rust/src/librustc/middle/check_const.rs
Michael Woerister 4bd1424622 Ast spanned<T> refactoring, renaming: crate, local, blk, crate_num, crate_cfg.
`crate => Crate`
`local => Local`
`blk => Block`
`crate_num => CrateNum`
`crate_cfg => CrateConfig`

Also, Crate and Local are not wrapped in spanned<T> anymore.
2013-07-22 15:35:28 +02:00

253 lines
8.5 KiB
Rust

// 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 driver::session::Session;
use middle::resolve;
use middle::ty;
use middle::typeck;
use util::ppaux;
use syntax::ast::*;
use syntax::codemap;
use syntax::{visit, ast_util, ast_map};
pub fn check_crate(sess: Session,
crate: &Crate,
ast_map: ast_map::map,
def_map: resolve::DefMap,
method_map: typeck::method_map,
tcx: ty::ctxt) {
visit::visit_crate(crate, (false, visit::mk_vt(@visit::Visitor {
visit_item: |a,b| check_item(sess, ast_map, def_map, a, b),
visit_pat: check_pat,
visit_expr: |a,b|
check_expr(sess, def_map, method_map, tcx, a, b),
.. *visit::default_visitor()
})));
sess.abort_if_errors();
}
pub fn check_item(sess: Session,
ast_map: ast_map::map,
def_map: resolve::DefMap,
it: @item,
(_is_const, v): (bool,
visit::vt<bool>)) {
match it.node {
item_static(_, _, ex) => {
(v.visit_expr)(ex, (true, v));
check_item_recursion(sess, ast_map, def_map, it);
}
item_enum(ref enum_definition, _) => {
for (*enum_definition).variants.iter().advance |var| {
for var.node.disr_expr.iter().advance |ex| {
(v.visit_expr)(*ex, (true, v));
}
}
}
_ => visit::visit_item(it, (false, v))
}
}
pub fn check_pat(p: @pat, (_is_const, v): (bool, visit::vt<bool>)) {
fn is_str(e: @expr) -> bool {
match e.node {
expr_vstore(
@expr { node: expr_lit(@codemap::spanned {
node: lit_str(_),
_}),
_ },
expr_vstore_uniq
) => true,
_ => false
}
}
match p.node {
// Let through plain ~-string literals here
pat_lit(a) => if !is_str(a) { (v.visit_expr)(a, (true, v)); },
pat_range(a, b) => {
if !is_str(a) { (v.visit_expr)(a, (true, v)); }
if !is_str(b) { (v.visit_expr)(b, (true, v)); }
}
_ => visit::visit_pat(p, (false, v))
}
}
pub fn check_expr(sess: Session,
def_map: resolve::DefMap,
method_map: typeck::method_map,
tcx: ty::ctxt,
e: @expr,
(is_const, v): (bool,
visit::vt<bool>)) {
if is_const {
match e.node {
expr_unary(_, deref, _) => { }
expr_unary(_, box(_), _) | expr_unary(_, uniq, _) => {
sess.span_err(e.span,
"disallowed operator in constant expression");
return;
}
expr_lit(@codemap::spanned {node: lit_str(_), _}) => { }
expr_binary(*) | expr_unary(*) => {
if method_map.contains_key(&e.id) {
sess.span_err(e.span, "user-defined operators are not \
allowed in constant expressions");
}
}
expr_lit(_) => (),
expr_cast(_, _) => {
let ety = ty::expr_ty(tcx, e);
if !ty::type_is_numeric(ety) && !ty::type_is_unsafe_ptr(ety) {
sess.span_err(e.span, ~"can not cast to `" +
ppaux::ty_to_str(tcx, ety) +
"` in a constant expression");
}
}
expr_path(ref pth) => {
// NB: In the future you might wish to relax this slightly
// to handle on-demand instantiation of functions via
// foo::<bar> in a const. Currently that is only done on
// a path in trans::callee that only works in block contexts.
if pth.types.len() != 0 {
sess.span_err(
e.span, "paths in constants may only refer to \
items without type parameters");
}
match def_map.find(&e.id) {
Some(&def_static(*)) |
Some(&def_fn(_, _)) |
Some(&def_variant(_, _)) |
Some(&def_struct(_)) => { }
Some(&def) => {
debug!("(checking const) found bad def: %?", def);
sess.span_err(
e.span,
"paths in constants may only refer to \
constants or functions");
}
None => {
sess.span_bug(e.span, "unbound path in const?!");
}
}
}
expr_call(callee, _, NoSugar) => {
match def_map.find(&callee.id) {
Some(&def_struct(*)) => {} // OK.
Some(&def_variant(*)) => {} // OK.
_ => {
sess.span_err(
e.span,
"function calls in constants are limited to \
struct and enum constructors");
}
}
}
expr_paren(e) => { check_expr(sess, def_map, method_map,
tcx, e, (is_const, v)); }
expr_vstore(_, expr_vstore_slice) |
expr_vec(_, m_imm) |
expr_addr_of(m_imm, _) |
expr_field(*) |
expr_index(*) |
expr_tup(*) |
expr_struct(_, _, None) => { }
expr_addr_of(*) => {
sess.span_err(
e.span,
"borrowed pointers in constants may only refer to \
immutable values");
}
_ => {
sess.span_err(e.span,
"constant contains unimplemented expression type");
return;
}
}
}
match e.node {
expr_lit(@codemap::spanned {node: lit_int(v, t), _}) => {
if t != ty_char {
if (v as u64) > ast_util::int_ty_max(
if t == ty_i { sess.targ_cfg.int_type } else { t }) {
sess.span_err(e.span, "literal out of range for its type");
}
}
}
expr_lit(@codemap::spanned {node: lit_uint(v, t), _}) => {
if v > ast_util::uint_ty_max(
if t == ty_u { sess.targ_cfg.uint_type } else { t }) {
sess.span_err(e.span, "literal out of range for its type");
}
}
_ => ()
}
visit::visit_expr(e, (is_const, v));
}
#[deriving(Clone)]
struct env {
root_it: @item,
sess: Session,
ast_map: ast_map::map,
def_map: resolve::DefMap,
idstack: @mut ~[node_id]
}
// Make sure a const item doesn't recursively refer to itself
// FIXME: Should use the dependency graph when it's available (#1356)
pub fn check_item_recursion(sess: Session,
ast_map: ast_map::map,
def_map: resolve::DefMap,
it: @item) {
let env = env {
root_it: it,
sess: sess,
ast_map: ast_map,
def_map: def_map,
idstack: @mut ~[]
};
let visitor = visit::mk_vt(@visit::Visitor {
visit_item: visit_item,
visit_expr: visit_expr,
.. *visit::default_visitor()
});
(visitor.visit_item)(it, (env, visitor));
fn visit_item(it: @item, (env, v): (env, visit::vt<env>)) {
if env.idstack.iter().any(|x| x == &(it.id)) {
env.sess.span_fatal(env.root_it.span, "recursive constant");
}
env.idstack.push(it.id);
visit::visit_item(it, (env, v));
env.idstack.pop();
}
fn visit_expr(e: @expr, (env, v): (env, visit::vt<env>)) {
match e.node {
expr_path(*) => match env.def_map.find(&e.id) {
Some(&def_static(def_id, _)) if ast_util::is_local(def_id) =>
match env.ast_map.get_copy(&def_id.node) {
ast_map::node_item(it, _) => {
(v.visit_item)(it, (env, v));
}
_ => fail!("const not bound to an item")
},
_ => ()
},
_ => ()
}
visit::visit_expr(e, (env, v));
}
}