rust/src/librustc/middle/dead.rs

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// Copyright 2013 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.
// This implements the dead-code warning pass. It follows middle::reachable
// closely. The idea is that all reachable symbols are live, codes called
// from live codes are live, and everything else is dead.
use middle::lint::{allow, contains_lint, DeadCode};
use middle::privacy;
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use middle::ty;
use middle::typeck;
use std::hashmap::HashSet;
use syntax::ast;
use syntax::ast_map;
use syntax::ast_util::{local_def, def_id_of_def, is_local};
use syntax::attr;
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use syntax::codemap;
use syntax::parse::token;
use syntax::visit::Visitor;
use syntax::visit;
pub static DEAD_CODE_LINT_STR: &'static str = "dead_code";
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// Any local node that may call something in its body block should be
// explored. For example, if it's a live NodeItem that is a
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// function, then we should explore its block to check for codes that
// may need to be marked as live.
fn should_explore(tcx: ty::ctxt, def_id: ast::DefId) -> bool {
if !is_local(def_id) {
return false;
}
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match tcx.map.find(def_id.node) {
Some(ast_map::NodeItem(..))
| Some(ast_map::NodeMethod(..))
| Some(ast_map::NodeForeignItem(..))
| Some(ast_map::NodeTraitMethod(..)) => true,
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_ => false
}
}
struct MarkSymbolVisitor {
worklist: ~[ast::NodeId],
method_map: typeck::method_map,
tcx: ty::ctxt,
live_symbols: ~HashSet<ast::NodeId>,
}
impl MarkSymbolVisitor {
fn new(tcx: ty::ctxt,
method_map: typeck::method_map,
worklist: ~[ast::NodeId]) -> MarkSymbolVisitor {
MarkSymbolVisitor {
worklist: worklist,
method_map: method_map,
tcx: tcx,
live_symbols: ~HashSet::new(),
}
}
fn check_def_id(&mut self, def_id: ast::DefId) {
if should_explore(self.tcx, def_id) {
self.worklist.push(def_id.node);
}
self.live_symbols.insert(def_id.node);
}
fn lookup_and_handle_definition(&mut self, id: &ast::NodeId) {
let def_map = self.tcx.def_map.borrow();
let def = match def_map.get().find(id) {
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Some(&def) => def,
None => return
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};
let def_id = match def {
ast::DefVariant(enum_id, _, _) => Some(enum_id),
ast::DefPrimTy(_) => None,
_ => Some(def_id_of_def(def)),
};
match def_id {
Some(def_id) => self.check_def_id(def_id),
None => (),
}
}
fn lookup_and_handle_method(&mut self, id: &ast::NodeId,
span: codemap::Span) {
let method_map = self.method_map.borrow();
match method_map.get().find(id) {
Some(&origin) => {
match origin {
typeck::method_static(def_id) => {
match ty::provided_source(self.tcx, def_id) {
Some(p_did) => self.check_def_id(p_did),
None => self.check_def_id(def_id)
}
}
typeck::method_param(typeck::method_param {
trait_id: trait_id,
method_num: index,
..
})
| typeck::method_object(typeck::method_object {
trait_id: trait_id,
method_num: index,
..
}) => {
let def_id = ty::trait_method(self.tcx,
trait_id, index).def_id;
self.check_def_id(def_id);
}
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}
}
None => {
self.tcx.sess.span_bug(span,
"method call expression not \
in method map?!")
}
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}
}
fn mark_live_symbols(&mut self) {
let mut scanned = HashSet::new();
while self.worklist.len() > 0 {
let id = self.worklist.pop().unwrap();
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if scanned.contains(&id) {
continue
}
scanned.insert(id);
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match self.tcx.map.find(id) {
Some(ref node) => {
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self.live_symbols.insert(id);
self.visit_node(node);
}
None => (),
}
}
}
fn visit_node(&mut self, node: &ast_map::Node) {
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match *node {
ast_map::NodeItem(item) => {
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match item.node {
ast::ItemFn(..)
| ast::ItemTy(..)
| ast::ItemEnum(..)
| ast::ItemStruct(..)
| ast::ItemStatic(..) => {
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visit::walk_item(self, item, ());
}
_ => ()
}
}
ast_map::NodeTraitMethod(trait_method) => {
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visit::walk_trait_method(self, trait_method, ());
}
ast_map::NodeMethod(method) => {
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visit::walk_block(self, method.body, ());
}
ast_map::NodeForeignItem(foreign_item) => {
visit::walk_foreign_item(self, foreign_item, ());
}
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_ => ()
}
}
}
impl Visitor<()> for MarkSymbolVisitor {
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fn visit_expr(&mut self, expr: &ast::Expr, _: ()) {
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match expr.node {
ast::ExprMethodCall(..) => {
self.lookup_and_handle_method(&expr.id, expr.span);
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}
_ => ()
}
visit::walk_expr(self, expr, ())
}
fn visit_path(&mut self, path: &ast::Path, id: ast::NodeId, _: ()) {
self.lookup_and_handle_definition(&id);
visit::walk_path(self, path, ());
}
fn visit_item(&mut self, _item: &ast::Item, _: ()) {
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// Do not recurse into items. These items will be added to the
// worklist and recursed into manually if necessary.
}
}
fn has_allow_dead_code_or_lang_attr(attrs: &[ast::Attribute]) -> bool {
contains_lint(attrs, allow, DEAD_CODE_LINT_STR)
|| attr::contains_name(attrs, "lang")
}
// This visitor seeds items that
// 1) We want to explicitly consider as live:
// * Item annotated with #[allow(dead_code)]
// - This is done so that if we want to suppress warnings for a
// group of dead functions, we only have to annotate the "root".
// For example, if both `f` and `g` are dead and `f` calls `g`,
// then annotating `f` with `#[allow(dead_code)]` will suppress
// warning for both `f` and `g`.
// * Item annotated with #[lang=".."]
// - This is because lang items are always callable from elsewhere.
// or
// 2) We are not sure to be live or not
// * Implementation of a trait method
struct LifeSeeder {
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worklist: ~[ast::NodeId],
}
impl Visitor<()> for LifeSeeder {
fn visit_item(&mut self, item: &ast::Item, _: ()) {
if has_allow_dead_code_or_lang_attr(item.attrs) {
self.worklist.push(item.id);
}
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match item.node {
ast::ItemImpl(_, Some(ref _trait_ref), _, ref methods) => {
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for method in methods.iter() {
self.worklist.push(method.id);
}
}
_ => ()
}
visit::walk_item(self, item, ());
}
fn visit_fn(&mut self, fk: &visit::FnKind,
_: &ast::FnDecl, block: &ast::Block,
_: codemap::Span, id: ast::NodeId, _: ()) {
// Check for method here because methods are not ast::Item
match *fk {
visit::FkMethod(_, _, method) => {
if has_allow_dead_code_or_lang_attr(method.attrs) {
self.worklist.push(id);
}
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}
_ => ()
}
visit::walk_block(self, block, ());
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}
}
fn create_and_seed_worklist(tcx: ty::ctxt,
exported_items: &privacy::ExportedItems,
reachable_symbols: &HashSet<ast::NodeId>,
krate: &ast::Crate) -> ~[ast::NodeId] {
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let mut worklist = ~[];
// Preferably, we would only need to seed the worklist with reachable
// symbols. However, since the set of reachable symbols differs
// depending on whether a crate is built as bin or lib, and we want
// the warning to be consistent, we also seed the worklist with
// exported symbols.
for &id in exported_items.iter() {
worklist.push(id);
}
for &id in reachable_symbols.iter() {
worklist.push(id);
}
// Seed entry point
match tcx.sess.entry_fn.get() {
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Some((id, _)) => worklist.push(id),
None => ()
}
// Seed implemeneted trait methods
let mut life_seeder = LifeSeeder {
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worklist: worklist
};
visit::walk_crate(&mut life_seeder, krate, ());
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return life_seeder.worklist;
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}
fn find_live(tcx: ty::ctxt,
method_map: typeck::method_map,
exported_items: &privacy::ExportedItems,
reachable_symbols: &HashSet<ast::NodeId>,
krate: &ast::Crate)
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-> ~HashSet<ast::NodeId> {
let worklist = create_and_seed_worklist(tcx, exported_items,
reachable_symbols, krate);
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let mut symbol_visitor = MarkSymbolVisitor::new(tcx, method_map, worklist);
symbol_visitor.mark_live_symbols();
symbol_visitor.live_symbols
}
fn should_warn(item: &ast::Item) -> bool {
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match item.node {
ast::ItemStatic(..)
| ast::ItemFn(..)
| ast::ItemEnum(..)
| ast::ItemStruct(..) => true,
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_ => false
}
}
fn get_struct_ctor_id(item: &ast::Item) -> Option<ast::NodeId> {
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match item.node {
ast::ItemStruct(struct_def, _) => struct_def.ctor_id,
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_ => None
}
}
struct DeadVisitor {
tcx: ty::ctxt,
live_symbols: ~HashSet<ast::NodeId>,
}
impl DeadVisitor {
// id := node id of an item's definition.
// ctor_id := `Some` if the item is a struct_ctor (tuple struct),
// `None` otherwise.
// If the item is a struct_ctor, then either its `id` or
// `ctor_id` (unwrapped) is in the live_symbols set. More specifically,
// DefMap maps the ExprPath of a struct_ctor to the node referred by
// `ctor_id`. On the other hand, in a statement like
// `type <ident> <generics> = <ty>;` where <ty> refers to a struct_ctor,
// DefMap maps <ty> to `id` instead.
fn symbol_is_live(&mut self, id: ast::NodeId,
ctor_id: Option<ast::NodeId>) -> bool {
if self.live_symbols.contains(&id)
|| ctor_id.map_or(false,
|ctor| self.live_symbols.contains(&ctor)) {
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return true;
}
// If it's a type whose methods are live, then it's live, too.
// This is done to handle the case where, for example, the static
// method of a private type is used, but the type itself is never
// called directly.
let def_id = local_def(id);
let inherent_impls = self.tcx.inherent_impls.borrow();
match inherent_impls.get().find(&def_id) {
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None => (),
Some(ref impl_list) => {
let impl_list = impl_list.borrow();
for impl_ in impl_list.get().iter() {
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for method in impl_.methods.iter() {
if self.live_symbols.contains(&method.def_id.node) {
return true;
}
}
}
}
}
false
}
fn warn_dead_code(&mut self, id: ast::NodeId,
span: codemap::Span, ident: ast::Ident) {
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self.tcx.sess.add_lint(DeadCode, id, span,
format!("code is never used: `{}`",
token::get_ident(ident)));
}
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}
impl Visitor<()> for DeadVisitor {
fn visit_item(&mut self, item: &ast::Item, _: ()) {
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let ctor_id = get_struct_ctor_id(item);
if !self.symbol_is_live(item.id, ctor_id) && should_warn(item) {
self.warn_dead_code(item.id, item.span, item.ident);
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}
visit::walk_item(self, item, ());
}
fn visit_foreign_item(&mut self, fi: &ast::ForeignItem, _: ()) {
if !self.symbol_is_live(fi.id, None) {
self.warn_dead_code(fi.id, fi.span, fi.ident);
}
visit::walk_foreign_item(self, fi, ());
}
fn visit_fn(&mut self, fk: &visit::FnKind,
_: &ast::FnDecl, block: &ast::Block,
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span: codemap::Span, id: ast::NodeId, _: ()) {
// Have to warn method here because methods are not ast::Item
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match *fk {
visit::FkMethod(..) => {
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let ident = visit::name_of_fn(fk);
if !self.symbol_is_live(id, None) {
self.warn_dead_code(id, span, ident);
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}
}
_ => ()
}
visit::walk_block(self, block, ());
}
// Overwrite so that we don't warn the trait method itself.
fn visit_trait_method(&mut self, trait_method: &ast::TraitMethod, _: ()) {
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match *trait_method {
ast::Provided(method) => visit::walk_block(self, method.body, ()),
ast::Required(_) => ()
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}
}
}
pub fn check_crate(tcx: ty::ctxt,
method_map: typeck::method_map,
exported_items: &privacy::ExportedItems,
reachable_symbols: &HashSet<ast::NodeId>,
krate: &ast::Crate) {
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let live_symbols = find_live(tcx, method_map, exported_items,
reachable_symbols, krate);
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let mut visitor = DeadVisitor { tcx: tcx, live_symbols: live_symbols };
visit::walk_crate(&mut visitor, krate, ());
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}