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fuchsia / third_party / rust / 1.7.0 / . / src / librustc_metadata / decoder.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.
// Decoding metadata from a single crate's metadata
#![allow(non_camel_case_types)]
use self::Family::*;
use cstore::{self, crate_metadata};
use common::*;
use encoder::def_to_u64;
use index;
use tls_context;
use tydecode::TyDecoder;
use rustc::back::svh::Svh;
use rustc::front::map as hir_map;
use rustc::util::nodemap::FnvHashMap;
use rustc_front::hir;
use middle::cstore::{LOCAL_CRATE, FoundAst, InlinedItem, LinkagePreference};
use middle::cstore::{DefLike, DlDef, DlField, DlImpl, tls};
use middle::def;
use middle::def_id::{DefId, DefIndex};
use middle::lang_items;
use middle::subst;
use middle::ty::{ImplContainer, TraitContainer};
use middle::ty::{self, Ty, TypeFoldable};
use rustc::mir;
use rustc::mir::visit::MutVisitor;
use std::cell::Cell;
use std::io::prelude::*;
use std::io;
use std::rc::Rc;
use std::str;
use rbml::reader;
use rbml;
use serialize::Decodable;
use syntax::attr;
use syntax::parse::token::{IdentInterner, special_idents};
use syntax::parse::token;
use syntax::ast;
use syntax::abi;
use syntax::codemap::{self, Span};
use syntax::print::pprust;
use syntax::ptr::P;
pub type Cmd<'a> = &'a crate_metadata;
impl crate_metadata {
fn get_item(&self, item_id: DefIndex) -> Option<rbml::Doc> {
self.index.lookup_item(self.data(), item_id).map(|pos| {
reader::doc_at(self.data(), pos as usize).unwrap().doc
})
}
fn lookup_item(&self, item_id: DefIndex) -> rbml::Doc {
match self.get_item(item_id) {
None => panic!("lookup_item: id not found: {:?}", item_id),
Some(d) => d
}
}
}
pub fn load_index(data: &[u8]) -> index::Index {
let index = reader::get_doc(rbml::Doc::new(data), tag_index);
index::Index::from_rbml(index)
}
pub fn crate_rustc_version(data: &[u8]) -> Option<String> {
let doc = rbml::Doc::new(data);
reader::maybe_get_doc(doc, tag_rustc_version).map(|s| s.as_str())
}
pub fn load_xrefs(data: &[u8]) -> index::DenseIndex {
let index = reader::get_doc(rbml::Doc::new(data), tag_xref_index);
index::DenseIndex::from_buf(index.data, index.start, index.end)
}
#[derive(Debug, PartialEq)]
enum Family {
ImmStatic, // c
MutStatic, // b
Fn, // f
CtorFn, // o
StaticMethod, // F
Method, // h
Type, // y
Mod, // m
ForeignMod, // n
Enum, // t
StructVariant, // V
TupleVariant, // v
UnitVariant, // w
Impl, // i
DefaultImpl, // d
Trait, // I
Struct, // S
TupleStruct, // s
UnitStruct, // u
PublicField, // g
InheritedField, // N
Constant, // C
}
fn item_family(item: rbml::Doc) -> Family {
let fam = reader::get_doc(item, tag_items_data_item_family);
match reader::doc_as_u8(fam) as char {
'C' => Constant,
'c' => ImmStatic,
'b' => MutStatic,
'f' => Fn,
'o' => CtorFn,
'F' => StaticMethod,
'h' => Method,
'y' => Type,
'm' => Mod,
'n' => ForeignMod,
't' => Enum,
'V' => StructVariant,
'v' => TupleVariant,
'w' => UnitVariant,
'i' => Impl,
'd' => DefaultImpl,
'I' => Trait,
'S' => Struct,
's' => TupleStruct,
'u' => UnitStruct,
'g' => PublicField,
'N' => InheritedField,
c => panic!("unexpected family char: {}", c)
}
}
fn item_visibility(item: rbml::Doc) -> hir::Visibility {
match reader::maybe_get_doc(item, tag_items_data_item_visibility) {
None => hir::Public,
Some(visibility_doc) => {
match reader::doc_as_u8(visibility_doc) as char {
'y' => hir::Public,
'i' => hir::Inherited,
_ => panic!("unknown visibility character")
}
}
}
}
fn fn_constness(item: rbml::Doc) -> hir::Constness {
match reader::maybe_get_doc(item, tag_items_data_item_constness) {
None => hir::Constness::NotConst,
Some(constness_doc) => {
match reader::doc_as_u8(constness_doc) as char {
'c' => hir::Constness::Const,
'n' => hir::Constness::NotConst,
_ => panic!("unknown constness character")
}
}
}
}
fn item_sort(item: rbml::Doc) -> Option<char> {
reader::tagged_docs(item, tag_item_trait_item_sort).nth(0).map(|doc| {
doc.as_str_slice().as_bytes()[0] as char
})
}
fn item_symbol(item: rbml::Doc) -> String {
reader::get_doc(item, tag_items_data_item_symbol).as_str().to_string()
}
fn translated_def_id(cdata: Cmd, d: rbml::Doc) -> DefId {
let id = reader::doc_as_u64(d);
let index = DefIndex::new((id & 0xFFFF_FFFF) as usize);
let def_id = DefId { krate: (id >> 32) as u32, index: index };
translate_def_id(cdata, def_id)
}
fn item_parent_item(cdata: Cmd, d: rbml::Doc) -> Option<DefId> {
reader::tagged_docs(d, tag_items_data_parent_item).nth(0).map(|did| {
translated_def_id(cdata, did)
})
}
fn item_require_parent_item(cdata: Cmd, d: rbml::Doc) -> DefId {
translated_def_id(cdata, reader::get_doc(d, tag_items_data_parent_item))
}
fn item_def_id(d: rbml::Doc, cdata: Cmd) -> DefId {
translated_def_id(cdata, reader::get_doc(d, tag_def_id))
}
fn reexports<'a>(d: rbml::Doc<'a>) -> reader::TaggedDocsIterator<'a> {
reader::tagged_docs(d, tag_items_data_item_reexport)
}
fn variant_disr_val(d: rbml::Doc) -> Option<ty::Disr> {
reader::maybe_get_doc(d, tag_disr_val).and_then(|val_doc| {
reader::with_doc_data(val_doc, |data| {
str::from_utf8(data).ok().and_then(|s| s.parse().ok())
})
})
}
fn doc_type<'tcx>(doc: rbml::Doc, tcx: &ty::ctxt<'tcx>, cdata: Cmd) -> Ty<'tcx> {
let tp = reader::get_doc(doc, tag_items_data_item_type);
TyDecoder::with_doc(tcx, cdata.cnum, tp,
&mut |did| translate_def_id(cdata, did))
.parse_ty()
}
fn maybe_doc_type<'tcx>(doc: rbml::Doc, tcx: &ty::ctxt<'tcx>, cdata: Cmd) -> Option<Ty<'tcx>> {
reader::maybe_get_doc(doc, tag_items_data_item_type).map(|tp| {
TyDecoder::with_doc(tcx, cdata.cnum, tp,
&mut |did| translate_def_id(cdata, did))
.parse_ty()
})
}
pub fn item_type<'tcx>(_item_id: DefId, item: rbml::Doc,
tcx: &ty::ctxt<'tcx>, cdata: Cmd) -> Ty<'tcx> {
doc_type(item, tcx, cdata)
}
fn doc_trait_ref<'tcx>(doc: rbml::Doc, tcx: &ty::ctxt<'tcx>, cdata: Cmd)
-> ty::TraitRef<'tcx> {
TyDecoder::with_doc(tcx, cdata.cnum, doc,
&mut |did| translate_def_id(cdata, did))
.parse_trait_ref()
}
fn item_trait_ref<'tcx>(doc: rbml::Doc, tcx: &ty::ctxt<'tcx>, cdata: Cmd)
-> ty::TraitRef<'tcx> {
let tp = reader::get_doc(doc, tag_item_trait_ref);
doc_trait_ref(tp, tcx, cdata)
}
fn item_path(item_doc: rbml::Doc) -> Vec<hir_map::PathElem> {
let path_doc = reader::get_doc(item_doc, tag_path);
reader::docs(path_doc).filter_map(|(tag, elt_doc)| {
if tag == tag_path_elem_mod {
let s = elt_doc.as_str_slice();
Some(hir_map::PathMod(token::intern(s)))
} else if tag == tag_path_elem_name {
let s = elt_doc.as_str_slice();
Some(hir_map::PathName(token::intern(s)))
} else {
// ignore tag_path_len element
None
}
}).collect()
}
fn item_name(intr: &IdentInterner, item: rbml::Doc) -> ast::Name {
let name = reader::get_doc(item, tag_paths_data_name);
let string = name.as_str_slice();
match intr.find(string) {
None => token::intern(string),
Some(val) => val,
}
}
fn item_to_def_like(cdata: Cmd, item: rbml::Doc, did: DefId) -> DefLike {
let fam = item_family(item);
match fam {
Constant => {
// Check whether we have an associated const item.
match item_sort(item) {
Some('C') | Some('c') => {
DlDef(def::DefAssociatedConst(did))
}
_ => {
// Regular const item.
DlDef(def::DefConst(did))
}
}
}
ImmStatic => DlDef(def::DefStatic(did, false)),
MutStatic => DlDef(def::DefStatic(did, true)),
Struct | TupleStruct | UnitStruct => DlDef(def::DefStruct(did)),
Fn => DlDef(def::DefFn(did, false)),
CtorFn => DlDef(def::DefFn(did, true)),
Method | StaticMethod => {
DlDef(def::DefMethod(did))
}
Type => {
if item_sort(item) == Some('t') {
let trait_did = item_require_parent_item(cdata, item);
DlDef(def::DefAssociatedTy(trait_did, did))
} else {
DlDef(def::DefTy(did, false))
}
}
Mod => DlDef(def::DefMod(did)),
ForeignMod => DlDef(def::DefForeignMod(did)),
StructVariant => {
let enum_did = item_require_parent_item(cdata, item);
DlDef(def::DefVariant(enum_did, did, true))
}
TupleVariant | UnitVariant => {
let enum_did = item_require_parent_item(cdata, item);
DlDef(def::DefVariant(enum_did, did, false))
}
Trait => DlDef(def::DefTrait(did)),
Enum => DlDef(def::DefTy(did, true)),
Impl | DefaultImpl => DlImpl(did),
PublicField | InheritedField => DlField,
}
}
fn parse_unsafety(item_doc: rbml::Doc) -> hir::Unsafety {
let unsafety_doc = reader::get_doc(item_doc, tag_unsafety);
if reader::doc_as_u8(unsafety_doc) != 0 {
hir::Unsafety::Unsafe
} else {
hir::Unsafety::Normal
}
}
fn parse_paren_sugar(item_doc: rbml::Doc) -> bool {
let paren_sugar_doc = reader::get_doc(item_doc, tag_paren_sugar);
reader::doc_as_u8(paren_sugar_doc) != 0
}
fn parse_polarity(item_doc: rbml::Doc) -> hir::ImplPolarity {
let polarity_doc = reader::get_doc(item_doc, tag_polarity);
if reader::doc_as_u8(polarity_doc) != 0 {
hir::ImplPolarity::Negative
} else {
hir::ImplPolarity::Positive
}
}
fn parse_associated_type_names(item_doc: rbml::Doc) -> Vec<ast::Name> {
let names_doc = reader::get_doc(item_doc, tag_associated_type_names);
reader::tagged_docs(names_doc, tag_associated_type_name)
.map(|name_doc| token::intern(name_doc.as_str_slice()))
.collect()
}
pub fn get_trait_def<'tcx>(cdata: Cmd,
item_id: DefIndex,
tcx: &ty::ctxt<'tcx>) -> ty::TraitDef<'tcx>
{
let item_doc = cdata.lookup_item(item_id);
let generics = doc_generics(item_doc, tcx, cdata, tag_item_generics);
let unsafety = parse_unsafety(item_doc);
let associated_type_names = parse_associated_type_names(item_doc);
let paren_sugar = parse_paren_sugar(item_doc);
ty::TraitDef::new(unsafety,
paren_sugar,
generics,
item_trait_ref(item_doc, tcx, cdata),
associated_type_names)
}
pub fn get_adt_def<'tcx>(intr: &IdentInterner,
cdata: Cmd,
item_id: DefIndex,
tcx: &ty::ctxt<'tcx>) -> ty::AdtDefMaster<'tcx>
{
fn family_to_variant_kind<'tcx>(family: Family, tcx: &ty::ctxt<'tcx>) -> ty::VariantKind {
match family {
Struct | StructVariant => ty::VariantKind::Struct,
TupleStruct | TupleVariant => ty::VariantKind::Tuple,
UnitStruct | UnitVariant => ty::VariantKind::Unit,
_ => tcx.sess.bug(&format!("unexpected family: {:?}", family)),
}
}
fn get_enum_variants<'tcx>(intr: &IdentInterner,
cdata: Cmd,
doc: rbml::Doc,
tcx: &ty::ctxt<'tcx>) -> Vec<ty::VariantDefData<'tcx, 'tcx>> {
let mut disr_val = 0;
reader::tagged_docs(doc, tag_items_data_item_variant).map(|p| {
let did = translated_def_id(cdata, p);
let item = cdata.lookup_item(did.index);
if let Some(disr) = variant_disr_val(item) {
disr_val = disr;
}
let disr = disr_val;
disr_val = disr_val.wrapping_add(1);
ty::VariantDefData {
did: did,
name: item_name(intr, item),
fields: get_variant_fields(intr, cdata, item, tcx),
disr_val: disr,
kind: family_to_variant_kind(item_family(item), tcx),
}
}).collect()
}
fn get_variant_fields<'tcx>(intr: &IdentInterner,
cdata: Cmd,
doc: rbml::Doc,
tcx: &ty::ctxt<'tcx>) -> Vec<ty::FieldDefData<'tcx, 'tcx>> {
reader::tagged_docs(doc, tag_item_field).map(|f| {
let ff = item_family(f);
match ff {
PublicField | InheritedField => {},
_ => tcx.sess.bug(&format!("expected field, found {:?}", ff))
};
ty::FieldDefData::new(item_def_id(f, cdata),
item_name(intr, f),
struct_field_family_to_visibility(ff))
}).chain(reader::tagged_docs(doc, tag_item_unnamed_field).map(|f| {
let ff = item_family(f);
ty::FieldDefData::new(item_def_id(f, cdata),
special_idents::unnamed_field.name,
struct_field_family_to_visibility(ff))
})).collect()
}
fn get_struct_variant<'tcx>(intr: &IdentInterner,
cdata: Cmd,
doc: rbml::Doc,
did: DefId,
tcx: &ty::ctxt<'tcx>) -> ty::VariantDefData<'tcx, 'tcx> {
ty::VariantDefData {
did: did,
name: item_name(intr, doc),
fields: get_variant_fields(intr, cdata, doc, tcx),
disr_val: 0,
kind: family_to_variant_kind(item_family(doc), tcx),
}
}
let doc = cdata.lookup_item(item_id);
let did = DefId { krate: cdata.cnum, index: item_id };
let (kind, variants) = match item_family(doc) {
Enum => {
(ty::AdtKind::Enum,
get_enum_variants(intr, cdata, doc, tcx))
}
Struct | TupleStruct | UnitStruct => {
let ctor_did =
reader::maybe_get_doc(doc, tag_items_data_item_struct_ctor).
map_or(did, |ctor_doc| translated_def_id(cdata, ctor_doc));
(ty::AdtKind::Struct,
vec![get_struct_variant(intr, cdata, doc, ctor_did, tcx)])
}
_ => tcx.sess.bug(
&format!("get_adt_def called on a non-ADT {:?} - {:?}",
item_family(doc), did))
};
let adt = tcx.intern_adt_def(did, kind, variants);
// this needs to be done *after* the variant is interned,
// to support recursive structures
for variant in &adt.variants {
if variant.kind() == ty::VariantKind::Tuple &&
adt.adt_kind() == ty::AdtKind::Enum {
// tuple-like enum variant fields aren't real items - get the types
// from the ctor.
debug!("evaluating the ctor-type of {:?}",
variant.name);
let ctor_ty = get_type(cdata, variant.did.index, tcx).ty;
debug!("evaluating the ctor-type of {:?}.. {:?}",
variant.name,
ctor_ty);
let field_tys = match ctor_ty.sty {
ty::TyBareFn(_, &ty::BareFnTy { sig: ty::Binder(ty::FnSig {
ref inputs, ..
}), ..}) => {
// tuple-struct constructors don't have escaping regions
assert!(!inputs.has_escaping_regions());
inputs
},
_ => tcx.sess.bug("tuple-variant ctor is not an ADT")
};
for (field, &ty) in variant.fields.iter().zip(field_tys.iter()) {
field.fulfill_ty(ty);
}
} else {
for field in &variant.fields {
debug!("evaluating the type of {:?}::{:?}", variant.name, field.name);
let ty = get_type(cdata, field.did.index, tcx).ty;
field.fulfill_ty(ty);
debug!("evaluating the type of {:?}::{:?}: {:?}",
variant.name, field.name, ty);
}
}
}
adt
}
pub fn get_predicates<'tcx>(cdata: Cmd,
item_id: DefIndex,
tcx: &ty::ctxt<'tcx>)
-> ty::GenericPredicates<'tcx>
{
let item_doc = cdata.lookup_item(item_id);
doc_predicates(item_doc, tcx, cdata, tag_item_generics)
}
pub fn get_super_predicates<'tcx>(cdata: Cmd,
item_id: DefIndex,
tcx: &ty::ctxt<'tcx>)
-> ty::GenericPredicates<'tcx>
{
let item_doc = cdata.lookup_item(item_id);
doc_predicates(item_doc, tcx, cdata, tag_item_super_predicates)
}
pub fn get_type<'tcx>(cdata: Cmd, id: DefIndex, tcx: &ty::ctxt<'tcx>)
-> ty::TypeScheme<'tcx>
{
let item_doc = cdata.lookup_item(id);
let t = item_type(DefId { krate: cdata.cnum, index: id }, item_doc, tcx,
cdata);
let generics = doc_generics(item_doc, tcx, cdata, tag_item_generics);
ty::TypeScheme {
generics: generics,
ty: t
}
}
pub fn get_stability(cdata: Cmd, id: DefIndex) -> Option<attr::Stability> {
let item = cdata.lookup_item(id);
reader::maybe_get_doc(item, tag_items_data_item_stability).map(|doc| {
let mut decoder = reader::Decoder::new(doc);
Decodable::decode(&mut decoder).unwrap()
})
}
pub fn get_deprecation(cdata: Cmd, id: DefIndex) -> Option<attr::Deprecation> {
let item = cdata.lookup_item(id);
reader::maybe_get_doc(item, tag_items_data_item_deprecation).map(|doc| {
let mut decoder = reader::Decoder::new(doc);
Decodable::decode(&mut decoder).unwrap()
})
}
pub fn get_repr_attrs(cdata: Cmd, id: DefIndex) -> Vec<attr::ReprAttr> {
let item = cdata.lookup_item(id);
match reader::maybe_get_doc(item, tag_items_data_item_repr).map(|doc| {
let mut decoder = reader::Decoder::new(doc);
Decodable::decode(&mut decoder).unwrap()
}) {
Some(attrs) => attrs,
None => Vec::new(),
}
}
pub fn get_impl_polarity<'tcx>(cdata: Cmd,
id: DefIndex)
-> Option<hir::ImplPolarity>
{
let item_doc = cdata.lookup_item(id);
let fam = item_family(item_doc);
match fam {
Family::Impl => {
Some(parse_polarity(item_doc))
}
_ => None
}
}
pub fn get_custom_coerce_unsized_kind<'tcx>(
cdata: Cmd,
id: DefIndex)
-> Option<ty::adjustment::CustomCoerceUnsized>
{
let item_doc = cdata.lookup_item(id);
reader::maybe_get_doc(item_doc, tag_impl_coerce_unsized_kind).map(|kind_doc| {
let mut decoder = reader::Decoder::new(kind_doc);
Decodable::decode(&mut decoder).unwrap()
})
}
pub fn get_impl_trait<'tcx>(cdata: Cmd,
id: DefIndex,
tcx: &ty::ctxt<'tcx>)
-> Option<ty::TraitRef<'tcx>>
{
let item_doc = cdata.lookup_item(id);
let fam = item_family(item_doc);
match fam {
Family::Impl | Family::DefaultImpl => {
reader::maybe_get_doc(item_doc, tag_item_trait_ref).map(|tp| {
doc_trait_ref(tp, tcx, cdata)
})
}
_ => None
}
}
pub fn get_symbol(cdata: Cmd, id: DefIndex) -> String {
return item_symbol(cdata.lookup_item(id));
}
/// If you have a crate_metadata, call get_symbol instead
pub fn get_symbol_from_buf(data: &[u8], id: DefIndex) -> String {
let index = load_index(data);
let pos = index.lookup_item(data, id).unwrap();
let doc = reader::doc_at(data, pos as usize).unwrap().doc;
item_symbol(doc)
}
/// Iterates over the language items in the given crate.
pub fn each_lang_item<F>(cdata: Cmd, mut f: F) -> bool where
F: FnMut(DefIndex, usize) -> bool,
{
let root = rbml::Doc::new(cdata.data());
let lang_items = reader::get_doc(root, tag_lang_items);
reader::tagged_docs(lang_items, tag_lang_items_item).all(|item_doc| {
let id_doc = reader::get_doc(item_doc, tag_lang_items_item_id);
let id = reader::doc_as_u32(id_doc) as usize;
let index_doc = reader::get_doc(item_doc, tag_lang_items_item_index);
let index = DefIndex::from_u32(reader::doc_as_u32(index_doc));
f(index, id)
})
}
fn each_child_of_item_or_crate<F, G>(intr: Rc<IdentInterner>,
cdata: Cmd,
item_doc: rbml::Doc,
mut get_crate_data: G,
mut callback: F) where
F: FnMut(DefLike, ast::Name, hir::Visibility),
G: FnMut(ast::CrateNum) -> Rc<crate_metadata>,
{
// Iterate over all children.
for child_info_doc in reader::tagged_docs(item_doc, tag_mod_child) {
let child_def_id = translated_def_id(cdata, child_info_doc);
// This item may be in yet another crate if it was the child of a
// reexport.
let crate_data = if child_def_id.krate == cdata.cnum {
None
} else {
Some(get_crate_data(child_def_id.krate))
};
let crate_data = match crate_data {
Some(ref cdata) => &**cdata,
None => cdata
};
// Get the item.
match crate_data.get_item(child_def_id.index) {
None => {}
Some(child_item_doc) => {
// Hand off the item to the callback.
let child_name = item_name(&*intr, child_item_doc);
let def_like = item_to_def_like(crate_data, child_item_doc, child_def_id);
let visibility = item_visibility(child_item_doc);
callback(def_like, child_name, visibility);
}
}
}
// As a special case, iterate over all static methods of
// associated implementations too. This is a bit of a botch.
// --pcwalton
for inherent_impl_def_id_doc in reader::tagged_docs(item_doc,
tag_items_data_item_inherent_impl) {
let inherent_impl_def_id = item_def_id(inherent_impl_def_id_doc, cdata);
if let Some(inherent_impl_doc) = cdata.get_item(inherent_impl_def_id.index) {
for impl_item_def_id_doc in reader::tagged_docs(inherent_impl_doc,
tag_item_impl_item) {
let impl_item_def_id = item_def_id(impl_item_def_id_doc,
cdata);
if let Some(impl_method_doc) = cdata.get_item(impl_item_def_id.index) {
if let StaticMethod = item_family(impl_method_doc) {
// Hand off the static method to the callback.
let static_method_name = item_name(&*intr, impl_method_doc);
let static_method_def_like = item_to_def_like(cdata, impl_method_doc,
impl_item_def_id);
callback(static_method_def_like,
static_method_name,
item_visibility(impl_method_doc));
}
}
}
}
}
for reexport_doc in reexports(item_doc) {
let def_id_doc = reader::get_doc(reexport_doc,
tag_items_data_item_reexport_def_id);
let child_def_id = translated_def_id(cdata, def_id_doc);
let name_doc = reader::get_doc(reexport_doc,
tag_items_data_item_reexport_name);
let name = name_doc.as_str_slice();
// This reexport may be in yet another crate.
let crate_data = if child_def_id.krate == cdata.cnum {
None
} else {
Some(get_crate_data(child_def_id.krate))
};
let crate_data = match crate_data {
Some(ref cdata) => &**cdata,
None => cdata
};
// Get the item.
if let Some(child_item_doc) = crate_data.get_item(child_def_id.index) {
// Hand off the item to the callback.
let def_like = item_to_def_like(crate_data, child_item_doc, child_def_id);
// These items have a public visibility because they're part of
// a public re-export.
callback(def_like, token::intern(name), hir::Public);
}
}
}
/// Iterates over each child of the given item.
pub fn each_child_of_item<F, G>(intr: Rc<IdentInterner>,
cdata: Cmd,
id: DefIndex,
get_crate_data: G,
callback: F) where
F: FnMut(DefLike, ast::Name, hir::Visibility),
G: FnMut(ast::CrateNum) -> Rc<crate_metadata>,
{
// Find the item.
let item_doc = match cdata.get_item(id) {
None => return,
Some(item_doc) => item_doc,
};
each_child_of_item_or_crate(intr,
cdata,
item_doc,
get_crate_data,
callback)
}
/// Iterates over all the top-level crate items.
pub fn each_top_level_item_of_crate<F, G>(intr: Rc<IdentInterner>,
cdata: Cmd,
get_crate_data: G,
callback: F) where
F: FnMut(DefLike, ast::Name, hir::Visibility),
G: FnMut(ast::CrateNum) -> Rc<crate_metadata>,
{
let root_doc = rbml::Doc::new(cdata.data());
let misc_info_doc = reader::get_doc(root_doc, tag_misc_info);
let crate_items_doc = reader::get_doc(misc_info_doc,
tag_misc_info_crate_items);
each_child_of_item_or_crate(intr,
cdata,
crate_items_doc,
get_crate_data,
callback)
}
pub fn get_item_path(cdata: Cmd, id: DefIndex) -> Vec<hir_map::PathElem> {
item_path(cdata.lookup_item(id))
}
pub fn get_item_name(intr: &IdentInterner, cdata: Cmd, id: DefIndex) -> ast::Name {
item_name(intr, cdata.lookup_item(id))
}
pub type DecodeInlinedItem<'a> =
Box<for<'tcx> FnMut(Cmd,
&ty::ctxt<'tcx>,
Vec<hir_map::PathElem>, // parent_path
hir_map::DefPath, // parent_def_path
rbml::Doc,
DefId)
-> Result<&'tcx InlinedItem, (Vec<hir_map::PathElem>,
hir_map::DefPath)> + 'a>;
pub fn maybe_get_item_ast<'tcx>(cdata: Cmd,
tcx: &ty::ctxt<'tcx>,
id: DefIndex,
mut decode_inlined_item: DecodeInlinedItem)
-> FoundAst<'tcx> {
debug!("Looking up item: {:?}", id);
let item_doc = cdata.lookup_item(id);
let item_did = item_def_id(item_doc, cdata);
let parent_path = {
let mut path = item_path(item_doc);
path.pop();
path
};
let parent_def_path = {
let mut def_path = def_path(cdata, id);
def_path.pop();
def_path
};
match decode_inlined_item(cdata,
tcx,
parent_path,
parent_def_path,
item_doc,
item_did) {
Ok(ii) => FoundAst::Found(ii),
Err((mut parent_path, mut parent_def_path)) => {
match item_parent_item(cdata, item_doc) {
Some(parent_did) => {
// Remove the last element from the paths, since we are now
// trying to inline the parent.
parent_path.pop();
parent_def_path.pop();
let parent_item = cdata.lookup_item(parent_did.index);
match decode_inlined_item(cdata,
tcx,
parent_path,
parent_def_path,
parent_item,
parent_did) {
Ok(ii) => FoundAst::FoundParent(parent_did, ii),
Err(_) => FoundAst::NotFound
}
}
None => FoundAst::NotFound
}
}
}
}
pub fn maybe_get_item_mir<'tcx>(cdata: Cmd,
tcx: &ty::ctxt<'tcx>,
id: DefIndex)
-> Option<mir::repr::Mir<'tcx>> {
let item_doc = cdata.lookup_item(id);
return reader::maybe_get_doc(item_doc, tag_mir as usize).map(|mir_doc| {
let dcx = tls_context::DecodingContext {
crate_metadata: cdata,
tcx: tcx,
};
let mut decoder = reader::Decoder::new(mir_doc);
let mut mir = decoder.read_opaque(|opaque_decoder, _| {
tls::enter_decoding_context(&dcx, opaque_decoder, |_, opaque_decoder| {
Decodable::decode(opaque_decoder)
})
}).unwrap();
let mut def_id_and_span_translator = MirDefIdAndSpanTranslator {
crate_metadata: cdata,
codemap: tcx.sess.codemap(),
last_filemap_index_hint: Cell::new(0),
};
def_id_and_span_translator.visit_mir(&mut mir);
mir
});
struct MirDefIdAndSpanTranslator<'cdata, 'codemap> {
crate_metadata: Cmd<'cdata>,
codemap: &'codemap codemap::CodeMap,
last_filemap_index_hint: Cell<usize>
}
impl<'v, 'cdata, 'codemap> mir::visit::MutVisitor<'v>
for MirDefIdAndSpanTranslator<'cdata, 'codemap>
{
fn visit_def_id(&mut self, def_id: &mut DefId) {
*def_id = translate_def_id(self.crate_metadata, *def_id);
}
fn visit_span(&mut self, span: &mut Span) {
*span = translate_span(self.crate_metadata,
self.codemap,
&self.last_filemap_index_hint,
*span);
}
}
}
fn get_explicit_self(item: rbml::Doc) -> ty::ExplicitSelfCategory {
fn get_mutability(ch: u8) -> hir::Mutability {
match ch as char {
'i' => hir::MutImmutable,
'm' => hir::MutMutable,
_ => panic!("unknown mutability character: `{}`", ch as char),
}
}
let explicit_self_doc = reader::get_doc(item, tag_item_trait_method_explicit_self);
let string = explicit_self_doc.as_str_slice();
let explicit_self_kind = string.as_bytes()[0];
match explicit_self_kind as char {
's' => ty::ExplicitSelfCategory::Static,
'v' => ty::ExplicitSelfCategory::ByValue,
'~' => ty::ExplicitSelfCategory::ByBox,
// FIXME(#4846) expl. region
'&' => {
ty::ExplicitSelfCategory::ByReference(
ty::ReEmpty,
get_mutability(string.as_bytes()[1]))
}
_ => panic!("unknown self type code: `{}`", explicit_self_kind as char)
}
}
/// Returns the def IDs of all the items in the given implementation.
pub fn get_impl_items(cdata: Cmd, impl_id: DefIndex)
-> Vec<ty::ImplOrTraitItemId> {
reader::tagged_docs(cdata.lookup_item(impl_id), tag_item_impl_item).map(|doc| {
let def_id = item_def_id(doc, cdata);
match item_sort(doc) {
Some('C') | Some('c') => ty::ConstTraitItemId(def_id),
Some('r') | Some('p') => ty::MethodTraitItemId(def_id),
Some('t') => ty::TypeTraitItemId(def_id),
_ => panic!("unknown impl item sort"),
}
}).collect()
}
pub fn get_trait_name(intr: Rc<IdentInterner>,
cdata: Cmd,
id: DefIndex)
-> ast::Name {
let doc = cdata.lookup_item(id);
item_name(&*intr, doc)
}
pub fn is_static_method(cdata: Cmd, id: DefIndex) -> bool {
let doc = cdata.lookup_item(id);
match item_sort(doc) {
Some('r') | Some('p') => {
get_explicit_self(doc) == ty::ExplicitSelfCategory::Static
}
_ => false
}
}
pub fn get_impl_or_trait_item<'tcx>(intr: Rc<IdentInterner>,
cdata: Cmd,
id: DefIndex,
tcx: &ty::ctxt<'tcx>)
-> ty::ImplOrTraitItem<'tcx> {
let item_doc = cdata.lookup_item(id);
let def_id = item_def_id(item_doc, cdata);
let container_id = item_require_parent_item(cdata, item_doc);
let container_doc = cdata.lookup_item(container_id.index);
let container = match item_family(container_doc) {
Trait => TraitContainer(container_id),
_ => ImplContainer(container_id),
};
let name = item_name(&*intr, item_doc);
let vis = item_visibility(item_doc);
match item_sort(item_doc) {
sort @ Some('C') | sort @ Some('c') => {
let ty = doc_type(item_doc, tcx, cdata);
ty::ConstTraitItem(Rc::new(ty::AssociatedConst {
name: name,
ty: ty,
vis: vis,
def_id: def_id,
container: container,
has_value: sort == Some('C')
}))
}
Some('r') | Some('p') => {
let generics = doc_generics(item_doc, tcx, cdata, tag_method_ty_generics);
let predicates = doc_predicates(item_doc, tcx, cdata, tag_method_ty_generics);
let ity = tcx.lookup_item_type(def_id).ty;
let fty = match ity.sty {
ty::TyBareFn(_, fty) => fty.clone(),
_ => tcx.sess.bug(&format!(
"the type {:?} of the method {:?} is not a function?",
ity, name))
};
let explicit_self = get_explicit_self(item_doc);
ty::MethodTraitItem(Rc::new(ty::Method::new(name,
generics,
predicates,
fty,
explicit_self,
vis,
def_id,
container)))
}
Some('t') => {
let ty = maybe_doc_type(item_doc, tcx, cdata);
ty::TypeTraitItem(Rc::new(ty::AssociatedType {
name: name,
ty: ty,
vis: vis,
def_id: def_id,
container: container,
}))
}
_ => panic!("unknown impl/trait item sort"),
}
}
pub fn get_trait_item_def_ids(cdata: Cmd, id: DefIndex)
-> Vec<ty::ImplOrTraitItemId> {
let item = cdata.lookup_item(id);
reader::tagged_docs(item, tag_item_trait_item).map(|mth| {
let def_id = item_def_id(mth, cdata);
match item_sort(mth) {
Some('C') | Some('c') => ty::ConstTraitItemId(def_id),
Some('r') | Some('p') => ty::MethodTraitItemId(def_id),
Some('t') => ty::TypeTraitItemId(def_id),
_ => panic!("unknown trait item sort"),
}
}).collect()
}
pub fn get_item_variances(cdata: Cmd, id: DefIndex) -> ty::ItemVariances {
let item_doc = cdata.lookup_item(id);
let variance_doc = reader::get_doc(item_doc, tag_item_variances);
let mut decoder = reader::Decoder::new(variance_doc);
Decodable::decode(&mut decoder).unwrap()
}
pub fn get_provided_trait_methods<'tcx>(intr: Rc<IdentInterner>,
cdata: Cmd,
id: DefIndex,
tcx: &ty::ctxt<'tcx>)
-> Vec<Rc<ty::Method<'tcx>>> {
let item = cdata.lookup_item(id);
reader::tagged_docs(item, tag_item_trait_item).filter_map(|mth_id| {
let did = item_def_id(mth_id, cdata);
let mth = cdata.lookup_item(did.index);
if item_sort(mth) == Some('p') {
let trait_item = get_impl_or_trait_item(intr.clone(),
cdata,
did.index,
tcx);
if let ty::MethodTraitItem(ref method) = trait_item {
Some((*method).clone())
} else {
None
}
} else {
None
}
}).collect()
}
pub fn get_associated_consts<'tcx>(intr: Rc<IdentInterner>,
cdata: Cmd,
id: DefIndex,
tcx: &ty::ctxt<'tcx>)
-> Vec<Rc<ty::AssociatedConst<'tcx>>> {
let item = cdata.lookup_item(id);
[tag_item_trait_item, tag_item_impl_item].iter().flat_map(|&tag| {
reader::tagged_docs(item, tag).filter_map(|ac_id| {
let did = item_def_id(ac_id, cdata);
let ac_doc = cdata.lookup_item(did.index);
match item_sort(ac_doc) {
Some('C') | Some('c') => {
let trait_item = get_impl_or_trait_item(intr.clone(),
cdata,
did.index,
tcx);
if let ty::ConstTraitItem(ref ac) = trait_item {
Some((*ac).clone())
} else {
None
}
}
_ => None
}
})
}).collect()
}
/// If node_id is the constructor of a tuple struct, retrieve the NodeId of
/// the actual type definition, otherwise, return None
pub fn get_tuple_struct_definition_if_ctor(cdata: Cmd,
node_id: DefIndex)
-> Option<DefId>
{
let item = cdata.lookup_item(node_id);
reader::tagged_docs(item, tag_items_data_item_is_tuple_struct_ctor).next().map(|_| {
item_require_parent_item(cdata, item)
})
}
pub fn get_item_attrs(cdata: Cmd,
orig_node_id: DefIndex)
-> Vec<ast::Attribute> {
// The attributes for a tuple struct are attached to the definition, not the ctor;
// we assume that someone passing in a tuple struct ctor is actually wanting to
// look at the definition
let node_id = get_tuple_struct_definition_if_ctor(cdata, orig_node_id);
let node_id = node_id.map(|x| x.index).unwrap_or(orig_node_id);
let item = cdata.lookup_item(node_id);
get_attributes(item)
}
pub fn get_struct_field_attrs(cdata: Cmd) -> FnvHashMap<DefId, Vec<ast::Attribute>> {
let data = rbml::Doc::new(cdata.data());
let fields = reader::get_doc(data, tag_struct_fields);
reader::tagged_docs(fields, tag_struct_field).map(|field| {
let def_id = translated_def_id(cdata, reader::get_doc(field, tag_def_id));
let attrs = get_attributes(field);
(def_id, attrs)
}).collect()
}
fn struct_field_family_to_visibility(family: Family) -> hir::Visibility {
match family {
PublicField => hir::Public,
InheritedField => hir::Inherited,
_ => panic!()
}
}
pub fn get_struct_field_names(intr: &IdentInterner, cdata: Cmd, id: DefIndex)
-> Vec<ast::Name> {
let item = cdata.lookup_item(id);
reader::tagged_docs(item, tag_item_field).map(|an_item| {
item_name(intr, an_item)
}).chain(reader::tagged_docs(item, tag_item_unnamed_field).map(|_| {
special_idents::unnamed_field.name
})).collect()
}
fn get_meta_items(md: rbml::Doc) -> Vec<P<ast::MetaItem>> {
reader::tagged_docs(md, tag_meta_item_word).map(|meta_item_doc| {
let nd = reader::get_doc(meta_item_doc, tag_meta_item_name);
let n = token::intern_and_get_ident(nd.as_str_slice());
attr::mk_word_item(n)
}).chain(reader::tagged_docs(md, tag_meta_item_name_value).map(|meta_item_doc| {
let nd = reader::get_doc(meta_item_doc, tag_meta_item_name);
let vd = reader::get_doc(meta_item_doc, tag_meta_item_value);
let n = token::intern_and_get_ident(nd.as_str_slice());
let v = token::intern_and_get_ident(vd.as_str_slice());
// FIXME (#623): Should be able to decode MetaNameValue variants,
// but currently the encoder just drops them
attr::mk_name_value_item_str(n, v)
})).chain(reader::tagged_docs(md, tag_meta_item_list).map(|meta_item_doc| {
let nd = reader::get_doc(meta_item_doc, tag_meta_item_name);
let n = token::intern_and_get_ident(nd.as_str_slice());
let subitems = get_meta_items(meta_item_doc);
attr::mk_list_item(n, subitems)
})).collect()
}
fn get_attributes(md: rbml::Doc) -> Vec<ast::Attribute> {
match reader::maybe_get_doc(md, tag_attributes) {
Some(attrs_d) => {
reader::tagged_docs(attrs_d, tag_attribute).map(|attr_doc| {
let is_sugared_doc = reader::doc_as_u8(
reader::get_doc(attr_doc, tag_attribute_is_sugared_doc)
) == 1;
let meta_items = get_meta_items(attr_doc);
// Currently it's only possible to have a single meta item on
// an attribute
assert_eq!(meta_items.len(), 1);
let meta_item = meta_items.into_iter().nth(0).unwrap();
codemap::Spanned {
node: ast::Attribute_ {
id: attr::mk_attr_id(),
style: ast::AttrStyle::Outer,
value: meta_item,
is_sugared_doc: is_sugared_doc,
},
span: codemap::DUMMY_SP
}
}).collect()
},
None => vec![],
}
}
fn list_crate_attributes(md: rbml::Doc, hash: &Svh,
out: &mut io::Write) -> io::Result<()> {
try!(write!(out, "=Crate Attributes ({})=\n", *hash));
let r = get_attributes(md);
for attr in &r {
try!(write!(out, "{}\n", pprust::attribute_to_string(attr)));
}
write!(out, "\n\n")
}
pub fn get_crate_attributes(data: &[u8]) -> Vec<ast::Attribute> {
get_attributes(rbml::Doc::new(data))
}
#[derive(Clone)]
pub struct CrateDep {
pub cnum: ast::CrateNum,
pub name: String,
pub hash: Svh,
pub explicitly_linked: bool,
}
pub fn get_crate_deps(data: &[u8]) -> Vec<CrateDep> {
let cratedoc = rbml::Doc::new(data);
let depsdoc = reader::get_doc(cratedoc, tag_crate_deps);
fn docstr(doc: rbml::Doc, tag_: usize) -> String {
let d = reader::get_doc(doc, tag_);
d.as_str_slice().to_string()
}
reader::tagged_docs(depsdoc, tag_crate_dep).enumerate().map(|(crate_num, depdoc)| {
let name = docstr(depdoc, tag_crate_dep_crate_name);
let hash = Svh::new(&docstr(depdoc, tag_crate_dep_hash));
let doc = reader::get_doc(depdoc, tag_crate_dep_explicitly_linked);
let explicitly_linked = reader::doc_as_u8(doc) != 0;
CrateDep {
cnum: crate_num as u32 + 1,
name: name,
hash: hash,
explicitly_linked: explicitly_linked,
}
}).collect()
}
fn list_crate_deps(data: &[u8], out: &mut io::Write) -> io::Result<()> {
try!(write!(out, "=External Dependencies=\n"));
for dep in &get_crate_deps(data) {
try!(write!(out, "{} {}-{}\n", dep.cnum, dep.name, dep.hash));
}
try!(write!(out, "\n"));
Ok(())
}
pub fn maybe_get_crate_hash(data: &[u8]) -> Option<Svh> {
let cratedoc = rbml::Doc::new(data);
reader::maybe_get_doc(cratedoc, tag_crate_hash).map(|doc| {
Svh::new(doc.as_str_slice())
})
}
pub fn get_crate_hash(data: &[u8]) -> Svh {
let cratedoc = rbml::Doc::new(data);
let hashdoc = reader::get_doc(cratedoc, tag_crate_hash);
Svh::new(hashdoc.as_str_slice())
}
pub fn maybe_get_crate_name(data: &[u8]) -> Option<String> {
let cratedoc = rbml::Doc::new(data);
reader::maybe_get_doc(cratedoc, tag_crate_crate_name).map(|doc| {
doc.as_str_slice().to_string()
})
}
pub fn get_crate_triple(data: &[u8]) -> Option<String> {
let cratedoc = rbml::Doc::new(data);
let triple_doc = reader::maybe_get_doc(cratedoc, tag_crate_triple);
triple_doc.map(|s| s.as_str().to_string())
}
pub fn get_crate_name(data: &[u8]) -> String {
maybe_get_crate_name(data).expect("no crate name in crate")
}
pub fn list_crate_metadata(bytes: &[u8], out: &mut io::Write) -> io::Result<()> {
let hash = get_crate_hash(bytes);
let md = rbml::Doc::new(bytes);
try!(list_crate_attributes(md, &hash, out));
list_crate_deps(bytes, out)
}
// Translates a def_id from an external crate to a def_id for the current
// compilation environment. We use this when trying to load types from
// external crates - if those types further refer to types in other crates
// then we must translate the crate number from that encoded in the external
// crate to the correct local crate number.
pub fn translate_def_id(cdata: Cmd, did: DefId) -> DefId {
if did.is_local() {
return DefId { krate: cdata.cnum, index: did.index };
}
match cdata.cnum_map.borrow().get(&did.krate) {
Some(&n) => {
DefId {
krate: n,
index: did.index,
}
}
None => panic!("didn't find a crate in the cnum_map")
}
}
// Translate a DefId from the current compilation environment to a DefId
// for an external crate.
fn reverse_translate_def_id(cdata: Cmd, did: DefId) -> Option<DefId> {
if did.krate == cdata.cnum {
return Some(DefId { krate: LOCAL_CRATE, index: did.index });
}
for (&local, &global) in cdata.cnum_map.borrow().iter() {
if global == did.krate {
return Some(DefId { krate: local, index: did.index });
}
}
None
}
/// Translates a `Span` from an extern crate to the corresponding `Span`
/// within the local crate's codemap.
pub fn translate_span(cdata: Cmd,
codemap: &codemap::CodeMap,
last_filemap_index_hint: &Cell<usize>,
span: codemap::Span)
-> codemap::Span {
let span = if span.lo > span.hi {
// Currently macro expansion sometimes produces invalid Span values
// where lo > hi. In order not to crash the compiler when trying to
// translate these values, let's transform them into something we
// can handle (and which will produce useful debug locations at
// least some of the time).
// This workaround is only necessary as long as macro expansion is
// not fixed. FIXME(#23480)
codemap::mk_sp(span.lo, span.lo)
} else {
span
};
let imported_filemaps = cdata.imported_filemaps(&codemap);
let filemap = {
// Optimize for the case that most spans within a translated item
// originate from the same filemap.
let last_filemap_index = last_filemap_index_hint.get();
let last_filemap = &imported_filemaps[last_filemap_index];
if span.lo >= last_filemap.original_start_pos &&
span.lo <= last_filemap.original_end_pos &&
span.hi >= last_filemap.original_start_pos &&
span.hi <= last_filemap.original_end_pos {
last_filemap
} else {
let mut a = 0;
let mut b = imported_filemaps.len();
while b - a > 1 {
let m = (a + b) / 2;
if imported_filemaps[m].original_start_pos > span.lo {
b = m;
} else {
a = m;
}
}
last_filemap_index_hint.set(a);
&imported_filemaps[a]
}
};
let lo = (span.lo - filemap.original_start_pos) +
filemap.translated_filemap.start_pos;
let hi = (span.hi - filemap.original_start_pos) +
filemap.translated_filemap.start_pos;
codemap::mk_sp(lo, hi)
}
pub fn each_inherent_implementation_for_type<F>(cdata: Cmd,
id: DefIndex,
mut callback: F)
where F: FnMut(DefId),
{
let item_doc = cdata.lookup_item(id);
for impl_doc in reader::tagged_docs(item_doc, tag_items_data_item_inherent_impl) {
if reader::maybe_get_doc(impl_doc, tag_item_trait_ref).is_none() {
callback(item_def_id(impl_doc, cdata));
}
}
}
pub fn each_implementation_for_trait<F>(cdata: Cmd,
def_id: DefId,
mut callback: F) where
F: FnMut(DefId),
{
// Do a reverse lookup beforehand to avoid touching the crate_num
// hash map in the loop below.
if let Some(crate_local_did) = reverse_translate_def_id(cdata, def_id) {
let def_id_u64 = def_to_u64(crate_local_did);
let impls_doc = reader::get_doc(rbml::Doc::new(cdata.data()), tag_impls);
for trait_doc in reader::tagged_docs(impls_doc, tag_impls_trait) {
let trait_def_id = reader::get_doc(trait_doc, tag_def_id);
if reader::doc_as_u64(trait_def_id) != def_id_u64 {
continue;
}
for impl_doc in reader::tagged_docs(trait_doc, tag_impls_trait_impl) {
callback(translated_def_id(cdata, impl_doc));
}
}
}
}
pub fn get_trait_of_item(cdata: Cmd, id: DefIndex, tcx: &ty::ctxt)
-> Option<DefId> {
let item_doc = cdata.lookup_item(id);
let parent_item_id = match item_parent_item(cdata, item_doc) {
None => return None,
Some(item_id) => item_id,
};
let parent_item_doc = cdata.lookup_item(parent_item_id.index);
match item_family(parent_item_doc) {
Trait => Some(item_def_id(parent_item_doc, cdata)),
Impl | DefaultImpl => {
reader::maybe_get_doc(parent_item_doc, tag_item_trait_ref)
.map(|_| item_trait_ref(parent_item_doc, tcx, cdata).def_id)
}
_ => None
}
}
pub fn get_native_libraries(cdata: Cmd)
-> Vec<(cstore::NativeLibraryKind, String)> {
let libraries = reader::get_doc(rbml::Doc::new(cdata.data()),
tag_native_libraries);
reader::tagged_docs(libraries, tag_native_libraries_lib).map(|lib_doc| {
let kind_doc = reader::get_doc(lib_doc, tag_native_libraries_kind);
let name_doc = reader::get_doc(lib_doc, tag_native_libraries_name);
let kind: cstore::NativeLibraryKind =
cstore::NativeLibraryKind::from_u32(reader::doc_as_u32(kind_doc)).unwrap();
let name = name_doc.as_str().to_string();
(kind, name)
}).collect()
}
pub fn get_plugin_registrar_fn(data: &[u8]) -> Option<DefIndex> {
reader::maybe_get_doc(rbml::Doc::new(data), tag_plugin_registrar_fn)
.map(|doc| DefIndex::from_u32(reader::doc_as_u32(doc)))
}
pub fn each_exported_macro<F>(data: &[u8], intr: &IdentInterner, mut f: F) where
F: FnMut(ast::Name, Vec<ast::Attribute>, String) -> bool,
{
let macros = reader::get_doc(rbml::Doc::new(data), tag_macro_defs);
for macro_doc in reader::tagged_docs(macros, tag_macro_def) {
let name = item_name(intr, macro_doc);
let attrs = get_attributes(macro_doc);
let body = reader::get_doc(macro_doc, tag_macro_def_body);
if !f(name, attrs, body.as_str().to_string()) {
break;
}
}
}
pub fn get_dylib_dependency_formats(cdata: Cmd)
-> Vec<(ast::CrateNum, LinkagePreference)>
{
let formats = reader::get_doc(rbml::Doc::new(cdata.data()),
tag_dylib_dependency_formats);
let mut result = Vec::new();
debug!("found dylib deps: {}", formats.as_str_slice());
for spec in formats.as_str_slice().split(',') {
if spec.is_empty() { continue }
let cnum = spec.split(':').nth(0).unwrap();
let link = spec.split(':').nth(1).unwrap();
let cnum: ast::CrateNum = cnum.parse().unwrap();
let cnum = match cdata.cnum_map.borrow().get(&cnum) {
Some(&n) => n,
None => panic!("didn't find a crate in the cnum_map")
};
result.push((cnum, if link == "d" {
LinkagePreference::RequireDynamic
} else {
LinkagePreference::RequireStatic
}));
}
return result;
}
pub fn get_missing_lang_items(cdata: Cmd)
-> Vec<lang_items::LangItem>
{
let items = reader::get_doc(rbml::Doc::new(cdata.data()), tag_lang_items);
reader::tagged_docs(items, tag_lang_items_missing).map(|missing_docs| {
lang_items::LangItem::from_u32(reader::doc_as_u32(missing_docs)).unwrap()
}).collect()
}
pub fn get_method_arg_names(cdata: Cmd, id: DefIndex) -> Vec<String> {
let method_doc = cdata.lookup_item(id);
match reader::maybe_get_doc(method_doc, tag_method_argument_names) {
Some(args_doc) => {
reader::tagged_docs(args_doc, tag_method_argument_name).map(|name_doc| {
name_doc.as_str_slice().to_string()
}).collect()
},
None => vec![],
}
}
pub fn get_reachable_ids(cdata: Cmd) -> Vec<DefId> {
let items = reader::get_doc(rbml::Doc::new(cdata.data()),
tag_reachable_ids);
reader::tagged_docs(items, tag_reachable_id).map(|doc| {
DefId {
krate: cdata.cnum,
index: DefIndex::from_u32(reader::doc_as_u32(doc)),
}
}).collect()
}
pub fn is_typedef(cdata: Cmd, id: DefIndex) -> bool {
let item_doc = cdata.lookup_item(id);
match item_family(item_doc) {
Type => true,
_ => false,
}
}
pub fn is_const_fn(cdata: Cmd, id: DefIndex) -> bool {
let item_doc = cdata.lookup_item(id);
match fn_constness(item_doc) {
hir::Constness::Const => true,
hir::Constness::NotConst => false,
}
}
pub fn is_static(cdata: Cmd, id: DefIndex) -> bool {
let item_doc = cdata.lookup_item(id);
match item_family(item_doc) {
ImmStatic | MutStatic => true,
_ => false,
}
}
pub fn is_impl(cdata: Cmd, id: DefIndex) -> bool {
let item_doc = cdata.lookup_item(id);
match item_family(item_doc) {
Impl => true,
_ => false,
}
}
fn doc_generics<'tcx>(base_doc: rbml::Doc,
tcx: &ty::ctxt<'tcx>,
cdata: Cmd,
tag: usize)
-> ty::Generics<'tcx>
{
let doc = reader::get_doc(base_doc, tag);
let mut types = subst::VecPerParamSpace::empty();
for p in reader::tagged_docs(doc, tag_type_param_def) {
let bd =
TyDecoder::with_doc(tcx, cdata.cnum, p,
&mut |did| translate_def_id(cdata, did))
.parse_type_param_def();
types.push(bd.space, bd);
}
let mut regions = subst::VecPerParamSpace::empty();
for rp_doc in reader::tagged_docs(doc, tag_region_param_def) {
let ident_str_doc = reader::get_doc(rp_doc,
tag_region_param_def_ident);
let name = item_name(&*token::get_ident_interner(), ident_str_doc);
let def_id_doc = reader::get_doc(rp_doc,
tag_region_param_def_def_id);
let def_id = translated_def_id(cdata, def_id_doc);
let doc = reader::get_doc(rp_doc, tag_region_param_def_space);
let space = subst::ParamSpace::from_uint(reader::doc_as_u64(doc) as usize);
let doc = reader::get_doc(rp_doc, tag_region_param_def_index);
let index = reader::doc_as_u64(doc) as u32;
let bounds = reader::tagged_docs(rp_doc, tag_items_data_region).map(|p| {
TyDecoder::with_doc(tcx, cdata.cnum, p,
&mut |did| translate_def_id(cdata, did))
.parse_region()
}).collect();
regions.push(space, ty::RegionParameterDef { name: name,
def_id: def_id,
space: space,
index: index,
bounds: bounds });
}
ty::Generics { types: types, regions: regions }
}
fn doc_predicate<'tcx>(cdata: Cmd,
doc: rbml::Doc,
tcx: &ty::ctxt<'tcx>)
-> ty::Predicate<'tcx>
{
let predicate_pos = cdata.xref_index.lookup(
cdata.data(), reader::doc_as_u32(doc)).unwrap() as usize;
TyDecoder::new(
cdata.data(), cdata.cnum, predicate_pos, tcx,
&mut |did| translate_def_id(cdata, did)
).parse_predicate()
}
fn doc_predicates<'tcx>(base_doc: rbml::Doc,
tcx: &ty::ctxt<'tcx>,
cdata: Cmd,
tag: usize)
-> ty::GenericPredicates<'tcx>
{
let doc = reader::get_doc(base_doc, tag);
let mut predicates = subst::VecPerParamSpace::empty();
for predicate_doc in reader::tagged_docs(doc, tag_type_predicate) {
predicates.push(subst::TypeSpace,
doc_predicate(cdata, predicate_doc, tcx));
}
for predicate_doc in reader::tagged_docs(doc, tag_self_predicate) {
predicates.push(subst::SelfSpace,
doc_predicate(cdata, predicate_doc, tcx));
}
for predicate_doc in reader::tagged_docs(doc, tag_fn_predicate) {
predicates.push(subst::FnSpace,
doc_predicate(cdata, predicate_doc, tcx));
}
ty::GenericPredicates { predicates: predicates }
}
pub fn is_defaulted_trait(cdata: Cmd, trait_id: DefIndex) -> bool {
let trait_doc = cdata.lookup_item(trait_id);
assert!(item_family(trait_doc) == Family::Trait);
let defaulted_doc = reader::get_doc(trait_doc, tag_defaulted_trait);
reader::doc_as_u8(defaulted_doc) != 0
}
pub fn is_default_impl(cdata: Cmd, impl_id: DefIndex) -> bool {
let impl_doc = cdata.lookup_item(impl_id);
item_family(impl_doc) == Family::DefaultImpl
}
pub fn get_imported_filemaps(metadata: &[u8]) -> Vec<codemap::FileMap> {
let crate_doc = rbml::Doc::new(metadata);
let cm_doc = reader::get_doc(crate_doc, tag_codemap);
reader::tagged_docs(cm_doc, tag_codemap_filemap).map(|filemap_doc| {
let mut decoder = reader::Decoder::new(filemap_doc);
decoder.read_opaque(|opaque_decoder, _| {
Decodable::decode(opaque_decoder)
}).unwrap()
}).collect()
}
pub fn is_extern_fn(cdata: Cmd, id: DefIndex, tcx: &ty::ctxt) -> bool {
let item_doc = match cdata.get_item(id) {
Some(doc) => doc,
None => return false,
};
if let Fn = item_family(item_doc) {
let ty::TypeScheme { generics, ty } = get_type(cdata, id, tcx);
generics.types.is_empty() && match ty.sty {
ty::TyBareFn(_, fn_ty) => fn_ty.abi != abi::Rust,
_ => false,
}
} else {
false
}
}
pub fn closure_kind(cdata: Cmd, closure_id: DefIndex) -> ty::ClosureKind {
let closure_doc = cdata.lookup_item(closure_id);
let closure_kind_doc = reader::get_doc(closure_doc, tag_items_closure_kind);
let mut decoder = reader::Decoder::new(closure_kind_doc);
ty::ClosureKind::decode(&mut decoder).unwrap()
}
pub fn closure_ty<'tcx>(cdata: Cmd, closure_id: DefIndex, tcx: &ty::ctxt<'tcx>)
-> ty::ClosureTy<'tcx> {
let closure_doc = cdata.lookup_item(closure_id);
let closure_ty_doc = reader::get_doc(closure_doc, tag_items_closure_ty);
TyDecoder::with_doc(tcx, cdata.cnum, closure_ty_doc, &mut |did| translate_def_id(cdata, did))
.parse_closure_ty()
}
fn def_key(item_doc: rbml::Doc) -> hir_map::DefKey {
match reader::maybe_get_doc(item_doc, tag_def_key) {
Some(def_key_doc) => {
let mut decoder = reader::Decoder::new(def_key_doc);
hir_map::DefKey::decode(&mut decoder).unwrap()
}
None => {
panic!("failed to find block with tag {:?} for item with family {:?}",
tag_def_key,
item_family(item_doc))
}
}
}
pub fn def_path(cdata: Cmd, id: DefIndex) -> hir_map::DefPath {
debug!("def_path(id={:?})", id);
hir_map::definitions::make_def_path(id, |parent| {
debug!("def_path: parent={:?}", parent);
let parent_doc = cdata.lookup_item(parent);
def_key(parent_doc)
})
}