rust/src/librustc/middle/check_match.rs

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// 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 <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 middle::const_eval::{compare_const_vals, lookup_const_by_id};
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use middle::const_eval::{eval_const_expr, const_val, const_bool};
use middle::pat_util::*;
use middle::ty::*;
use middle::ty;
use middle::typeck::method_map;
use middle::moves;
use util::ppaux::ty_to_str;
use std::sort;
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use syntax::ast::*;
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use syntax::ast_util::{unguarded_pat, walk_pat};
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use syntax::codemap::{span, dummy_sp, spanned};
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use syntax::visit;
pub struct MatchCheckCtxt {
tcx: ty::ctxt,
method_map: method_map,
moves_map: moves::MovesMap
}
pub fn check_crate(tcx: ty::ctxt,
method_map: method_map,
moves_map: moves::MovesMap,
crate: @crate) {
let cx = @MatchCheckCtxt {tcx: tcx,
method_map: method_map,
moves_map: moves_map};
visit::visit_crate(crate, (), visit::mk_vt(@visit::Visitor {
visit_expr: |a,b,c| check_expr(cx, a, b, c),
visit_local: |a,b,c| check_local(cx, a, b, c),
visit_fn: |kind, decl, body, sp, id, e, v|
check_fn(cx, kind, decl, body, sp, id, e, v),
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.. *visit::default_visitor::<()>()
}));
tcx.sess.abort_if_errors();
}
pub fn expr_is_non_moving_lvalue(cx: @MatchCheckCtxt, expr: @expr) -> bool {
if !ty::expr_is_lval(cx.tcx, cx.method_map, expr) {
return false;
}
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!cx.moves_map.contains(&expr.id)
}
pub fn check_expr(cx: @MatchCheckCtxt, ex: @expr, s: (), v: visit::vt<()>) {
visit::visit_expr(ex, s, v);
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match ex.node {
expr_match(scrut, ref arms) => {
// First, check legality of move bindings.
let is_non_moving_lvalue = expr_is_non_moving_lvalue(cx, ex);
for arms.each |arm| {
check_legality_of_move_bindings(cx,
is_non_moving_lvalue,
arm.guard.is_some(),
arm.pats);
}
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check_arms(cx, *arms);
/* Check for exhaustiveness */
// Check for empty enum, because is_useful only works on inhabited
// types.
let pat_ty = node_id_to_type(cx.tcx, scrut.id);
if (*arms).is_empty() {
if !type_is_empty(cx.tcx, pat_ty) {
// We know the type is inhabited, so this must be wrong
cx.tcx.sess.span_err(ex.span, fmt!("non-exhaustive patterns: \
type %s is non-empty",
ty_to_str(cx.tcx, pat_ty)));
}
// If the type *is* empty, it's vacuously exhaustive
return;
}
match ty::get(pat_ty).sty {
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ty_enum(did, _) => {
if (*enum_variants(cx.tcx, did)).is_empty() &&
(*arms).is_empty() {
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return;
}
}
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_ => { /* We assume only enum types can be uninhabited */ }
}
let arms = vec::concat(arms.filter_mapped(unguarded_pat));
if arms.is_empty() {
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cx.tcx.sess.span_err(ex.span, "non-exhaustive patterns");
} else {
check_exhaustive(cx, ex.span, arms);
}
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}
_ => ()
}
}
// Check for unreachable patterns
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pub fn check_arms(cx: @MatchCheckCtxt, arms: &[arm]) {
let mut seen = ~[];
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for arms.each |arm| {
for arm.pats.each |pat| {
let v = ~[*pat];
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match is_useful(cx, &seen, v) {
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not_useful => {
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cx.tcx.sess.span_err(pat.span, "unreachable pattern");
}
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_ => ()
}
if arm.guard.is_none() { seen.push(v); }
}
}
}
pub fn raw_pat(p: @pat) -> @pat {
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match p.node {
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pat_ident(_, _, Some(s)) => { raw_pat(s) }
_ => { p }
}
}
pub fn check_exhaustive(cx: @MatchCheckCtxt, sp: span, pats: ~[@pat]) {
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assert!((!pats.is_empty()));
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let ext = match is_useful(cx, &pats.map(|p| ~[*p]), ~[wild()]) {
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not_useful => {
// This is good, wildcard pattern isn't reachable
return;
}
useful_ => None,
useful(ty, ref ctor) => {
match ty::get(ty).sty {
ty::ty_bool => {
match (*ctor) {
val(const_bool(true)) => Some(@~"true"),
val(const_bool(false)) => Some(@~"false"),
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_ => None
}
}
ty::ty_enum(id, _) => {
let vid = match *ctor {
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variant(id) => id,
_ => fail!(~"check_exhaustive: non-variant ctor"),
};
let variants = ty::enum_variants(cx.tcx, id);
match variants.find(|v| v.id == vid) {
Some(v) => Some(cx.tcx.sess.str_of(v.name)),
None => {
fail!(~"check_exhaustive: bad variant in ctor")
}
}
}
ty::ty_unboxed_vec(*) | ty::ty_evec(*) => {
match *ctor {
vec(n) => Some(@fmt!("vectors of length %u", n)),
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_ => None
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}
}
_ => None
}
}
};
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let msg = ~"non-exhaustive patterns" + match ext {
Some(ref s) => ~": " + **s + ~" not covered",
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None => ~""
};
cx.tcx.sess.span_err(sp, msg);
}
pub type matrix = ~[~[@pat]];
pub enum useful { useful(ty::t, ctor), useful_, not_useful }
#[deriving(Eq)]
pub enum ctor {
single,
variant(def_id),
val(const_val),
range(const_val, const_val),
vec(uint)
}
// Algorithm from http://moscova.inria.fr/~maranget/papers/warn/index.html
//
// Whether a vector `v` of patterns is 'useful' in relation to a set of such
// vectors `m` is defined as there being a set of inputs that will match `v`
// but not any of the sets in `m`.
//
// This is used both for reachability checking (if a pattern isn't useful in
// relation to preceding patterns, it is not reachable) and exhaustiveness
// checking (if a wildcard pattern is useful in relation to a matrix, the
// matrix isn't exhaustive).
// Note: is_useful doesn't work on empty types, as the paper notes.
// So it assumes that v is non-empty.
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pub fn is_useful(cx: @MatchCheckCtxt, m: &matrix, v: &[@pat]) -> useful {
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if m.len() == 0u { return useful_; }
if m[0].len() == 0u { return not_useful; }
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let real_pat = match m.find(|r| r[0].id != 0) {
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Some(r) => r[0], None => v[0]
};
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let left_ty = if real_pat.id == 0 { ty::mk_nil() }
else { ty::node_id_to_type(cx.tcx, real_pat.id) };
match pat_ctor_id(cx, v[0]) {
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None => {
match missing_ctor(cx, m, left_ty) {
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None => {
match ty::get(left_ty).sty {
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ty::ty_bool => {
match is_useful_specialized(cx, m, v,
val(const_bool(true)),
0u, left_ty){
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not_useful => {
is_useful_specialized(cx, m, v,
val(const_bool(false)),
0u, left_ty)
}
ref u => (/*bad*/copy *u)
}
}
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ty::ty_enum(eid, _) => {
for (*ty::enum_variants(cx.tcx, eid)).each |va| {
match is_useful_specialized(cx, m, v, variant(va.id),
va.args.len(), left_ty) {
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not_useful => (),
ref u => return (/*bad*/copy *u)
}
}
not_useful
}
ty::ty_unboxed_vec(*) | ty::ty_evec(*) => {
let max_len = do m.foldr(0) |r, max_len| {
match r[0].node {
pat_vec(ref before, _, ref after) => {
uint::max(before.len() + after.len(), max_len)
}
_ => max_len
}
};
for uint::range(0, max_len + 1) |n| {
match is_useful_specialized(cx, m, v, vec(n), n, left_ty) {
not_useful => (),
ref u => return (/*bad*/copy *u)
}
}
not_useful
}
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_ => {
let arity = ctor_arity(cx, &single, left_ty);
is_useful_specialized(cx, m, v, single, arity, left_ty)
}
}
}
Some(ref ctor) => {
match is_useful(cx,
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&m.filter_mapped(|r| default(cx, *r)),
v.tail()) {
useful_ => useful(left_ty, /*bad*/copy *ctor),
ref u => (/*bad*/copy *u)
}
}
}
}
Some(ref v0_ctor) => {
let arity = ctor_arity(cx, v0_ctor, left_ty);
is_useful_specialized(cx, m, v, /*bad*/copy *v0_ctor, arity, left_ty)
}
}
}
pub fn is_useful_specialized(cx: @MatchCheckCtxt,
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m: &matrix,
v: &[@pat],
ctor: ctor,
arity: uint,
lty: ty::t)
-> useful {
let ms = m.filter_mapped(|r| specialize(cx, *r, &ctor, arity, lty));
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let could_be_useful = is_useful(
cx, &ms, specialize(cx, v, &ctor, arity, lty).get());
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match could_be_useful {
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useful_ => useful(lty, ctor),
ref u => (/*bad*/copy *u)
}
}
pub fn pat_ctor_id(cx: @MatchCheckCtxt, p: @pat) -> Option<ctor> {
let pat = raw_pat(p);
match pat.node {
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pat_wild => { None }
pat_ident(_, _, _) | pat_enum(_, _) => {
match cx.tcx.def_map.find(&pat.id) {
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Some(&def_variant(_, id)) => Some(variant(id)),
Some(&def_const(did)) => {
let const_expr = lookup_const_by_id(cx.tcx, did).get();
Some(val(eval_const_expr(cx.tcx, const_expr)))
}
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_ => None
}
}
pat_lit(expr) => { Some(val(eval_const_expr(cx.tcx, expr))) }
pat_range(lo, hi) => {
Some(range(eval_const_expr(cx.tcx, lo), eval_const_expr(cx.tcx, hi)))
}
pat_struct(*) => {
match cx.tcx.def_map.find(&pat.id) {
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Some(&def_variant(_, id)) => Some(variant(id)),
_ => Some(single)
}
}
pat_box(_) | pat_uniq(_) | pat_tup(_) | pat_region(*) => {
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Some(single)
}
pat_vec(ref before, slice, ref after) => {
match slice {
Some(_) => None,
None => Some(vec(before.len() + after.len()))
}
}
}
}
pub fn is_wild(cx: @MatchCheckCtxt, p: @pat) -> bool {
let pat = raw_pat(p);
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match pat.node {
pat_wild => { true }
pat_ident(_, _, _) => {
match cx.tcx.def_map.find(&pat.id) {
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Some(&def_variant(_, _)) | Some(&def_const(*)) => { false }
_ => { true }
}
}
_ => { false }
}
}
pub fn missing_ctor(cx: @MatchCheckCtxt,
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m: &matrix,
left_ty: ty::t)
-> Option<ctor> {
match ty::get(left_ty).sty {
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ty::ty_box(_) | ty::ty_uniq(_) | ty::ty_rptr(*) | ty::ty_tup(_) |
ty::ty_struct(*) => {
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for m.each |r| {
if !is_wild(cx, r[0]) { return None; }
}
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return Some(single);
}
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ty::ty_enum(eid, _) => {
let mut found = ~[];
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for m.each |r| {
for pat_ctor_id(cx, r[0]).each |id| {
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if !vec::contains(found, id) {
found.push(/*bad*/copy *id);
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}
}
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}
let variants = ty::enum_variants(cx.tcx, eid);
if found.len() != (*variants).len() {
for vec::each(*variants) |v| {
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if !found.contains(&(variant(v.id))) {
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return Some(variant(v.id));
}
}
fail!();
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} else { None }
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}
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ty::ty_nil => None,
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ty::ty_bool => {
let mut true_found = false, false_found = false;
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for m.each |r| {
match pat_ctor_id(cx, r[0]) {
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None => (),
Some(val(const_bool(true))) => true_found = true,
Some(val(const_bool(false))) => false_found = true,
_ => fail!(~"impossible case")
}
}
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if true_found && false_found { None }
else if true_found { Some(val(const_bool(false))) }
else { Some(val(const_bool(true))) }
}
ty::ty_unboxed_vec(*) | ty::ty_evec(*) => {
// Find the lengths and slices of all vector patterns.
let vec_pat_lens = do m.filter_mapped |r| {
match r[0].node {
pat_vec(ref before, ref slice, ref after) => {
Some((before.len() + after.len(), slice.is_some()))
}
_ => None
}
};
// Sort them by length such that for patterns of the same length,
// those with a destructured slice come first.
let mut sorted_vec_lens = sort::merge_sort(vec_pat_lens,
|&(len1, slice1), &(len2, slice2)| {
if len1 == len2 {
slice1 > slice2
} else {
len1 <= len2
}
}
);
vec::dedup(&mut sorted_vec_lens);
let mut found_slice = false;
let mut next = 0;
let mut missing = None;
for sorted_vec_lens.each |&(length, slice)| {
if length != next {
missing = Some(next);
break;
}
if slice {
found_slice = true;
break;
}
next += 1;
}
// We found patterns of all lengths within <0, next), yet there was no
// pattern with a slice - therefore, we report vec(next) as missing.
if !found_slice {
missing = Some(next);
}
match missing {
Some(k) => Some(vec(k)),
None => None
}
}
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_ => Some(single)
}
}
pub fn ctor_arity(cx: @MatchCheckCtxt, ctor: &ctor, ty: ty::t) -> uint {
match ty::get(ty).sty {
ty::ty_tup(ref fs) => fs.len(),
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ty::ty_box(_) | ty::ty_uniq(_) | ty::ty_rptr(*) => 1u,
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ty::ty_enum(eid, _) => {
let id = match *ctor { variant(id) => id,
_ => fail!(~"impossible case") };
match vec::find(*ty::enum_variants(cx.tcx, eid), |v| v.id == id ) {
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Some(v) => v.args.len(),
None => fail!(~"impossible case")
}
}
ty::ty_struct(cid, _) => ty::lookup_struct_fields(cx.tcx, cid).len(),
ty::ty_unboxed_vec(*) | ty::ty_evec(*) => {
match *ctor {
vec(n) => n,
_ => 0u
}
}
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_ => 0u
}
}
pub fn wild() -> @pat {
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@pat {id: 0, node: pat_wild, span: dummy_sp()}
}
pub fn specialize(cx: @MatchCheckCtxt,
r: &[@pat],
ctor_id: &ctor,
arity: uint,
left_ty: ty::t)
-> Option<~[@pat]> {
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// Sad, but I can't get rid of this easily
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let r0 = copy *raw_pat(r[0]);
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match r0 {
pat{id: pat_id, node: n, span: pat_span} =>
match n {
pat_wild => {
Some(vec::append(vec::from_elem(arity, wild()), r.tail()))
}
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pat_ident(_, _, _) => {
match cx.tcx.def_map.find(&pat_id) {
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Some(&def_variant(_, id)) => {
if variant(id) == *ctor_id {
Some(vec::from_slice(r.tail()))
} else {
None
}
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}
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Some(&def_const(did)) => {
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let const_expr =
lookup_const_by_id(cx.tcx, did).get();
let e_v = eval_const_expr(cx.tcx, const_expr);
let match_ = match *ctor_id {
val(ref v) => compare_const_vals(&e_v, v) == 0,
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range(ref c_lo, ref c_hi) => {
compare_const_vals(c_lo, &e_v) >= 0 &&
compare_const_vals(c_hi, &e_v) <= 0
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}
single => true,
_ => fail!(~"type error")
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};
if match_ {
Some(vec::from_slice(r.tail()))
} else {
None
}
}
_ => {
Some(
vec::append(
vec::from_elem(arity, wild()),
r.tail()
)
)
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}
}
}
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pat_enum(_, args) => {
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match *cx.tcx.def_map.get(&pat_id) {
def_const(did) => {
let const_expr =
lookup_const_by_id(cx.tcx, did).get();
let e_v = eval_const_expr(cx.tcx, const_expr);
let match_ = match *ctor_id {
val(ref v) => compare_const_vals(&e_v, v) == 0,
range(ref c_lo, ref c_hi) => {
compare_const_vals(c_lo, &e_v) >= 0 &&
compare_const_vals(c_hi, &e_v) <= 0
}
single => true,
_ => fail!(~"type error")
};
if match_ {
Some(vec::from_slice(r.tail()))
} else {
None
}
}
def_variant(_, id) if variant(id) == *ctor_id => {
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let args = match args {
Some(args) => args,
None => vec::from_elem(arity, wild())
};
Some(vec::append(args, vec::from_slice(r.tail())))
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}
def_variant(_, _) => None,
def_fn(*) |
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def_struct(*) => {
// FIXME #4731: Is this right? --pcw
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let new_args;
match args {
Some(args) => new_args = args,
None => new_args = vec::from_elem(arity, wild())
}
Some(vec::append(new_args, vec::from_slice(r.tail())))
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}
_ => None
}
}
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pat_struct(_, ref flds, _) => {
// Is this a struct or an enum variant?
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match *cx.tcx.def_map.get(&pat_id) {
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def_variant(_, variant_id) => {
if variant(variant_id) == *ctor_id {
// FIXME #4731: Is this right? --pcw
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let args = flds.map(|ty_field| {
match flds.find(|f|
f.ident == ty_field.ident) {
Some(f) => f.pat,
_ => wild()
}
});
Some(vec::append(args, vec::from_slice(r.tail())))
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} else {
None
}
}
_ => {
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// Grab the class data that we care about.
let class_fields, class_id;
match ty::get(left_ty).sty {
ty::ty_struct(cid, _) => {
class_id = cid;
class_fields =
ty::lookup_struct_fields(cx.tcx,
class_id);
}
_ => {
cx.tcx.sess.span_bug(
pat_span,
fmt!("struct pattern resolved to %s, \
not a struct",
ty_to_str(cx.tcx, left_ty)));
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}
}
let args = vec::map(class_fields, |class_field| {
match flds.find(|f|
f.ident == class_field.ident) {
Some(f) => f.pat,
_ => wild()
}
});
Some(vec::append(args, vec::from_slice(r.tail())))
}
}
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}
pat_tup(args) => Some(vec::append(args, r.tail())),
pat_box(a) | pat_uniq(a) | pat_region(a) => {
Some(vec::append(~[a], r.tail()))
}
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pat_lit(expr) => {
let e_v = eval_const_expr(cx.tcx, expr);
let match_ = match *ctor_id {
val(ref v) => compare_const_vals(&e_v, v) == 0,
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range(ref c_lo, ref c_hi) => {
compare_const_vals(c_lo, &e_v) >= 0 &&
compare_const_vals(c_hi, &e_v) <= 0
}
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single => true,
_ => fail!(~"type error")
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};
if match_ { Some(vec::from_slice(r.tail())) } else { None }
}
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pat_range(lo, hi) => {
let (c_lo, c_hi) = match *ctor_id {
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val(ref v) => ((/*bad*/copy *v), (/*bad*/copy *v)),
range(ref lo, ref hi) =>
((/*bad*/copy *lo), (/*bad*/copy *hi)),
single => return Some(vec::from_slice(r.tail())),
_ => fail!(~"type error")
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};
let v_lo = eval_const_expr(cx.tcx, lo),
v_hi = eval_const_expr(cx.tcx, hi);
let match_ = compare_const_vals(&c_lo, &v_lo) >= 0 &&
compare_const_vals(&c_hi, &v_hi) <= 0;
if match_ { Some(vec::from_slice(r.tail())) } else { None }
}
pat_vec(before, slice, after) => {
match *ctor_id {
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vec(_) => {
let num_elements = before.len() + after.len();
if num_elements < arity && slice.is_some() {
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Some(vec::append(
vec::concat(&[
before,
vec::from_elem(
arity - num_elements, wild()),
after
]),
r.tail()
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))
} else if num_elements == arity {
Some(vec::append(
vec::append(before, after),
r.tail()
))
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} else {
None
}
}
_ => None
}
}
}
}
}
pub fn default(cx: @MatchCheckCtxt, r: &[@pat]) -> Option<~[@pat]> {
if is_wild(cx, r[0]) { Some(vec::from_slice(r.tail())) }
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else { None }
}
pub fn check_local(cx: @MatchCheckCtxt,
loc: @local,
s: (),
v: visit::vt<()>) {
visit::visit_local(loc, s, v);
if is_refutable(cx, loc.node.pat) {
cx.tcx.sess.span_err(loc.node.pat.span,
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"refutable pattern in local binding");
}
// Check legality of move bindings.
let is_lvalue = match loc.node.init {
Some(init) => expr_is_non_moving_lvalue(cx, init),
None => true
};
check_legality_of_move_bindings(cx, is_lvalue, false, [ loc.node.pat ]);
}
pub fn check_fn(cx: @MatchCheckCtxt,
kind: &visit::fn_kind,
decl: &fn_decl,
body: &blk,
sp: span,
id: node_id,
s: (),
v: visit::vt<()>) {
visit::visit_fn(kind, decl, body, sp, id, s, v);
for decl.inputs.each |input| {
if is_refutable(cx, input.pat) {
cx.tcx.sess.span_err(input.pat.span,
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"refutable pattern in function argument");
}
}
}
pub fn is_refutable(cx: @MatchCheckCtxt, pat: &pat) -> bool {
match cx.tcx.def_map.find(&pat.id) {
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Some(&def_variant(enum_id, _)) => {
if vec::len(*ty::enum_variants(cx.tcx, enum_id)) != 1u {
return true;
}
}
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Some(&def_const(*)) => return true,
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_ => ()
}
match pat.node {
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pat_box(sub) | pat_uniq(sub) | pat_region(sub) |
pat_ident(_, _, Some(sub)) => {
is_refutable(cx, sub)
}
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pat_wild | pat_ident(_, _, None) => { false }
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pat_lit(@expr {node: expr_lit(@spanned { node: lit_nil, _}), _}) => {
// "()"
false
}
pat_lit(_) | pat_range(_, _) => { true }
pat_struct(_, ref fields, _) => {
fields.any(|f| is_refutable(cx, f.pat))
}
pat_tup(ref elts) => {
elts.any(|elt| is_refutable(cx, *elt))
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}
pat_enum(_, Some(ref args)) => {
args.any(|a| is_refutable(cx, *a))
}
pat_enum(_,_) => { false }
pat_vec(*) => { true }
}
}
// Legality of move bindings checking
pub fn check_legality_of_move_bindings(cx: @MatchCheckCtxt,
is_lvalue: bool,
has_guard: bool,
pats: &[@pat]) {
let tcx = cx.tcx;
let def_map = tcx.def_map;
let mut by_ref_span = None;
let mut any_by_move = false;
for pats.each |pat| {
do pat_bindings(def_map, *pat) |bm, id, span, _path| {
match bm {
bind_by_copy => {}
bind_by_ref(_) => {
by_ref_span = Some(span);
}
bind_infer => {
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if cx.moves_map.contains(&id) {
any_by_move = true;
}
}
}
}
}
let check_move: &fn(@pat, Option<@pat>) = |p, sub| {
// check legality of moving out of the enum
if sub.is_some() {
tcx.sess.span_err(
p.span,
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"cannot bind by-move with sub-bindings");
} else if has_guard {
tcx.sess.span_err(
p.span,
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"cannot bind by-move into a pattern guard");
} else if by_ref_span.is_some() {
tcx.sess.span_err(
p.span,
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"cannot bind by-move and by-ref \
in the same pattern");
tcx.sess.span_note(
by_ref_span.get(),
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"by-ref binding occurs here");
} else if is_lvalue {
tcx.sess.span_err(
p.span,
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"cannot bind by-move when \
matching an lvalue");
}
};
if !any_by_move { return; } // pointless micro-optimization
for pats.each |pat| {
do walk_pat(*pat) |p| {
if pat_is_binding(def_map, p) {
match p.node {
pat_ident(_, _, sub) => {
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if cx.moves_map.contains(&p.id) {
check_move(p, sub);
}
}
_ => {
cx.tcx.sess.span_bug(
p.span,
fmt!("Binding pattern %d is \
not an identifier: %?",
p.id, p.node));
}
}
}
}
// Now check to ensure that any move binding is not behind an @ or &.
// This is always illegal.
let vt = visit::mk_vt(@visit::Visitor {
visit_pat: |pat, behind_bad_pointer: bool, v| {
match pat.node {
pat_ident(_, _, sub) => {
debug!("(check legality of move) checking pat \
ident with behind_bad_pointer %?",
behind_bad_pointer);
if behind_bad_pointer &&
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cx.moves_map.contains(&pat.id)
{
cx.tcx.sess.span_err(
pat.span,
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"by-move pattern \
bindings may not occur \
behind @ or & bindings");
}
match sub {
None => {}
Some(subpat) => {
(v.visit_pat)(subpat, behind_bad_pointer, v);
}
}
}
pat_box(subpat) | pat_region(subpat) => {
(v.visit_pat)(subpat, true, v);
}
_ => visit::visit_pat(pat, behind_bad_pointer, v)
}
},
.. *visit::default_visitor::<bool>()
});
(vt.visit_pat)(*pat, false, vt);
}
}