mirror of
https://github.com/rust-lang/rust-clippy
synced 2024-12-29 22:43:41 +00:00
501 lines
17 KiB
Rust
501 lines
17 KiB
Rust
use matches::matches;
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use rustc::hir::def::{DefKind, Res};
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use rustc::hir::intravisit::*;
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use rustc::hir::*;
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use rustc::lint::{in_external_macro, LateContext, LateLintPass, LintArray, LintContext, LintPass};
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use rustc::{declare_lint_pass, declare_tool_lint};
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use rustc_data_structures::fx::{FxHashMap, FxHashSet};
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use syntax::source_map::Span;
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use syntax::symbol::kw;
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use crate::reexport::*;
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use crate::utils::{last_path_segment, span_lint, trait_ref_of_method};
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declare_clippy_lint! {
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/// **What it does:** Checks for lifetime annotations which can be removed by
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/// relying on lifetime elision.
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///
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/// **Why is this bad?** The additional lifetimes make the code look more
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/// complicated, while there is nothing out of the ordinary going on. Removing
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/// them leads to more readable code.
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///
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/// **Known problems:** Potential false negatives: we bail out if the function
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/// has a `where` clause where lifetimes are mentioned.
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///
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/// **Example:**
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/// ```rust
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/// fn in_and_out<'a>(x: &'a u8, y: u8) -> &'a u8 {
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/// x
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/// }
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/// ```
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pub NEEDLESS_LIFETIMES,
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complexity,
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"using explicit lifetimes for references in function arguments when elision rules \
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would allow omitting them"
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}
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declare_clippy_lint! {
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/// **What it does:** Checks for lifetimes in generics that are never used
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/// anywhere else.
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///
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/// **Why is this bad?** The additional lifetimes make the code look more
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/// complicated, while there is nothing out of the ordinary going on. Removing
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/// them leads to more readable code.
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///
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/// **Known problems:** None.
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///
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/// **Example:**
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/// ```rust
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/// fn unused_lifetime<'a>(x: u8) {
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/// // ..
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/// }
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/// ```
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pub EXTRA_UNUSED_LIFETIMES,
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complexity,
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"unused lifetimes in function definitions"
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}
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declare_lint_pass!(Lifetimes => [NEEDLESS_LIFETIMES, EXTRA_UNUSED_LIFETIMES]);
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impl<'a, 'tcx> LateLintPass<'a, 'tcx> for Lifetimes {
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fn check_item(&mut self, cx: &LateContext<'a, 'tcx>, item: &'tcx Item) {
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if let ItemKind::Fn(ref sig, ref generics, id) = item.kind {
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check_fn_inner(cx, &sig.decl, Some(id), generics, item.span, true);
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}
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}
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fn check_impl_item(&mut self, cx: &LateContext<'a, 'tcx>, item: &'tcx ImplItem) {
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if let ImplItemKind::Method(ref sig, id) = item.kind {
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let report_extra_lifetimes = trait_ref_of_method(cx, item.hir_id).is_none();
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check_fn_inner(
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cx,
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&sig.decl,
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Some(id),
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&item.generics,
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item.span,
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report_extra_lifetimes,
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);
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}
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}
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fn check_trait_item(&mut self, cx: &LateContext<'a, 'tcx>, item: &'tcx TraitItem) {
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if let TraitItemKind::Method(ref sig, ref body) = item.kind {
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let body = match *body {
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TraitMethod::Required(_) => None,
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TraitMethod::Provided(id) => Some(id),
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};
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check_fn_inner(cx, &sig.decl, body, &item.generics, item.span, true);
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}
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}
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}
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/// The lifetime of a &-reference.
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#[derive(PartialEq, Eq, Hash, Debug)]
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enum RefLt {
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Unnamed,
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Static,
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Named(Name),
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}
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fn check_fn_inner<'a, 'tcx>(
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cx: &LateContext<'a, 'tcx>,
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decl: &'tcx FnDecl,
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body: Option<BodyId>,
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generics: &'tcx Generics,
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span: Span,
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report_extra_lifetimes: bool,
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) {
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if in_external_macro(cx.sess(), span) || has_where_lifetimes(cx, &generics.where_clause) {
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return;
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}
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let mut bounds_lts = Vec::new();
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let types = generics.params.iter().filter(|param| match param.kind {
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GenericParamKind::Type { .. } => true,
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_ => false,
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});
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for typ in types {
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for bound in &typ.bounds {
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let mut visitor = RefVisitor::new(cx);
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walk_param_bound(&mut visitor, bound);
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if visitor.lts.iter().any(|lt| matches!(lt, RefLt::Named(_))) {
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return;
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}
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if let GenericBound::Trait(ref trait_ref, _) = *bound {
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let params = &trait_ref
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.trait_ref
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.path
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.segments
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.last()
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.expect("a path must have at least one segment")
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.args;
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if let Some(ref params) = *params {
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let lifetimes = params.args.iter().filter_map(|arg| match arg {
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GenericArg::Lifetime(lt) => Some(lt),
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_ => None,
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});
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for bound in lifetimes {
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if bound.name != LifetimeName::Static && !bound.is_elided() {
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return;
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}
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bounds_lts.push(bound);
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}
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}
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}
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}
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}
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if could_use_elision(cx, decl, body, &generics.params, bounds_lts) {
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span_lint(
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cx,
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NEEDLESS_LIFETIMES,
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span,
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"explicit lifetimes given in parameter types where they could be elided \
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(or replaced with `'_` if needed by type declaration)",
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);
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}
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if report_extra_lifetimes {
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self::report_extra_lifetimes(cx, decl, generics);
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}
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}
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fn could_use_elision<'a, 'tcx>(
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cx: &LateContext<'a, 'tcx>,
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func: &'tcx FnDecl,
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body: Option<BodyId>,
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named_generics: &'tcx [GenericParam],
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bounds_lts: Vec<&'tcx Lifetime>,
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) -> bool {
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// There are two scenarios where elision works:
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// * no output references, all input references have different LT
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// * output references, exactly one input reference with same LT
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// All lifetimes must be unnamed, 'static or defined without bounds on the
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// level of the current item.
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// check named LTs
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let allowed_lts = allowed_lts_from(named_generics);
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// these will collect all the lifetimes for references in arg/return types
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let mut input_visitor = RefVisitor::new(cx);
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let mut output_visitor = RefVisitor::new(cx);
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// extract lifetimes in input argument types
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for arg in &func.inputs {
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input_visitor.visit_ty(arg);
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}
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// extract lifetimes in output type
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if let Return(ref ty) = func.output {
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output_visitor.visit_ty(ty);
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}
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let input_lts = match input_visitor.into_vec() {
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Some(lts) => lts_from_bounds(lts, bounds_lts.into_iter()),
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None => return false,
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};
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let output_lts = match output_visitor.into_vec() {
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Some(val) => val,
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None => return false,
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};
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if let Some(body_id) = body {
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let mut checker = BodyLifetimeChecker {
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lifetimes_used_in_body: false,
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};
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checker.visit_expr(&cx.tcx.hir().body(body_id).value);
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if checker.lifetimes_used_in_body {
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return false;
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}
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}
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// check for lifetimes from higher scopes
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for lt in input_lts.iter().chain(output_lts.iter()) {
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if !allowed_lts.contains(lt) {
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return false;
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}
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}
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// no input lifetimes? easy case!
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if input_lts.is_empty() {
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false
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} else if output_lts.is_empty() {
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// no output lifetimes, check distinctness of input lifetimes
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// only unnamed and static, ok
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let unnamed_and_static = input_lts.iter().all(|lt| *lt == RefLt::Unnamed || *lt == RefLt::Static);
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if unnamed_and_static {
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return false;
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}
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// we have no output reference, so we only need all distinct lifetimes
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input_lts.len() == unique_lifetimes(&input_lts)
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} else {
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// we have output references, so we need one input reference,
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// and all output lifetimes must be the same
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if unique_lifetimes(&output_lts) > 1 {
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return false;
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}
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if input_lts.len() == 1 {
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match (&input_lts[0], &output_lts[0]) {
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(&RefLt::Named(n1), &RefLt::Named(n2)) if n1 == n2 => true,
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(&RefLt::Named(_), &RefLt::Unnamed) => true,
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_ => false, /* already elided, different named lifetimes
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* or something static going on */
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}
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} else {
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false
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}
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}
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}
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fn allowed_lts_from(named_generics: &[GenericParam]) -> FxHashSet<RefLt> {
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let mut allowed_lts = FxHashSet::default();
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for par in named_generics.iter() {
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if let GenericParamKind::Lifetime { .. } = par.kind {
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if par.bounds.is_empty() {
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allowed_lts.insert(RefLt::Named(par.name.ident().name));
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}
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}
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}
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allowed_lts.insert(RefLt::Unnamed);
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allowed_lts.insert(RefLt::Static);
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allowed_lts
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}
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fn lts_from_bounds<'a, T: Iterator<Item = &'a Lifetime>>(mut vec: Vec<RefLt>, bounds_lts: T) -> Vec<RefLt> {
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for lt in bounds_lts {
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if lt.name != LifetimeName::Static {
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vec.push(RefLt::Named(lt.name.ident().name));
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}
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}
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vec
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}
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/// Number of unique lifetimes in the given vector.
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#[must_use]
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fn unique_lifetimes(lts: &[RefLt]) -> usize {
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lts.iter().collect::<FxHashSet<_>>().len()
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}
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/// A visitor usable for `rustc_front::visit::walk_ty()`.
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struct RefVisitor<'a, 'tcx> {
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cx: &'a LateContext<'a, 'tcx>,
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lts: Vec<RefLt>,
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abort: bool,
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}
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impl<'v, 't> RefVisitor<'v, 't> {
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fn new(cx: &'v LateContext<'v, 't>) -> Self {
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Self {
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cx,
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lts: Vec::new(),
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abort: false,
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}
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}
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fn record(&mut self, lifetime: &Option<Lifetime>) {
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if let Some(ref lt) = *lifetime {
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if lt.name == LifetimeName::Static {
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self.lts.push(RefLt::Static);
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} else if let LifetimeName::Param(ParamName::Fresh(_)) = lt.name {
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// Fresh lifetimes generated should be ignored.
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} else if lt.is_elided() {
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self.lts.push(RefLt::Unnamed);
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} else {
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self.lts.push(RefLt::Named(lt.name.ident().name));
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}
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} else {
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self.lts.push(RefLt::Unnamed);
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}
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}
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fn into_vec(self) -> Option<Vec<RefLt>> {
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if self.abort {
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None
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} else {
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Some(self.lts)
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}
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}
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fn collect_anonymous_lifetimes(&mut self, qpath: &QPath, ty: &Ty) {
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if let Some(ref last_path_segment) = last_path_segment(qpath).args {
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if !last_path_segment.parenthesized
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&& !last_path_segment.args.iter().any(|arg| match arg {
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GenericArg::Lifetime(_) => true,
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_ => false,
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})
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{
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let hir_id = ty.hir_id;
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match self.cx.tables.qpath_res(qpath, hir_id) {
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Res::Def(DefKind::TyAlias, def_id) | Res::Def(DefKind::Struct, def_id) => {
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let generics = self.cx.tcx.generics_of(def_id);
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for _ in generics.params.as_slice() {
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self.record(&None);
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}
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},
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Res::Def(DefKind::Trait, def_id) => {
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let trait_def = self.cx.tcx.trait_def(def_id);
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for _ in &self.cx.tcx.generics_of(trait_def.def_id).params {
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self.record(&None);
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}
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},
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_ => (),
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}
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}
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}
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}
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}
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impl<'a, 'tcx> Visitor<'tcx> for RefVisitor<'a, 'tcx> {
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// for lifetimes as parameters of generics
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fn visit_lifetime(&mut self, lifetime: &'tcx Lifetime) {
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self.record(&Some(*lifetime));
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}
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fn visit_ty(&mut self, ty: &'tcx Ty) {
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match ty.kind {
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TyKind::Rptr(ref lt, _) if lt.is_elided() => {
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self.record(&None);
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},
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TyKind::Path(ref path) => {
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self.collect_anonymous_lifetimes(path, ty);
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},
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TyKind::Def(item, _) => {
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let map = self.cx.tcx.hir();
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if let ItemKind::OpaqueTy(ref exist_ty) = map.expect_item(item.id).kind {
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for bound in &exist_ty.bounds {
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if let GenericBound::Outlives(_) = *bound {
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self.record(&None);
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}
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}
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} else {
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unreachable!()
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}
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walk_ty(self, ty);
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},
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TyKind::TraitObject(ref bounds, ref lt) => {
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if !lt.is_elided() {
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self.abort = true;
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}
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for bound in bounds {
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self.visit_poly_trait_ref(bound, TraitBoundModifier::None);
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}
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return;
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},
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_ => (),
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}
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walk_ty(self, ty);
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}
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fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
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NestedVisitorMap::None
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}
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}
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/// Are any lifetimes mentioned in the `where` clause? If so, we don't try to
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/// reason about elision.
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fn has_where_lifetimes<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, where_clause: &'tcx WhereClause) -> bool {
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for predicate in &where_clause.predicates {
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match *predicate {
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WherePredicate::RegionPredicate(..) => return true,
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WherePredicate::BoundPredicate(ref pred) => {
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// a predicate like F: Trait or F: for<'a> Trait<'a>
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let mut visitor = RefVisitor::new(cx);
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// walk the type F, it may not contain LT refs
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walk_ty(&mut visitor, &pred.bounded_ty);
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if !visitor.lts.is_empty() {
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return true;
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}
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// if the bounds define new lifetimes, they are fine to occur
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let allowed_lts = allowed_lts_from(&pred.bound_generic_params);
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// now walk the bounds
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for bound in pred.bounds.iter() {
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walk_param_bound(&mut visitor, bound);
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}
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// and check that all lifetimes are allowed
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match visitor.into_vec() {
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None => return false,
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Some(lts) => {
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for lt in lts {
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if !allowed_lts.contains(<) {
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return true;
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}
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}
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},
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}
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},
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WherePredicate::EqPredicate(ref pred) => {
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let mut visitor = RefVisitor::new(cx);
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walk_ty(&mut visitor, &pred.lhs_ty);
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walk_ty(&mut visitor, &pred.rhs_ty);
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if !visitor.lts.is_empty() {
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return true;
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}
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},
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}
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}
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false
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}
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struct LifetimeChecker {
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map: FxHashMap<Name, Span>,
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}
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impl<'tcx> Visitor<'tcx> for LifetimeChecker {
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// for lifetimes as parameters of generics
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fn visit_lifetime(&mut self, lifetime: &'tcx Lifetime) {
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self.map.remove(&lifetime.name.ident().name);
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}
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fn visit_generic_param(&mut self, param: &'tcx GenericParam) {
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// don't actually visit `<'a>` or `<'a: 'b>`
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// we've already visited the `'a` declarations and
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// don't want to spuriously remove them
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// `'b` in `'a: 'b` is useless unless used elsewhere in
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// a non-lifetime bound
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if let GenericParamKind::Type { .. } = param.kind {
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walk_generic_param(self, param)
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}
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}
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fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
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NestedVisitorMap::None
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}
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}
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fn report_extra_lifetimes<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, func: &'tcx FnDecl, generics: &'tcx Generics) {
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let hs = generics
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.params
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.iter()
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.filter_map(|par| match par.kind {
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GenericParamKind::Lifetime { .. } => Some((par.name.ident().name, par.span)),
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_ => None,
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})
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.collect();
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let mut checker = LifetimeChecker { map: hs };
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walk_generics(&mut checker, generics);
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walk_fn_decl(&mut checker, func);
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for &v in checker.map.values() {
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span_lint(
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cx,
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EXTRA_UNUSED_LIFETIMES,
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v,
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"this lifetime isn't used in the function definition",
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);
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}
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}
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|
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struct BodyLifetimeChecker {
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lifetimes_used_in_body: bool,
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}
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impl<'tcx> Visitor<'tcx> for BodyLifetimeChecker {
|
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// for lifetimes as parameters of generics
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fn visit_lifetime(&mut self, lifetime: &'tcx Lifetime) {
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if lifetime.name.ident().name != kw::Invalid && lifetime.name.ident().name != kw::StaticLifetime {
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self.lifetimes_used_in_body = true;
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}
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}
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fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
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NestedVisitorMap::None
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}
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}
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