// Copyright 2012-2013 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 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Rust AST Visitor. Extracts useful information and massages it into a form //! usable for clean use std::collections::HashSet; use syntax::abi; use syntax::ast; use syntax::ast_util; use syntax::ast_map; use syntax::attr; use syntax::attr::AttrMetaMethods; use syntax::codemap::Span; use rustc::middle::stability; use core; use doctree::*; // looks to me like the first two of these are actually // output parameters, maybe only mutated once; perhaps // better simply to have the visit method return a tuple // containing them? // also, is there some reason that this doesn't use the 'visit' // framework from syntax? pub struct RustdocVisitor<'a, 'tcx: 'a> { pub module: Module, pub attrs: Vec, pub cx: &'a core::DocContext<'tcx>, pub analysis: Option<&'a core::CrateAnalysis>, view_item_stack: HashSet, } impl<'a, 'tcx> RustdocVisitor<'a, 'tcx> { pub fn new(cx: &'a core::DocContext<'tcx>, analysis: Option<&'a core::CrateAnalysis>) -> RustdocVisitor<'a, 'tcx> { // If the root is reexported, terminate all recursion. let mut stack = HashSet::new(); stack.insert(ast::CRATE_NODE_ID); RustdocVisitor { module: Module::new(None), attrs: Vec::new(), cx: cx, analysis: analysis, view_item_stack: stack, } } fn stability(&self, id: ast::NodeId) -> Option { self.cx.tcx_opt().and_then(|tcx| stability::lookup(tcx, ast_util::local_def(id))) } pub fn visit(&mut self, krate: &ast::Crate) { self.attrs = krate.attrs.clone(); self.module = self.visit_mod_contents(krate.span, krate.attrs.clone(), ast::Public, ast::CRATE_NODE_ID, &krate.module, None); // attach the crate's exported macros to the top-level module: self.module.macros = krate.exported_macros.iter() .map(|def| self.visit_macro(def)).collect(); self.module.is_crate = true; } pub fn visit_struct_def(&mut self, item: &ast::Item, name: ast::Ident, sd: &ast::StructDef, generics: &ast::Generics) -> Struct { debug!("Visiting struct"); let struct_type = struct_type_from_def(&*sd); Struct { id: item.id, struct_type: struct_type, name: name, vis: item.vis, stab: self.stability(item.id), attrs: item.attrs.clone(), generics: generics.clone(), fields: sd.fields.clone(), whence: item.span } } pub fn visit_enum_def(&mut self, it: &ast::Item, name: ast::Ident, def: &ast::EnumDef, params: &ast::Generics) -> Enum { debug!("Visiting enum"); Enum { name: name, variants: def.variants.iter().map(|v| Variant { name: v.node.name, attrs: v.node.attrs.clone(), vis: v.node.vis, stab: self.stability(v.node.id), id: v.node.id, kind: v.node.kind.clone(), whence: v.span, }).collect(), vis: it.vis, stab: self.stability(it.id), generics: params.clone(), attrs: it.attrs.clone(), id: it.id, whence: it.span, } } pub fn visit_fn(&mut self, item: &ast::Item, name: ast::Ident, fd: &ast::FnDecl, unsafety: &ast::Unsafety, _abi: &abi::Abi, gen: &ast::Generics) -> Function { debug!("Visiting fn"); Function { id: item.id, vis: item.vis, stab: self.stability(item.id), attrs: item.attrs.clone(), decl: fd.clone(), name: name, whence: item.span, generics: gen.clone(), unsafety: *unsafety, } } pub fn visit_mod_contents(&mut self, span: Span, attrs: Vec , vis: ast::Visibility, id: ast::NodeId, m: &ast::Mod, name: Option) -> Module { let mut om = Module::new(name); om.where_outer = span; om.where_inner = m.inner; om.attrs = attrs; om.vis = vis; om.stab = self.stability(id); om.id = id; for i in &m.items { self.visit_item(&**i, None, &mut om); } om } fn visit_view_path(&mut self, path: ast::ViewPath_, om: &mut Module, id: ast::NodeId, please_inline: bool) -> Option { match path { ast::ViewPathSimple(dst, base) => { if self.resolve_id(id, Some(dst), false, om, please_inline) { None } else { Some(ast::ViewPathSimple(dst, base)) } } ast::ViewPathList(p, paths) => { let mine = paths.into_iter().filter(|path| { !self.resolve_id(path.node.id(), None, false, om, please_inline) }).collect::>(); if mine.len() == 0 { None } else { Some(ast::ViewPathList(p, mine)) } } // these are feature gated anyway ast::ViewPathGlob(base) => { if self.resolve_id(id, None, true, om, please_inline) { None } else { Some(ast::ViewPathGlob(base)) } } } } fn resolve_id(&mut self, id: ast::NodeId, renamed: Option, glob: bool, om: &mut Module, please_inline: bool) -> bool { let tcx = match self.cx.tcx_opt() { Some(tcx) => tcx, None => return false }; let def = tcx.def_map.borrow()[id].def_id(); if !ast_util::is_local(def) { return false } let analysis = match self.analysis { Some(analysis) => analysis, None => return false }; if !please_inline && analysis.public_items.contains(&def.node) { return false } if !self.view_item_stack.insert(def.node) { return false } let ret = match tcx.map.get(def.node) { ast_map::NodeItem(it) => { if glob { match it.node { ast::ItemMod(ref m) => { for i in &m.items { self.visit_item(&**i, None, om); } } ast::ItemEnum(..) => {} _ => { panic!("glob not mapped to a module or enum"); } } } else { self.visit_item(it, renamed, om); } true } _ => false, }; self.view_item_stack.remove(&id); return ret; } pub fn visit_item(&mut self, item: &ast::Item, renamed: Option, om: &mut Module) { debug!("Visiting item {:?}", item); let name = renamed.unwrap_or(item.ident); match item.node { ast::ItemExternCrate(ref p) => { let path = match *p { None => None, Some((ref x, _)) => Some(x.to_string()), }; om.extern_crates.push(ExternCrate { name: name, path: path, vis: item.vis, attrs: item.attrs.clone(), whence: item.span, }) } ast::ItemUse(ref vpath) => { let node = vpath.node.clone(); let node = if item.vis == ast::Public { let please_inline = item.attrs.iter().any(|item| { match item.meta_item_list() { Some(list) => { list.iter().any(|i| &i.name()[..] == "inline") } None => false, } }); match self.visit_view_path(node, om, item.id, please_inline) { None => return, Some(p) => p } } else { node }; om.imports.push(Import { id: item.id, vis: item.vis, attrs: item.attrs.clone(), node: node, whence: item.span, }); } ast::ItemMod(ref m) => { om.mods.push(self.visit_mod_contents(item.span, item.attrs.clone(), item.vis, item.id, m, Some(name))); }, ast::ItemEnum(ref ed, ref gen) => om.enums.push(self.visit_enum_def(item, name, ed, gen)), ast::ItemStruct(ref sd, ref gen) => om.structs.push(self.visit_struct_def(item, name, &**sd, gen)), ast::ItemFn(ref fd, ref pur, ref abi, ref gen, _) => om.fns.push(self.visit_fn(item, name, &**fd, pur, abi, gen)), ast::ItemTy(ref ty, ref gen) => { let t = Typedef { ty: ty.clone(), gen: gen.clone(), name: name, id: item.id, attrs: item.attrs.clone(), whence: item.span, vis: item.vis, stab: self.stability(item.id), }; om.typedefs.push(t); }, ast::ItemStatic(ref ty, ref mut_, ref exp) => { let s = Static { type_: ty.clone(), mutability: mut_.clone(), expr: exp.clone(), id: item.id, name: name, attrs: item.attrs.clone(), whence: item.span, vis: item.vis, stab: self.stability(item.id), }; om.statics.push(s); }, ast::ItemConst(ref ty, ref exp) => { let s = Constant { type_: ty.clone(), expr: exp.clone(), id: item.id, name: name, attrs: item.attrs.clone(), whence: item.span, vis: item.vis, stab: self.stability(item.id), }; om.constants.push(s); }, ast::ItemTrait(unsafety, ref gen, ref b, ref items) => { let t = Trait { unsafety: unsafety, name: name, items: items.clone(), generics: gen.clone(), bounds: b.iter().cloned().collect(), id: item.id, attrs: item.attrs.clone(), whence: item.span, vis: item.vis, stab: self.stability(item.id), }; om.traits.push(t); }, ast::ItemImpl(unsafety, polarity, ref gen, ref tr, ref ty, ref items) => { let i = Impl { unsafety: unsafety, polarity: polarity, generics: gen.clone(), trait_: tr.clone(), for_: ty.clone(), items: items.clone(), attrs: item.attrs.clone(), id: item.id, whence: item.span, vis: item.vis, stab: self.stability(item.id), }; om.impls.push(i); }, ast::ItemDefaultImpl(unsafety, ref trait_ref) => { let i = DefaultImpl { unsafety: unsafety, trait_: trait_ref.clone(), id: item.id, attrs: item.attrs.clone(), whence: item.span, }; om.def_traits.push(i); } ast::ItemForeignMod(ref fm) => { om.foreigns.push(fm.clone()); } ast::ItemMac(_) => { panic!("rustdoc: macros should be gone, after expansion"); } } } // convert each exported_macro into a doc item fn visit_macro(&self, def: &ast::MacroDef) -> Macro { Macro { id: def.id, attrs: def.attrs.clone(), name: def.ident, whence: def.span, stab: self.stability(def.id), } } }