rust/src/librustdoc/core.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.
pub use self::MaybeTyped::*;
use rustc_lint;
use rustc_driver::driver;
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use rustc::session::{self, config};
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use rustc::session::config::UnstableFeatures;
use rustc::middle::{privacy, ty};
use rustc::lint;
use rustc_trans::back::link;
use rustc_resolve as resolve;
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use syntax::{ast, ast_map, codemap, diagnostic};
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use std::cell::RefCell;
use std::collections::{HashMap, HashSet};
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use visit_ast::RustdocVisitor;
use clean;
use clean::Clean;
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pub use rustc::session::config::Input;
pub use rustc::session::search_paths::SearchPaths;
/// Are we generating documentation (`Typed`) or tests (`NotTyped`)?
pub enum MaybeTyped<'tcx> {
Typed(ty::ctxt<'tcx>),
NotTyped(session::Session)
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}
pub type ExternalPaths = RefCell<Option<HashMap<ast::DefId,
(Vec<String>, clean::TypeKind)>>>;
pub struct DocContext<'tcx> {
pub krate: &'tcx ast::Crate,
pub maybe_typed: MaybeTyped<'tcx>,
pub input: Input,
pub external_paths: ExternalPaths,
pub external_traits: RefCell<Option<HashMap<ast::DefId, clean::Trait>>>,
pub external_typarams: RefCell<Option<HashMap<ast::DefId, String>>>,
pub inlined: RefCell<Option<HashSet<ast::DefId>>>,
pub populated_crate_impls: RefCell<HashSet<ast::CrateNum>>,
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}
impl<'tcx> DocContext<'tcx> {
pub fn sess<'a>(&'a self) -> &'a session::Session {
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match self.maybe_typed {
Typed(ref tcx) => &tcx.sess,
NotTyped(ref sess) => sess
}
}
pub fn tcx_opt<'a>(&'a self) -> Option<&'a ty::ctxt<'tcx>> {
match self.maybe_typed {
Typed(ref tcx) => Some(tcx),
NotTyped(_) => None
}
}
pub fn tcx<'a>(&'a self) -> &'a ty::ctxt<'tcx> {
let tcx_opt = self.tcx_opt();
tcx_opt.expect("tcx not present")
}
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}
pub struct CrateAnalysis {
pub exported_items: privacy::ExportedItems,
pub public_items: privacy::PublicItems,
pub external_paths: ExternalPaths,
pub external_traits: RefCell<Option<HashMap<ast::DefId, clean::Trait>>>,
pub external_typarams: RefCell<Option<HashMap<ast::DefId, String>>>,
pub inlined: RefCell<Option<HashSet<ast::DefId>>>,
}
pub type Externs = HashMap<String, Vec<String>>;
pub fn run_core(search_paths: SearchPaths, cfgs: Vec<String>, externs: Externs,
input: Input, triple: Option<String>)
-> (clean::Crate, CrateAnalysis) {
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// Parse, resolve, and typecheck the given crate.
let cpath = match input {
Input::File(ref p) => Some(p.clone()),
_ => None
};
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let warning_lint = lint::builtin::WARNINGS.name_lower();
let sessopts = config::Options {
maybe_sysroot: None,
search_paths: search_paths,
crate_types: vec!(config::CrateTypeRlib),
lint_opts: vec!((warning_lint, lint::Allow)),
externs: externs,
target_triple: triple.unwrap_or(config::host_triple().to_string()),
cfg: config::parse_cfgspecs(cfgs),
Preliminary feature staging This partially implements the feature staging described in the [release channel RFC][rc]. It does not yet fully conform to the RFC as written, but does accomplish its goals sufficiently for the 1.0 alpha release. It has three primary user-visible effects: * On the nightly channel, use of unstable APIs generates a warning. * On the beta channel, use of unstable APIs generates a warning. * On the beta channel, use of feature gates generates a warning. Code that does not trigger these warnings is considered 'stable', modulo pre-1.0 bugs. Disabling the warnings for unstable APIs continues to be done in the existing (i.e. old) style, via `#[allow(...)]`, not that specified in the RFC. I deem this marginally acceptable since any code that must do this is not using the stable dialect of Rust. Use of feature gates is itself gated with the new 'unstable_features' lint, on nightly set to 'allow', and on beta 'warn'. The attribute scheme used here corresponds to an older version of the RFC, with the `#[staged_api]` crate attribute toggling the staging behavior of the stability attributes, but the user impact is only in-tree so I'm not concerned about having to make design changes later (and I may ultimately prefer the scheme here after all, with the `#[staged_api]` crate attribute). Since the Rust codebase itself makes use of unstable features the compiler and build system to a midly elaborate dance to allow it to bootstrap while disobeying these lints (which would otherwise be errors because Rust builds with `-D warnings`). This patch includes one significant hack that causes a regression. Because the `format_args!` macro emits calls to unstable APIs it would trigger the lint. I added a hack to the lint to make it not trigger, but this in turn causes arguments to `println!` not to be checked for feature gates. I don't presently understand macro expansion well enough to fix. This is bug #20661. Closes #16678 [rc]: https://github.com/rust-lang/rfcs/blob/master/text/0507-release-channels.md
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// Ensure that rustdoc works even if rustc is feature-staged
unstable_features: UnstableFeatures::Default,
..config::basic_options().clone()
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};
let codemap = codemap::CodeMap::new();
let diagnostic_handler = diagnostic::default_handler(diagnostic::Auto, None, true);
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let span_diagnostic_handler =
diagnostic::mk_span_handler(diagnostic_handler, codemap);
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let sess = session::build_session_(sessopts, cpath,
span_diagnostic_handler);
rustc_lint::register_builtins(&mut sess.lint_store.borrow_mut(), Some(&sess));
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let cfg = config::build_configuration(&sess);
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let krate = driver::phase_1_parse_input(&sess, cfg, &input);
let name = link::find_crate_name(Some(&sess), &krate.attrs,
&input);
let krate = driver::phase_2_configure_and_expand(&sess, krate, &name, None)
.expect("phase_2_configure_and_expand aborted in rustdoc!");
let mut forest = ast_map::Forest::new(krate);
let arenas = ty::CtxtArenas::new();
let ast_map = driver::assign_node_ids_and_map(&sess, &mut forest);
let ty::CrateAnalysis {
exported_items, public_items, ty_cx, ..
} = driver::phase_3_run_analysis_passes(sess,
ast_map,
&arenas,
name,
resolve::MakeGlobMap::No);
let ctxt = DocContext {
krate: ty_cx.map.krate(),
maybe_typed: Typed(ty_cx),
input: input,
external_traits: RefCell::new(Some(HashMap::new())),
external_typarams: RefCell::new(Some(HashMap::new())),
external_paths: RefCell::new(Some(HashMap::new())),
inlined: RefCell::new(Some(HashSet::new())),
populated_crate_impls: RefCell::new(HashSet::new()),
};
debug!("crate: {:?}", ctxt.krate);
let analysis = CrateAnalysis {
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exported_items: exported_items,
public_items: public_items,
external_paths: RefCell::new(None),
external_traits: RefCell::new(None),
external_typarams: RefCell::new(None),
inlined: RefCell::new(None),
};
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let krate = {
let mut v = RustdocVisitor::new(&ctxt, Some(&analysis));
v.visit(ctxt.krate);
v.clean(&ctxt)
};
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let external_paths = ctxt.external_paths.borrow_mut().take();
*analysis.external_paths.borrow_mut() = external_paths;
let map = ctxt.external_traits.borrow_mut().take();
*analysis.external_traits.borrow_mut() = map;
let map = ctxt.external_typarams.borrow_mut().take();
*analysis.external_typarams.borrow_mut() = map;
let map = ctxt.inlined.borrow_mut().take();
*analysis.inlined.borrow_mut() = map;
(krate, analysis)
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}