import std::map; import std::map::hashmap; import ast::*; import print::pprust; import ast_util::path_to_ident; import ast_util::inlined_item_methods; import diagnostic::span_handler; enum path_elt { path_mod(ident), path_name(ident) } type path = [path_elt]; /* FIXMEs that say "bad" are as per #2543 */ fn path_to_str_with_sep(p: path, sep: str) -> str { let strs = vec::map(p) {|e| alt e { path_mod(s) { /* FIXME: bad */ copy *s } path_name(s) { /* FIXME: bad */ copy *s } } }; str::connect(strs, sep) } fn path_ident_to_str(p: path, i: ident) -> str { if vec::is_empty(p) { /* FIXME: bad */ copy *i } else { #fmt["%s::%s", path_to_str(p), *i] } } fn path_to_str(p: path) -> str { path_to_str_with_sep(p, "::") } enum ast_node { node_item(@item, @path), node_native_item(@native_item, native_abi, @path), node_method(@method, def_id /* impl did */, @path /* path to the impl */), node_variant(variant, @item, @path), node_expr(@expr), node_export(@view_path, @path), // Locals are numbered, because the alias analysis needs to know in which // order they are introduced. node_arg(arg, uint), node_local(uint), // Constructor for either a resource or a class node_ctor(ident, [ty_param], a_ctor, @path), // Destructor for a class node_dtor([ty_param], @class_dtor, def_id, @path), node_block(blk), } enum a_ctor { res_ctor(fn_decl, node_id, codemap::span), class_ctor(@class_ctor, def_id /* ID for parent class */), } type map = std::map::hashmap; type ctx = {map: map, mut path: path, mut local_id: uint, diag: span_handler}; type vt = visit::vt; fn extend(cx: ctx, +elt: ident) -> @path { @(cx.path + [path_name(elt)]) } fn mk_ast_map_visitor() -> vt { ret visit::mk_vt(@{ visit_item: map_item, visit_expr: map_expr, visit_fn: map_fn, visit_local: map_local, visit_arm: map_arm, visit_view_item: map_view_item, visit_block: map_block with *visit::default_visitor() }); } fn map_crate(diag: span_handler, c: crate) -> map { let cx = {map: std::map::int_hash(), mut path: [], mut local_id: 0u, diag: diag}; visit::visit_crate(c, cx, mk_ast_map_visitor()); ret 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. 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. (In particular, I think these ids are only used in // alias analysis, which we will not be running on the inlined items, and // even if we did I think it only needs an ordering between local // variables that are simultaneously in scope). let cx = {map: map, mut path: /* FIXME: bad */ copy path, mut local_id: 0u, diag: diag}; let v = mk_ast_map_visitor(); // 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: alt ii { ii_item(*) | ii_ctor(*) | ii_dtor(*) { /* fallthrough */ } ii_native(i) { cx.map.insert(i.id, node_native_item(i, native_abi_rust_intrinsic, @path)); } ii_method(impl_did, m) { map_method(impl_did, @path, m, cx); } } // visit the item / method contents and add those to the map: ii.accept(cx, v); } fn map_fn(fk: visit::fn_kind, decl: fn_decl, body: blk, sp: codemap::span, id: node_id, cx: ctx, v: vt) { for decl.inputs.each {|a| cx.map.insert(a.id, node_arg(/* FIXME: bad */ copy a, cx.local_id)); cx.local_id += 1u; } alt fk { visit::fk_ctor(nm, tps, self_id, parent_id) { let ct = @{node: {id: id, self_id: self_id, dec: /* FIXME: bad */ copy decl, body: /* FIXME: bad */ copy body}, span: sp}; cx.map.insert(id, node_ctor(/* FIXME: bad */ copy nm, /* FIXME: bad */ copy tps, class_ctor(ct, parent_id), @/* FIXME: bad */ copy cx.path)); } visit::fk_dtor(tps, self_id, parent_id) { let dt = @{node: {id: id, self_id: self_id, body: /* FIXME: bad */ copy body}, span: sp}; cx.map.insert(id, node_dtor(/* FIXME: bad */ copy tps, dt, parent_id, @/* FIXME: bad */ copy cx.path)); } _ {} } visit::visit_fn(fk, decl, body, sp, id, cx, v); } fn map_block(b: blk, cx: ctx, v: vt) { cx.map.insert(b.node.id, node_block(/* FIXME: bad */ copy b)); visit::visit_block(b, cx, v); } fn number_pat(cx: ctx, pat: @pat) { ast_util::walk_pat(pat) {|p| alt p.node { pat_ident(_, _) { cx.map.insert(p.id, node_local(cx.local_id)); cx.local_id += 1u; } _ {} } }; } fn map_local(loc: @local, cx: ctx, v: vt) { number_pat(cx, loc.node.pat); visit::visit_local(loc, cx, v); } fn map_arm(arm: arm, cx: ctx, v: vt) { number_pat(cx, arm.pats[0]); visit::visit_arm(arm, cx, v); } fn map_method(impl_did: def_id, impl_path: @path, m: @method, cx: ctx) { cx.map.insert(m.id, node_method(m, impl_did, impl_path)); cx.map.insert(m.self_id, node_local(cx.local_id)); cx.local_id += 1u; } fn map_item(i: @item, cx: ctx, v: vt) { let item_path = @/* FIXME: bad */ copy cx.path; cx.map.insert(i.id, node_item(i, item_path)); alt i.node { item_impl(_, _, _, _, ms) { let impl_did = ast_util::local_def(i.id); for ms.each {|m| map_method(impl_did, extend(cx, i.ident), m, cx); } } item_res(decl, tps, _, dtor_id, ctor_id, _) { cx.map.insert(ctor_id, node_ctor(/* FIXME: bad */ copy i.ident, /* FIXME: bad */ copy tps, res_ctor(/* FIXME: bad */ copy decl, ctor_id, i.span), item_path)); cx.map.insert(dtor_id, node_item(i, item_path)); } item_enum(vs, _, _) { for vs.each {|v| cx.map.insert(v.node.id, node_variant( /* FIXME: bad */ copy v, i, extend(cx, i.ident))); } } item_native_mod(nm) { let abi = alt attr::native_abi(i.attrs) { either::left(msg) { cx.diag.span_fatal(i.span, msg); } either::right(abi) { abi } }; for nm.items.each {|nitem| cx.map.insert(nitem.id, node_native_item(nitem, abi, @/* FIXME: bad */ copy cx.path)); } } item_class(tps, ifces, items, ctor, dtor, _) { let (_, ms) = ast_util::split_class_items(items); // Map iface refs to their parent classes. This is // so we can find the self_ty vec::iter(ifces) {|p| cx.map.insert(p.id, node_item(i, item_path)); }; let d_id = ast_util::local_def(i.id); let p = extend(cx, i.ident); // only need to handle methods vec::iter(ms) {|m| map_method(d_id, p, m, cx); } } _ { } } alt i.node { item_mod(_) | item_native_mod(_) { cx.path += [path_mod(i.ident)]; } _ { cx.path += [path_name(i.ident)]; } } visit::visit_item(i, cx, v); vec::pop(cx.path); } fn map_view_item(vi: @view_item, cx: ctx, _v: vt) { alt vi.node { view_item_export(vps) { for vps.each {|vp| let (id, name) = alt vp.node { view_path_simple(nm, _, id) { (id, /* FIXME: bad */ copy nm) } view_path_glob(pth, id) | view_path_list(pth, _, id) { (id, path_to_ident(pth)) } }; cx.map.insert(id, node_export(vp, extend(cx, name))); } } _ {} } } fn map_expr(ex: @expr, cx: ctx, v: vt) { cx.map.insert(ex.id, node_expr(ex)); visit::visit_expr(ex, cx, v); } fn node_id_to_str(map: map, id: node_id) -> str { alt map.find(id) { none { #fmt["unknown node (id=%d)", id] } some(node_item(item, path)) { #fmt["item %s (id=%?)", path_ident_to_str(*path, item.ident), id] } some(node_native_item(item, abi, path)) { #fmt["native item %s with abi %? (id=%?)", path_ident_to_str(*path, item.ident), abi, id] } some(node_method(m, impl_did, path)) { #fmt["method %s in %s (id=%?)", *m.ident, path_to_str(*path), id] } some(node_variant(variant, def_id, path)) { #fmt["variant %s in %s (id=%?)", *variant.node.name, path_to_str(*path), id] } some(node_expr(expr)) { #fmt["expr %s (id=%?)", pprust::expr_to_str(expr), id] } // FIXMEs are as per #2410 some(node_export(_, path)) { #fmt["export %s (id=%?)", // FIXME: add more info here path_to_str(*path), id] } some(node_arg(_, _)) { // FIXME: add more info here #fmt["arg (id=%?)", id] } some(node_local(_)) { // FIXME: add more info here #fmt["local (id=%?)", id] } some(node_ctor(*)) { // FIXME: add more info here #fmt["node_ctor (id=%?)", id] } some(node_dtor(*)) { // FIXME: add more info here #fmt["node_dtor (id=%?)", id] } some(node_block(_)) { #fmt["block"] } } } // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: