Address review comments

This commit is contained in:
Jakub Wieczorek 2014-06-19 20:55:12 +02:00
parent 76f7eeef52
commit abce42afa3
10 changed files with 153 additions and 66 deletions

View File

@ -51,13 +51,13 @@ impl Usefulness {
}
fn def_to_path(tcx: &ty::ctxt, id: DefId) -> Path {
ty::with_path(tcx, id, |path| Path {
ty::with_path(tcx, id, |mut path| Path {
global: false,
segments: path.map(|elem| PathSegment {
segments: path.last().map(|elem| PathSegment {
identifier: Ident::new(elem.name()),
lifetimes: vec!(),
types: OwnedSlice::empty()
}).collect(),
}).move_iter().collect(),
span: DUMMY_SP,
})
}
@ -100,10 +100,11 @@ fn check_expr(cx: &mut MatchCheckCtxt, ex: &Expr) {
arm.pats.as_slice());
}
// Second, check for unreachable arms.
check_arms(cx, arms.as_slice());
/* Check for exhaustiveness */
// Check for empty enum, because is_useful only works on inhabited
// types.
// Finally, check if the whole match expression is exhaustive.
// 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) {
@ -180,11 +181,11 @@ fn check_exhaustive(cx: &MatchCheckCtxt, sp: Span, m: &Matrix) {
}
Useful(pats) => {
let witness = match pats.as_slice() {
[ref witness] => witness.clone(),
[witness] => witness,
[] => wild(),
_ => unreachable!()
};
let msg = format!("non-exhaustive patterns: {0} not covered", pat_to_str(&*witness));
let msg = format!("non-exhaustive patterns: `{0}` not covered", pat_to_str(&*witness));
cx.tcx.sess.span_err(sp, msg.as_slice());
}
}
@ -193,7 +194,7 @@ fn check_exhaustive(cx: &MatchCheckCtxt, sp: Span, m: &Matrix) {
#[deriving(Clone, PartialEq)]
enum ctor {
single,
variant(DefId),
variant(DefId /* variant */, bool /* is_structure */),
val(const_val),
range(const_val, const_val),
vec(uint)
@ -215,23 +216,23 @@ fn construct_witness(cx: &MatchCheckCtxt, ctor: &ctor, pats: Vec<Gc<Pat>>, lty:
let pat = match ty::get(lty).sty {
ty::ty_tup(_) => PatTup(pats),
ty::ty_enum(_, _) => {
let vid = match ctor {
&variant(vid) => vid,
_ => unreachable!()
ty::ty_enum(cid, _) | ty::ty_struct(cid, _) => {
let (vid, is_structure) = match ctor {
&variant(vid, is_structure) => (vid, is_structure),
_ => (cid, true)
};
PatEnum(def_to_path(cx.tcx, vid), Some(pats))
},
ty::ty_struct(cid, _) => {
let fields = ty::lookup_struct_fields(cx.tcx, cid);
let field_pats = fields.move_iter()
.zip(pats.iter())
.map(|(field, pat)| FieldPat {
ident: Ident::new(field.name),
pat: pat.clone()
}).collect();
PatStruct(def_to_path(cx.tcx, cid), field_pats, false)
if is_structure {
let fields = ty::lookup_struct_fields(cx.tcx, vid);
let field_pats = fields.move_iter()
.zip(pats.iter())
.map(|(field, pat)| FieldPat {
ident: Ident::new(field.name),
pat: pat.clone()
}).collect();
PatStruct(def_to_path(cx.tcx, vid), field_pats, false)
} else {
PatEnum(def_to_path(cx.tcx, vid), Some(pats))
}
},
ty::ty_rptr(_, ty::mt { ty: ty, .. }) => {
@ -307,7 +308,10 @@ fn all_constructors(cx: &MatchCheckCtxt, m: &Matrix, left_ty: ty::t) -> Vec<ctor
},
ty::ty_enum(eid, _) =>
ty::enum_variants(cx.tcx, eid).iter().map(|va| variant(va.id)).collect(),
ty::enum_variants(cx.tcx, eid)
.iter()
.map(|va| variant(va.id, va.arg_names.is_some()))
.collect(),
ty::ty_vec(_, None) =>
vec_constructors(m),
@ -389,8 +393,8 @@ fn is_useful(cx: &MatchCheckCtxt, m: &Matrix, v: &[Gc<Pat>],
},
Some(ctor) => {
let matrix = &m.iter().filter_map(|r| default(cx, r.as_slice())).collect();
match is_useful(cx, matrix, v.tail(), witness) {
let matrix = m.iter().filter_map(|r| default(cx, r.as_slice())).collect();
match is_useful(cx, &matrix, v.tail(), witness) {
Useful(pats) => Useful(match witness {
ConstructWitness => {
let arity = constructor_arity(cx, &ctor, left_ty);
@ -424,19 +428,28 @@ fn is_useful_specialized(cx: &MatchCheckCtxt, m: &Matrix, v: &[Gc<Pat>],
fn pat_ctor_id(cx: &MatchCheckCtxt, left_ty: ty::t, p: Gc<Pat>) -> Option<ctor> {
let pat = raw_pat(p);
match pat.node {
PatIdent(..) | PatEnum(..) | PatStruct(..) =>
PatIdent(..) =>
match cx.tcx.def_map.borrow().find(&pat.id) {
Some(&DefStatic(did, false)) => {
let const_expr = lookup_const_by_id(cx.tcx, did).unwrap();
Some(val(eval_const_expr(cx.tcx, &*const_expr)))
},
Some(&DefVariant(_, id, _)) =>
Some(variant(id)),
_ => match pat.node {
PatEnum(..) | PatStruct(..) => Some(single),
PatIdent(..) => None,
_ => unreachable!()
}
Some(&DefVariant(_, id, is_structure)) => Some(variant(id, is_structure)),
_ => None
},
PatEnum(..) =>
match cx.tcx.def_map.borrow().find(&pat.id) {
Some(&DefStatic(did, false)) => {
let const_expr = lookup_const_by_id(cx.tcx, did).unwrap();
Some(val(eval_const_expr(cx.tcx, &*const_expr)))
},
Some(&DefVariant(_, id, is_structure)) => Some(variant(id, is_structure)),
_ => Some(single)
},
PatStruct(..) =>
match cx.tcx.def_map.borrow().find(&pat.id) {
Some(&DefVariant(_, id, is_structure)) => Some(variant(id, is_structure)),
_ => Some(single)
},
PatLit(expr) =>
Some(val(eval_const_expr(cx.tcx, &*expr))),
@ -485,7 +498,7 @@ fn constructor_arity(cx: &MatchCheckCtxt, ctor: &ctor, ty: ty::t) -> uint {
},
ty::ty_enum(eid, _) => {
match *ctor {
variant(id) => enum_variant_with_id(cx.tcx, eid, id).args.len(),
variant(id, _) => enum_variant_with_id(cx.tcx, eid, id).args.len(),
_ => unreachable!()
}
}
@ -532,13 +545,10 @@ fn specialize(cx: &MatchCheckCtxt, r: &[Gc<Pat>],
&PatIdent(_, _, _) => {
let opt_def = cx.tcx.def_map.borrow().find_copy(pat_id);
match opt_def {
Some(DefVariant(_, id, _)) => {
if variant(id) == *ctor_id {
Some(vec!())
} else {
None
}
}
Some(DefVariant(_, id, _)) => match *ctor_id {
variant(vid, _) if vid == id => Some(vec!()),
_ => None
},
Some(DefStatic(did, _)) => {
let const_expr = lookup_const_by_id(cx.tcx, did).unwrap();
let e_v = eval_const_expr(cx.tcx, &*const_expr);
@ -571,7 +581,7 @@ fn specialize(cx: &MatchCheckCtxt, r: &[Gc<Pat>],
}
}
}
DefVariant(_, id, _) if variant(id) != *ctor_id => None,
DefVariant(_, id, _) if variant(id, false) != *ctor_id => None,
DefVariant(..) | DefFn(..) | DefStruct(..) => {
Some(match args {
&Some(ref args) => args.clone(),
@ -586,7 +596,7 @@ fn specialize(cx: &MatchCheckCtxt, r: &[Gc<Pat>],
// Is this a struct or an enum variant?
let def = cx.tcx.def_map.borrow().get_copy(pat_id);
let class_id = match def {
DefVariant(_, variant_id, _) => if variant(variant_id) == *ctor_id {
DefVariant(_, variant_id, _) => if *ctor_id == variant(variant_id, true) {
Some(variant_id)
} else {
None
@ -687,7 +697,7 @@ fn check_local(cx: &mut MatchCheckCtxt, loc: &Local) {
match is_refutable(cx, loc.pat) {
Some(pat) => {
let msg = format!(
"refutable pattern in {} binding: {} not covered",
"refutable pattern in {} binding: `{}` not covered",
name, pat_to_str(&*pat)
);
cx.tcx.sess.span_err(loc.pat.span, msg.as_slice());
@ -709,7 +719,7 @@ fn check_fn(cx: &mut MatchCheckCtxt,
match is_refutable(cx, input.pat) {
Some(pat) => {
let msg = format!(
"refutable pattern in function argument: {} not covered",
"refutable pattern in function argument: `{}` not covered",
pat_to_str(&*pat)
);
cx.tcx.sess.span_err(input.pat.span, msg.as_slice());

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@ -701,10 +701,7 @@ pub fn check_pat(pcx: &pat_ctxt, pat: &ast::Pat, expected: ty::t) {
Some(format!("a fixed vector pattern of size {}", min_len)),
_ => None
}).and_then(|message| {
check_err(message);
Some(())
});
}).map(check_err);
for elt in before.iter() {
check_pat(pcx, &**elt, elt_type);

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@ -10,7 +10,7 @@
fn foo(a: Option<uint>, b: Option<uint>) {
match (a,b) {
//~^ ERROR: non-exhaustive patterns: (core::option::None, core::option::None) not covered
//~^ ERROR: non-exhaustive patterns: `(None, None)` not covered
(Some(a), Some(b)) if a == b => { }
(Some(_), None) |
(None, Some(_)) => { }

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@ -10,7 +10,7 @@
fn main() {
let tup = (true, true);
println!("foo {:}", match tup { //~ ERROR non-exhaustive patterns: (true, false) not covered
println!("foo {:}", match tup { //~ ERROR non-exhaustive patterns: `(true, false)` not covered
(false, false) => "foo",
(false, true) => "bar",
(true, true) => "baz"

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@ -13,7 +13,7 @@ enum u { c, d }
fn main() {
let x = a(c);
match x { //~ ERROR non-exhaustive patterns: a(c) not covered
match x { //~ ERROR non-exhaustive patterns: `a(c)` not covered
a(d) => { fail!("hello"); }
b => { fail!("goodbye"); }
}

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@ -12,21 +12,21 @@ enum t { a, b, }
fn main() {
let x = a;
match x { b => { } } //~ ERROR non-exhaustive patterns: a not covered
match true { //~ ERROR non-exhaustive patterns: false not covered
match x { b => { } } //~ ERROR non-exhaustive patterns: `a` not covered
match true { //~ ERROR non-exhaustive patterns: `false` not covered
true => {}
}
match Some(10) { //~ ERROR non-exhaustive patterns: core::option::Some(_) not covered
match Some(10) { //~ ERROR non-exhaustive patterns: `Some(_)` not covered
None => {}
}
match (2, 3, 4) { //~ ERROR non-exhaustive patterns: (_, _, _) not covered
match (2, 3, 4) { //~ ERROR non-exhaustive patterns: `(_, _, _)` not covered
(_, _, 4) => {}
}
match (a, a) { //~ ERROR non-exhaustive patterns: (a, a) not covered
match (a, a) { //~ ERROR non-exhaustive patterns: `(a, a)` not covered
(a, b) => {}
(b, a) => {}
}
match a { //~ ERROR non-exhaustive patterns: b not covered
match a { //~ ERROR non-exhaustive patterns: `b` not covered
a => {}
}
// This is exhaustive, though the algorithm got it wrong at one point
@ -37,7 +37,7 @@ fn main() {
}
let vec = vec!(Some(42), None, Some(21));
let vec: &[Option<int>] = vec.as_slice();
match vec { //~ ERROR non-exhaustive patterns: [] not covered
match vec { //~ ERROR non-exhaustive patterns: `[]` not covered
[Some(..), None, ..tail] => {}
[Some(..), Some(..), ..tail] => {}
[None] => {}
@ -50,7 +50,7 @@ fn main() {
}
let vec = vec!(0.5);
let vec: &[f32] = vec.as_slice();
match vec { //~ ERROR non-exhaustive patterns: [_, _, _, _] not covered
match vec { //~ ERROR non-exhaustive patterns: `[_, _, _, _]` not covered
[0.1, 0.2, 0.3] => (),
[0.1, 0.2] => (),
[0.1] => (),

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@ -0,0 +1,74 @@
// Copyright 2014 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.
#![feature(struct_variant)]
struct Foo {
first: bool,
second: Option<[uint, ..4]>
}
enum Color {
Red,
Green,
CustomRGBA { a: bool, r: u8, g: u8, b: u8 }
}
fn struct_with_a_nested_enum_and_vector() {
match Foo { first: true, second: None } {
//~^ ERROR non-exhaustive patterns: `Foo{first: false, second: Some([_, _, _, _])}` not covered
Foo { first: true, second: None } => (),
Foo { first: true, second: Some(_) } => (),
Foo { first: false, second: None } => (),
Foo { first: false, second: Some([1u, 2u, 3u, 4u]) } => ()
}
}
fn enum_with_multiple_missing_variants() {
match Red {
//~^ ERROR non-exhaustive patterns: `Red` not covered
CustomRGBA { .. } => ()
}
}
fn enum_struct_variant() {
match Red {
//~^ ERROR non-exhaustive patterns: `CustomRGBA{a: true, r: _, g: _, b: _}` not covered
Red => (),
Green => (),
CustomRGBA { a: false, r: _, g: _, b: 0 } => (),
CustomRGBA { a: false, r: _, g: _, b: _ } => ()
}
}
enum Enum {
First,
Second(bool)
}
fn vectors_with_nested_enums() {
let x: &'static [Enum] = [First, Second(false)];
match x {
//~^ ERROR non-exhaustive patterns: `[Second(true), Second(false)]` not covered
[] => (),
[_] => (),
[First, _] => (),
[Second(true), First] => (),
[Second(true), Second(true)] => (),
[Second(false), _] => (),
[_, _, ..tail, _] => ()
}
}
fn main() {
struct_with_a_nested_enum_and_vector();
enum_with_multiple_missing_variants();
enum_struct_variant();
}

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@ -10,9 +10,9 @@
fn func((1, (Some(1), 2..3)): (int, (Option<int>, int))) { }
//~^ ERROR refutable pattern in function argument: (_, _) not covered
//~^ ERROR refutable pattern in function argument: `(_, _)` not covered
fn main() {
let (1, (Some(1), 2..3)) = (1, (None, 2));
//~^ ERROR refutable pattern in local binding: (_, _) not covered
//~^ ERROR refutable pattern in local binding: `(_, _)` not covered
}

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@ -10,6 +10,6 @@
fn main() {
let f = |3: int| println!("hello");
//~^ ERROR refutable pattern in function argument: _ not covered
//~^ ERROR refutable pattern in function argument: `_` not covered
f(4);
}

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@ -27,4 +27,10 @@ fn main() {
let [a, _, _, d] = bar("baz", "foo");
assert_eq!(a, "baz");
assert_eq!(d, "baz");
let out = bar("baz", "foo");
let [a, ..xs, d] = out;
assert_eq!(a, "baz");
assert!(xs == ["foo", "foo"]);
assert_eq!(d, "baz");
}