rust-clippy/src/lifetimes.rs

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use syntax::ast::*;
use rustc::lint::*;
use syntax::codemap::Span;
use syntax::visit::{Visitor, walk_ty};
use std::collections::HashSet;
use utils::{in_external_macro, span_lint};
declare_lint!(pub NEEDLESS_LIFETIMES, Warn,
"using explicit lifetimes for references in function arguments when elision rules \
would allow omitting them");
#[derive(Copy,Clone)]
pub struct LifetimePass;
impl LintPass for LifetimePass {
fn get_lints(&self) -> LintArray {
lint_array!(NEEDLESS_LIFETIMES)
}
fn check_item(&mut self, cx: &Context, item: &Item) {
if let ItemFn(ref decl, _, _, _, ref generics, _) = item.node {
check_fn_inner(cx, decl, None, &generics.lifetimes, item.span);
}
}
fn check_impl_item(&mut self, cx: &Context, item: &ImplItem) {
if let MethodImplItem(ref sig, _) = item.node {
check_fn_inner(cx, &sig.decl, Some(&sig.explicit_self),
&sig.generics.lifetimes, item.span);
}
}
fn check_trait_item(&mut self, cx: &Context, item: &TraitItem) {
if let MethodTraitItem(ref sig, _) = item.node {
check_fn_inner(cx, &sig.decl, Some(&sig.explicit_self),
&sig.generics.lifetimes, item.span);
}
}
}
/// The lifetime of a &-reference.
#[derive(PartialEq, Eq, Hash, Debug)]
enum RefLt {
Unnamed,
Static,
Named(Name),
}
use self::RefLt::*;
fn check_fn_inner(cx: &Context, decl: &FnDecl, slf: Option<&ExplicitSelf>,
named_lts: &[LifetimeDef], span: Span) {
if in_external_macro(cx, span) {
return;
}
if could_use_elision(decl, slf, named_lts) {
span_lint(cx, NEEDLESS_LIFETIMES, span,
"explicit lifetimes given in parameter types where they could be elided");
}
}
fn could_use_elision(func: &FnDecl, slf: Option<&ExplicitSelf>,
named_lts: &[LifetimeDef]) -> bool {
// There are two scenarios where elision works:
// * no output references, all input references have different LT
// * output references, exactly one input reference with same LT
// All lifetimes must be unnamed, 'static or defined without bounds on the
// level of the current item.
// check named LTs
let mut allowed_lts = HashSet::new();
for lt in named_lts {
if lt.bounds.is_empty() {
allowed_lts.insert(Named(lt.lifetime.name));
}
}
allowed_lts.insert(Unnamed);
allowed_lts.insert(Static);
// these will collect all the lifetimes for references in arg/return types
let mut input_visitor = RefVisitor(Vec::new());
let mut output_visitor = RefVisitor(Vec::new());
// extract lifetime in "self" argument for methods (there is a "self" argument
// in func.inputs, but its type is TyInfer)
if let Some(slf) = slf {
match slf.node {
SelfRegion(ref opt_lt, _, _) => input_visitor.record(opt_lt),
SelfExplicit(ref ty, _) => walk_ty(&mut input_visitor, ty),
_ => { }
}
}
// extract lifetimes in input argument types
for arg in &func.inputs {
walk_ty(&mut input_visitor, &arg.ty);
}
// extract lifetimes in output type
if let Return(ref ty) = func.output {
walk_ty(&mut output_visitor, ty);
}
let input_lts = input_visitor.into_vec();
let output_lts = output_visitor.into_vec();
// check for lifetimes from higher scopes
for lt in input_lts.iter().chain(output_lts.iter()) {
if !allowed_lts.contains(lt) {
return false;
}
}
// no input lifetimes? easy case!
if input_lts.is_empty() {
return false;
} else if output_lts.is_empty() {
// no output lifetimes, check distinctness of input lifetimes
// only unnamed and static, ok
if input_lts.iter().all(|lt| *lt == Unnamed || *lt == Static) {
return false;
}
// we have no output reference, so we only need all distinct lifetimes
if input_lts.len() == unique_lifetimes(&input_lts) {
return true;
}
} else {
// we have output references, so we need one input reference,
// and all output lifetimes must be the same
if unique_lifetimes(&output_lts) > 1 {
return false;
}
if input_lts.len() == 1 {
match (&input_lts[0], &output_lts[0]) {
(&Named(n1), &Named(n2)) if n1 == n2 => { return true; }
(&Named(_), &Unnamed) => { return true; }
(&Unnamed, &Named(_)) => { return true; }
_ => { } // already elided, different named lifetimes
// or something static going on
}
}
}
false
}
/// Number of unique lifetimes in the given vector.
2015-08-13 14:28:11 +00:00
fn unique_lifetimes(lts: &[RefLt]) -> usize {
lts.iter().collect::<HashSet<_>>().len()
}
/// A visitor usable for syntax::visit::walk_ty().
struct RefVisitor(Vec<RefLt>);
impl RefVisitor {
fn record(&mut self, lifetime: &Option<Lifetime>) {
if let &Some(ref lt) = lifetime {
if lt.name == "'static" {
self.0.push(Static);
} else {
self.0.push(Named(lt.name));
}
} else {
self.0.push(Unnamed);
}
}
fn into_vec(self) -> Vec<RefLt> {
self.0
}
}
impl<'v> Visitor<'v> for RefVisitor {
// for lifetimes of references
fn visit_opt_lifetime_ref(&mut self, _: Span, lifetime: &'v Option<Lifetime>) {
self.record(lifetime);
}
// for lifetimes as parameters of generics
fn visit_lifetime_ref(&mut self, lifetime: &'v Lifetime) {
self.record(&Some(*lifetime));
}
// for lifetime bounds; the default impl calls visit_lifetime_ref
fn visit_lifetime_bound(&mut self, _: &'v Lifetime) { }
}