/* * Region resolution. This pass runs before typechecking and resolves region * names to the appropriate block. */ import driver::session::session; import middle::ty; import syntax::{ast, visit}; import util::common::new_def_hash; import std::map; import std::map::hashmap; /* Represents the type of the most immediate parent node. */ enum parent { pa_item(ast::node_id), pa_block(ast::node_id), pa_nested_fn(ast::node_id), pa_crate } type region_map = { /* * Mapping from blocks and function expression to their parent block or * function expression. */ parents: hashmap, /* Mapping from a region type in the AST to its resolved region. */ ast_type_to_region: hashmap, /* Mapping from a local variable to its containing block. */ local_blocks: hashmap, /* Mapping from a region name to its function. */ region_name_to_fn: hashmap, }; type ctxt = { sess: session, def_map: resolve::def_map, region_map: @region_map, names_in_scope: hashmap, /* * A list of local IDs that will be parented to the next block we * traverse. This is used when resolving `alt` statements. Since we see * the pattern before the associated block, upon seeing a pattern we must * parent all the bindings in that pattern to the next block we see. */ mut queued_locals: [ast::node_id], parent: parent, /* True if we're within the pattern part of an alt, false otherwise. */ in_alt: bool }; fn region_to_scope(_region_map: @region_map, region: ty::region) -> ast::node_id { ret alt region { ty::re_caller(def_id) { def_id.node } ty::re_named(_) { fail "TODO: named regions" } ty::re_block(node_id) { node_id } }; } // Returns true if `subscope` is equal to or is lexically nested inside // `superscope` and false otherwise. fn scope_contains(region_map: @region_map, superscope: ast::node_id, subscope: ast::node_id) -> bool { let subscope = subscope; while superscope != subscope { alt region_map.parents.find(subscope) { none { ret false; } some(scope) { subscope = scope; } } } ret true; } fn resolve_ty(ty: @ast::ty, cx: ctxt, visitor: visit::vt) { alt ty.node { ast::ty_rptr({id: region_id, node: node}, _) { let region; alt node { ast::re_inferred { // We infer to the caller region if we're at item scope // and to the block region if we're at block scope. // // TODO: What do we do if we're in an alt? alt cx.parent { pa_item(item_id) | pa_nested_fn(item_id) { let def_id = {crate: ast::local_crate, node: item_id}; region = ty::re_caller(def_id); } pa_block(block_id) { region = ty::re_block(block_id); } pa_crate { cx.sess.span_bug(ty.span, "inferred region at " + "crate level?!"); } } } ast::re_named(ident) { // If at item scope, introduce or reuse a binding. If at // block scope, require that the binding be introduced. alt cx.names_in_scope.find(ident) { some(def_id) { region = ty::re_named(def_id); } none { let def_id = {crate: ast::local_crate, node: region_id}; cx.names_in_scope.insert(ident, def_id); region = ty::re_named(def_id); alt cx.parent { pa_item(fn_id) | pa_nested_fn(fn_id) { let rf = cx.region_map.region_name_to_fn; rf.insert(def_id, fn_id); } pa_block(_) { cx.sess.span_err(ty.span, "unknown region `" + ident + "`"); } pa_crate { cx.sess.span_bug(ty.span, "named " + "region at crate " + "level?!"); } } } } } ast::re_self { // For blocks, "self" means "the current block". // // TODO: What do we do in an alt? // // FIXME: Doesn't work in type items. alt cx.parent { pa_item(item_id) | pa_nested_fn(item_id) { let def_id = {crate: ast::local_crate, node: item_id}; region = ty::re_caller(def_id); } pa_block(block_id) { region = ty::re_block(block_id); } pa_crate { cx.sess.span_bug(ty.span, "region type outside item?!"); } } } } cx.region_map.ast_type_to_region.insert(region_id, region); } _ { /* nothing to do */ } } visit::visit_ty(ty, cx, visitor); } fn record_parent(cx: ctxt, child_id: ast::node_id) { alt cx.parent { pa_item(parent_id) | pa_block(parent_id) | pa_nested_fn(parent_id) { cx.region_map.parents.insert(child_id, parent_id); } pa_crate { /* no-op */ } } } fn resolve_block(blk: ast::blk, cx: ctxt, visitor: visit::vt) { // Record the parent of this block. record_parent(cx, blk.node.id); // Resolve queued locals to this block. for local_id in cx.queued_locals { cx.region_map.local_blocks.insert(local_id, blk.node.id); } // Descend. let new_cx: ctxt = {parent: pa_block(blk.node.id), mut queued_locals: [], in_alt: false with cx}; visit::visit_block(blk, new_cx, visitor); } fn resolve_arm(arm: ast::arm, cx: ctxt, visitor: visit::vt) { let new_cx: ctxt = {mut queued_locals: [], in_alt: true with cx}; visit::visit_arm(arm, new_cx, visitor); } fn resolve_pat(pat: @ast::pat, cx: ctxt, visitor: visit::vt) { alt pat.node { ast::pat_ident(path, _) { let defn_opt = cx.def_map.find(pat.id); alt defn_opt { some(ast::def_variant(_,_)) { /* Nothing to do; this names a variant. */ } _ { /* * This names a local. Enqueue it or bind it to the * containing block, depending on whether we're in an alt * or not. */ if cx.in_alt { vec::push(cx.queued_locals, pat.id); } else { alt cx.parent { pa_block(block_id) { let local_blocks = cx.region_map.local_blocks; local_blocks.insert(pat.id, block_id); } _ { cx.sess.span_bug(pat.span, "unexpected parent"); } } } } } } _ { /* no-op */ } } visit::visit_pat(pat, cx, visitor); } fn resolve_expr(expr: @ast::expr, cx: ctxt, visitor: visit::vt) { alt expr.node { ast::expr_fn(_, _, _, _) | ast::expr_fn_block(_, _) { record_parent(cx, expr.id); let new_cx = {parent: pa_nested_fn(expr.id), in_alt: false with cx}; visit::visit_expr(expr, new_cx, visitor); } _ { visit::visit_expr(expr, cx, visitor); } } } fn resolve_item(item: @ast::item, cx: ctxt, visitor: visit::vt) { // Items create a new outer block scope as far as we're concerned. let new_cx: ctxt = {names_in_scope: map::new_str_hash(), parent: pa_item(item.id), in_alt: false with cx}; visit::visit_item(item, new_cx, visitor); } fn resolve_crate(sess: session, def_map: resolve::def_map, crate: @ast::crate) -> @region_map { let cx: ctxt = {sess: sess, def_map: def_map, region_map: @{parents: map::new_int_hash(), ast_type_to_region: map::new_int_hash(), local_blocks: map::new_int_hash(), region_name_to_fn: new_def_hash()}, names_in_scope: map::new_str_hash(), mut queued_locals: [], parent: pa_crate, in_alt: false}; let visitor = visit::mk_vt(@{ visit_block: resolve_block, visit_item: resolve_item, visit_ty: resolve_ty, visit_arm: resolve_arm, visit_pat: resolve_pat, visit_expr: resolve_expr with *visit::default_visitor() }); visit::visit_crate(*crate, cx, visitor); ret cx.region_map; }