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|
//
// Unused import checking
//
// Although this is mostly a lint pass, it lives in here because it depends on
// resolve data structures and because it finalises the privacy information for
// `use` items.
//
// Unused trait imports can't be checked until the method resolution. We save
// candidates here, and do the actual check in librustc_typeck/check_unused.rs.
//
// Checking for unused imports is split into three steps:
//
// - `UnusedImportCheckVisitor` walks the AST to find all the unused imports
// inside of `UseTree`s, recording their `NodeId`s and grouping them by
// the parent `use` item
//
// - `calc_unused_spans` then walks over all the `use` items marked in the
// previous step to collect the spans associated with the `NodeId`s and to
// calculate the spans that can be removed by rustfix; This is done in a
// separate step to be able to collapse the adjacent spans that rustfix
// will remove
//
// - `check_crate` finally emits the diagnostics based on the data generated
// in the last step
use crate::imports::ImportKind;
use crate::module_to_string;
use crate::Resolver;
use rustc_ast as ast;
use rustc_ast::node_id::NodeMap;
use rustc_ast::visit::{self, Visitor};
use rustc_data_structures::fx::FxHashSet;
use rustc_errors::{pluralize, MultiSpan};
use rustc_session::lint::builtin::{MACRO_USE_EXTERN_CRATE, UNUSED_IMPORTS};
use rustc_session::lint::BuiltinLintDiagnostics;
use rustc_span::{Span, DUMMY_SP};
struct UnusedImport<'a> {
use_tree: &'a ast::UseTree,
use_tree_id: ast::NodeId,
item_span: Span,
unused: FxHashSet<ast::NodeId>,
}
impl<'a> UnusedImport<'a> {
fn add(&mut self, id: ast::NodeId) {
self.unused.insert(id);
}
}
struct UnusedImportCheckVisitor<'a, 'b> {
r: &'a mut Resolver<'b>,
/// All the (so far) unused imports, grouped path list
unused_imports: NodeMap<UnusedImport<'a>>,
base_use_tree: Option<&'a ast::UseTree>,
base_id: ast::NodeId,
item_span: Span,
}
impl<'a, 'b> UnusedImportCheckVisitor<'a, 'b> {
// We have information about whether `use` (import) items are actually
// used now. If an import is not used at all, we signal a lint error.
fn check_import(&mut self, id: ast::NodeId) {
let used = self.r.used_imports.contains(&id);
let def_id = self.r.local_def_id(id);
if !used {
if self.r.maybe_unused_trait_imports.contains(&def_id) {
// Check later.
return;
}
self.unused_import(self.base_id).add(id);
} else {
// This trait import is definitely used, in a way other than
// method resolution.
self.r.maybe_unused_trait_imports.remove(&def_id);
if let Some(i) = self.unused_imports.get_mut(&self.base_id) {
i.unused.remove(&id);
}
}
}
fn unused_import(&mut self, id: ast::NodeId) -> &mut UnusedImport<'a> {
let use_tree_id = self.base_id;
let use_tree = self.base_use_tree.unwrap();
let item_span = self.item_span;
self.unused_imports.entry(id).or_insert_with(|| UnusedImport {
use_tree,
use_tree_id,
item_span,
unused: FxHashSet::default(),
})
}
}
impl<'a, 'b> Visitor<'a> for UnusedImportCheckVisitor<'a, 'b> {
fn visit_item(&mut self, item: &'a ast::Item) {
self.item_span = item.span_with_attributes();
// Ignore is_public import statements because there's no way to be sure
// whether they're used or not. Also ignore imports with a dummy span
// because this means that they were generated in some fashion by the
// compiler and we don't need to consider them.
if let ast::ItemKind::Use(..) = item.kind {
if item.vis.kind.is_pub() || item.span.is_dummy() {
return;
}
}
visit::walk_item(self, item);
}
fn visit_use_tree(&mut self, use_tree: &'a ast::UseTree, id: ast::NodeId, nested: bool) {
// Use the base UseTree's NodeId as the item id
// This allows the grouping of all the lints in the same item
if !nested {
self.base_id = id;
self.base_use_tree = Some(use_tree);
}
if let ast::UseTreeKind::Nested(ref items) = use_tree.kind {
if items.is_empty() {
self.unused_import(self.base_id).add(id);
}
} else {
self.check_import(id);
}
visit::walk_use_tree(self, use_tree, id);
}
}
enum UnusedSpanResult {
Used,
FlatUnused(Span, Span),
NestedFullUnused(Vec<Span>, Span),
NestedPartialUnused(Vec<Span>, Vec<Span>),
}
fn calc_unused_spans(
unused_import: &UnusedImport<'_>,
use_tree: &ast::UseTree,
use_tree_id: ast::NodeId,
) -> UnusedSpanResult {
// The full span is the whole item's span if this current tree is not nested inside another
// This tells rustfix to remove the whole item if all the imports are unused
let full_span = if unused_import.use_tree.span == use_tree.span {
unused_import.item_span
} else {
use_tree.span
};
match use_tree.kind {
ast::UseTreeKind::Simple(..) | ast::UseTreeKind::Glob => {
if unused_import.unused.contains(&use_tree_id) {
UnusedSpanResult::FlatUnused(use_tree.span, full_span)
} else {
UnusedSpanResult::Used
}
}
ast::UseTreeKind::Nested(ref nested) => {
if nested.is_empty() {
return UnusedSpanResult::FlatUnused(use_tree.span, full_span);
}
let mut unused_spans = Vec::new();
let mut to_remove = Vec::new();
let mut all_nested_unused = true;
let mut previous_unused = false;
for (pos, (use_tree, use_tree_id)) in nested.iter().enumerate() {
let remove = match calc_unused_spans(unused_import, use_tree, *use_tree_id) {
UnusedSpanResult::Used => {
all_nested_unused = false;
None
}
UnusedSpanResult::FlatUnused(span, remove) => {
unused_spans.push(span);
Some(remove)
}
UnusedSpanResult::NestedFullUnused(mut spans, remove) => {
unused_spans.append(&mut spans);
Some(remove)
}
UnusedSpanResult::NestedPartialUnused(mut spans, mut to_remove_extra) => {
all_nested_unused = false;
unused_spans.append(&mut spans);
to_remove.append(&mut to_remove_extra);
None
}
};
if let Some(remove) = remove {
let remove_span = if nested.len() == 1 {
remove
} else if pos == nested.len() - 1 || !all_nested_unused {
// Delete everything from the end of the last import, to delete the
// previous comma
nested[pos - 1].0.span.shrink_to_hi().to(use_tree.span)
} else {
// Delete everything until the next import, to delete the trailing commas
use_tree.span.to(nested[pos + 1].0.span.shrink_to_lo())
};
// Try to collapse adjacent spans into a single one. This prevents all cases of
// overlapping removals, which are not supported by rustfix
if previous_unused && !to_remove.is_empty() {
let previous = to_remove.pop().unwrap();
to_remove.push(previous.to(remove_span));
} else {
to_remove.push(remove_span);
}
}
previous_unused = remove.is_some();
}
if unused_spans.is_empty() {
UnusedSpanResult::Used
} else if all_nested_unused {
UnusedSpanResult::NestedFullUnused(unused_spans, full_span)
} else {
UnusedSpanResult::NestedPartialUnused(unused_spans, to_remove)
}
}
}
}
impl Resolver<'_> {
pub(crate) fn check_unused(&mut self, krate: &ast::Crate) {
for import in self.potentially_unused_imports.iter() {
match import.kind {
_ if import.used.get()
|| import.vis.get().is_public()
|| import.span.is_dummy() =>
{
if let ImportKind::MacroUse = import.kind {
if !import.span.is_dummy() {
self.lint_buffer.buffer_lint(
MACRO_USE_EXTERN_CRATE,
import.id,
import.span,
"deprecated `#[macro_use]` attribute used to \
import macros should be replaced at use sites \
with a `use` item to import the macro \
instead",
);
}
}
}
ImportKind::ExternCrate { .. } => {
let def_id = self.local_def_id(import.id);
self.maybe_unused_extern_crates.push((def_id, import.span));
}
ImportKind::MacroUse => {
let msg = "unused `#[macro_use]` import";
self.lint_buffer.buffer_lint(UNUSED_IMPORTS, import.id, import.span, msg);
}
_ => {}
}
}
let mut visitor = UnusedImportCheckVisitor {
r: self,
unused_imports: Default::default(),
base_use_tree: None,
base_id: ast::DUMMY_NODE_ID,
item_span: DUMMY_SP,
};
visit::walk_crate(&mut visitor, krate);
for unused in visitor.unused_imports.values() {
let mut fixes = Vec::new();
let mut spans = match calc_unused_spans(unused, unused.use_tree, unused.use_tree_id) {
UnusedSpanResult::Used => continue,
UnusedSpanResult::FlatUnused(span, remove) => {
fixes.push((remove, String::new()));
vec![span]
}
UnusedSpanResult::NestedFullUnused(spans, remove) => {
fixes.push((remove, String::new()));
spans
}
UnusedSpanResult::NestedPartialUnused(spans, remove) => {
for fix in &remove {
fixes.push((*fix, String::new()));
}
spans
}
};
let len = spans.len();
spans.sort();
let ms = MultiSpan::from_spans(spans.clone());
let mut span_snippets = spans
.iter()
.filter_map(|s| match visitor.r.session.source_map().span_to_snippet(*s) {
Ok(s) => Some(format!("`{}`", s)),
_ => None,
})
.collect::<Vec<String>>();
span_snippets.sort();
let msg = format!(
"unused import{}{}",
pluralize!(len),
if !span_snippets.is_empty() {
format!(": {}", span_snippets.join(", "))
} else {
String::new()
}
);
let fix_msg = if fixes.len() == 1 && fixes[0].0 == unused.item_span {
"remove the whole `use` item"
} else if spans.len() > 1 {
"remove the unused imports"
} else {
"remove the unused import"
};
// If we are in the `--test` mode, suppress a help that adds the `#[cfg(test)]`
// attribute; however, if not, suggest adding the attribute. There is no way to
// retrieve attributes here because we do not have a `TyCtxt` yet.
let test_module_span = if visitor.r.session.opts.test {
None
} else {
let parent_module = visitor.r.get_nearest_non_block_module(
visitor.r.local_def_id(unused.use_tree_id).to_def_id(),
);
match module_to_string(parent_module) {
Some(module)
if module == "test"
|| module == "tests"
|| module.starts_with("test_")
|| module.starts_with("tests_")
|| module.ends_with("_test")
|| module.ends_with("_tests") =>
{
Some(parent_module.span)
}
_ => None,
}
};
visitor.r.lint_buffer.buffer_lint_with_diagnostic(
UNUSED_IMPORTS,
unused.use_tree_id,
ms,
&msg,
BuiltinLintDiagnostics::UnusedImports(fix_msg.into(), fixes, test_module_span),
);
}
}
}
|
