound::new(lower.cloned());
if lower > *minimum {
*minimum = lower;
}
}
}
}
DerivationTree::External(_) => {}
}
}
let mut minimum = LowerBound::default();
find(&self.error, &mut minimum);
minimum
}
/// Initialize a [`NoSolutionHeader`] for this error.
pub fn header(&self) -> NoSolutionHeader {
NoSolutionHeader::new(self.env.clone())
}
/// Get the conflict derivation tree for external analysis
pub fn derivation_tree(&self) -> &ErrorTree {
&self.error
}
/// Hint at limiting the resolver environment if universal resolution failed for a target
/// that is not the current platform or not the current Python version.
fn hint_disjoint_targets(&self, f: &mut Formatter) -> std::fmt::Result {
// Only applicable to universal resolution.
let Some(markers) = self.env.fork_markers() else {
return Ok(());
};
// TODO(konsti): This is a crude approximation to telling the user the difference
// between their Python version and the relevant Python version range from the marker.
let current_python_version = self.current_environment.python_version().version.clone();
let current_python_marker = MarkerTree::expression(MarkerExpression::Version {
key: MarkerValueVersion::PythonVersion,
specifier: VersionSpecifier::equals_version(current_python_version.clone()),
});
if markers.is_disjoint(current_python_marker) {
write!(
f,
"\n\n{}{} While the active Python version is {}, \
the resolution failed for other Python versions supported by your \
project. Consider limiting your project's supported Python versions \
using `requires-python`.",
"hint".bold().cyan(),
":".bold(),
current_python_version,
)?;
} else if !markers.evaluate(&self.current_environment, &[]) {
write!(
f,
"\n\n{}{} The resolution failed for an environment that is not the current one, \
consider limiting the environments with `tool.uv.environments`.",
"hint".bold().cyan(),
":".bold(),
)?;
}
Ok(())
}
/// Get the packages that are involved in this error.
pub fn packages(&self) -> impl Iterator<Item = &PackageName> {
self.error
.packages()
.into_iter()
.filter_map(|p| p.name())
.unique()
}
}
impl std::fmt::Debug for NoSolutionError {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
// Include every field except `index`, which doesn't implement `Debug`.
let Self {
error,
index: _,
available_versions,
available_indexes,
selector,
python_requirement,
index_locations,
index_capabilities,
unavailable_packages,
incomplete_packages,
fork_urls,
fork_indexes,
env,
current_environment,
tags,
workspace_members,
options,
} = self;
f.debug_struct("NoSolutionError")
.field("error", error)
.field("available_versions", available_versions)
.field("available_indexes", available_indexes)
.field("selector", selector)
.field("python_requirement", python_requirement)
.field("index_locations", index_locations)
.field("index_capabilities", index_capabilities)
.field("unavailable_packages", unavailable_packages)
.field("incomplete_packages", incomplete_packages)
.field("fork_urls", fork_urls)
.field("fork_indexes", fork_indexes)
.field("env", env)
.field("current_environment", current_environment)
.field("tags", tags)
.field("workspace_members", workspace_members)
.field("options", options)
.finish()
}
}
impl std::error::Error for NoSolutionError {}
impl std::fmt::Display for NoSolutionError {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
// Write the derivation report.
let formatter = PubGrubReportFormatter {
available_versions: &self.available_versions,
python_requirement: &self.python_requirement,
workspace_members: &self.workspace_members,
tags: self.tags.as_ref(),
};
// Transform the error tree for reporting
let mut tree = self.error.clone();
simplify_derivation_tree_markers(&self.python_requirement, &mut tree);
let should_display_tree = std::env::var_os(EnvVars::UV_INTERNAL__SHOW_DERIVATION_TREE)
.is_some()
|| tracing::enabled!(tracing::Level::TRACE);
if should_display_tree {
display_tree(&tree, "Resolver derivation tree before reduction");
}
collapse_no_versions_of_workspace_members(&mut tree, &self.workspace_members);
if self.workspace_members.len() == 1 {
let project = self.workspace_members.iter().next().unwrap();
drop_root_dependency_on_project(&mut tree, project);
}
collapse_unavailable_versions(&mut tree);
collapse_redundant_depends_on_no_versions(&mut tree);
simplify_derivation_tree_ranges(
&mut tree,
&self.available_versions,
&self.selector,
&self.env,
);
// This needs to be applied _after_ simplification of the ranges
collapse_redundant_no_versions(&mut tree);
while collapse_redundant_no_versions_tree(&mut tree) {
// Continue collapsing until no more redundant nodes are found
}
if should_display_tree {
display_tree(&tree, "Resolver derivation tree after reduction");
}
let report = DefaultStringReporter::report_with_formatter(&tree, &formatter);
write!(f, "{report}")?;
// Include any additional hints.
let mut additional_hints = IndexSet::default();
formatter.generate_hints(
&tree,
&self.index,
&self.selector,
&self.index_locations,
&self.index_capabilities,
&self.available_indexes,
&self.unavailable_packages,
&self.incomplete_packages,
&self.fork_urls,
&self.fork_indexes,
&self.env,
self.tags.as_ref(),
&self.workspace_members,
&self.options,
&mut additional_hints,
);
for hint in additional_hints {
write!(f, "\n\n{hint}")?;
}
self.hint_disjoint_targets(f)?;
Ok(())
}
}
#[allow(clippy::print_stderr)]
fn display_tree(
error: &DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
name: &str,
) {
let mut lines = Vec::new();
display_tree_inner(error, &mut lines, 0);
lines.reverse();
if std::env::var_os(EnvVars::UV_INTERNAL__SHOW_DERIVATION_TREE).is_some() {
eprintln!("{name}\n{}", lines.join("\n"));
} else {
trace!("{name}\n{}", lines.join("\n"));
}
}
fn display_tree_inner(
error: &DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
lines: &mut Vec<String>,
depth: usize,
) {
let prefix = " ".repeat(depth).to_string();
match error {
DerivationTree::Derived(derived) => {
display_tree_inner(&derived.cause1, lines, depth + 1);
display_tree_inner(&derived.cause2, lines, depth + 1);
for (package, term) in &derived.terms {
match term {
Term::Positive(versions) => {
lines.push(format!("{prefix}term {package}{versions}"));
}
Term::Negative(versions) => {
lines.push(format!("{prefix}term not {package}{versions}"));
}
}
}
}
DerivationTree::External(external) => match external {
External::FromDependencyOf(package, version, dependency, dependency_version) => {
lines.push(format!(
"{prefix}{package}{version} depends on {dependency}{dependency_version}"
));
}
External::Custom(package, versions, reason) => match reason {
UnavailableReason::Package(_) => {
lines.push(format!("{prefix}{package} {reason}"));
}
UnavailableReason::Version(_) => {
lines.push(format!("{prefix}{package}{versions} {reason}"));
}
},
External::NoVersions(package, versions) => {
lines.push(format!("{prefix}no versions of {package}{versions}"));
}
External::NotRoot(package, versions) => {
lines.push(format!("{prefix}not root {package}{versions}"));
}
},
}
}
fn collapse_redundant_no_versions(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
) {
match tree {
DerivationTree::External(_) => {}
DerivationTree::Derived(derived) => {
match (
Arc::make_mut(&mut derived.cause1),
Arc::make_mut(&mut derived.cause2),
) {
// If we have a node for a package with no versions...
(
DerivationTree::External(External::NoVersions(package, versions)),
ref mut other,
)
| (
ref mut other,
DerivationTree::External(External::NoVersions(package, versions)),
) => {
// First, always recursively visit the other side of the tree
collapse_redundant_no_versions(other);
// Retrieve the nearest terms, either alongside this node or from the parent.
let package_terms = if let DerivationTree::Derived(derived) = other {
derived.terms.get(package)
} else {
derived.terms.get(package)
};
let Some(Term::Positive(term)) = package_terms else {
return;
};
let versions = versions.complement();
// If we're disqualifying a single version, this is important to retain, e.g,
// for `only foo==1.0.0 is available`
if versions.as_singleton().is_some() {
return;
}
// If the range in the conclusion (terms) matches the range of no versions,
// then we'll drop this node. If the range is "all versions", then there's no
// also no need to enumerate the available versions.
if *term != Range::full() && *term != versions {
return;
}
*tree = other.clone();
}
// If not, just recurse
_ => {
collapse_redundant_no_versions(Arc::make_mut(&mut derived.cause1));
collapse_redundant_no_versions(Arc::make_mut(&mut derived.cause2));
}
}
}
}
}
/// Given a [`DerivationTree`], collapse any derived trees with two `NoVersions` nodes for the same
/// package. For example, if we have a tree like:
///
/// ```text
/// term Python>=3.7.9
/// no versions of Python>=3.7.9, <3.8
/// no versions of Python>=3.8
/// ```
///
/// We can simplify this to:
///
/// ```text
/// no versions of Python>=3.7.9
/// ```
///
/// This function returns a `bool` indicating if a change was made. This allows for repeated calls,
/// e.g., the following tree contains nested redundant trees:
///
/// ```text
/// term Python>=3.10
/// no versions of Python>=3.11, <3.12
/// term Python>=3.10, <3.11 | >=3.12
/// no versions of Python>=3.12
/// no versions of Python>=3.10, <3.11
/// ```
///
/// We can simplify this to:
///
/// ```text
/// no versions of Python>=3.10
/// ```
///
/// This appears to be common with the way the resolver currently models Python version
/// incompatibilities.
fn collapse_redundant_no_versions_tree(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
) -> bool {
match tree {
DerivationTree::External(_) => false,
DerivationTree::Derived(derived) => {
match (
Arc::make_mut(&mut derived.cause1),
Arc::make_mut(&mut derived.cause2),
) {
// If we have a tree with two `NoVersions` nodes for the same package...
(
DerivationTree::External(External::NoVersions(package, versions)),
DerivationTree::External(External::NoVersions(other_package, other_versions)),
) if package == other_package => {
// Retrieve the terms from the parent.
let Some(Term::Positive(term)) = derived.terms.get(package) else {
return false;
};
// If they're both subsets of the term, then drop this node in favor of the term
if versions.subset_of(term) && other_versions.subset_of(term) {
*tree = DerivationTree::External(External::NoVersions(
package.clone(),
term.clone(),
));
return true;
}
false
}
// If not, just recurse
_ => {
collapse_redundant_no_versions_tree(Arc::make_mut(&mut derived.cause1))
|| collapse_redundant_no_versions_tree(Arc::make_mut(&mut derived.cause2))
}
}
}
}
}
/// Given a [`DerivationTree`], collapse any `NoVersion` incompatibilities for workspace members
/// to avoid saying things like "only <workspace-member>==0.1.0 is available".
fn collapse_no_versions_of_workspace_members(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
workspace_members: &BTreeSet<PackageName>,
) {
match tree {
DerivationTree::External(_) => {}
DerivationTree::Derived(derived) => {
match (
Arc::make_mut(&mut derived.cause1),
Arc::make_mut(&mut derived.cause2),
) {
// If we have a node for a package with no versions...
(DerivationTree::External(External::NoVersions(package, _)), ref mut other)
| (ref mut other, DerivationTree::External(External::NoVersions(package, _))) => {
// First, always recursively visit the other side of the tree
collapse_no_versions_of_workspace_members(other, workspace_members);
// Then, if the package is a workspace member...
let (PubGrubPackageInner::Package { name, .. }
| PubGrubPackageInner::Extra { name, .. }
| PubGrubPackageInner::Dev { name, .. }) = &**package
else {
return;
};
if !workspace_members.contains(name) {
return;
}
// Replace this node with the other tree
*tree = other.clone();
}
// If not, just recurse
_ => {
collapse_no_versions_of_workspace_members(
Arc::make_mut(&mut derived.cause1),
workspace_members,
);
collapse_no_versions_of_workspace_members(
Arc::make_mut(&mut derived.cause2),
workspace_members,
);
}
}
}
}
}
/// Given a [`DerivationTree`], collapse `NoVersions` incompatibilities that are redundant children
/// of a dependency. For example, if we have a tree like:
///
/// ```text
/// A>=1,<2 depends on B
/// A has no versions >1,<2
/// C depends on A>=1,<2
/// ```
///
/// We can simplify this to `C depends A>=1 and A>=1 depends on B so C depends on B` without
/// explaining that there are no other versions of A. This is dependent on range of A in "A depends
/// on" being a subset of range of A in "depends on A". For example, in a tree like:
///
/// ```text
/// A>=1,<3 depends on B
/// A has no versions >2,<3
/// C depends on A>=2,<3
/// ```
///
/// We cannot say `C depends on A>=2 and A>=1 depends on B so C depends on B` because there is a
/// hole in the range — `A>=1,<3` is not a subset of `A>=2,<3`.
fn collapse_redundant_depends_on_no_versions(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
) {
match tree {
DerivationTree::External(_) => {}
DerivationTree::Derived(derived) => {
// If one node is a dependency incompatibility...
match (
Arc::make_mut(&mut derived.cause1),
Arc::make_mut(&mut derived.cause2),
) {
(
DerivationTree::External(External::FromDependencyOf(package, versions, _, _)),
ref mut other,
)
| (
ref mut other,
DerivationTree::External(External::FromDependencyOf(package, versions, _, _)),
) => {
// Check if the other node is the relevant form of subtree...
collapse_redundant_depends_on_no_versions_inner(other, package, versions);
}
// If not, just recurse
_ => {
collapse_redundant_depends_on_no_versions(Arc::make_mut(&mut derived.cause1));
collapse_redundant_depends_on_no_versions(Arc::make_mut(&mut derived.cause2));
}
}
}
}
}
/// Helper for [`collapse_redundant_depends_on_no_versions`].
fn collapse_redundant_depends_on_no_versions_inner(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
package: &PubGrubPackage,
versions: &Range<Version>,
) {
match tree {
DerivationTree::External(_) => {}
DerivationTree::Derived(derived) => {
// If we're a subtree with dependency and no versions incompatibilities...
match (&*derived.cause1, &*derived.cause2) {
(
DerivationTree::External(External::NoVersions(no_versions_package, _)),
dependency_clause @ DerivationTree::External(External::FromDependencyOf(
_,
_,
dependency_package,
dependency_versions,
)),
)
| (
dependency_clause @ DerivationTree::External(External::FromDependencyOf(
_,
_,
dependency_package,
dependency_versions,
)),
DerivationTree::External(External::NoVersions(no_versions_package, _)),
)
// And these incompatibilities (and the parent incompatibility) all are referring to
// the same package...
if no_versions_package == dependency_package
&& package == no_versions_package
// And parent dependency versions are a subset of the versions in this tree...
&& versions.subset_of(dependency_versions) =>
{
// Enumerating the available versions will be redundant and we can drop the no
// versions clause entirely in favor of the dependency clause.
*tree = dependency_clause.clone();
// Note we are at a leaf of the tree so there's no further recursion to do
}
// If not, just recurse
_ => {
collapse_redundant_depends_on_no_versions(Arc::make_mut(&mut derived.cause1));
collapse_redundant_depends_on_no_versions(Arc::make_mut(&mut derived.cause2));
}
}
}
}
}
/// Simplifies the markers on pubgrub packages in the given derivation tree
/// according to the given Python requirement.
///
/// For example, when there's a dependency like `foo ; python_version >=
/// '3.11'` and `requires-python = '>=3.11'`, this simplification will remove
/// the `python_version >= '3.11'` marker since it's implied to be true by
/// the `requires-python` setting. This simplifies error messages by reducing
/// noise.
fn simplify_derivation_tree_markers(
python_requirement: &PythonRequirement,
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
) {
match tree {
DerivationTree::External(External::NotRoot(pkg, _)) => {
pkg.simplify_markers(python_requirement);
}
DerivationTree::External(External::NoVersions(pkg, _)) => {
pkg.simplify_markers(python_requirement);
}
DerivationTree::External(External::FromDependencyOf(pkg1, _, pkg2, _)) => {
pkg1.simplify_markers(python_requirement);
pkg2.simplify_markers(python_requirement);
}
DerivationTree::External(External::Custom(pkg, _, _)) => {
pkg.simplify_markers(python_requirement);
}
DerivationTree::Derived(derived) => {
derived.terms = std::mem::take(&mut derived.terms)
.into_iter()
.map(|(mut pkg, term)| {
pkg.simplify_markers(python_requirement);
(pkg, term)
})
.collect();
simplify_derivation_tree_markers(
python_requirement,
Arc::make_mut(&mut derived.cause1),
);
simplify_derivation_tree_markers(
python_requirement,
Arc::make_mut(&mut derived.cause2),
);
}
}
}
/// Given a [`DerivationTree`], collapse incompatibilities for versions of a package that are
/// unavailable for the same reason to avoid repeating the same message for every unavailable
/// version.
fn collapse_unavailable_versions(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
) {
match tree {
DerivationTree::External(_) => {}
DerivationTree::Derived(derived) => {
match (
Arc::make_mut(&mut derived.cause1),
Arc::make_mut(&mut derived.cause2),
) {
// If we have a node for unavailable package versions
(
DerivationTree::External(External::Custom(package, versions, reason)),
ref mut other,
)
| (
ref mut other,
DerivationTree::External(External::Custom(package, versions, reason)),
) => {
// First, recursively collapse the other side of the tree
collapse_unavailable_versions(other);
// If it's not a derived tree, nothing to do.
let DerivationTree::Derived(Derived {
terms,
shared_id,
cause1,
cause2,
}) = other
else {
return;
};
// If the other tree has an unavailable package...
match (&**cause1, &**cause2) {
// Note the following cases are the same, but we need two matches to retain
// the ordering of the causes
(
_,
DerivationTree::External(External::Custom(
other_package,
other_versions,
other_reason,
)),
) => {
// And the package and reason are the same...
if package == other_package && reason == other_reason {
// Collapse both into a new node, with a union of their ranges
let versions = other_versions.union(versions);
let mut terms = terms.clone();
if let Some(Term::Positive(range)) = terms.get_mut(package) {
*range = versions.clone();
}
*tree = DerivationTree::Derived(Derived {
terms,
shared_id: *shared_id,
cause1: cause1.clone(),
cause2: Arc::new(DerivationTree::External(External::Custom(
package.clone(),
versions,
reason.clone(),
))),
});
}
}
(
DerivationTree::External(External::Custom(
other_package,
other_versions,
other_reason,
)),
_,
) => {
// And the package and reason are the same...
if package == other_package && reason == other_reason {
// Collapse both into a new node, with a union of their ranges
let versions = other_versions.union(versions);
let mut terms = terms.clone();
if let Some(Term::Positive(range)) = terms.get_mut(package) {
*range = versions.clone();
}
*tree = DerivationTree::Derived(Derived {
terms,
shared_id: *shared_id,
cause1: Arc::new(DerivationTree::External(External::Custom(
package.clone(),
versions,
reason.clone(),
))),
cause2: cause2.clone(),
});
}
}
_ => {}
}
}
// If not, just recurse
_ => {
collapse_unavailable_versions(Arc::make_mut(&mut derived.cause1));
collapse_unavailable_versions(Arc::make_mut(&mut derived.cause2));
}
}
}
}
}
/// Given a [`DerivationTree`], drop dependency incompatibilities from the root
/// to the project.
///
/// Intended to effectively change the root to a workspace member in single project
/// workspaces, avoiding a level of indirection like "And because your project
/// requires your project, we can conclude that your project's requirements are
/// unsatisfiable."
fn drop_root_dependency_on_project(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
project: &PackageName,
) {
match tree {
DerivationTree::External(_) => {}
DerivationTree::Derived(derived) => {
match (
Arc::make_mut(&mut derived.cause1),
Arc::make_mut(&mut derived.cause2),
) {
// If one node is a dependency incompatibility...
(
DerivationTree::External(External::FromDependencyOf(package, _, dependency, _)),
ref mut other,
)
| (
ref mut other,
DerivationTree::External(External::FromDependencyOf(package, _, dependency, _)),
) => {
// And the parent is the root package...
if !matches!(&**package, PubGrubPackageInner::Root(_)) {
return;
}
// And the dependency is the project...
let PubGrubPackageInner::Package { name, .. } = &**dependency else {
return;
};
if name != project {
return;
}
// Recursively collapse the other side of the tree
drop_root_dependency_on_project(other, project);
// Then, replace this node with the other tree
*tree = other.clone();
}
// If not, just recurse
_ => {
drop_root_dependency_on_project(Arc::make_mut(&mut derived.cause1), project);
drop_root_dependency_on_project(Arc::make_mut(&mut derived.cause2), project);
}
}
}
}
}
/// A version range that may include local version sentinels (`+[max]`).
#[derive(Debug)]
pub struct SentinelRange<'range>(&'range Range<Version>);
impl<'range> From<&'range Range<Version>> for SentinelRange<'range> {
fn from(range: &'range Range<Version>) -> Self {
Self(range)
}
}
impl SentinelRange<'_> {
/// Returns `true` if the range appears to be, e.g., `>=1.0.0, <1.0.0+[max]`.
pub fn is_sentinel(&self) -> bool {
self.0.iter().all(|(lower, upper)| {
let (Bound::Included(lower), Bound::Excluded(upper)) = (lower, upper) else {
return false;
};
if !lower.local().is_empty() {
return false;
}
if upper.local() != LocalVersionSlice::Max {
return false;
}
*lower == upper.clone().without_local()
})
}
/// Returns `true` if the range appears to be, e.g., `>1.0.0, <1.0.0+[max]` (i.e., a sentinel
/// range with the non-local version removed).
pub fn is_complement(&self) -> bool {
self.0.iter().all(|(lower, upper)| {
let (Bound::Excluded(lower), Bound::Excluded(upper)) = (lower, upper) else {
return false;
};
if !lower.local().is_empty() {
return false;
}
if upper.local() != LocalVersionSlice::Max {
return false;
}
*lower == upper.clone().without_local()
})
}
/// Remove local versions sentinels (`+[max]`) from the version ranges.
pub fn strip(&self) -> Ranges<Version> {
self.0
.iter()
.map(|(lower, upper)| Self::strip_sentinel(lower.clone(), upper.clone()))
.collect()
}
/// Remove local versions sentinels (`+[max]`) from the interval.
fn strip_sentinel(
mut lower: Bound<Version>,
mut upper: Bound<Version>,
) -> (Bound<Version>, Bound<Version>) {
match (&lower, &upper) {
(Bound::Unbounded, Bound::Unbounded) => {}
(Bound::Unbounded, Bound::Included(v)) => {
// `<=1.0.0+[max]` is equivalent to `<=1.0.0`
if v.local() == LocalVersionSlice::Max {
upper = Bound::Included(v.clone().without_local());
}
}
(Bound::Unbounded, Bound::Excluded(v)) => {
// `<1.0.0+[max]` is equivalent to `<1.0.0`
if v.local() == LocalVersionSlice::Max {
upper = Bound::Excluded(v.clone().without_local());
}
}
(Bound::Included(v), Bound::Unbounded) => {
// `>=1.0.0+[max]` is equivalent to `>1.0.0`
if v.local() == LocalVersionSlice::Max {
lower = Bound::Excluded(v.clone().without_local());
}
}
(Bound::Included(v), Bound::Included(b)) => {
// `>=1.0.0+[max]` is equivalent to `>1.0.0`
if v.local() == LocalVersionSlice::Max {
lower = Bound::Excluded(v.clone().without_local());
}
// `<=1.0.0+[max]` is equivalent to `<=1.0.0`
if b.local() == LocalVersionSlice::Max {
upper = Bound::Included(b.clone().without_local());
}
}
(Bound::Included(v), Bound::Excluded(b)) => {
// `>=1.0.0+[max]` is equivalent to `>1.0.0`
if v.local() == LocalVersionSlice::Max {
lower = Bound::Excluded(v.clone().without_local());
}
// `<1.0.0+[max]` is equivalent to `<1.0.0`
if b.local() == LocalVersionSlice::Max {
upper = Bound::Included(b.clone().without_local());
}
}
(Bound::Excluded(v), Bound::Unbounded) => {
// `>1.0.0+[max]` is equivalent to `>1.0.0`
if v.local() == LocalVersionSlice::Max {
lower = Bound::Excluded(v.clone().without_local());
}
}
(Bound::Excluded(v), Bound::Included(b)) => {
// `>1.0.0+[max]` is equivalent to `>1.0.0`
if v.local() == LocalVersionSlice::Max {
lower = Bound::Excluded(v.clone().without_local());
}
// `<=1.0.0+[max]` is equivalent to `<=1.0.0`
if b.local() == LocalVersionSlice::Max {
upper = Bound::Included(b.clone().without_local());
}
}
(Bound::Excluded(v), Bound::Excluded(b)) => {
// `>1.0.0+[max]` is equivalent to `>1.0.0`
if v.local() == LocalVersionSlice::Max {
lower = Bound::Excluded(v.clone().without_local());
}
// `<1.0.0+[max]` is equivalent to `<1.0.0`
if b.local() == LocalVersionSlice::Max {
upper = Bound::Excluded(b.clone().without_local());
}
}
}
(lower, upper)
}
}
/// A prefix match, e.g., `==2.4.*`, which is desugared to a range like `>=2.4.dev0,<2.5.dev0`.
#[derive(Debug, Clone, PartialEq, Eq)]
pub(crate) struct PrefixMatch<'a> {
version: &'a Version,
}
impl<'a> PrefixMatch<'a> {
/// Determine whether a given range is equivalent to a prefix match (e.g., `==2.4.*`).
///
/// Prefix matches are desugared to (e.g.) `>=2.4.dev0,<2.5.dev0`, but we want to render them
/// as `==2.4.*` in error messages.
pub(crate) fn from_range(lower: &'a Bound<Version>, upper: &'a Bound<Version>) -> Option<Self> {
let Bound::Included(lower) = lower else {
return None;
};
let Bound::Excluded(upper) = upper else {
return None;
};
if lower.is_pre() || lower.is_post() || lower.is_local() {
return None;
}
if upper.is_pre() || upper.is_post() || upper.is_local() {
return None;
}
if lower.dev() != Some(0) {
return None;
}
if upper.dev() != Some(0) {
return None;
}
if lower.release().len() != upper.release().len() {
return None;
}
// All segments should be the same, except the last one, which should be incremented.
let num_segments = lower.release().len();
for (i, (lower, upper)) in lower
.release()
.iter()
.zip(upper.release().iter())
.enumerate()
{
if i == num_segments - 1 {
if lower + 1 != *upper {
return None;
}
} else {
if lower != upper {
return None;
}
}
}
Some(PrefixMatch { version: lower })
}
}
impl std::fmt::Display for PrefixMatch<'_> {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
write!(f, "=={}.*", self.version.only_release())
}
}
#[derive(Debug)]
pub struct NoSolutionHeader {
/// The [`ResolverEnvironment`] that caused the failure.
env: ResolverEnvironment,
/// The additional context for the resolution failure.
context: Option<&'static str>,
}
impl NoSolutionHeader {
/// Create a new [`NoSolutionHeader`] with the given [`ResolverEnvironment`].
pub fn new(env: ResolverEnvironment) -> Self {
Self { env, context: None }
}
/// Set the context for the resolution failure.
#[must_use]
pub fn with_context(mut self, context: &'static str) -> Self {
self.context = Some(context);
self
}
}
impl std::fmt::Display for NoSolutionHeader {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
match (self.context, self.env.end_user_fork_display()) {
(None, None) => write!(f, "No solution found when resolving dependencies:"),
(Some(context), None) => write!(
f,
"No solution found when resolving {context} dependencies:"
),
(None, Some(split)) => write!(
f,
"No solution found when resolving dependencies for {split}:"
),
(Some(context), Some(split)) => write!(
f,
"No solution found when resolving {context} dependencies for {split}:"
),
}
}
}
/// Given a [`DerivationTree`], simplify version ranges using the available versions for each
/// package.
fn simplify_derivation_tree_ranges(
tree: &mut DerivationTree<PubGrubPackage, Range<Version>, UnavailableReason>,
available_versions: &FxHashMap<PackageName, BTreeSet<Version>>,
candidate_selector: &CandidateSelector,
resolver_environment: &ResolverEnvironment,
) {
match tree {
DerivationTree::External(external) => match external {
External::FromDependencyOf(package1, versions1, package2, versions2) => {
if let Some(simplified) = simplify_range(
versions1,
package1,
available_versions,
candidate_selector,
resolver_environment,
) {
*versions1 = simplified;
}
if let Some(simplified) = simplify_range(
versions2,
package2,
available_versions,
candidate_selector,
resolver_environment,
) {
*versions2 = simplified;
}
}
External::NoVersions(package, versions) => {
if let Some(simplified) = simplify_range(
versions,
package,
available_versions,
candidate_selector,
resolver_environment,
) {
*versions = simplified;
}
}
External::Custom(package, versions, _) => {
if let Some(simplified) = simplify_range(
versions,
package,
available_versions,
candidate_selector,
resolver_environment,
) {
*versions = simplified;
}
}
External::NotRoot(..) => (),
},
DerivationTree::Derived(derived) => {
// Recursively simplify both sides of the tree
simplify_derivation_tree_ranges(
Arc::make_mut(&mut derived.cause1),
available_versions,
candidate_selector,
resolver_environment,
);
simplify_derivation_tree_ranges(
Arc::make_mut(&mut derived.cause2),
available_versions,
candidate_selector,
resolver_environment,
);
// Simplify the terms
derived.terms = std::mem::take(&mut derived.terms)
.into_iter()
.map(|(pkg, term)| {
let term = match term {
Term::Positive(versions) => Term::Positive(
simplify_range(
&versions,
&pkg,
available_versions,
candidate_selector,
resolver_environment,
)
.unwrap_or(versions),
),
Term::Negative(versions) => Term::Negative(
simplify_range(
&versions,
&pkg,
available_versions,
candidate_selector,
resolver_environment,
)
.unwrap_or(versions),
),
};
(pkg, term)
})
.collect();
}
}
}
/// Helper function to simplify a version range using available versions for a package.
///
/// If the range cannot be simplified, `None` is returned.
fn simplify_range(
range: &Range<Version>,
package: &PubGrubPackage,
available_versions: &FxHashMap<PackageName, BTreeSet<Version>>,
candidate_selector: &CandidateSelector,
resolver_environment: &ResolverEnvironment,
) -> Option<Range<Version>> {
// If there's not a package name or available versions, we can't simplify anything
let name = package.name()?;
let versions = available_versions.get(name)?;
// If this is a full range, there's nothing to simplify
if range == &Range::full() {
return None;
}
// If there's only one version available and it's in the range, return just that version
if let Some(version) = versions.iter().next() {
if versions.len() == 1 && range.contains(version) {
return Some(Range::singleton(version.clone()));
}
}
// Check if pre-releases are allowed
let prereleases_not_allowed = candidate_selector
.prerelease_strategy()
.allows(name, resolver_environment)
!= AllowPrerelease::Yes;
let any_prerelease = range.iter().any(|(start, end)| {
let is_pre1 = match start {
Bound::Included(version) => version.any_prerelease(),
Bound::Excluded(version) => version.any_prerelease(),
Bound::Unbounded => false,
};
let is_pre2 = match end {
Bound::Included(version) => version.any_prerelease(),
Bound::Excluded(version) => version.any_prerelease(),
Bound::Unbounded => false,
};
is_pre1 || is_pre2
});
// Simplify the range, as implemented in PubGrub
Some(range.simplify(versions.iter().filter(|version| {
// If there are pre-releases in the range segments, we need to include pre-releases
if any_prerelease {
return true;
}
// If pre-releases are not allowed, filter out pre-releases
if prereleases_not_allowed && version.any_prerelease() {
return false;
}
// Otherwise, include the version
true
})))
}
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