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97 lines
1.6 KiB
Rust
97 lines
1.6 KiB
Rust
// run-pass
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#![allow(unconditional_recursion)]
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#![allow(dead_code)]
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#![allow(unused_variables)]
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#![allow(unused_imports)]
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// Test sized-ness checking in substitution.
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use std::marker;
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// Unbounded.
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fn f1<X: ?Sized>(x: &X) {
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f1::<X>(x);
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}
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fn f2<X>(x: &X) {
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f1::<X>(x);
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f2::<X>(x);
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}
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// Bounded.
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trait T { fn dummy(&self) { } }
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fn f3<X: T+?Sized>(x: &X) {
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f3::<X>(x);
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}
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fn f4<X: T>(x: &X) {
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f3::<X>(x);
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f4::<X>(x);
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}
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// Self type.
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trait T2 {
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fn f() -> Box<Self>;
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}
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struct S;
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impl T2 for S {
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fn f() -> Box<S> {
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Box::new(S)
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}
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}
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fn f5<X: ?Sized+T2>(x: &X) {
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let _: Box<X> = T2::f();
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}
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fn f6<X: T2>(x: &X) {
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let _: Box<X> = T2::f();
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}
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trait T3 {
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fn f() -> Box<Self>;
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}
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impl T3 for S {
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fn f() -> Box<S> {
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Box::new(S)
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}
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}
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fn f7<X: ?Sized+T3>(x: &X) {
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// This is valid, but the unsized bound on X is irrelevant because any type
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// which implements T3 must have statically known size.
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let _: Box<X> = T3::f();
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}
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trait T4<X> {
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fn dummy(&self) { }
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fn m1(&self, x: &dyn T4<X>, y: X);
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fn m2(&self, x: &dyn T5<X>, y: X);
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}
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trait T5<X: ?Sized> {
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fn dummy(&self) { }
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// not an error (for now)
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fn m1(&self, x: &dyn T4<X>);
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fn m2(&self, x: &dyn T5<X>);
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}
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trait T6<X: T> {
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fn dummy(&self) { }
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fn m1(&self, x: &dyn T4<X>);
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fn m2(&self, x: &dyn T5<X>);
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}
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trait T7<X: ?Sized+T> {
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fn dummy(&self) { }
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// not an error (for now)
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fn m1(&self, x: &dyn T4<X>);
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fn m2(&self, x: &dyn T5<X>);
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}
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// The last field in a struct may be unsized
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struct S2<X: ?Sized> {
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f: X,
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}
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struct S3<X: ?Sized> {
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f1: isize,
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f2: X,
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}
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pub fn main() {
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}
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