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stability.rs
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stability.rs
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// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! A pass that annotates every item and method with its stability level,
//! propagating default levels lexically from parent to children ast nodes.
pub use self::StabilityLevel::*;
use lint;
use hir::def::Def;
use hir::def_id::{CrateNum, CRATE_DEF_INDEX, DefId, LOCAL_CRATE};
use ty::{self, TyCtxt};
use middle::privacy::AccessLevels;
use syntax::symbol::Symbol;
use syntax_pos::{Span, DUMMY_SP};
use syntax::ast;
use syntax::ast::{NodeId, Attribute};
use syntax::feature_gate::{GateIssue, emit_feature_err, find_lang_feature_accepted_version};
use syntax::attr::{self, Stability, Deprecation};
use util::nodemap::{FxHashSet, FxHashMap};
use hir;
use hir::{Item, Generics, StructField, Variant, HirId};
use hir::intravisit::{self, Visitor, NestedVisitorMap};
use std::mem::replace;
use std::cmp::Ordering;
#[derive(RustcEncodable, RustcDecodable, PartialEq, PartialOrd, Clone, Copy, Debug, Eq, Hash)]
pub enum StabilityLevel {
Unstable,
Stable,
}
impl StabilityLevel {
pub fn from_attr_level(level: &attr::StabilityLevel) -> Self {
if level.is_stable() { Stable } else { Unstable }
}
}
#[derive(PartialEq)]
enum AnnotationKind {
// Annotation is required if not inherited from unstable parents
Required,
// Annotation is useless, reject it
Prohibited,
// Annotation itself is useless, but it can be propagated to children
Container,
}
/// An entry in the `depr_map`.
#[derive(Clone)]
pub struct DeprecationEntry {
/// The metadata of the attribute associated with this entry.
pub attr: Deprecation,
/// The def id where the attr was originally attached. `None` for non-local
/// `DefId`'s.
origin: Option<HirId>,
}
impl_stable_hash_for!(struct self::DeprecationEntry {
attr,
origin
});
impl DeprecationEntry {
fn local(attr: Deprecation, id: HirId) -> DeprecationEntry {
DeprecationEntry {
attr,
origin: Some(id),
}
}
pub fn external(attr: Deprecation) -> DeprecationEntry {
DeprecationEntry {
attr,
origin: None,
}
}
pub fn same_origin(&self, other: &DeprecationEntry) -> bool {
match (self.origin, other.origin) {
(Some(o1), Some(o2)) => o1 == o2,
_ => false
}
}
}
/// A stability index, giving the stability level for items and methods.
pub struct Index<'tcx> {
/// This is mostly a cache, except the stabilities of local items
/// are filled by the annotator.
stab_map: FxHashMap<HirId, &'tcx Stability>,
depr_map: FxHashMap<HirId, DeprecationEntry>,
/// Maps for each crate whether it is part of the staged API.
staged_api: FxHashMap<CrateNum, bool>,
/// Features enabled for this crate.
active_features: FxHashSet<Symbol>,
}
impl_stable_hash_for!(struct self::Index<'tcx> {
stab_map,
depr_map,
staged_api,
active_features
});
// A private tree-walker for producing an Index.
struct Annotator<'a, 'tcx: 'a> {
tcx: TyCtxt<'a, 'tcx, 'tcx>,
index: &'a mut Index<'tcx>,
parent_stab: Option<&'tcx Stability>,
parent_depr: Option<DeprecationEntry>,
in_trait_impl: bool,
}
impl<'a, 'tcx: 'a> Annotator<'a, 'tcx> {
// Determine the stability for a node based on its attributes and inherited
// stability. The stability is recorded in the index and used as the parent.
fn annotate<F>(&mut self, id: NodeId, attrs: &[Attribute],
item_sp: Span, kind: AnnotationKind, visit_children: F)
where F: FnOnce(&mut Self)
{
if self.tcx.sess.features.borrow().staged_api {
// This crate explicitly wants staged API.
debug!("annotate(id = {:?}, attrs = {:?})", id, attrs);
if let Some(..) = attr::find_deprecation(self.tcx.sess.diagnostic(), attrs, item_sp) {
self.tcx.sess.span_err(item_sp, "`#[deprecated]` cannot be used in staged api, \
use `#[rustc_deprecated]` instead");
}
if let Some(mut stab) = attr::find_stability(self.tcx.sess.diagnostic(),
attrs, item_sp) {
// Error if prohibited, or can't inherit anything from a container
if kind == AnnotationKind::Prohibited ||
(kind == AnnotationKind::Container &&
stab.level.is_stable() &&
stab.rustc_depr.is_none()) {
self.tcx.sess.span_err(item_sp, "This stability annotation is useless");
}
debug!("annotate: found {:?}", stab);
// If parent is deprecated and we're not, inherit this by merging
// deprecated_since and its reason.
if let Some(parent_stab) = self.parent_stab {
if parent_stab.rustc_depr.is_some() && stab.rustc_depr.is_none() {
stab.rustc_depr = parent_stab.rustc_depr.clone()
}
}
let stab = self.tcx.intern_stability(stab);
// Check if deprecated_since < stable_since. If it is,
// this is *almost surely* an accident.
if let (&Some(attr::RustcDeprecation {since: dep_since, ..}),
&attr::Stable {since: stab_since}) = (&stab.rustc_depr, &stab.level) {
// Explicit version of iter::order::lt to handle parse errors properly
for (dep_v, stab_v) in
dep_since.as_str().split(".").zip(stab_since.as_str().split(".")) {
if let (Ok(dep_v), Ok(stab_v)) = (dep_v.parse::<u64>(), stab_v.parse()) {
match dep_v.cmp(&stab_v) {
Ordering::Less => {
self.tcx.sess.span_err(item_sp, "An API can't be stabilized \
after it is deprecated");
break
}
Ordering::Equal => continue,
Ordering::Greater => break,
}
} else {
// Act like it isn't less because the question is now nonsensical,
// and this makes us not do anything else interesting.
self.tcx.sess.span_err(item_sp, "Invalid stability or deprecation \
version found");
break
}
}
}
let hir_id = self.tcx.hir.node_to_hir_id(id);
self.index.stab_map.insert(hir_id, stab);
let orig_parent_stab = replace(&mut self.parent_stab, Some(stab));
visit_children(self);
self.parent_stab = orig_parent_stab;
} else {
debug!("annotate: not found, parent = {:?}", self.parent_stab);
if let Some(stab) = self.parent_stab {
if stab.level.is_unstable() {
let hir_id = self.tcx.hir.node_to_hir_id(id);
self.index.stab_map.insert(hir_id, stab);
}
}
visit_children(self);
}
} else {
// Emit errors for non-staged-api crates.
for attr in attrs {
let tag = unwrap_or!(attr.name(), continue);
if tag == "unstable" || tag == "stable" || tag == "rustc_deprecated" {
attr::mark_used(attr);
self.tcx.sess.span_err(attr.span(), "stability attributes may not be used \
outside of the standard library");
}
}
// Propagate unstability. This can happen even for non-staged-api crates in case
// -Zforce-unstable-if-unmarked is set.
if let Some(stab) = self.parent_stab {
if stab.level.is_unstable() {
let hir_id = self.tcx.hir.node_to_hir_id(id);
self.index.stab_map.insert(hir_id, stab);
}
}
if let Some(depr) = attr::find_deprecation(self.tcx.sess.diagnostic(), attrs, item_sp) {
if kind == AnnotationKind::Prohibited {
self.tcx.sess.span_err(item_sp, "This deprecation annotation is useless");
}
// `Deprecation` is just two pointers, no need to intern it
let hir_id = self.tcx.hir.node_to_hir_id(id);
let depr_entry = DeprecationEntry::local(depr, hir_id);
self.index.depr_map.insert(hir_id, depr_entry.clone());
let orig_parent_depr = replace(&mut self.parent_depr,
Some(depr_entry));
visit_children(self);
self.parent_depr = orig_parent_depr;
} else if let Some(parent_depr) = self.parent_depr.clone() {
let hir_id = self.tcx.hir.node_to_hir_id(id);
self.index.depr_map.insert(hir_id, parent_depr);
visit_children(self);
} else {
visit_children(self);
}
}
}
}
impl<'a, 'tcx> Visitor<'tcx> for Annotator<'a, 'tcx> {
/// Because stability levels are scoped lexically, we want to walk
/// nested items in the context of the outer item, so enable
/// deep-walking.
fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
NestedVisitorMap::All(&self.tcx.hir)
}
fn visit_item(&mut self, i: &'tcx Item) {
let orig_in_trait_impl = self.in_trait_impl;
let mut kind = AnnotationKind::Required;
match i.node {
// Inherent impls and foreign modules serve only as containers for other items,
// they don't have their own stability. They still can be annotated as unstable
// and propagate this unstability to children, but this annotation is completely
// optional. They inherit stability from their parents when unannotated.
hir::ItemImpl(.., None, _, _) | hir::ItemForeignMod(..) => {
self.in_trait_impl = false;
kind = AnnotationKind::Container;
}
hir::ItemImpl(.., Some(_), _, _) => {
self.in_trait_impl = true;
}
hir::ItemStruct(ref sd, _) => {
if !sd.is_struct() {
self.annotate(sd.id(), &i.attrs, i.span, AnnotationKind::Required, |_| {})
}
}
_ => {}
}
self.annotate(i.id, &i.attrs, i.span, kind, |v| {
intravisit::walk_item(v, i)
});
self.in_trait_impl = orig_in_trait_impl;
}
fn visit_trait_item(&mut self, ti: &'tcx hir::TraitItem) {
self.annotate(ti.id, &ti.attrs, ti.span, AnnotationKind::Required, |v| {
intravisit::walk_trait_item(v, ti);
});
}
fn visit_impl_item(&mut self, ii: &'tcx hir::ImplItem) {
let kind = if self.in_trait_impl {
AnnotationKind::Prohibited
} else {
AnnotationKind::Required
};
self.annotate(ii.id, &ii.attrs, ii.span, kind, |v| {
intravisit::walk_impl_item(v, ii);
});
}
fn visit_variant(&mut self, var: &'tcx Variant, g: &'tcx Generics, item_id: NodeId) {
self.annotate(var.node.data.id(), &var.node.attrs, var.span, AnnotationKind::Required, |v| {
intravisit::walk_variant(v, var, g, item_id);
})
}
fn visit_struct_field(&mut self, s: &'tcx StructField) {
self.annotate(s.id, &s.attrs, s.span, AnnotationKind::Required, |v| {
intravisit::walk_struct_field(v, s);
});
}
fn visit_foreign_item(&mut self, i: &'tcx hir::ForeignItem) {
self.annotate(i.id, &i.attrs, i.span, AnnotationKind::Required, |v| {
intravisit::walk_foreign_item(v, i);
});
}
fn visit_macro_def(&mut self, md: &'tcx hir::MacroDef) {
self.annotate(md.id, &md.attrs, md.span, AnnotationKind::Required, |_| {});
}
}
struct MissingStabilityAnnotations<'a, 'tcx: 'a> {
tcx: TyCtxt<'a, 'tcx, 'tcx>,
access_levels: &'a AccessLevels,
}
impl<'a, 'tcx: 'a> MissingStabilityAnnotations<'a, 'tcx> {
fn check_missing_stability(&self, id: NodeId, span: Span) {
let hir_id = self.tcx.hir.node_to_hir_id(id);
let stab = self.tcx.stability().local_stability(hir_id);
let is_error = !self.tcx.sess.opts.test &&
stab.is_none() &&
self.access_levels.is_reachable(id);
if is_error {
self.tcx.sess.span_err(span, "This node does not have a stability attribute");
}
}
}
impl<'a, 'tcx> Visitor<'tcx> for MissingStabilityAnnotations<'a, 'tcx> {
fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
NestedVisitorMap::OnlyBodies(&self.tcx.hir)
}
fn visit_item(&mut self, i: &'tcx Item) {
match i.node {
// Inherent impls and foreign modules serve only as containers for other items,
// they don't have their own stability. They still can be annotated as unstable
// and propagate this unstability to children, but this annotation is completely
// optional. They inherit stability from their parents when unannotated.
hir::ItemImpl(.., None, _, _) | hir::ItemForeignMod(..) => {}
_ => self.check_missing_stability(i.id, i.span)
}
intravisit::walk_item(self, i)
}
fn visit_trait_item(&mut self, ti: &'tcx hir::TraitItem) {
self.check_missing_stability(ti.id, ti.span);
intravisit::walk_trait_item(self, ti);
}
fn visit_impl_item(&mut self, ii: &'tcx hir::ImplItem) {
let impl_def_id = self.tcx.hir.local_def_id(self.tcx.hir.get_parent(ii.id));
if self.tcx.impl_trait_ref(impl_def_id).is_none() {
self.check_missing_stability(ii.id, ii.span);
}
intravisit::walk_impl_item(self, ii);
}
fn visit_variant(&mut self, var: &'tcx Variant, g: &'tcx Generics, item_id: NodeId) {
self.check_missing_stability(var.node.data.id(), var.span);
intravisit::walk_variant(self, var, g, item_id);
}
fn visit_struct_field(&mut self, s: &'tcx StructField) {
self.check_missing_stability(s.id, s.span);
intravisit::walk_struct_field(self, s);
}
fn visit_foreign_item(&mut self, i: &'tcx hir::ForeignItem) {
self.check_missing_stability(i.id, i.span);
intravisit::walk_foreign_item(self, i);
}
fn visit_macro_def(&mut self, md: &'tcx hir::MacroDef) {
self.check_missing_stability(md.id, md.span);
}
}
impl<'a, 'tcx> Index<'tcx> {
pub fn new(tcx: TyCtxt<'a, 'tcx, 'tcx>) -> Index<'tcx> {
let is_staged_api =
tcx.sess.opts.debugging_opts.force_unstable_if_unmarked ||
tcx.sess.features.borrow().staged_api;
let mut staged_api = FxHashMap();
staged_api.insert(LOCAL_CRATE, is_staged_api);
let mut index = Index {
staged_api,
stab_map: FxHashMap(),
depr_map: FxHashMap(),
active_features: FxHashSet(),
};
let ref active_lib_features = tcx.sess.features.borrow().declared_lib_features;
// Put the active features into a map for quick lookup
index.active_features = active_lib_features.iter().map(|&(ref s, _)| s.clone()).collect();
{
let krate = tcx.hir.krate();
let mut annotator = Annotator {
tcx,
index: &mut index,
parent_stab: None,
parent_depr: None,
in_trait_impl: false,
};
// If the `-Z force-unstable-if-unmarked` flag is passed then we provide
// a parent stability annotation which indicates that this is private
// with the `rustc_private` feature. This is intended for use when
// compiling librustc crates themselves so we can leverage crates.io
// while maintaining the invariant that all sysroot crates are unstable
// by default and are unable to be used.
if tcx.sess.opts.debugging_opts.force_unstable_if_unmarked {
let reason = "this crate is being loaded from the sysroot, and \
unstable location; did you mean to load this crate \
from crates.io via `Cargo.toml` instead?";
let stability = tcx.intern_stability(Stability {
level: attr::StabilityLevel::Unstable {
reason: Some(Symbol::intern(reason)),
issue: 27812,
},
feature: Symbol::intern("rustc_private"),
rustc_depr: None,
rustc_const_unstable: None,
});
annotator.parent_stab = Some(stability);
}
annotator.annotate(ast::CRATE_NODE_ID,
&krate.attrs,
krate.span,
AnnotationKind::Required,
|v| intravisit::walk_crate(v, krate));
}
return index
}
pub fn local_stability(&self, id: HirId) -> Option<&'tcx Stability> {
self.stab_map.get(&id).cloned()
}
pub fn local_deprecation_entry(&self, id: HirId) -> Option<DeprecationEntry> {
self.depr_map.get(&id).cloned()
}
}
/// Cross-references the feature names of unstable APIs with enabled
/// features and possibly prints errors.
pub fn check_unstable_api_usage<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>) {
let mut checker = Checker { tcx: tcx };
tcx.hir.krate().visit_all_item_likes(&mut checker.as_deep_visitor());
}
struct Checker<'a, 'tcx: 'a> {
tcx: TyCtxt<'a, 'tcx, 'tcx>,
}
impl<'a, 'gcx, 'tcx> TyCtxt<'a, 'gcx, 'tcx> {
// (See issue #38412)
fn skip_stability_check_due_to_privacy(self, mut def_id: DefId) -> bool {
// Check if `def_id` is a trait method.
match self.describe_def(def_id) {
Some(Def::Method(_)) |
Some(Def::AssociatedTy(_)) |
Some(Def::AssociatedConst(_)) => {
match self.associated_item(def_id).container {
ty::TraitContainer(trait_def_id) => {
// Trait methods do not declare visibility (even
// for visibility info in cstore). Use containing
// trait instead, so methods of pub traits are
// themselves considered pub.
def_id = trait_def_id;
}
_ => {}
}
}
_ => {}
}
let visibility = self.visibility(def_id);
match visibility {
// must check stability for pub items.
ty::Visibility::Public => false,
// these are not visible outside crate; therefore
// stability markers are irrelevant, if even present.
ty::Visibility::Restricted(..) |
ty::Visibility::Invisible => true,
}
}
pub fn check_stability(self, def_id: DefId, id: NodeId, span: Span) {
if span.allows_unstable() {
debug!("stability: \
skipping span={:?} since it is internal", span);
return;
}
let lint_deprecated = |note: Option<Symbol>| {
let msg = if let Some(note) = note {
format!("use of deprecated item: {}", note)
} else {
format!("use of deprecated item")
};
self.lint_node(lint::builtin::DEPRECATED, id, span, &msg);
};
// Deprecated attributes apply in-crate and cross-crate.
if let Some(depr_entry) = self.lookup_deprecation_entry(def_id) {
let skip = if id == ast::DUMMY_NODE_ID {
true
} else {
let parent_def_id = self.hir.local_def_id(self.hir.get_parent(id));
self.lookup_deprecation_entry(parent_def_id).map_or(false, |parent_depr| {
parent_depr.same_origin(&depr_entry)
})
};
if !skip {
lint_deprecated(depr_entry.attr.note);
}
}
let is_staged_api = self.lookup_stability(DefId {
index: CRATE_DEF_INDEX,
..def_id
}).is_some();
if !is_staged_api {
return;
}
let stability = self.lookup_stability(def_id);
debug!("stability: \
inspecting def_id={:?} span={:?} of stability={:?}", def_id, span, stability);
if let Some(&Stability{rustc_depr: Some(attr::RustcDeprecation { reason, .. }), ..})
= stability {
if id != ast::DUMMY_NODE_ID {
lint_deprecated(Some(reason));
}
}
// Only the cross-crate scenario matters when checking unstable APIs
let cross_crate = !def_id.is_local();
if !cross_crate {
return
}
// Issue 38412: private items lack stability markers.
if self.skip_stability_check_due_to_privacy(def_id) {
return
}
match stability {
Some(&Stability { level: attr::Unstable {ref reason, issue}, ref feature, .. }) => {
if self.stability().active_features.contains(feature) {
return
}
// When we're compiling the compiler itself we may pull in
// crates from crates.io, but those crates may depend on other
// crates also pulled in from crates.io. We want to ideally be
// able to compile everything without requiring upstream
// modifications, so in the case that this looks like a
// rustc_private crate (e.g. a compiler crate) and we also have
// the `-Z force-unstable-if-unmarked` flag present (we're
// compiling a compiler crate), then let this missing feature
// annotation slide.
if *feature == "rustc_private" && issue == 27812 {
if self.sess.opts.debugging_opts.force_unstable_if_unmarked {
return
}
}
let msg = match *reason {
Some(ref r) => format!("use of unstable library feature '{}': {}",
feature.as_str(), &r),
None => format!("use of unstable library feature '{}'", &feature)
};
emit_feature_err(&self.sess.parse_sess, &feature.as_str(), span,
GateIssue::Library(Some(issue)), &msg);
}
Some(_) => {
// Stable APIs are always ok to call and deprecated APIs are
// handled by the lint emitting logic above.
}
None => {
span_bug!(span, "encountered unmarked API");
}
}
}
}
impl<'a, 'tcx> Visitor<'tcx> for Checker<'a, 'tcx> {
/// Because stability levels are scoped lexically, we want to walk
/// nested items in the context of the outer item, so enable
/// deep-walking.
fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
NestedVisitorMap::OnlyBodies(&self.tcx.hir)
}
fn visit_item(&mut self, item: &'tcx hir::Item) {
match item.node {
hir::ItemExternCrate(_) => {
// compiler-generated `extern crate` items have a dummy span.
if item.span == DUMMY_SP { return }
let def_id = self.tcx.hir.local_def_id(item.id);
let cnum = match self.tcx.extern_mod_stmt_cnum(def_id) {
Some(cnum) => cnum,
None => return,
};
let def_id = DefId { krate: cnum, index: CRATE_DEF_INDEX };
self.tcx.check_stability(def_id, item.id, item.span);
}
// For implementations of traits, check the stability of each item
// individually as it's possible to have a stable trait with unstable
// items.
hir::ItemImpl(.., Some(ref t), _, ref impl_item_refs) => {
if let Def::Trait(trait_did) = t.path.def {
for impl_item_ref in impl_item_refs {
let impl_item = self.tcx.hir.impl_item(impl_item_ref.id);
let trait_item_def_id = self.tcx.associated_items(trait_did)
.find(|item| item.name == impl_item.name).map(|item| item.def_id);
if let Some(def_id) = trait_item_def_id {
// Pass `DUMMY_NODE_ID` to skip deprecation warnings.
self.tcx.check_stability(def_id, ast::DUMMY_NODE_ID, impl_item.span);
}
}
}
}
// There's no good place to insert stability check for non-Copy unions,
// so semi-randomly perform it here in stability.rs
hir::ItemUnion(..) if !self.tcx.sess.features.borrow().untagged_unions => {
let def_id = self.tcx.hir.local_def_id(item.id);
let adt_def = self.tcx.adt_def(def_id);
let ty = self.tcx.type_of(def_id);
if adt_def.has_dtor(self.tcx) {
emit_feature_err(&self.tcx.sess.parse_sess,
"untagged_unions", item.span, GateIssue::Language,
"unions with `Drop` implementations are unstable");
} else {
let param_env = self.tcx.param_env(def_id);
if !param_env.can_type_implement_copy(self.tcx, ty, item.span).is_ok() {
emit_feature_err(&self.tcx.sess.parse_sess,
"untagged_unions", item.span, GateIssue::Language,
"unions with non-`Copy` fields are unstable");
}
}
}
_ => (/* pass */)
}
intravisit::walk_item(self, item);
}
fn visit_path(&mut self, path: &'tcx hir::Path, id: ast::NodeId) {
match path.def {
Def::Local(..) | Def::Upvar(..) |
Def::PrimTy(..) | Def::SelfTy(..) | Def::Err => {}
_ => self.tcx.check_stability(path.def.def_id(), id, path.span)
}
intravisit::walk_path(self, path)
}
}
impl<'a, 'gcx, 'tcx> TyCtxt<'a, 'gcx, 'tcx> {
pub fn lookup_deprecation(self, id: DefId) -> Option<Deprecation> {
self.lookup_deprecation_entry(id).map(|depr| depr.attr)
}
}
/// Given the list of enabled features that were not language features (i.e. that
/// were expected to be library features), and the list of features used from
/// libraries, identify activated features that don't exist and error about them.
pub fn check_unused_or_stable_features<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>) {
let sess = &tcx.sess;
let access_levels = &tcx.privacy_access_levels(LOCAL_CRATE);
if tcx.stability().staged_api[&LOCAL_CRATE] {
let krate = tcx.hir.krate();
let mut missing = MissingStabilityAnnotations {
tcx,
access_levels,
};
missing.check_missing_stability(ast::CRATE_NODE_ID, krate.span);
intravisit::walk_crate(&mut missing, krate);
krate.visit_all_item_likes(&mut missing.as_deep_visitor());
}
let ref declared_lib_features = sess.features.borrow().declared_lib_features;
let mut remaining_lib_features: FxHashMap<Symbol, Span>
= declared_lib_features.clone().into_iter().collect();
remaining_lib_features.remove(&Symbol::intern("proc_macro"));
for &(ref stable_lang_feature, span) in &sess.features.borrow().declared_stable_lang_features {
let version = find_lang_feature_accepted_version(&stable_lang_feature.as_str())
.expect("unexpectedly couldn't find version feature was stabilized");
tcx.lint_node(lint::builtin::STABLE_FEATURES,
ast::CRATE_NODE_ID,
span,
&format_stable_since_msg(version));
}
// FIXME(#44232) the `used_features` table no longer exists, so we don't
// lint about unknown or unused features. We should reenable
// this one day!
//
// let index = tcx.stability();
// for (used_lib_feature, level) in &index.used_features {
// remaining_lib_features.remove(used_lib_feature);
// }
//
// for &span in remaining_lib_features.values() {
// tcx.lint_node(lint::builtin::UNUSED_FEATURES,
// ast::CRATE_NODE_ID,
// span,
// "unused or unknown feature");
// }
}
fn format_stable_since_msg(version: &str) -> String {
format!("this feature has been stable since {}. Attribute no longer needed", version)
}