rust/src/libsyntax/ast_map.rs

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// 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 <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.
use abi::AbiSet;
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use ast::*;
use ast;
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use ast_util::{inlined_item_utils, stmt_id};
use ast_util;
use codemap::Span;
use codemap;
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use diagnostic::span_handler;
use parse::token::get_ident_interner;
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use parse::token::ident_interner;
use parse::token::special_idents;
use print::pprust;
use visit::{Visitor, fn_kind};
use visit;
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use std::hashmap::HashMap;
use std::vec;
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#[deriving(Clone, Eq)]
pub enum path_elt {
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path_mod(Ident),
path_name(Ident),
// A pretty name can come from an `impl` block. We attempt to select a
// reasonable name for debuggers to see, but to guarantee uniqueness with
// other paths the hash should also be taken into account during symbol
// generation.
path_pretty_name(Ident, u64),
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}
impl path_elt {
pub fn ident(&self) -> Ident {
match *self {
path_mod(ident) |
path_name(ident) |
path_pretty_name(ident, _) => ident
}
}
}
pub type path = ~[path_elt];
pub fn path_to_str_with_sep(p: &[path_elt], sep: &str, itr: @ident_interner)
-> ~str {
let strs = p.map(|e| {
match *e {
path_mod(s) | path_name(s) | path_pretty_name(s, _) => {
itr.get(s.name)
}
}
});
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strs.connect(sep)
}
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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 {
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format!("{}::{}", 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) | path_name(s) | path_pretty_name(s, _) => {
itr.get(s.name).to_owned()
}
}
}
pub fn impl_pretty_name(trait_ref: &Option<trait_ref>,
ty: &Ty, default: Ident) -> path_elt {
let itr = get_ident_interner();
let ty_ident = match ty.node {
ty_path(ref path, _, _) => path.segments.last().identifier,
_ => default
};
let hash = (trait_ref, ty).hash();
match *trait_ref {
None => path_pretty_name(ty_ident, hash),
Some(ref trait_ref) => {
// XXX: this dollar sign is actually a relic of being one of the
// very few valid symbol names on unix. These kinds of
// details shouldn't be exposed way up here in the ast.
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let s = format!("{}${}",
itr.get(trait_ref.path.segments.last().identifier.name),
itr.get(ty_ident.name));
path_pretty_name(Ident::new(itr.gensym(s)), hash)
}
}
}
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#[deriving(Clone)]
pub enum ast_node {
node_item(@item, @path),
node_foreign_item(@foreign_item, AbiSet, visibility, @path),
node_trait_method(@trait_method, DefId /* trait did */,
@path /* path to the trait */),
node_method(@method, DefId /* impl did */, @path /* path to the impl */),
/// node_variant represents a variant of an enum, e.g., for
/// `enum A { B, C, D }`, there would be a node_item for `A`, and a
/// node_variant item for each of `B`, `C`, and `D`.
node_variant(P<variant>, @item, @path),
node_expr(@Expr),
node_stmt(@Stmt),
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node_arg(@Pat),
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node_local(Ident),
node_block(P<Block>),
/// node_struct_ctor represents a tuple struct.
node_struct_ctor(@struct_def, @item, @path),
node_callee_scope(@Expr)
}
impl ast_node {
pub fn with_attrs<T>(&self, f: |Option<&[Attribute]>| -> T) -> T {
let attrs = match *self {
node_item(i, _) => Some(i.attrs.as_slice()),
node_foreign_item(fi, _, _, _) => Some(fi.attrs.as_slice()),
node_trait_method(tm, _, _) => match *tm {
required(ref type_m) => Some(type_m.attrs.as_slice()),
provided(m) => Some(m.attrs.as_slice())
},
node_method(m, _, _) => Some(m.attrs.as_slice()),
node_variant(ref v, _, _) => Some(v.node.attrs.as_slice()),
// unit/tuple structs take the attributes straight from
// the struct definition.
node_struct_ctor(_, strct, _) => Some(strct.attrs.as_slice()),
_ => None
};
f(attrs)
}
}
pub type map = @mut HashMap<NodeId, ast_node>;
pub struct Ctx {
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map: map,
path: path,
diag: @mut span_handler,
}
impl Ctx {
fn extend(&self, elt: path_elt) -> @path {
@vec::append(self.path.clone(), [elt])
}
fn map_method(&mut self,
impl_did: DefId,
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,
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ident: ast::Ident) {
let p = self.extend(path_name(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::walk_expr(self, ex, ());
}
fn map_fn(&mut self,
fk: &visit::fn_kind,
decl: &fn_decl,
body: P<Block>,
sp: codemap::Span,
id: NodeId) {
for a in decl.inputs.iter() {
self.map.insert(a.id, node_arg(a.pat));
}
match *fk {
visit::fk_method(name, _, _) => { self.path.push(path_name(name)) }
_ => {}
}
visit::walk_fn(self, fk, decl, body, sp, id, ());
match *fk {
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visit::fk_method(..) => { self.path.pop(); }
_ => {}
}
}
fn map_stmt(&mut self, stmt: @Stmt) {
self.map.insert(stmt_id(stmt), node_stmt(stmt));
visit::walk_stmt(self, stmt, ());
}
fn map_block(&mut self, b: P<Block>) {
self.map.insert(b.id, node_block(b));
visit::walk_block(self, b, ());
}
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fn map_pat(&mut self, pat: &Pat) {
match pat.node {
PatIdent(_, ref path, _) => {
// Note: this is at least *potentially* a pattern...
self.map.insert(pat.id,
node_local(ast_util::path_to_ident(path)));
}
_ => ()
}
visit::walk_pat(self, 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 maybe_trait, ty, ref ms) => {
// Right now the ident on impls is __extensions__ which isn't
// very pretty when debugging, so attempt to select a better
// name to use.
let elt = impl_pretty_name(maybe_trait, ty, i.ident);
let impl_did = ast_util::local_def(i.id);
for m in ms.iter() {
let extended = { self.extend(elt) };
self.map_method(impl_did, extended, *m, false)
}
self.path.push(elt);
}
item_enum(ref enum_definition, _) => {
for &v in enum_definition.variants.iter() {
let elt = path_name(i.ident);
self.map.insert(v.node.id,
node_variant(v, i, self.extend(elt)));
}
}
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)
// 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 ext = { self.extend(path_name(i.ident)) };
let d_id = ast_util::local_def(i.id);
match *tm {
required(ref m) => {
let entry =
node_trait_method(@(*tm).clone(), d_id, ext);
self.map.insert(m.id, entry);
}
provided(m) => {
self.map_method(d_id, ext, m, true);
}
}
}
}
_ => {}
}
match i.node {
item_mod(_) | item_foreign_mod(_) => {
self.path.push(path_mod(i.ident));
}
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item_impl(..) => {} // this was guessed above.
_ => self.path.push(path_name(i.ident))
}
visit::walk_item(self, i, ());
self.path.pop();
}
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fn visit_pat(&mut self, pat: &Pat, _: ()) {
self.map_pat(pat);
visit::walk_pat(self, 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: P<Block>,
span: Span,
node_id: NodeId,
_: ()) {
self.map_fn(function_kind, function_declaration, block, span, node_id)
}
fn visit_block(&mut self, block: P<Block>, _: ()) {
self.map_block(block)
}
fn visit_ty(&mut self, typ: &Ty, _: ()) {
visit::walk_ty(self, typ, ())
}
}
pub fn map_crate(diag: @mut span_handler, c: &Crate) -> map {
let cx = @mut Ctx {
map: @mut HashMap::new(),
path: ~[],
diag: diag,
};
visit::walk_crate(cx, c, ());
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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: @mut 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 {
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map: map,
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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. Likewise with foreign items.
match *ii {
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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);
}
}
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// visit the item / method contents and add those to the map:
ii.accept((), cx);
}
pub fn node_id_to_str(map: map, id: NodeId, itr: @ident_interner) -> ~str {
match map.find(&id) {
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None => {
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format!("unknown node (id={})", id)
}
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Some(&node_item(item, path)) => {
let path_str = path_ident_to_str(path, item.ident, itr);
let item_str = match item.node {
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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"
};
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format!("{} {} (id={})", item_str, path_str, id)
}
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Some(&node_foreign_item(item, abi, _, path)) => {
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format!("foreign item {} with abi {:?} (id={})",
path_ident_to_str(path, item.ident, itr), abi, id)
}
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Some(&node_method(m, _, path)) => {
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format!("method {} in {} (id={})",
itr.get(m.ident.name), path_to_str(*path, itr), id)
}
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Some(&node_trait_method(ref tm, _, path)) => {
let m = ast_util::trait_method_to_ty_method(&**tm);
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format!("method {} in {} (id={})",
itr.get(m.ident.name), path_to_str(*path, itr), id)
}
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Some(&node_variant(ref variant, _, path)) => {
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format!("variant {} in {} (id={})",
itr.get(variant.node.name.name), path_to_str(*path, itr), id)
}
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Some(&node_expr(expr)) => {
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format!("expr {} (id={})", pprust::expr_to_str(expr, itr), id)
}
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Some(&node_callee_scope(expr)) => {
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format!("callee_scope {} (id={})", pprust::expr_to_str(expr, itr), id)
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}
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Some(&node_stmt(stmt)) => {
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format!("stmt {} (id={})",
pprust::stmt_to_str(stmt, itr), id)
}
Some(&node_arg(pat)) => {
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format!("arg {} (id={})", pprust::pat_to_str(pat, itr), id)
}
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Some(&node_local(ident)) => {
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format!("local (id={}, name={})", id, itr.get(ident.name))
}
Some(&node_block(block)) => {
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format!("block {} (id={})", pprust::block_to_str(block, itr), id)
}
Some(&node_struct_ctor(_, _, path)) => {
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format!("struct_ctor {} (id={})", path_to_str(*path, itr), id)
}
}
}
pub fn node_item_query<Result>(items: map, id: NodeId, query: |@item| -> Result, error_msg: ~str)
-> Result {
match items.find(&id) {
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Some(&node_item(it, _)) => query(it),
_ => fail!("{}", error_msg)
}
}
pub fn node_span(items: map,
id: ast::NodeId)
-> Span {
match items.find(&id) {
Some(&node_item(item, _)) => item.span,
Some(&node_foreign_item(foreign_item, _, _, _)) => foreign_item.span,
Some(&node_trait_method(@required(ref type_method), _, _)) => type_method.span,
Some(&node_trait_method(@provided(ref method), _, _)) => method.span,
Some(&node_method(method, _, _)) => method.span,
Some(&node_variant(variant, _, _)) => variant.span,
Some(&node_expr(expr)) => expr.span,
Some(&node_stmt(stmt)) => stmt.span,
Some(&node_arg(pat)) => pat.span,
Some(&node_local(_)) => fail!("node_span: cannot get span from node_local"),
Some(&node_block(block)) => block.span,
Some(&node_struct_ctor(_, item, _)) => item.span,
Some(&node_callee_scope(expr)) => expr.span,
None => fail!("node_span: could not find id {}", id),
}
}