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rust/src/librustc/metadata/creader.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.
#[allow(non_camel_case_types)];
//! Validates all used crates and extern libraries and loads their metadata
use back::link;
use back::svh::Svh;
use driver::{driver, session};
use driver::session::Session;
use metadata::csearch;
use metadata::cstore;
use metadata::decoder;
use metadata::loader;
use metadata::loader::Os;
use std::cell::RefCell;
use std::vec_ng::Vec;
use collections::HashMap;
use syntax::ast;
use syntax::abi;
use syntax::attr;
use syntax::attr::AttrMetaMethods;
use syntax::codemap::{Span};
use syntax::diagnostic::SpanHandler;
use syntax::ext::base::{CrateLoader, MacroCrate};
use syntax::parse::token::{IdentInterner, InternedString};
use syntax::parse::token;
use syntax::crateid::CrateId;
use syntax::visit;
// Traverses an AST, reading all the information about use'd crates and extern
// libraries necessary for later resolving, typechecking, linking, etc.
pub fn read_crates(sess: Session,
krate: &ast::Crate,
os: loader::Os,
intr: @IdentInterner) {
let mut e = Env {
sess: sess,
os: os,
crate_cache: @RefCell::new(~[]),
next_crate_num: 1,
intr: intr
};
visit_crate(&e, krate);
{
let mut v = ReadCrateVisitor {
e: &mut e
};
visit::walk_crate(&mut v, krate, ());
}
let crate_cache = e.crate_cache.borrow();
dump_crates(*crate_cache.get());
warn_if_multiple_versions(&mut e, sess.diagnostic(), *crate_cache.get());
}
struct ReadCrateVisitor<'a> {
e: &'a mut Env,
}
impl<'a> visit::Visitor<()> for ReadCrateVisitor<'a> {
fn visit_view_item(&mut self, a: &ast::ViewItem, _: ()) {
visit_view_item(self.e, a);
visit::walk_view_item(self, a, ());
}
fn visit_item(&mut self, a: &ast::Item, _: ()) {
visit_item(self.e, a);
visit::walk_item(self, a, ());
}
}
#[deriving(Clone)]
struct cache_entry {
cnum: ast::CrateNum,
span: Span,
hash: Svh,
crate_id: CrateId,
}
fn dump_crates(crate_cache: &[cache_entry]) {
debug!("resolved crates:");
for entry in crate_cache.iter() {
debug!("cnum: {:?}", entry.cnum);
debug!("span: {:?}", entry.span);
debug!("hash: {:?}", entry.hash);
}
}
fn warn_if_multiple_versions(e: &mut Env,
diag: @SpanHandler,
crate_cache: &[cache_entry]) {
if crate_cache.len() != 0u {
let name = crate_cache[crate_cache.len() - 1].crate_id.name.clone();
let (matches, non_matches) = crate_cache.partitioned(|entry|
name == entry.crate_id.name);
assert!(!matches.is_empty());
if matches.len() != 1u {
diag.handler().warn(
format!("using multiple versions of crate `{}`", name));
for match_ in matches.iter() {
diag.span_note(match_.span, "used here");
loader::note_crateid_attr(diag, &match_.crate_id);
}
}
warn_if_multiple_versions(e, diag, non_matches);
}
}
struct Env {
sess: Session,
os: loader::Os,
crate_cache: @RefCell<~[cache_entry]>,
next_crate_num: ast::CrateNum,
intr: @IdentInterner
}
fn visit_crate(e: &Env, c: &ast::Crate) {
let cstore = e.sess.cstore;
for a in c.attrs.iter().filter(|m| m.name().equiv(&("link_args"))) {
match a.value_str() {
Some(ref linkarg) => cstore.add_used_link_args(linkarg.get()),
None => { /* fallthrough */ }
}
}
}
fn visit_view_item(e: &mut Env, i: &ast::ViewItem) {
let should_load = i.attrs.iter().all(|attr| {
attr.name().get() != "phase" ||
attr.meta_item_list().map_or(false, |phases| {
attr::contains_name(phases.as_slice(), "link")
})
});
if !should_load {
return;
}
match extract_crate_info(e, i) {
Some(info) => {
let cnum = resolve_crate(e, None, info.ident, &info.crate_id, None,
i.span);
e.sess.cstore.add_extern_mod_stmt_cnum(info.id, cnum);
}
None => ()
}
}
struct CrateInfo {
ident: ~str,
crate_id: CrateId,
id: ast::NodeId,
}
fn extract_crate_info(e: &Env, i: &ast::ViewItem) -> Option<CrateInfo> {
match i.node {
ast::ViewItemExternMod(ident, ref path_opt, id) => {
let ident = token::get_ident(ident);
debug!("resolving extern crate stmt. ident: {:?} path_opt: {:?}",
ident, path_opt);
let crate_id = match *path_opt {
Some((ref path_str, _)) => {
let crateid: Option<CrateId> = from_str(path_str.get());
match crateid {
None => {
e.sess.span_err(i.span, "malformed crate id");
return None
}
Some(id) => id
}
}
None => from_str(ident.get().to_str()).unwrap()
};
Some(CrateInfo {
ident: ident.get().to_str(),
crate_id: crate_id,
id: id,
})
}
_ => None
}
}
fn visit_item(e: &Env, i: &ast::Item) {
match i.node {
ast::ItemForeignMod(ref fm) => {
if fm.abis.is_rust() || fm.abis.is_intrinsic() {
return;
}
// First, add all of the custom link_args attributes
let cstore = e.sess.cstore;
let link_args = i.attrs.iter()
.filter_map(|at| if at.name().equiv(&("link_args")) {
Some(at)
} else {
None
})
.to_owned_vec();
for m in link_args.iter() {
match m.value_str() {
Some(linkarg) => cstore.add_used_link_args(linkarg.get()),
None => { /* fallthrough */ }
}
}
// Next, process all of the #[link(..)]-style arguments
let cstore = e.sess.cstore;
let link_args = i.attrs.iter()
.filter_map(|at| if at.name().equiv(&("link")) {
Some(at)
} else {
None
})
.to_owned_vec();
for m in link_args.iter() {
match m.meta_item_list() {
Some(items) => {
let kind = items.iter().find(|k| {
k.name().equiv(&("kind"))
}).and_then(|a| a.value_str());
let kind = match kind {
Some(k) => {
if k.equiv(&("static")) {
cstore::NativeStatic
} else if e.sess.targ_cfg.os == abi::OsMacos &&
k.equiv(&("framework")) {
cstore::NativeFramework
} else if k.equiv(&("framework")) {
e.sess.span_err(m.span,
"native frameworks are only available \
on OSX targets");
cstore::NativeUnknown
} else {
e.sess.span_err(m.span,
format!("unknown kind: `{}`", k));
cstore::NativeUnknown
}
}
None => cstore::NativeUnknown
};
let n = items.iter().find(|n| {
n.name().equiv(&("name"))
}).and_then(|a| a.value_str());
let n = match n {
Some(n) => n,
None => {
e.sess.span_err(m.span,
"#[link(...)] specified without \
`name = \"foo\"`");
InternedString::new("foo")
}
};
if n.get().is_empty() {
e.sess.span_err(m.span, "#[link(name = \"\")] given with empty name");
} else {
cstore.add_used_library(n.get().to_owned(), kind);
}
}
None => {}
}
}
}
_ => { }
}
}
fn existing_match(e: &Env, crate_id: &CrateId,
hash: Option<&Svh>) -> Option<ast::CrateNum> {
let crate_cache = e.crate_cache.borrow();
for c in crate_cache.get().iter() {
if !crate_id.matches(&c.crate_id) { continue }
match hash {
Some(hash) if *hash != c.hash => {}
Some(..) | None => return Some(c.cnum)
}
}
None
}
fn resolve_crate(e: &mut Env,
root_ident: Option<&str>,
ident: &str,
crate_id: &CrateId,
hash: Option<&Svh>,
span: Span)
-> ast::CrateNum {
match existing_match(e, crate_id, hash) {
None => {
let id_hash = link::crate_id_hash(crate_id);
let mut load_ctxt = loader::Context {
sess: e.sess,
span: span,
ident: ident,
crate_id: crate_id,
id_hash: id_hash,
hash: hash.map(|a| &*a),
os: e.os,
intr: e.intr,
rejected_via_hash: false,
};
let loader::Library {
dylib, rlib, metadata
} = load_ctxt.load_library_crate(root_ident);
let crate_id = decoder::get_crate_id(metadata.as_slice());
let hash = decoder::get_crate_hash(metadata.as_slice());
// Claim this crate number and cache it
let cnum = e.next_crate_num;
{
let mut crate_cache = e.crate_cache.borrow_mut();
crate_cache.get().push(cache_entry {
cnum: cnum,
span: span,
hash: hash,
crate_id: crate_id,
});
}
e.next_crate_num += 1;
// Maintain a reference to the top most crate.
let root_crate = match root_ident {
Some(c) => c,
None => load_ctxt.ident.clone()
};
// Now resolve the crates referenced by this crate
let cnum_map = resolve_crate_deps(e,
Some(root_crate),
metadata.as_slice(),
span);
let cmeta = @cstore::crate_metadata {
name: load_ctxt.crate_id.name.to_owned(),
data: metadata,
cnum_map: cnum_map,
cnum: cnum
};
let cstore = e.sess.cstore;
cstore.set_crate_data(cnum, cmeta);
cstore.add_used_crate_source(cstore::CrateSource {
dylib: dylib,
rlib: rlib,
cnum: cnum,
});
return cnum;
}
Some(cnum) => {
return cnum;
}
}
}
// Go through the crate metadata and load any crates that it references
fn resolve_crate_deps(e: &mut Env,
root_ident: Option<&str>,
cdata: &[u8], span : Span)
-> cstore::cnum_map {
debug!("resolving deps of external crate");
// The map from crate numbers in the crate we're resolving to local crate
// numbers
let mut cnum_map = HashMap::new();
let r = decoder::get_crate_deps(cdata);
for dep in r.iter() {
let extrn_cnum = dep.cnum;
debug!("resolving dep crate {} hash: `{}`", dep.crate_id, dep.hash);
let local_cnum = resolve_crate(e, root_ident,
dep.crate_id.name.as_slice(),
&dep.crate_id,
Some(&dep.hash),
span);
cnum_map.insert(extrn_cnum, local_cnum);
}
return @RefCell::new(cnum_map);
}
pub struct Loader {
priv env: Env,
}
impl Loader {
pub fn new(sess: Session) -> Loader {
let os = driver::get_os(driver::host_triple()).unwrap();
let os = session::sess_os_to_meta_os(os);
Loader {
env: Env {
sess: sess,
os: os,
crate_cache: @RefCell::new(~[]),
next_crate_num: 1,
intr: token::get_ident_interner(),
}
}
}
}
impl CrateLoader for Loader {
fn load_crate(&mut self, krate: &ast::ViewItem) -> MacroCrate {
let info = extract_crate_info(&self.env, krate).unwrap();
let cnum = resolve_crate(&mut self.env, None, info.ident,
&info.crate_id, None, krate.span);
let library = self.env.sess.cstore.get_used_crate_source(cnum).unwrap();
MacroCrate {
lib: library.dylib,
cnum: cnum
}
}
fn get_exported_macros(&mut self, cnum: ast::CrateNum) -> Vec<~str> {
csearch::get_exported_macros(self.env.sess.cstore, cnum).move_iter()
.collect()
}
fn get_registrar_symbol(&mut self, cnum: ast::CrateNum) -> Option<~str> {
let cstore = self.env.sess.cstore;
csearch::get_macro_registrar_fn(cstore, cnum)
.map(|did| csearch::get_symbol(cstore, did))
}
}
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