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Infer default static/Owned bounds for unbounded heap fns/traits (#7264)

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This commit is contained in:
Ben Blum 2013-06-20 18:23:25 -04:00
parent 12e09afd6d
commit 7b968783d7
25 changed files with 176 additions and 86 deletions
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2
src/librustc/metadata/encoder.rs
View File

@ -959,7 +959,7 @@ fn encode_info_for_item(ecx: &EncodeContext,
encode_attributes(ebml_w, item.attrs);
match ty.node {
ast::ty_path(path, bounds, _) if path.idents.len() == 1 => {
assert!(bounds.is_empty());
assert!(bounds.is_none());
encode_impl_type_basename(ecx, ebml_w,
ast_util::path_to_ident(path));
}

2
src/librustc/middle/kind.rs
View File

@ -128,7 +128,7 @@ fn check_item(item: @item, (cx, visitor): (Context, visit::vt<Context>)) {
// Yes, it's a destructor.
match self_type.node {
ty_path(_, bounds, path_node_id) => {
assert!(bounds.is_empty());
assert!(bounds.is_none());
let struct_def = cx.tcx.def_map.get_copy(
&path_node_id);
let struct_did =

8
src/librustc/middle/resolve.rs
View File

@ -4195,15 +4195,19 @@ impl Resolver {
}
}
for bounds.iter().advance |bound| {
do bounds.map |bound_vec| {
for bound_vec.iter().advance |bound| {
self.resolve_type_parameter_bound(bound, visitor);
}
};
}
ty_closure(c) => {
for c.bounds.iter().advance |bound| {
do c.bounds.map |bounds| {
for bounds.iter().advance |bound| {
self.resolve_type_parameter_bound(bound, visitor);
}
};
visit_ty(ty, ((), visitor));
}

4
src/librustc/middle/ty.rs
View File

@ -4497,7 +4497,9 @@ pub fn visitor_object_ty(tcx: ctxt) -> (@TraitRef, t) {
};
let trait_lang_item = tcx.lang_items.ty_visitor();
let trait_ref = @TraitRef { def_id: trait_lang_item, substs: substs };
let mut static_trait_bound = EmptyBuiltinBounds();
static_trait_bound.add(BoundStatic);
(trait_ref,
mk_trait(tcx, trait_ref.def_id, copy trait_ref.substs,
BoxTraitStore, ast::m_imm, EmptyBuiltinBounds()))
BoxTraitStore, ast::m_imm, static_trait_bound))
}

37
src/librustc/middle/typeck/astconv.rs
View File

@ -303,7 +303,7 @@ pub fn ast_ty_to_ty<AC:AstConv, RS:region_scope + Copy + 'static>(
ty::BoxTraitStore
}
};
let bounds = conv_builtin_bounds(this.tcx(), bounds);
let bounds = conv_builtin_bounds(this.tcx(), bounds, trait_store);
return ty::mk_trait(tcx,
result.def_id,
copy result.substs,
@ -386,7 +386,13 @@ pub fn ast_ty_to_ty<AC:AstConv, RS:region_scope + Copy + 'static>(
bf.abis, &bf.lifetimes, &bf.decl))
}
ast::ty_closure(ref f) => {
let bounds = conv_builtin_bounds(this.tcx(), &f.bounds);
let bounds = conv_builtin_bounds(this.tcx(), &f.bounds, match f.sigil {
// Use corresponding trait store to figure out default bounds
// if none were specified.
ast::BorrowedSigil => ty::RegionTraitStore(ty::re_empty), // dummy region
ast::OwnedSigil => ty::UniqTraitStore,
ast::ManagedSigil => ty::BoxTraitStore,
});
let fn_decl = ty_of_closure(this,
rscope,
f.sigil,
@ -411,7 +417,7 @@ pub fn ast_ty_to_ty<AC:AstConv, RS:region_scope + Copy + 'static>(
match a_def {
// But don't emit the error if the user meant to do a trait anyway.
ast::def_trait(*) => { },
_ if !bounds.is_empty() =>
_ if bounds.is_some() =>
tcx.sess.span_err(ast_ty.span,
"kind bounds can only be used on trait types"),
_ => { },
@ -741,8 +747,8 @@ pub fn ty_of_closure<AC:AstConv,RS:region_scope + Copy + 'static>(
}
}
fn conv_builtin_bounds(tcx: ty::ctxt,
ast_bounds: &OptVec<ast::TyParamBound>)
fn conv_builtin_bounds(tcx: ty::ctxt, ast_bounds: &Option<OptVec<ast::TyParamBound>>,
store: ty::TraitStore)
-> ty::BuiltinBounds {
//! Converts a list of bounds from the AST into a `BuiltinBounds`
//! struct. Reports an error if any of the bounds that appear
@ -750,9 +756,14 @@ fn conv_builtin_bounds(tcx: ty::ctxt,
//! like `Copy` or `Owned`. Used to translate the bounds that
//! appear in closure and trait types, where only builtin bounds are
//! legal.
//! If no bounds were specified, we choose a "default" bound based on
//! the allocation type of the fn/trait, as per issue #7264. The user can
//! override this with an empty bounds list, e.g. "~fn:()" or "~Trait:".
match (ast_bounds, store) {
(&Some(ref bound_vec), _) => {
let mut builtin_bounds = ty::EmptyBuiltinBounds();
for ast_bounds.iter().advance |ast_bound| {
for bound_vec.iter().advance |ast_bound| {
match *ast_bound {
ast::TraitTyParamBound(b) => {
match lookup_def_tcx(tcx, b.path.span, b.ref_id) {
@ -776,6 +787,20 @@ fn conv_builtin_bounds(tcx: ty::ctxt,
}
}
builtin_bounds
},
// ~Trait is sugar for ~Trait:Owned.
(&None, ty::UniqTraitStore) => {
let mut set = ty::EmptyBuiltinBounds(); set.add(ty::BoundOwned); set
}
// @Trait is sugar for @Trait:'static.
// &'static Trait is sugar for &'static Trait:'static.
(&None, ty::BoxTraitStore) |
(&None, ty::RegionTraitStore(ty::re_static)) => {
let mut set = ty::EmptyBuiltinBounds(); set.add(ty::BoundStatic); set
}
// &'r Trait is sugar for &'r Trait:<no-bounds>.
(&None, ty::RegionTraitStore(*)) => ty::EmptyBuiltinBounds(),
}
}
pub fn try_add_builtin_trait(tcx: ty::ctxt,

8
src/libsyntax/ast.rs
View File

@ -771,7 +771,11 @@ pub struct TyClosure {
purity: purity,
onceness: Onceness,
decl: fn_decl,
bounds: OptVec<TyParamBound>
// Optional optvec distinguishes between "fn()" and "fn:()" so we can
// implement issue #7264. None means "fn()", which means infer a default
// bound based on pointer sigil during typeck. Some(Empty) means "fn:()",
// which means use no bounds (e.g., not even Owned on a ~fn()).
bounds: Option<OptVec<TyParamBound>>,
}
#[deriving(Eq, Encodable, Decodable)]
@ -795,7 +799,7 @@ pub enum ty_ {
ty_closure(@TyClosure),
ty_bare_fn(@TyBareFn),
ty_tup(~[@Ty]),
ty_path(@Path, @OptVec<TyParamBound>, node_id),
ty_path(@Path, @Option<OptVec<TyParamBound>>, node_id), // for #7264; see above
ty_mac(mac),
// ty_infer means the type should be inferred instead of it having been
// specified. This should only appear at the "top level" of a type and not

10
src/libsyntax/ext/build.rs
View File

@ -46,7 +46,7 @@ pub trait AstBuilder {
fn ty_mt(&self, ty: @ast::Ty, mutbl: ast::mutability) -> ast::mt;
fn ty(&self, span: span, ty: ast::ty_) -> @ast::Ty;
fn ty_path(&self, @ast::Path, @OptVec<ast::TyParamBound>) -> @ast::Ty;
fn ty_path(&self, @ast::Path, @Option<OptVec<ast::TyParamBound>>) -> @ast::Ty;
fn ty_ident(&self, span: span, idents: ast::ident) -> @ast::Ty;
fn ty_rptr(&self, span: span,
@ -265,7 +265,7 @@ impl AstBuilder for @ExtCtxt {
}
}
fn ty_path(&self, path: @ast::Path, bounds: @OptVec<ast::TyParamBound>)
fn ty_path(&self, path: @ast::Path, bounds: @Option<OptVec<ast::TyParamBound>>)
-> @ast::Ty {
self.ty(path.span,
ast::ty_path(path, bounds, self.next_id()))
@ -275,7 +275,7 @@ impl AstBuilder for @ExtCtxt {
// to generate a bounded existential trait type.
fn ty_ident(&self, span: span, ident: ast::ident)
-> @ast::Ty {
self.ty_path(self.path_ident(span, ident), @opt_vec::Empty)
self.ty_path(self.path_ident(span, ident), @None)
}
fn ty_rptr(&self,
@ -306,7 +306,7 @@ impl AstBuilder for @ExtCtxt {
],
None,
~[ ty ]),
@opt_vec::Empty)
@None)
}
fn ty_field_imm(&self, span: span, name: ident, ty: @ast::Ty) -> ast::ty_field {
@ -344,7 +344,7 @@ impl AstBuilder for @ExtCtxt {
fn ty_vars_global(&self, ty_params: &OptVec<ast::TyParam>) -> ~[@ast::Ty] {
opt_vec::take_vec(
ty_params.map(|p| self.ty_path(
self.path_global(dummy_sp(), ~[p.ident]), @opt_vec::Empty)))
self.path_global(dummy_sp(), ~[p.ident]), @None)))
}
fn strip_bounds(&self, generics: &Generics) -> Generics {

2
src/libsyntax/ext/deriving/generic.rs
View File

@ -357,7 +357,7 @@ impl<'self> TraitDef<'self> {
// Create the type of `self`.
let self_type = cx.ty_path(cx.path_all(span, false, ~[ type_ident ], self_lifetime,
opt_vec::take_vec(self_ty_params)),
@opt_vec::Empty);
@None);
let doc_attr = cx.attribute(
span,

4
src/libsyntax/ext/deriving/ty.rs
View File

@ -63,7 +63,7 @@ impl<'self> Path<'self> {
self_generics: &Generics)
-> @ast::Ty {
cx.ty_path(self.to_path(cx, span,
self_ty, self_generics), @opt_vec::Empty)
self_ty, self_generics), @None)
}
pub fn to_path(&self,
cx: @ExtCtxt,
@ -143,7 +143,7 @@ impl<'self> Ty<'self> {
Literal(ref p) => { p.to_ty(cx, span, self_ty, self_generics) }
Self => {
cx.ty_path(self.to_path(cx, span, self_ty, self_generics),
@opt_vec::Empty)
@None)
}
Tuple(ref fields) => {
let ty = if fields.is_empty() {

20
src/libsyntax/ext/pipes/pipec.rs
View File

@ -59,7 +59,7 @@ impl gen_send for message {
let pipe_ty = cx.ty_path(
path(~[this.data_name()], span)
.add_tys(cx.ty_vars(&this.generics.ty_params)), @opt_vec::Empty);
.add_tys(cx.ty_vars(&this.generics.ty_params)), @None);
let args_ast = vec::append(
~[cx.arg(span, cx.ident_of("pipe"), pipe_ty)],
args_ast);
@ -115,7 +115,7 @@ impl gen_send for message {
let mut rty = cx.ty_path(path(~[next.data_name()],
span)
.add_tys(copy next_state.tys), @opt_vec::Empty);
.add_tys(copy next_state.tys), @None);
if try {
rty = cx.ty_option(rty);
}
@ -144,7 +144,7 @@ impl gen_send for message {
cx.ty_path(
path(~[this.data_name()], span)
.add_tys(cx.ty_vars(
&this.generics.ty_params)), @opt_vec::Empty))],
&this.generics.ty_params)), @None))],
args_ast);
let message_args = if arg_names.len() == 0 {
@ -190,7 +190,7 @@ impl gen_send for message {
fn to_ty(&mut self, cx: @ExtCtxt) -> @ast::Ty {
cx.ty_path(path(~[cx.ident_of(self.name())], self.span())
.add_tys(cx.ty_vars(&self.get_generics().ty_params)), @opt_vec::Empty)
.add_tys(cx.ty_vars(&self.get_generics().ty_params)), @None)
}
}
@ -224,7 +224,7 @@ impl to_type_decls for state {
cx.ty_path(
path(~[cx.ident_of(dir),
cx.ident_of(next_name)], span)
.add_tys(copy next_state.tys), @opt_vec::Empty))
.add_tys(copy next_state.tys), @None))
}
None => tys
};
@ -277,8 +277,8 @@ impl to_type_decls for state {
self.data_name()],
dummy_sp())
.add_tys(cx.ty_vars(
&self.generics.ty_params)), @opt_vec::Empty)),
@opt_vec::Empty),
&self.generics.ty_params)), @None)),
@None),
cx.strip_bounds(&self.generics)));
}
else {
@ -297,8 +297,8 @@ impl to_type_decls for state {
self.data_name()],
dummy_sp())
.add_tys(cx.ty_vars_global(
&self.generics.ty_params)), @opt_vec::Empty),
self.proto.buffer_ty_path(cx)]), @opt_vec::Empty),
&self.generics.ty_params)), @None),
self.proto.buffer_ty_path(cx)]), @None),
cx.strip_bounds(&self.generics)));
};
items
@ -383,7 +383,7 @@ impl gen_init for protocol {
cx.ty_path(path(~[cx.ident_of("super"),
cx.ident_of("__Buffer")],
copy self.span)
.add_tys(cx.ty_vars_global(&params)), @opt_vec::Empty)
.add_tys(cx.ty_vars_global(&params)), @None)
}
fn gen_buffer_type(&self, cx: @ExtCtxt) -> @ast::item {

3
src/libsyntax/ext/pipes/proto.rs
View File

@ -13,7 +13,6 @@ use codemap::span;
use ext::base::ExtCtxt;
use ext::build::AstBuilder;
use ext::pipes::ast_builder::{append_types, path};
use opt_vec;
#[deriving(Eq)]
pub enum direction { send, recv }
@ -100,7 +99,7 @@ impl state_ {
pub fn to_ty(&self, cx: @ExtCtxt) -> @ast::Ty {
cx.ty_path
(path(~[cx.ident_of(self.name)],self.span).add_tys(
cx.ty_vars(&self.generics.ty_params)), @opt_vec::Empty)
cx.ty_vars(&self.generics.ty_params)), @None)
}
/// Iterate over the states that can be reached in one message

11
src/libsyntax/fold.rs
View File

@ -651,6 +651,12 @@ pub fn noop_fold_ty(t: &ty_, fld: @ast_fold) -> ty_ {
span: fld.new_span(f.span),
}
}
fn fold_opt_bounds(b: &Option<OptVec<TyParamBound>>, fld: @ast_fold)
-> Option<OptVec<TyParamBound>> {
do b.map |bounds| {
do bounds.map |bound| { fold_ty_param_bound(bound, fld) }
}
}
match *t {
ty_nil | ty_bot | ty_infer => copy *t,
ty_box(ref mt) => ty_box(fold_mt(mt, fld)),
@ -664,7 +670,7 @@ pub fn noop_fold_ty(t: &ty_, fld: @ast_fold) -> ty_ {
purity: f.purity,
region: f.region,
onceness: f.onceness,
bounds: f.bounds.map(|x| fold_ty_param_bound(x, fld)),
bounds: fold_opt_bounds(&f.bounds, fld),
decl: fold_fn_decl(&f.decl, fld),
lifetimes: copy f.lifetimes,
})
@ -679,8 +685,7 @@ pub fn noop_fold_ty(t: &ty_, fld: @ast_fold) -> ty_ {
}
ty_tup(ref tys) => ty_tup(tys.map(|ty| fld.fold_ty(*ty))),
ty_path(path, bounds, id) =>
ty_path(fld.fold_path(path),
@bounds.map(|x| fold_ty_param_bound(x, fld)), fld.new_id(id)),
ty_path(fld.fold_path(path), @fold_opt_bounds(bounds, fld), fld.new_id(id)),
ty_fixed_length_vec(ref mt, e) => {
ty_fixed_length_vec(
fold_mt(mt, fld),

4
src/libsyntax/parse/mod.rs
View File

@ -490,7 +490,7 @@ mod test {
idents:~[str_to_ident("int")],
rp: None,
types: ~[]},
@opt_vec::Empty, 2),
@None, 2),
span:sp(4,7)},
pat: @ast::pat{id:1,
node: ast::pat_ident(ast::bind_infer,
@ -526,7 +526,7 @@ mod test {
idents:~[str_to_ident("int")],
rp: None,
types: ~[]},
@opt_vec::Empty, 2),
@None, 2),
span:sp(10,13)},
pat: @ast::pat{id:1, // fixme
node: ast::pat_ident(

20
src/libsyntax/parse/parser.rs
View File

@ -1047,8 +1047,8 @@ impl Parser {
// Like the above, but can also parse kind bounds in the case of a
// path to be used as a type that might be a trait.
pub fn parse_type_path(&self) -> (@ast::Path, OptVec<TyParamBound>) {
let mut bounds = opt_vec::Empty;
pub fn parse_type_path(&self) -> (@ast::Path, Option<OptVec<TyParamBound>>) {
let mut bounds = None;
let path = self.parse_bounded_path_with_tps(false, Some(|| {
// Note: this closure might not even get called in the case of a
// macro-generated path. But that's the macro parser's job.
@ -2884,9 +2884,13 @@ impl Parser {
// matches optbounds = ( ( : ( boundseq )? )? )
// where boundseq = ( bound + boundseq ) | bound
// and bound = 'static | ty
fn parse_optional_ty_param_bounds(&self) -> OptVec<TyParamBound> {
// Returns "None" if there's no colon (e.g. "T");
// Returns "Some(Empty)" if there's a colon but nothing after (e.g. "T:")
// Returns "Some(stuff)" otherwise (e.g. "T:stuff").
// NB: The None/Some distinction is important for issue #7264.
fn parse_optional_ty_param_bounds(&self) -> Option<OptVec<TyParamBound>> {
if !self.eat(&token::COLON) {
return opt_vec::Empty;
return None;
}
let mut result = opt_vec::Empty;
@ -2935,13 +2939,15 @@ impl Parser {
}
}
return result;
return Some(result);
}
// matches typaram = IDENT optbounds
fn parse_ty_param(&self) -> TyParam {
let ident = self.parse_ident();
let bounds = @self.parse_optional_ty_param_bounds();
let opt_bounds = self.parse_optional_ty_param_bounds();
// For typarams we don't care about the difference b/w "<T>" and "<T:>".
let bounds = @opt_bounds.get_or_default(opt_vec::Empty);
ast::TyParam { ident: ident, id: self.get_id(), bounds: bounds }
}
@ -3288,7 +3294,7 @@ impl Parser {
let opt_trait = if could_be_trait && self.eat_keyword(keywords::For) {
// New-style trait. Reinterpret the type as a trait.
let opt_trait_ref = match ty.node {
ty_path(path, @opt_vec::Empty, node_id) => {
ty_path(path, @None, node_id) => {
Some(@trait_ref {
path: path,
ref_id: node_id

12
src/libsyntax/print/pprust.rs
View File

@ -1488,7 +1488,7 @@ pub fn print_for_decl(s: @ps, loc: @ast::local, coll: @ast::expr) {
}
fn print_path_(s: @ps, path: @ast::Path, colons_before_params: bool,
opt_bounds: Option<@OptVec<ast::TyParamBound>>) {
opt_bounds: &Option<OptVec<ast::TyParamBound>>) {
maybe_print_comment(s, path.span.lo);
if path.global { word(s.s, "::"); }
let mut first = true;
@ -1496,7 +1496,7 @@ fn print_path_(s: @ps, path: @ast::Path, colons_before_params: bool,
if first { first = false; } else { word(s.s, "::"); }
print_ident(s, *id);
}
do opt_bounds.map_consume |bounds| {
do opt_bounds.map |bounds| {
print_bounds(s, bounds);
};
if path.rp.is_some() || !path.types.is_empty() {
@ -1520,12 +1520,12 @@ fn print_path_(s: @ps, path: @ast::Path, colons_before_params: bool,
}
pub fn print_path(s: @ps, path: @ast::Path, colons_before_params: bool) {
print_path_(s, path, colons_before_params, None)
print_path_(s, path, colons_before_params, &None)
}
pub fn print_bounded_path(s: @ps, path: @ast::Path,
bounds: @OptVec<ast::TyParamBound>) {
print_path_(s, path, false, Some(bounds))
bounds: &Option<OptVec<ast::TyParamBound>>) {
print_path_(s, path, false, bounds)
}
pub fn print_irrefutable_pat(s: @ps, pat: @ast::pat) {
@ -1737,7 +1737,7 @@ pub fn print_fn_block_args(s: @ps, decl: &ast::fn_decl) {
maybe_print_comment(s, decl.output.span.lo);
}
pub fn print_bounds(s: @ps, bounds: @OptVec<ast::TyParamBound>) {
pub fn print_bounds(s: @ps, bounds: &OptVec<ast::TyParamBound>) {
if !bounds.is_empty() {
word(s.s, ":");
let mut first = true;

8
src/libsyntax/visit.rs
View File

@ -246,7 +246,9 @@ pub fn visit_ty<E: Copy>(t: @Ty, (e, v): (E, vt<E>)) {
ty_closure(ref f) => {
for f.decl.inputs.iter().advance |a| { (v.visit_ty)(a.ty, (copy e, v)); }
(v.visit_ty)(f.decl.output, (copy e, v));
visit_ty_param_bounds(&f.bounds, (e, v));
do f.bounds.map |bounds| {
visit_ty_param_bounds(bounds, (copy e, v));
};
},
ty_bare_fn(ref f) => {
for f.decl.inputs.iter().advance |a| { (v.visit_ty)(a.ty, (copy e, v)); }
@ -254,7 +256,9 @@ pub fn visit_ty<E: Copy>(t: @Ty, (e, v): (E, vt<E>)) {
},
ty_path(p, bounds, _) => {
visit_path(p, (copy e, v));
visit_ty_param_bounds(bounds, (e, v));
do bounds.map |bounds| {
visit_ty_param_bounds(bounds, (copy e, v));
};
},
ty_fixed_length_vec(ref mt, ex) => {
(v.visit_ty)(mt.ty, (copy e, v));

2
src/test/compile-fail/closure-bounds-cant-promote-superkind-in-struct.rs
View File

@ -12,7 +12,7 @@ struct X {
field: @fn:Copy(),
}
fn foo(blk: @fn()) -> X {
fn foo(blk: @fn:()) -> X {
return X { field: blk }; //~ ERROR expected bounds `Copy` but found no bounds
}

4
src/test/compile-fail/closure-bounds-subtype.rs
View File

@ -1,5 +1,5 @@
fn take_any(_: &fn()) {
fn take_any(_: &fn:()) {
}
fn take_copyable(_: &fn:Copy()) {
@ -11,7 +11,7 @@ fn take_copyable_owned(_: &fn:Copy+Owned()) {
fn take_const_owned(_: &fn:Const+Owned()) {
}
fn give_any(f: &fn()) {
fn give_any(f: &fn:()) {
take_any(f);
take_copyable(f); //~ ERROR expected bounds `Copy` but found no bounds
take_copyable_owned(f); //~ ERROR expected bounds `Copy+Owned` but found no bounds

2
src/test/compile-fail/trait-bounds-cant-coerce.rs
View File

@ -21,7 +21,7 @@ fn c(x: ~Foo:Const+Owned) {
b(x); //~ ERROR expected bounds `Copy+Owned`
}
fn d(x: ~Foo) {
fn d(x: ~Foo:) {
a(x); //~ ERROR found no bounds
}

37
src/test/compile-fail/trait-bounds-sugar.rs Normal file
View File

@ -0,0 +1,37 @@
// Copyright 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.
// Tests for "default" bounds inferred for traits with no bounds list.
trait Foo {
}
fn a(_x: ~Foo) { // should be same as ~Foo:Owned
}
fn b(_x: @Foo) { // should be same as ~Foo:'static
}
fn c(_x: &'static Foo) { // should be same as &'static Foo:'static
}
fn d(x: ~Foo:Const) {
a(x); //~ ERROR expected bounds `Owned`
}
fn e(x: @Foo:Const) {
b(x); //~ ERROR expected bounds `'static`
}
fn f(x: &'static Foo:Const) {
c(x); //~ ERROR expected bounds `'static`
}
fn main() { }

2
src/test/run-pass/closure-bounds-copyable-squiggle-closure.rs
View File

@ -12,7 +12,7 @@
// Tests correct copying of heap closures' environments.
fn foo(x: ~fn:Copy()) -> (~fn(), ~fn()) {
fn foo(x: ~fn:Copy()) -> (~fn:(), ~fn:()) {
(copy x, x)
}
fn main() {

2
src/test/run-pass/closure-bounds-squiggle-closure-as-copyable-typaram.rs
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@ -15,7 +15,7 @@
fn bar<T: Copy>(x: T) -> (T, T) {
(copy x, x)
}
fn foo(x: ~fn:Copy()) -> (~fn(), ~fn()) {
fn foo(x: ~fn:Copy()) -> (~fn:(), ~fn:()) {
bar(x)
}
fn main() {

4
src/test/run-pass/kindck-owned-trait-contains-1.rs
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@ -14,9 +14,9 @@ impl<A:Copy> repeat<A> for @A {
fn get(&self) -> A { copy **self }
}
fn repeater<A:Copy>(v: @A) -> @repeat<A> {
fn repeater<A:Copy>(v: @A) -> @repeat:<A> {
// Note: owned kind is not necessary as A appears in the trait type
@v as @repeat<A> // No
@v as @repeat:<A> // No
}
pub fn main() {

4
src/test/run-pass/regions-trait.rs
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@ -22,7 +22,7 @@ impl<'self> get_ctxt<'self> for HasCtxt<'self> {
}
}
fn get_v(gc: @get_ctxt) -> uint {
fn get_v(gc: @get_ctxt:) -> uint {
gc.get_ctxt().v
}
@ -30,5 +30,5 @@ pub fn main() {
let ctxt = Ctxt { v: 22 };
let hc = HasCtxt { c: &ctxt };
assert_eq!(get_v(@hc as @get_ctxt), 22);
assert_eq!(get_v(@hc as @get_ctxt:), 22);
}

6
src/test/run-pass/trait-bounds-basic.rs
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@ -11,7 +11,7 @@
trait Foo {
}
fn a(_x: ~Foo) {
fn a(_x: ~Foo:) {
}
fn b(_x: ~Foo:Owned) {
@ -25,4 +25,8 @@ fn d(x: ~Foo:Owned+Copy) {
b(x);
}
fn e(x: ~Foo) { // sugar for ~Foo:Owned
b(x);
}
fn main() { }