rust/src/librustc_resolve/build_reduced_graph.rs

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// Copyright 2012-2014 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.
//! Reduced graph building
//!
//! Here we build the "reduced graph": the graph of the module tree without
//! any imports resolved.
use resolve_imports::ImportDirectiveSubclass::{self, GlobImport};
use Module;
use Namespace::{self, TypeNS, ValueNS};
use {NameBinding, NameBindingKind, ToNameBinding};
use ParentLink::{ModuleParentLink, BlockParentLink};
use Resolver;
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use {resolve_error, resolve_struct_error, ResolutionError};
use rustc::middle::cstore::{ChildItem, DlDef};
use rustc::hir::def::*;
use rustc::hir::def_id::{CRATE_DEF_INDEX, DefId};
use rustc::ty::{self, VariantKind};
use syntax::ast::Name;
use syntax::attr;
use syntax::parse::token;
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use syntax::ast::{Block, Crate};
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use syntax::ast::{ForeignItem, ForeignItemKind, Item, ItemKind};
use syntax::ast::{Mutability, StmtKind, TraitItemKind};
use syntax::ast::{Variant, ViewPathGlob, ViewPathList, ViewPathSimple};
use syntax::parse::token::keywords;
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use syntax::visit::{self, Visitor};
use syntax_pos::{Span, DUMMY_SP};
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impl<'a> ToNameBinding<'a> for (Module<'a>, Span, ty::Visibility) {
fn to_name_binding(self) -> NameBinding<'a> {
NameBinding { kind: NameBindingKind::Module(self.0), span: self.1, vis: self.2 }
}
}
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impl<'a> ToNameBinding<'a> for (Def, Span, ty::Visibility) {
fn to_name_binding(self) -> NameBinding<'a> {
NameBinding { kind: NameBindingKind::Def(self.0), span: self.1, vis: self.2 }
}
}
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impl<'b> Resolver<'b> {
/// Constructs the reduced graph for the entire crate.
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pub fn build_reduced_graph(&mut self, krate: &Crate) {
let no_implicit_prelude = attr::contains_name(&krate.attrs, "no_implicit_prelude");
self.graph_root.no_implicit_prelude.set(no_implicit_prelude);
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visit::walk_crate(&mut BuildReducedGraphVisitor { resolver: self }, krate);
}
/// Defines `name` in namespace `ns` of module `parent` to be `def` if it is not yet defined;
/// otherwise, reports an error.
fn define<T>(&mut self, parent: Module<'b>, name: Name, ns: Namespace, def: T)
where T: ToNameBinding<'b>,
{
let binding = def.to_name_binding();
if let Err(old_binding) = self.try_define(parent, name, ns, binding.clone()) {
self.report_conflict(parent, name, ns, old_binding, &binding);
}
}
fn block_needs_anonymous_module(&mut self, block: &Block) -> bool {
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// If any statements are items, we need to create an anonymous module
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block.stmts.iter().any(|statement| match statement.node {
StmtKind::Item(_) => true,
_ => false,
})
}
/// Constructs the reduced graph for one item.
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fn build_reduced_graph_for_item(&mut self, item: &Item) {
let parent = self.current_module;
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let parent_vis = self.current_vis;
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let name = item.ident.name;
let sp = item.span;
let vis = self.resolve_visibility(&item.vis);
match item.node {
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ItemKind::Use(ref view_path) => {
// Extract and intern the module part of the path. For
// globs and lists, the path is found directly in the AST;
// for simple paths we have to munge the path a little.
let module_path: Vec<Name> = match view_path.node {
ViewPathSimple(_, ref full_path) => {
full_path.segments
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.split_last()
.unwrap()
.1
.iter()
.map(|seg| seg.identifier.name)
.collect()
}
ViewPathGlob(ref module_ident_path) |
ViewPathList(ref module_ident_path, _) => {
module_ident_path.segments
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.iter()
.map(|seg| seg.identifier.name)
.collect()
}
};
// Build up the import directives.
let is_prelude = attr::contains_name(&item.attrs, "prelude_import");
match view_path.node {
ViewPathSimple(binding, ref full_path) => {
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let source_name = full_path.segments.last().unwrap().identifier.name;
if source_name.as_str() == "mod" || source_name.as_str() == "self" {
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resolve_error(self,
view_path.span,
ResolutionError::SelfImportsOnlyAllowedWithin);
}
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let subclass = ImportDirectiveSubclass::single(binding.name, source_name);
let span = view_path.span;
self.add_import_directive(module_path, subclass, span, item.id, vis);
}
ViewPathList(_, ref source_items) => {
// Make sure there's at most one `mod` import in the list.
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let mod_spans = source_items.iter().filter_map(|item| {
if item.node.name.name == keywords::SelfValue.name() {
Some(item.span)
} else {
None
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}
}).collect::<Vec<Span>>();
if mod_spans.len() > 1 {
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let mut e = resolve_struct_error(self,
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mod_spans[0],
ResolutionError::SelfImportCanOnlyAppearOnceInTheList);
for other_span in mod_spans.iter().skip(1) {
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e.span_note(*other_span, "another `self` import appears here");
}
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e.emit();
}
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for source_item in source_items {
let node = source_item.node;
let (module_path, name, rename) = {
if node.name.name != keywords::SelfValue.name() {
let rename = node.rename.unwrap_or(node.name).name;
(module_path.clone(), node.name.name, rename)
} else {
let name = match module_path.last() {
Some(name) => *name,
None => {
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resolve_error(
self,
source_item.span,
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ResolutionError::
SelfImportOnlyInImportListWithNonEmptyPrefix
);
continue;
}
};
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let module_path = module_path.split_last().unwrap().1;
let rename = node.rename.map(|i| i.name).unwrap_or(name);
(module_path.to_vec(), name, rename)
}
};
let subclass = ImportDirectiveSubclass::single(rename, name);
let (span, id) = (source_item.span, source_item.node.id);
self.add_import_directive(module_path, subclass, span, id, vis);
}
}
ViewPathGlob(_) => {
let subclass = GlobImport { is_prelude: is_prelude };
let span = view_path.span;
self.add_import_directive(module_path, subclass, span, item.id, vis);
}
}
}
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ItemKind::ExternCrate(_) => {
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// n.b. we don't need to look at the path option here, because cstore already
// did
if let Some(crate_id) = self.session.cstore.extern_mod_stmt_cnum(item.id) {
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let def_id = DefId {
krate: crate_id,
index: CRATE_DEF_INDEX,
};
let parent_link = ModuleParentLink(parent, name);
let def = Def::Mod(def_id);
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let module = self.new_extern_crate_module(parent_link, def, item.id);
self.define(parent, name, TypeNS, (module, sp, vis));
self.build_reduced_graph_for_external_crate(module);
}
}
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ItemKind::Mod(..) => {
let parent_link = ModuleParentLink(parent, name);
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let def = Def::Mod(self.definitions.local_def_id(item.id));
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let module = self.new_module(parent_link, Some(def), false);
module.no_implicit_prelude.set({
parent.no_implicit_prelude.get() ||
attr::contains_name(&item.attrs, "no_implicit_prelude")
});
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self.define(parent, name, TypeNS, (module, sp, vis));
self.module_map.insert(item.id, module);
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// Descend into the module.
self.current_module = module;
self.current_vis = ty::Visibility::Restricted(item.id);
}
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ItemKind::ForeignMod(..) => {}
// These items live in the value namespace.
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ItemKind::Static(_, m, _) => {
let mutbl = m == Mutability::Mutable;
let def = Def::Static(self.definitions.local_def_id(item.id), mutbl);
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self.define(parent, name, ValueNS, (def, sp, vis));
}
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ItemKind::Const(_, _) => {
let def = Def::Const(self.definitions.local_def_id(item.id));
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self.define(parent, name, ValueNS, (def, sp, vis));
}
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ItemKind::Fn(_, _, _, _, _, _) => {
let def = Def::Fn(self.definitions.local_def_id(item.id));
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self.define(parent, name, ValueNS, (def, sp, vis));
}
// These items live in the type namespace.
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ItemKind::Ty(..) => {
let def = Def::TyAlias(self.definitions.local_def_id(item.id));
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self.define(parent, name, TypeNS, (def, sp, vis));
}
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ItemKind::Enum(ref enum_definition, _) => {
let parent_link = ModuleParentLink(parent, name);
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let def = Def::Enum(self.definitions.local_def_id(item.id));
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let module = self.new_module(parent_link, Some(def), false);
self.define(parent, name, TypeNS, (module, sp, vis));
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for variant in &(*enum_definition).variants {
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let item_def_id = self.definitions.local_def_id(item.id);
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self.build_reduced_graph_for_variant(variant, item_def_id, module, vis);
}
}
// These items live in both the type and value namespaces.
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ItemKind::Struct(ref struct_def, _) => {
// Define a name in the type namespace.
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let def = Def::Struct(self.definitions.local_def_id(item.id));
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self.define(parent, name, TypeNS, (def, sp, vis));
// If this is a newtype or unit-like struct, define a name
// in the value namespace as well
if !struct_def.is_struct() {
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let def = Def::Struct(self.definitions.local_def_id(struct_def.id()));
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self.define(parent, name, ValueNS, (def, sp, vis));
}
// Record the def ID and fields of this struct.
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let field_names = struct_def.fields().iter().enumerate().map(|(index, field)| {
self.resolve_visibility(&field.vis);
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field.ident.map(|ident| ident.name)
.unwrap_or_else(|| token::intern(&index.to_string()))
}).collect();
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let item_def_id = self.definitions.local_def_id(item.id);
self.structs.insert(item_def_id, field_names);
}
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ItemKind::DefaultImpl(_, _) | ItemKind::Impl(..) => {}
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ItemKind::Trait(_, _, _, ref items) => {
let def_id = self.definitions.local_def_id(item.id);
// Add all the items within to a new module.
let parent_link = ModuleParentLink(parent, name);
let def = Def::Trait(def_id);
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let module_parent = self.new_module(parent_link, Some(def), false);
self.define(parent, name, TypeNS, (module_parent, sp, vis));
// Add the names of all the items to the trait info.
for item in items {
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let item_def_id = self.definitions.local_def_id(item.id);
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let mut is_static_method = false;
let (def, ns) = match item.node {
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TraitItemKind::Const(..) => (Def::AssociatedConst(item_def_id), ValueNS),
TraitItemKind::Method(ref sig, _) => {
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is_static_method = !sig.decl.has_self();
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(Def::Method(item_def_id), ValueNS)
}
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TraitItemKind::Type(..) => (Def::AssociatedTy(def_id, item_def_id), TypeNS),
TraitItemKind::Macro(_) => panic!("unexpanded macro in resolve!"),
};
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self.define(module_parent, item.ident.name, ns, (def, item.span, vis));
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self.trait_item_map.insert((item.ident.name, def_id), is_static_method);
}
}
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ItemKind::Mac(_) => panic!("unexpanded macro in resolve!"),
}
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visit::walk_item(&mut BuildReducedGraphVisitor { resolver: self }, item);
self.current_module = parent;
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self.current_vis = parent_vis;
}
// Constructs the reduced graph for one variant. Variants exist in the
// type and value namespaces.
fn build_reduced_graph_for_variant(&mut self,
variant: &Variant,
item_id: DefId,
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parent: Module<'b>,
vis: ty::Visibility) {
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let name = variant.node.name.name;
if variant.node.data.is_struct() {
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// Not adding fields for variants as they are not accessed with a self receiver
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let variant_def_id = self.definitions.local_def_id(variant.node.data.id());
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self.structs.insert(variant_def_id, Vec::new());
}
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// Variants are always treated as importable to allow them to be glob used.
// All variants are defined in both type and value namespaces as future-proofing.
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let def = Def::Variant(item_id, self.definitions.local_def_id(variant.node.data.id()));
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self.define(parent, name, ValueNS, (def, variant.span, vis));
self.define(parent, name, TypeNS, (def, variant.span, vis));
}
/// Constructs the reduced graph for one foreign item.
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fn build_reduced_graph_for_foreign_item(&mut self, foreign_item: &ForeignItem) {
let parent = self.current_module;
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let name = foreign_item.ident.name;
let def = match foreign_item.node {
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ForeignItemKind::Fn(..) => {
Def::Fn(self.definitions.local_def_id(foreign_item.id))
}
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ForeignItemKind::Static(_, m) => {
Def::Static(self.definitions.local_def_id(foreign_item.id), m)
}
};
let vis = self.resolve_visibility(&foreign_item.vis);
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self.define(parent, name, ValueNS, (def, foreign_item.span, vis));
}
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fn build_reduced_graph_for_block(&mut self, block: &Block) {
let parent = self.current_module;
if self.block_needs_anonymous_module(block) {
let block_id = block.id;
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debug!("(building reduced graph for block) creating a new anonymous module for block \
{}",
block_id);
let parent_link = BlockParentLink(parent, block_id);
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let new_module = self.new_module(parent_link, None, false);
self.module_map.insert(block_id, new_module);
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self.current_module = new_module; // Descend into the block.
}
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visit::walk_block(&mut BuildReducedGraphVisitor { resolver: self }, block);
self.current_module = parent;
}
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/// Builds the reduced graph for a single item in an external crate.
fn build_reduced_graph_for_external_crate_def(&mut self, parent: Module<'b>, xcdef: ChildItem) {
let def = match xcdef.def {
DlDef(def) => def,
_ => return,
};
if let Def::ForeignMod(def_id) = def {
// Foreign modules have no names. Recur and populate eagerly.
for child in self.session.cstore.item_children(def_id) {
self.build_reduced_graph_for_external_crate_def(parent, child);
}
return;
}
let name = xcdef.name;
let vis = if parent.is_trait() { ty::Visibility::Public } else { xcdef.vis };
match def {
Def::Mod(_) | Def::ForeignMod(_) | Def::Enum(..) => {
debug!("(building reduced graph for external crate) building module {} {:?}",
name, vis);
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let parent_link = ModuleParentLink(parent, name);
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let module = self.new_module(parent_link, Some(def), true);
let _ = self.try_define(parent, name, TypeNS, (module, DUMMY_SP, vis));
}
Def::Variant(_, variant_id) => {
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debug!("(building reduced graph for external crate) building variant {}", name);
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// Variants are always treated as importable to allow them to be glob used.
// All variants are defined in both type and value namespaces as future-proofing.
let _ = self.try_define(parent, name, TypeNS, (def, DUMMY_SP, vis));
let _ = self.try_define(parent, name, ValueNS, (def, DUMMY_SP, vis));
if self.session.cstore.variant_kind(variant_id) == Some(VariantKind::Struct) {
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// Not adding fields for variants as they are not accessed with a self receiver
self.structs.insert(variant_id, Vec::new());
}
}
Def::Fn(..) |
Def::Static(..) |
Def::Const(..) |
Def::AssociatedConst(..) |
Def::Method(..) => {
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debug!("(building reduced graph for external crate) building value (fn/static) {}",
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name);
let _ = self.try_define(parent, name, ValueNS, (def, DUMMY_SP, vis));
}
Def::Trait(def_id) => {
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debug!("(building reduced graph for external crate) building type {}", name);
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// If this is a trait, add all the trait item names to the trait
// info.
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let trait_item_def_ids = self.session.cstore.trait_item_def_ids(def_id);
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for trait_item_def in &trait_item_def_ids {
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let trait_item_name =
self.session.cstore.item_name(trait_item_def.def_id());
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debug!("(building reduced graph for external crate) ... adding trait item \
'{}'",
trait_item_name);
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self.trait_item_map.insert((trait_item_name, def_id), false);
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}
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let parent_link = ModuleParentLink(parent, name);
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let module = self.new_module(parent_link, Some(def), true);
let _ = self.try_define(parent, name, TypeNS, (module, DUMMY_SP, vis));
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}
Def::TyAlias(..) | Def::AssociatedTy(..) => {
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debug!("(building reduced graph for external crate) building type {}", name);
let _ = self.try_define(parent, name, TypeNS, (def, DUMMY_SP, vis));
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}
Def::Struct(def_id)
if self.session.cstore.tuple_struct_definition_if_ctor(def_id).is_none() => {
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debug!("(building reduced graph for external crate) building type and value for {}",
name);
let _ = self.try_define(parent, name, TypeNS, (def, DUMMY_SP, vis));
if let Some(ctor_def_id) = self.session.cstore.struct_ctor_def_id(def_id) {
let def = Def::Struct(ctor_def_id);
let _ = self.try_define(parent, name, ValueNS, (def, DUMMY_SP, vis));
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}
// Record the def ID and fields of this struct.
let fields = self.session.cstore.struct_field_names(def_id);
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self.structs.insert(def_id, fields);
}
Def::Struct(..) => {}
Def::Local(..) |
Def::PrimTy(..) |
Def::TyParam(..) |
Def::Upvar(..) |
Def::Label(..) |
Def::SelfTy(..) |
Def::Err => {
bug!("didn't expect `{:?}`", def);
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}
}
}
/// Builds the reduced graph rooted at the 'use' directive for an external
/// crate.
fn build_reduced_graph_for_external_crate(&mut self, root: Module<'b>) {
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let root_cnum = root.def_id().unwrap().krate;
for child in self.session.cstore.crate_top_level_items(root_cnum) {
self.build_reduced_graph_for_external_crate_def(root, child);
}
}
/// Ensures that the reduced graph rooted at the given external module
/// is built, building it if it is not.
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pub fn populate_module_if_necessary(&mut self, module: Module<'b>) {
if module.populated.get() { return }
for child in self.session.cstore.item_children(module.def_id().unwrap()) {
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self.build_reduced_graph_for_external_crate_def(module, child);
}
module.populated.set(true)
}
}
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struct BuildReducedGraphVisitor<'a, 'b: 'a> {
resolver: &'a mut Resolver<'b>,
}
impl<'a, 'b> Visitor for BuildReducedGraphVisitor<'a, 'b> {
fn visit_item(&mut self, item: &Item) {
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self.resolver.build_reduced_graph_for_item(item);
}
fn visit_foreign_item(&mut self, foreign_item: &ForeignItem) {
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self.resolver.build_reduced_graph_for_foreign_item(foreign_item);
}
fn visit_block(&mut self, block: &Block) {
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self.resolver.build_reduced_graph_for_block(block);
}
}