tests/ui/rfcs/rfc-2005-default-binding-mode/general.rs - toolchain/rustc - Git at Google

 //@ run-pass
 #![allow(unused_variables)]
 fn some_or_wildcard(r: &Option<i32>, b: &i32) {
     let _: &i32 = match r {
         Some(a) => a,
         _ => b,
     };
 }

 fn none_or_wildcard(r: &Option<i32>, b: &i32) {
     let _: &i32 = match r {
         None => b,
         _ => b,
     };
 }

 fn some_or_ref_none(r: &Option<i32>, b: &i32) {
     let _: &i32 = match r {
         Some(a) => a,
         &None => b,
     };
 }

 fn ref_some_or_none(r: &Option<i32>, b: &i32) {
     let _: &i32 = match r {
         &Some(ref a) => a,
         None => b,
     };
 }

 fn some_or_self(r: &Option<i32>) {
     let _: &Option<i32> = match r {
         Some(n) => {
             let _: &i32 = n;
             r
         },
         x => x,
     };
 }

 fn multiple_deref(r: &&&&&Option<i32>) {
     let _: i32 = match r {
         Some(a) => *a,
         None => 5,
     };
 }

 fn match_with_or() {
     // FIXME(tschottdorf): #44912.
     //
     // let x = &Some((3, 3));
     // let _: &i32 = match x {
     //     Some((x, 3)) | &Some((ref x, 5)) => x,
     //     _ => &5i32,
     // };
 }

 fn nested_mixed() {
     match (&Some(5), &Some(6)) {
         (Some(a), &Some(mut b)) => {
             // Here, the `a` will be `&i32`, because in the first half of the tuple
             // we hit a non-reference pattern and shift into `ref` mode.
             //
             // In the second half of the tuple there's no non-reference pattern,
             // so `b` will be `i32` (bound with `move` mode). Moreover, `b` is
             // mutable.
             let _: &i32 = a;
             b = 7;
             let _: i32 = b;
         },
         _ => {},
     };
 }

 fn nested_mixed_multiple_deref_1() {
     let x = (1, &Some(5));
     let y = &Some(x);
     match y {
         Some((a, Some(b))) => {
             let _: &i32 = a;
             let _: &i32 = b;
         },
         _ => {},
     };
 }

 fn nested_mixed_multiple_deref_2() {
     let x = &Some(5);
     let y = &x;
     match y {
         Some(z) => {
             let _: &i32 = z;
         },
         _ => {},
     }
 }

 fn new_mutable_reference() {
     let mut x = &mut Some(5);
     match &mut x {
         Some(y) => {
             *y = 5;
         },
         None => { },
     }

     match &mut x {
         Some(y) => {
             println!("{}", *y);
         },
         None => {},
     }
 }

 fn let_implicit_ref_binding() {
     struct Foo(i32);

     // Note that these rules apply to any pattern matching
     // whether it be in a `match` or a `let`.
     // For example, `x` here is a `ref` binding:
     let Foo(x) = &Foo(3);
     let _: &i32 = x;
 }

 fn explicit_mut_binding() {
     match &Some(5i32) {
         Some(mut n) => {
             n += 1;
             let _ = n;
         }
         None => {},
     };

     match &mut Some(5i32) {
         Some(n) => {
             *n += 1;
             let _ = n;
         }
         None => {},
     };

     match &mut &mut Some(5i32) {
         Some(n) => {
              let _: &mut i32 = n;
         }
         None => {},
     };
 }

 fn tuple_mut_and_mut_mut() {
     match (Some(5i32), &Some(5i32)) {
         (Some(n), Some(m)) => {
             // `n` and `m` are bound as immutable references. Make new references from them to
             // assert that.
             let r = n;
             let _ = r;
             let q = m;
             let _ = q;

             // Assert the types. Note that we use `n` and `m` here which would fail had they been
             // moved due to the assignments above.
             let _: i32 = n;
             let _: &i32 = m;
         }
         (_, _) => {},
     };

     match (&Some(5i32), &&Some(5i32)) {
         (Some(n), Some(m)) => {
             let _: &i32 = n;
             let _: &i32 = m;
         }
         (_, _) => {},
     };

     match &mut &mut (Some(5i32), Some(5i32)) {
         (Some(n), Some(m)) => {
             // Dereferenced through &mut &mut, so a mutable binding results.
             let _: &mut i32 = n;
             let _: &mut i32 = m;
         }
         (_, _) => {},
     };

     match (&mut Some(5i32), &mut &mut Some(5i32)) {
         (Some(n), Some(m)) => {
             let _: &mut i32 = n;
             let _: &mut i32 = m;
         }
         (_, _) => {},
     };
 }

 fn min_mir_embedded_type() {
     // The reduced invocation that an ICE was diagnosed with (was consuming
     // adjustments in wrong order).
     match (0u8, &&Some(5i32)) {
         (_, Some(m)) => {
             let _: &i32 = m;
         }
         (_, _) => {},
     };
 }

 fn no_autoderef() {
     // Binding.
     let x = &3;
     println!("{}", *x);

     // Wildcard.
     let _ = &3;

     // Constant of generic type (string)
     const Y: &'static str = "foo";
     assert_eq!(0, match "foo" {
         Y => 0,
         _ => 1,
     });

     // Reference pattern.
     let &x = &3;
 }

 pub fn main() {
     let r: &Option<i32> = &Some(3);
     let b = &4i32;

     none_or_wildcard(r, b);
     some_or_wildcard(r, b);
     some_or_ref_none(r, b);
     ref_some_or_none(r, b);

     some_or_self(r);
     multiple_deref(&&&&r);
     match_with_or();

     nested_mixed();
     nested_mixed_multiple_deref_1();
     nested_mixed_multiple_deref_2();

     new_mutable_reference();
     explicit_mut_binding();
     tuple_mut_and_mut_mut();
     min_mir_embedded_type();

     let_implicit_ref_binding();

     no_autoderef();
 }
	//@ run-pass
	#![allow(unused_variables)]
	fn some_or_wildcard(r: &Option<i32>, b: &i32) {
	let _: &i32 = match r {
	Some(a) => a,
	_ => b,
	};
	}

	fn none_or_wildcard(r: &Option<i32>, b: &i32) {
	let _: &i32 = match r {
	None => b,
	_ => b,
	};
	}

	fn some_or_ref_none(r: &Option<i32>, b: &i32) {
	let _: &i32 = match r {
	Some(a) => a,
	&None => b,
	};
	}

	fn ref_some_or_none(r: &Option<i32>, b: &i32) {
	let _: &i32 = match r {
	&Some(ref a) => a,
	None => b,
	};
	}

	fn some_or_self(r: &Option<i32>) {
	let _: &Option<i32> = match r {
	Some(n) => {
	let _: &i32 = n;
	r
	},
	x => x,
	};
	}

	fn multiple_deref(r: &&&&&Option<i32>) {
	let _: i32 = match r {
	Some(a) => *a,
	None => 5,
	};
	}

	fn match_with_or() {
	// FIXME(tschottdorf): #44912.
	//
	// let x = &Some((3, 3));
	// let _: &i32 = match x {
	// Some((x, 3)) \| &Some((ref x, 5)) => x,
	// _ => &5i32,
	// };
	}

	fn nested_mixed() {
	match (&Some(5), &Some(6)) {
	(Some(a), &Some(mut b)) => {
	// Here, the `a` will be `&i32`, because in the first half of the tuple
	// we hit a non-reference pattern and shift into `ref` mode.
	//
	// In the second half of the tuple there's no non-reference pattern,
	// so `b` will be `i32` (bound with `move` mode). Moreover, `b` is
	// mutable.
	let _: &i32 = a;
	b = 7;
	let _: i32 = b;
	},
	_ => {},
	};
	}

	fn nested_mixed_multiple_deref_1() {
	let x = (1, &Some(5));
	let y = &Some(x);
	match y {
	Some((a, Some(b))) => {
	let _: &i32 = a;
	let _: &i32 = b;
	},
	_ => {},
	};
	}

	fn nested_mixed_multiple_deref_2() {
	let x = &Some(5);
	let y = &x;
	match y {
	Some(z) => {
	let _: &i32 = z;
	},
	_ => {},
	}
	}

	fn new_mutable_reference() {
	let mut x = &mut Some(5);
	match &mut x {
	Some(y) => {
	*y = 5;
	},
	None => { },
	}

	match &mut x {
	Some(y) => {
	println!("{}", *y);
	},
	None => {},
	}
	}

	fn let_implicit_ref_binding() {
	struct Foo(i32);

	// Note that these rules apply to any pattern matching
	// whether it be in a `match` or a `let`.
	// For example, `x` here is a `ref` binding:
	let Foo(x) = &Foo(3);
	let _: &i32 = x;
	}

	fn explicit_mut_binding() {
	match &Some(5i32) {
	Some(mut n) => {
	n += 1;
	let _ = n;
	}
	None => {},
	};

	match &mut Some(5i32) {
	Some(n) => {
	*n += 1;
	let _ = n;
	}
	None => {},
	};

	match &mut &mut Some(5i32) {
	Some(n) => {
	let _: &mut i32 = n;
	}
	None => {},
	};
	}

	fn tuple_mut_and_mut_mut() {
	match (Some(5i32), &Some(5i32)) {
	(Some(n), Some(m)) => {
	// `n` and `m` are bound as immutable references. Make new references from them to
	// assert that.
	let r = n;
	let _ = r;
	let q = m;
	let _ = q;

	// Assert the types. Note that we use `n` and `m` here which would fail had they been
	// moved due to the assignments above.
	let _: i32 = n;
	let _: &i32 = m;
	}
	(_, _) => {},
	};

	match (&Some(5i32), &&Some(5i32)) {
	(Some(n), Some(m)) => {
	let _: &i32 = n;
	let _: &i32 = m;
	}
	(_, _) => {},
	};

	match &mut &mut (Some(5i32), Some(5i32)) {
	(Some(n), Some(m)) => {
	// Dereferenced through &mut &mut, so a mutable binding results.
	let _: &mut i32 = n;
	let _: &mut i32 = m;
	}
	(_, _) => {},
	};

	match (&mut Some(5i32), &mut &mut Some(5i32)) {
	(Some(n), Some(m)) => {
	let _: &mut i32 = n;
	let _: &mut i32 = m;
	}
	(_, _) => {},
	};
	}

	fn min_mir_embedded_type() {
	// The reduced invocation that an ICE was diagnosed with (was consuming
	// adjustments in wrong order).
	match (0u8, &&Some(5i32)) {
	(_, Some(m)) => {
	let _: &i32 = m;
	}
	(_, _) => {},
	};
	}

	fn no_autoderef() {
	// Binding.
	let x = &3;
	println!("{}", *x);

	// Wildcard.
	let _ = &3;

	// Constant of generic type (string)
	const Y: &'static str = "foo";
	assert_eq!(0, match "foo" {
	Y => 0,
	_ => 1,
	});

	// Reference pattern.
	let &x = &3;
	}

	pub fn main() {
	let r: &Option<i32> = &Some(3);
	let b = &4i32;

	none_or_wildcard(r, b);
	some_or_wildcard(r, b);
	some_or_ref_none(r, b);
	ref_some_or_none(r, b);

	some_or_self(r);
	multiple_deref(&&&&r);
	match_with_or();

	nested_mixed();
	nested_mixed_multiple_deref_1();
	nested_mixed_multiple_deref_2();

	new_mutable_reference();
	explicit_mut_binding();
	tuple_mut_and_mut_mut();
	min_mir_embedded_type();

	let_implicit_ref_binding();

	no_autoderef();
	}