// Copyright 2012 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. use abi::AbiSet; use ast::*; use ast; use ast_util::{inlined_item_utils, stmt_id}; use ast_util; use codemap::span; use codemap; use diagnostic::span_handler; use parse::token::ident_interner; use parse::token::special_idents; use print::pprust; use visit::{Visitor, fn_kind}; use visit; use std::hashmap::HashMap; use std::vec; #[deriving(Clone, Eq)] pub enum path_elt { path_mod(ident), path_name(ident) } pub type path = ~[path_elt]; pub fn path_to_str_with_sep(p: &[path_elt], sep: &str, itr: @ident_interner) -> ~str { let strs = do p.map |e| { match *e { path_mod(s) => itr.get(s.name), path_name(s) => itr.get(s.name) } }; strs.connect(sep) } pub fn path_ident_to_str(p: &path, i: ident, itr: @ident_interner) -> ~str { if p.is_empty() { itr.get(i.name).to_owned() } else { fmt!("%s::%s", path_to_str(*p, itr), itr.get(i.name)) } } pub fn path_to_str(p: &[path_elt], itr: @ident_interner) -> ~str { path_to_str_with_sep(p, "::", itr) } pub fn path_elt_to_str(pe: path_elt, itr: @ident_interner) -> ~str { match pe { path_mod(s) => itr.get(s.name).to_owned(), path_name(s) => itr.get(s.name).to_owned() } } #[deriving(Clone)] pub enum ast_node { node_item(@item, @path), node_foreign_item(@foreign_item, AbiSet, visibility, @path), node_trait_method(@trait_method, def_id /* trait did */, @path /* path to the trait */), node_method(@method, def_id /* impl did */, @path /* path to the impl */), node_variant(variant, @item, @path), node_expr(@expr), node_stmt(@stmt), node_arg, node_local(ident), node_block(Block), node_struct_ctor(@struct_def, @item, @path), node_callee_scope(@expr) } pub type map = @mut HashMap; pub struct Ctx { map: map, path: path, diag: @span_handler, } impl Ctx { fn extend(@mut self, elt: ident) -> @path { @vec::append(self.path.clone(), [path_name(elt)]) } fn map_method(@mut self, impl_did: def_id, impl_path: @path, m: @method, is_provided: bool) { let entry = if is_provided { node_trait_method(@provided(m), impl_did, impl_path) } else { node_method(m, impl_did, impl_path) }; self.map.insert(m.id, entry); self.map.insert(m.self_id, node_local(special_idents::self_)); } fn map_struct_def(@mut self, struct_def: @ast::struct_def, parent_node: ast_node, ident: ast::ident) { let p = self.extend(ident); // If this is a tuple-like struct, register the constructor. match struct_def.ctor_id { None => {} Some(ctor_id) => { match parent_node { node_item(item, _) => { self.map.insert(ctor_id, node_struct_ctor(struct_def, item, p)); } _ => fail!("struct def parent wasn't an item") } } } } fn map_expr(@mut self, ex: @expr) { self.map.insert(ex.id, node_expr(ex)); // Expressions which are or might be calls: { let r = ex.get_callee_id(); for callee_id in r.iter() { self.map.insert(*callee_id, node_callee_scope(ex)); } } visit::visit_expr(self as @Visitor<()>, ex, ()); } fn map_fn(@mut self, fk: &visit::fn_kind, decl: &fn_decl, body: &Block, sp: codemap::span, id: NodeId) { for a in decl.inputs.iter() { self.map.insert(a.id, node_arg); } visit::visit_fn(self as @Visitor<()>, fk, decl, body, sp, id, ()); } fn map_stmt(@mut self, stmt: @stmt) { self.map.insert(stmt_id(stmt), node_stmt(stmt)); visit::visit_stmt(self as @Visitor<()>, stmt, ()); } fn map_block(@mut self, b: &Block) { // clone is FIXME #2543 self.map.insert(b.id, node_block((*b).clone())); visit::visit_block(self as @Visitor<()>, b, ()); } fn map_pat(@mut self, pat: @pat) { match pat.node { pat_ident(_, ref path, _) => { // Note: this is at least *potentially* a pattern... self.map.insert(pat.id, node_local(ast_util::path_to_ident(path))); } _ => () } visit::visit_pat(self as @Visitor<()>, pat, ()); } } impl Visitor<()> for Ctx { fn visit_item(@mut self, i: @item, _: ()) { // clone is FIXME #2543 let item_path = @self.path.clone(); self.map.insert(i.id, node_item(i, item_path)); match i.node { item_impl(_, _, _, ref ms) => { let impl_did = ast_util::local_def(i.id); for m in ms.iter() { self.map_method(impl_did, self.extend(i.ident), *m, false) } } item_enum(ref enum_definition, _) => { for v in (*enum_definition).variants.iter() { // FIXME #2543: bad clone self.map.insert(v.node.id, node_variant((*v).clone(), i, self.extend(i.ident))); } } item_foreign_mod(ref nm) => { for nitem in nm.items.iter() { // Compute the visibility for this native item. let visibility = match nitem.vis { public => public, private => private, inherited => i.vis }; self.map.insert(nitem.id, node_foreign_item(*nitem, nm.abis, visibility, // FIXME (#2543) if nm.sort == ast::named { self.extend(i.ident) } else { // Anonymous extern // mods go in the // parent scope. @self.path.clone() })); } } item_struct(struct_def, _) => { self.map_struct_def(struct_def, node_item(i, item_path), i.ident) } item_trait(_, ref traits, ref methods) => { for p in traits.iter() { self.map.insert(p.ref_id, node_item(i, item_path)); } for tm in methods.iter() { let id = ast_util::trait_method_to_ty_method(tm).id; let d_id = ast_util::local_def(i.id); self.map.insert(id, node_trait_method(@(*tm).clone(), d_id, item_path)); } } _ => {} } match i.node { item_mod(_) | item_foreign_mod(_) => { self.path.push(path_mod(i.ident)); } _ => self.path.push(path_name(i.ident)) } visit::visit_item(self as @Visitor<()>, i, ()); self.path.pop(); } fn visit_pat(@mut self, pat: @pat, _: ()) { self.map_pat(pat); visit::visit_pat(self as @Visitor<()>, pat, ()) } fn visit_expr(@mut self, expr: @expr, _: ()) { self.map_expr(expr) } fn visit_stmt(@mut self, stmt: @stmt, _: ()) { self.map_stmt(stmt) } fn visit_fn(@mut self, function_kind: &fn_kind, function_declaration: &fn_decl, block: &Block, span: span, node_id: NodeId, _: ()) { self.map_fn(function_kind, function_declaration, block, span, node_id) } fn visit_block(@mut self, block: &Block, _: ()) { self.map_block(block) } // XXX: Methods below can become default methods. fn visit_mod(@mut self, module: &_mod, _: span, _: NodeId, _: ()) { visit::visit_mod(self as @Visitor<()>, module, ()) } fn visit_view_item(@mut self, view_item: &view_item, _: ()) { visit::visit_view_item(self as @Visitor<()>, view_item, ()) } fn visit_foreign_item(@mut self, foreign_item: @foreign_item, _: ()) { visit::visit_foreign_item(self as @Visitor<()>, foreign_item, ()) } fn visit_local(@mut self, local: @Local, _: ()) { visit::visit_local(self as @Visitor<()>, local, ()) } fn visit_arm(@mut self, arm: &arm, _: ()) { visit::visit_arm(self as @Visitor<()>, arm, ()) } fn visit_decl(@mut self, decl: @decl, _: ()) { visit::visit_decl(self as @Visitor<()>, decl, ()) } fn visit_expr_post(@mut self, _: @expr, _: ()) { // Empty! } fn visit_ty(@mut self, typ: &Ty, _: ()) { visit::visit_ty(self as @Visitor<()>, typ, ()) } fn visit_generics(@mut self, generics: &Generics, _: ()) { visit::visit_generics(self as @Visitor<()>, generics, ()) } fn visit_fn(@mut self, function_kind: &fn_kind, function_declaration: &fn_decl, block: &Block, span: span, node_id: NodeId, _: ()) { visit::visit_fn(self as @Visitor<()>, function_kind, function_declaration, block, span, node_id, ()) } fn visit_ty_method(@mut self, ty_method: &TypeMethod, _: ()) { visit::visit_ty_method(self as @Visitor<()>, ty_method, ()) } fn visit_trait_method(@mut self, trait_method: &trait_method, _: ()) { visit::visit_trait_method(self as @Visitor<()>, trait_method, ()) } fn visit_struct_def(@mut self, struct_def: @struct_def, ident: ident, generics: &Generics, node_id: NodeId, _: ()) { visit::visit_struct_def(self as @Visitor<()>, struct_def, ident, generics, node_id, ()) } fn visit_struct_field(@mut self, struct_field: @struct_field, _: ()) { visit::visit_struct_field(self as @Visitor<()>, struct_field, ()) } } pub fn map_crate(diag: @span_handler, c: &Crate) -> map { let cx = @mut Ctx { map: @mut HashMap::new(), path: ~[], diag: diag, }; visit::visit_crate(cx as @Visitor<()>, c, ()); cx.map } // Used for items loaded from external crate that are being inlined into this // crate. The `path` should be the path to the item but should not include // the item itself. pub fn map_decoded_item(diag: @span_handler, map: map, path: path, ii: &inlined_item) { // I believe it is ok for the local IDs of inlined items from other crates // to overlap with the local ids from this crate, so just generate the ids // starting from 0. let cx = @mut Ctx { map: map, path: path.clone(), diag: diag, }; // methods get added to the AST map when their impl is visited. Since we // don't decode and instantiate the impl, but just the method, we have to // add it to the table now: match *ii { ii_item(*) => {} // fallthrough ii_foreign(i) => { cx.map.insert(i.id, node_foreign_item(i, AbiSet::Intrinsic(), i.vis, // Wrong but OK @path)); } ii_method(impl_did, is_provided, m) => { cx.map_method(impl_did, @path, m, is_provided); } } // visit the item / method contents and add those to the map: ii.accept((), cx as @Visitor<()>); } pub fn node_id_to_str(map: map, id: NodeId, itr: @ident_interner) -> ~str { match map.find(&id) { None => { fmt!("unknown node (id=%d)", id) } Some(&node_item(item, path)) => { let path_str = path_ident_to_str(path, item.ident, itr); let item_str = match item.node { item_static(*) => ~"static", item_fn(*) => ~"fn", item_mod(*) => ~"mod", item_foreign_mod(*) => ~"foreign mod", item_ty(*) => ~"ty", item_enum(*) => ~"enum", item_struct(*) => ~"struct", item_trait(*) => ~"trait", item_impl(*) => ~"impl", item_mac(*) => ~"macro" }; fmt!("%s %s (id=%?)", item_str, path_str, id) } Some(&node_foreign_item(item, abi, _, path)) => { fmt!("foreign item %s with abi %? (id=%?)", path_ident_to_str(path, item.ident, itr), abi, id) } Some(&node_method(m, _, path)) => { fmt!("method %s in %s (id=%?)", itr.get(m.ident.name), path_to_str(*path, itr), id) } Some(&node_trait_method(ref tm, _, path)) => { let m = ast_util::trait_method_to_ty_method(&**tm); fmt!("method %s in %s (id=%?)", itr.get(m.ident.name), path_to_str(*path, itr), id) } Some(&node_variant(ref variant, _, path)) => { fmt!("variant %s in %s (id=%?)", itr.get(variant.node.name.name), path_to_str(*path, itr), id) } Some(&node_expr(expr)) => { fmt!("expr %s (id=%?)", pprust::expr_to_str(expr, itr), id) } Some(&node_callee_scope(expr)) => { fmt!("callee_scope %s (id=%?)", pprust::expr_to_str(expr, itr), id) } Some(&node_stmt(stmt)) => { fmt!("stmt %s (id=%?)", pprust::stmt_to_str(stmt, itr), id) } Some(&node_arg) => { fmt!("arg (id=%?)", id) } Some(&node_local(ident)) => { fmt!("local (id=%?, name=%s)", id, itr.get(ident.name)) } Some(&node_block(ref block)) => { fmt!("block %s (id=%?)", pprust::block_to_str(block, itr), id) } Some(&node_struct_ctor(_, _, path)) => { fmt!("struct_ctor %s (id=%?)", path_to_str(*path, itr), id) } } } pub fn node_item_query(items: map, id: NodeId, query: &fn(@item) -> Result, error_msg: ~str) -> Result { match items.find(&id) { Some(&node_item(it, _)) => query(it), _ => fail!(error_msg) } }