825f6ace1d
This has long since not been too relevant since the introduction of many crate type outputs. This commit removes the flag entirely, adjusting all logic to do the most reasonable thing when building both a library and an executable. Closes #13337
375 lines
14 KiB
Rust
375 lines
14 KiB
Rust
// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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// Finds items that are externally reachable, to determine which items
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// need to have their metadata (and possibly their AST) serialized.
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// All items that can be referred to through an exported name are
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// reachable, and when a reachable thing is inline or generic, it
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// makes all other generics or inline functions that it references
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// reachable as well.
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use driver::session;
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use middle::ty;
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use middle::typeck;
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use middle::privacy;
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use util::nodemap::NodeSet;
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use collections::HashSet;
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use syntax::ast;
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use syntax::ast_map;
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use syntax::ast_util::{def_id_of_def, is_local};
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use syntax::attr;
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use syntax::visit::Visitor;
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use syntax::visit;
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// Returns true if the given set of attributes contains the `#[inline]`
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// attribute.
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fn attributes_specify_inlining(attrs: &[ast::Attribute]) -> bool {
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attr::contains_name(attrs, "inline")
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}
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// Returns true if the given set of generics implies that the item it's
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// associated with must be inlined.
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fn generics_require_inlining(generics: &ast::Generics) -> bool {
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!generics.ty_params.is_empty()
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}
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// Returns true if the given item must be inlined because it may be
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// monomorphized or it was marked with `#[inline]`. This will only return
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// true for functions.
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fn item_might_be_inlined(item: &ast::Item) -> bool {
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if attributes_specify_inlining(item.attrs.as_slice()) {
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return true
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}
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match item.node {
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ast::ItemImpl(ref generics, _, _, _) |
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ast::ItemFn(_, _, _, ref generics, _) => {
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generics_require_inlining(generics)
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}
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_ => false,
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}
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}
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fn method_might_be_inlined(tcx: &ty::ctxt, method: &ast::Method,
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impl_src: ast::DefId) -> bool {
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if attributes_specify_inlining(method.attrs.as_slice()) ||
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generics_require_inlining(&method.generics) {
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return true
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}
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if is_local(impl_src) {
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{
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match tcx.map.find(impl_src.node) {
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Some(ast_map::NodeItem(item)) => {
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item_might_be_inlined(item)
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}
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Some(..) | None => {
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tcx.sess.span_bug(method.span, "impl did is not an item")
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}
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}
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}
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} else {
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tcx.sess.span_bug(method.span, "found a foreign impl as a parent of a \
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local method")
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}
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}
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// Information needed while computing reachability.
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struct ReachableContext<'a> {
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// The type context.
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tcx: &'a ty::ctxt,
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// The set of items which must be exported in the linkage sense.
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reachable_symbols: NodeSet,
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// A worklist of item IDs. Each item ID in this worklist will be inlined
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// and will be scanned for further references.
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worklist: Vec<ast::NodeId>,
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// Whether any output of this compilation is a library
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any_library: bool,
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}
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impl<'a> Visitor<()> for ReachableContext<'a> {
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fn visit_expr(&mut self, expr: &ast::Expr, _: ()) {
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match expr.node {
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ast::ExprPath(_) => {
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let def = match self.tcx.def_map.borrow().find(&expr.id) {
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Some(&def) => def,
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None => {
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self.tcx.sess.span_bug(expr.span,
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"def ID not in def map?!")
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}
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};
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let def_id = def_id_of_def(def);
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if is_local(def_id) {
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if self.def_id_represents_local_inlined_item(def_id) {
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self.worklist.push(def_id.node)
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} else {
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match def {
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// If this path leads to a static, then we may have
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// to do some work to figure out whether the static
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// is indeed reachable (address_insignificant
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// statics are *never* reachable).
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ast::DefStatic(..) => {
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self.worklist.push(def_id.node);
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}
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// If this wasn't a static, then this destination is
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// surely reachable.
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_ => {
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self.reachable_symbols.insert(def_id.node);
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}
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}
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}
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}
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}
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ast::ExprMethodCall(..) => {
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let method_call = typeck::MethodCall::expr(expr.id);
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match self.tcx.method_map.borrow().get(&method_call).origin {
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typeck::MethodStatic(def_id) => {
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if is_local(def_id) {
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if self.def_id_represents_local_inlined_item(def_id) {
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self.worklist.push(def_id.node)
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}
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self.reachable_symbols.insert(def_id.node);
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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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visit::walk_expr(self, expr, ())
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}
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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
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// and recursed into manually if necessary.
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}
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}
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impl<'a> ReachableContext<'a> {
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// Creates a new reachability computation context.
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fn new(tcx: &'a ty::ctxt) -> ReachableContext<'a> {
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let any_library = tcx.sess.crate_types.borrow().iter().any(|ty| {
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*ty != session::CrateTypeExecutable
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});
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ReachableContext {
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tcx: tcx,
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reachable_symbols: NodeSet::new(),
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worklist: Vec::new(),
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any_library: any_library,
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}
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}
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// Returns true if the given def ID represents a local item that is
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// eligible for inlining and false otherwise.
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fn def_id_represents_local_inlined_item(&self, def_id: ast::DefId) -> bool {
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if def_id.krate != ast::LOCAL_CRATE {
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return false
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}
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let node_id = def_id.node;
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match self.tcx.map.find(node_id) {
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Some(ast_map::NodeItem(item)) => {
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match item.node {
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ast::ItemFn(..) => item_might_be_inlined(item),
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_ => false,
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}
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}
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Some(ast_map::NodeTraitMethod(trait_method)) => {
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match *trait_method {
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ast::Required(_) => false,
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ast::Provided(_) => true,
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}
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}
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Some(ast_map::NodeMethod(method)) => {
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if generics_require_inlining(&method.generics) ||
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attributes_specify_inlining(method.attrs.as_slice()) {
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true
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} else {
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let impl_did = self.tcx.map.get_parent_did(node_id);
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// Check the impl. If the generics on the self type of the
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// impl require inlining, this method does too.
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assert!(impl_did.krate == ast::LOCAL_CRATE);
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match self.tcx.map.expect_item(impl_did.node).node {
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ast::ItemImpl(ref generics, _, _, _) => {
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generics_require_inlining(generics)
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}
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_ => false
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}
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}
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}
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Some(_) => false,
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None => false // This will happen for default methods.
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}
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}
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// Step 2: Mark all symbols that the symbols on the worklist touch.
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fn propagate(&mut self) {
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let mut scanned = HashSet::new();
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loop {
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if self.worklist.len() == 0 {
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break
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}
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let search_item = self.worklist.pop().unwrap();
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if scanned.contains(&search_item) {
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continue
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}
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scanned.insert(search_item);
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match self.tcx.map.find(search_item) {
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Some(ref item) => self.propagate_node(item, search_item),
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None if search_item == ast::CRATE_NODE_ID => {}
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None => {
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self.tcx.sess.bug(format!("found unmapped ID in worklist: \
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{}",
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search_item))
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}
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}
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}
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}
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fn propagate_node(&mut self, node: &ast_map::Node,
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search_item: ast::NodeId) {
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if !self.any_library {
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// If we are building an executable, then there's no need to flag
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// anything as external except for `extern fn` types. These
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// functions may still participate in some form of native interface,
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// but all other rust-only interfaces can be private (they will not
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// participate in linkage after this product is produced)
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match *node {
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ast_map::NodeItem(item) => {
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match item.node {
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ast::ItemFn(_, ast::ExternFn, _, _, _) => {
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self.reachable_symbols.insert(search_item);
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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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} else {
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// If we are building a library, then reachable symbols will
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// continue to participate in linkage after this product is
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// produced. In this case, we traverse the ast node, recursing on
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// all reachable nodes from this one.
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self.reachable_symbols.insert(search_item);
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}
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match *node {
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ast_map::NodeItem(item) => {
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match item.node {
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ast::ItemFn(_, _, _, _, search_block) => {
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if item_might_be_inlined(item) {
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visit::walk_block(self, search_block, ())
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}
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}
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// Statics with insignificant addresses are not reachable
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// because they're inlined specially into all other crates.
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ast::ItemStatic(..) => {
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if attr::contains_name(item.attrs.as_slice(),
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"address_insignificant") {
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self.reachable_symbols.remove(&search_item);
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}
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}
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// These are normal, nothing reachable about these
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// inherently and their children are already in the
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// worklist, as determined by the privacy pass
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ast::ItemTy(..) |
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ast::ItemMod(..) | ast::ItemForeignMod(..) |
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ast::ItemImpl(..) | ast::ItemTrait(..) |
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ast::ItemStruct(..) | ast::ItemEnum(..) => {}
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_ => {
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self.tcx.sess.span_bug(item.span,
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"found non-function item \
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in worklist?!")
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}
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}
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}
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ast_map::NodeTraitMethod(trait_method) => {
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match *trait_method {
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ast::Required(..) => {
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// Keep going, nothing to get exported
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}
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ast::Provided(ref method) => {
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visit::walk_block(self, method.body, ())
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}
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}
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}
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ast_map::NodeMethod(method) => {
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let did = self.tcx.map.get_parent_did(search_item);
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if method_might_be_inlined(self.tcx, method, did) {
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visit::walk_block(self, method.body, ())
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}
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}
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// Nothing to recurse on for these
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ast_map::NodeForeignItem(_) |
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ast_map::NodeVariant(_) |
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ast_map::NodeStructCtor(_) => {}
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_ => {
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self.tcx.sess.bug(format!("found unexpected thingy in \
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worklist: {}",
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self.tcx.map.node_to_str(search_item)))
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}
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}
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}
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// Step 3: Mark all destructors as reachable.
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//
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// FIXME(pcwalton): This is a conservative overapproximation, but fixing
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// this properly would result in the necessity of computing *type*
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// reachability, which might result in a compile time loss.
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fn mark_destructors_reachable(&mut self) {
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for (_, destructor_def_id) in self.tcx.destructor_for_type.borrow().iter() {
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if destructor_def_id.krate == ast::LOCAL_CRATE {
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self.reachable_symbols.insert(destructor_def_id.node);
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}
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}
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}
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}
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pub fn find_reachable(tcx: &ty::ctxt,
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exported_items: &privacy::ExportedItems)
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-> NodeSet {
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let mut reachable_context = ReachableContext::new(tcx);
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// Step 1: Seed the worklist with all nodes which were found to be public as
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// a result of the privacy pass along with all local lang items. If
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// other crates link to us, they're going to expect to be able to
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// use the lang items, so we need to be sure to mark them as
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// exported.
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for &id in exported_items.iter() {
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reachable_context.worklist.push(id);
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}
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for (_, item) in tcx.lang_items.items() {
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match *item {
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Some(did) if is_local(did) => {
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reachable_context.worklist.push(did.node);
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}
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_ => {}
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}
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}
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// Step 2: Mark all symbols that the symbols on the worklist touch.
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reachable_context.propagate();
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// Step 3: Mark all destructors as reachable.
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reachable_context.mark_destructors_reachable();
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// Return the set of reachable symbols.
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reachable_context.reachable_symbols
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}
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