src/test/ui/binding/match-vec-alternatives.rs - third_party/rust - Git at Google

 // run-pass
 #![feature(slice_patterns)]

 fn match_vecs<'a, T>(l1: &'a [T], l2: &'a [T]) -> &'static str {
     match (l1, l2) {
         (&[], &[]) => "both empty",
         (&[], &[..]) | (&[..], &[]) => "one empty",
         (&[..], &[..]) => "both non-empty"
     }
 }

 fn match_vecs_cons<'a, T>(l1: &'a [T], l2: &'a [T]) -> &'static str {
     match (l1, l2) {
         (&[], &[]) => "both empty",
         (&[], &[_, ..]) | (&[_, ..], &[]) => "one empty",
         (&[_, ..], &[_, ..]) => "both non-empty"
     }
 }

 fn match_vecs_snoc<'a, T>(l1: &'a [T], l2: &'a [T]) -> &'static str {
     match (l1, l2) {
         (&[], &[]) => "both empty",
         (&[], &[.., _]) | (&[.., _], &[]) => "one empty",
         (&[.., _], &[.., _]) => "both non-empty"
     }
 }

 fn match_nested_vecs_cons<'a, T>(l1: Option<&'a [T]>, l2: Result<&'a [T], ()>) -> &'static str {
     match (l1, l2) {
         (Some(&[]), Ok(&[])) => "Some(empty), Ok(empty)",
         (Some(&[_, ..]), Ok(_)) | (Some(&[_, ..]), Err(())) => "Some(non-empty), any",
         (None, Ok(&[])) | (None, Err(())) | (None, Ok(&[_])) => "None, Ok(less than one element)",
         (None, Ok(&[_, _, ..])) => "None, Ok(at least two elements)",
         _ => "other"
     }
 }

 fn match_nested_vecs_snoc<'a, T>(l1: Option<&'a [T]>, l2: Result<&'a [T], ()>) -> &'static str {
     match (l1, l2) {
         (Some(&[]), Ok(&[])) => "Some(empty), Ok(empty)",
         (Some(&[.., _]), Ok(_)) | (Some(&[.., _]), Err(())) => "Some(non-empty), any",
         (None, Ok(&[])) | (None, Err(())) | (None, Ok(&[_])) => "None, Ok(less than one element)",
         (None, Ok(&[.., _, _])) => "None, Ok(at least two elements)",
         _ => "other"
     }
 }

 fn main() {
     assert_eq!(match_vecs(&[1, 2], &[2, 3]), "both non-empty");
     assert_eq!(match_vecs(&[], &[1, 2, 3, 4]), "one empty");
     assert_eq!(match_vecs::<usize>(&[], &[]), "both empty");
     assert_eq!(match_vecs(&[1, 2, 3], &[]), "one empty");

     assert_eq!(match_vecs_cons(&[1, 2], &[2, 3]), "both non-empty");
     assert_eq!(match_vecs_cons(&[], &[1, 2, 3, 4]), "one empty");
     assert_eq!(match_vecs_cons::<usize>(&[], &[]), "both empty");
     assert_eq!(match_vecs_cons(&[1, 2, 3], &[]), "one empty");

     assert_eq!(match_vecs_snoc(&[1, 2], &[2, 3]), "both non-empty");
     assert_eq!(match_vecs_snoc(&[], &[1, 2, 3, 4]), "one empty");
     assert_eq!(match_vecs_snoc::<usize>(&[], &[]), "both empty");
     assert_eq!(match_vecs_snoc(&[1, 2, 3], &[]), "one empty");

     assert_eq!(match_nested_vecs_cons(None, Ok::<&[_], ()>(&[4_usize, 2_usize])),
                "None, Ok(at least two elements)");
     assert_eq!(match_nested_vecs_cons::<usize>(None, Err(())), "None, Ok(less than one element)");
     assert_eq!(match_nested_vecs_cons::<bool>(Some::<&[_]>(&[]), Ok::<&[_], ()>(&[])),
                "Some(empty), Ok(empty)");
     assert_eq!(match_nested_vecs_cons(Some::<&[_]>(&[1]), Err(())), "Some(non-empty), any");
     assert_eq!(match_nested_vecs_cons(Some::<&[_]>(&[(42, ())]), Ok::<&[_], ()>(&[(1, ())])),
                "Some(non-empty), any");

     assert_eq!(match_nested_vecs_snoc(None, Ok::<&[_], ()>(&[4_usize, 2_usize])),
                "None, Ok(at least two elements)");
     assert_eq!(match_nested_vecs_snoc::<usize>(None, Err(())), "None, Ok(less than one element)");
     assert_eq!(match_nested_vecs_snoc::<bool>(Some::<&[_]>(&[]), Ok::<&[_], ()>(&[])),
                "Some(empty), Ok(empty)");
     assert_eq!(match_nested_vecs_snoc(Some::<&[_]>(&[1]), Err(())), "Some(non-empty), any");
     assert_eq!(match_nested_vecs_snoc(Some::<&[_]>(&[(42, ())]), Ok::<&[_], ()>(&[(1, ())])),
                "Some(non-empty), any");
 }
	// run-pass
	#![feature(slice_patterns)]

	fn match_vecs<'a, T>(l1: &'a [T], l2: &'a [T]) -> &'static str {
	match (l1, l2) {
	(&[], &[]) => "both empty",
	(&[], &[..]) \| (&[..], &[]) => "one empty",
	(&[..], &[..]) => "both non-empty"
	}
	}

	fn match_vecs_cons<'a, T>(l1: &'a [T], l2: &'a [T]) -> &'static str {
	match (l1, l2) {
	(&[], &[]) => "both empty",
	(&[], &[_, ..]) \| (&[_, ..], &[]) => "one empty",
	(&[_, ..], &[_, ..]) => "both non-empty"
	}
	}

	fn match_vecs_snoc<'a, T>(l1: &'a [T], l2: &'a [T]) -> &'static str {
	match (l1, l2) {
	(&[], &[]) => "both empty",
	(&[], &[.., _]) \| (&[.., _], &[]) => "one empty",
	(&[.., _], &[.., _]) => "both non-empty"
	}
	}

	fn match_nested_vecs_cons<'a, T>(l1: Option<&'a [T]>, l2: Result<&'a [T], ()>) -> &'static str {
	match (l1, l2) {
	(Some(&[]), Ok(&[])) => "Some(empty), Ok(empty)",
	(Some(&[_, ..]), Ok(_)) \| (Some(&[_, ..]), Err(())) => "Some(non-empty), any",
	(None, Ok(&[])) \| (None, Err(())) \| (None, Ok(&[_])) => "None, Ok(less than one element)",
	(None, Ok(&[_, _, ..])) => "None, Ok(at least two elements)",
	_ => "other"
	}
	}

	fn match_nested_vecs_snoc<'a, T>(l1: Option<&'a [T]>, l2: Result<&'a [T], ()>) -> &'static str {
	match (l1, l2) {
	(Some(&[]), Ok(&[])) => "Some(empty), Ok(empty)",
	(Some(&[.., _]), Ok(_)) \| (Some(&[.., _]), Err(())) => "Some(non-empty), any",
	(None, Ok(&[])) \| (None, Err(())) \| (None, Ok(&[_])) => "None, Ok(less than one element)",
	(None, Ok(&[.., _, _])) => "None, Ok(at least two elements)",
	_ => "other"
	}
	}

	fn main() {
	assert_eq!(match_vecs(&[1, 2], &[2, 3]), "both non-empty");
	assert_eq!(match_vecs(&[], &[1, 2, 3, 4]), "one empty");
	assert_eq!(match_vecs::<usize>(&[], &[]), "both empty");
	assert_eq!(match_vecs(&[1, 2, 3], &[]), "one empty");

	assert_eq!(match_vecs_cons(&[1, 2], &[2, 3]), "both non-empty");
	assert_eq!(match_vecs_cons(&[], &[1, 2, 3, 4]), "one empty");
	assert_eq!(match_vecs_cons::<usize>(&[], &[]), "both empty");
	assert_eq!(match_vecs_cons(&[1, 2, 3], &[]), "one empty");

	assert_eq!(match_vecs_snoc(&[1, 2], &[2, 3]), "both non-empty");
	assert_eq!(match_vecs_snoc(&[], &[1, 2, 3, 4]), "one empty");
	assert_eq!(match_vecs_snoc::<usize>(&[], &[]), "both empty");
	assert_eq!(match_vecs_snoc(&[1, 2, 3], &[]), "one empty");

	assert_eq!(match_nested_vecs_cons(None, Ok::<&[_], ()>(&[4_usize, 2_usize])),
	"None, Ok(at least two elements)");
	assert_eq!(match_nested_vecs_cons::<usize>(None, Err(())), "None, Ok(less than one element)");
	assert_eq!(match_nested_vecs_cons::<bool>(Some::<&[_]>(&[]), Ok::<&[_], ()>(&[])),
	"Some(empty), Ok(empty)");
	assert_eq!(match_nested_vecs_cons(Some::<&[_]>(&[1]), Err(())), "Some(non-empty), any");
	assert_eq!(match_nested_vecs_cons(Some::<&[_]>(&[(42, ())]), Ok::<&[_], ()>(&[(1, ())])),
	"Some(non-empty), any");

	assert_eq!(match_nested_vecs_snoc(None, Ok::<&[_], ()>(&[4_usize, 2_usize])),
	"None, Ok(at least two elements)");
	assert_eq!(match_nested_vecs_snoc::<usize>(None, Err(())), "None, Ok(less than one element)");
	assert_eq!(match_nested_vecs_snoc::<bool>(Some::<&[_]>(&[]), Ok::<&[_], ()>(&[])),
	"Some(empty), Ok(empty)");
	assert_eq!(match_nested_vecs_snoc(Some::<&[_]>(&[1]), Err(())), "Some(non-empty), any");
	assert_eq!(match_nested_vecs_snoc(Some::<&[_]>(&[(42, ())]), Ok::<&[_], ()>(&[(1, ())])),
	"Some(non-empty), any");
	}