// rustfmt-normalize_comments: true // Closures fn main() { let square = (|i: i32| i * i); let commented = |// first a, // argument // second b: WithType, // argument // ignored _| (aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa, bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb); let block_body = move |xxxxxxxxxxxxxxxxxxxxxxxxxxxxx, ref yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy| { xxxxxxxxxxxxxxxxxxxxxxxxxxxxx + yyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy }; let loooooooooooooong_name = |field| { // format comments. if field.node.attrs.len() > 0 { field.node.attrs[0].span.lo } else { field.span.lo } }; let unblock_me = |trivial| closure(); let empty = |arg| {}; let simple = |arg| { // comment formatting foo(arg) }; let test = || { do_something(); do_something_else(); }; let arg_test = |big_argument_name, test123| looooooooooooooooooong_function_naaaaaaaaaaaaaaaaame(); let arg_test = |big_argument_name, test123| looooooooooooooooooong_function_naaaaaaaaaaaaaaaaame(); let simple_closure = move || -> () {}; let closure = |input: Ty| -> Option { foo() }; let closure_with_return_type = |aaaaaaaaaaaaaaaaaaaaaaarg1, aaaaaaaaaaaaaaaaaaaaaaarg2| -> Strong { "sup".to_owned() }; |arg1, arg2, _, _, arg3, arg4| { let temp = arg4 + arg3; arg2 * arg1 - temp } } fn issue311() { let func = |x| println!("{}", x); (func)(0.0); } fn issue863() { let closure = |x| match x { 0 => true, _ => false, } == true; } fn issue934() { let hash: &Fn(&&Block) -> u64 = &|block| -> u64 { let mut h = SpanlessHash::new(cx); h.hash_block(block); h.finish() }; let hash: &Fn(&&Block) -> u64 = &|block| -> u64 { let mut h = SpanlessHash::new(cx); h.hash_block(block); h.finish(); }; } impl<'a, 'tcx: 'a> SpanlessEq<'a, 'tcx> { pub fn eq_expr(&self, left: &Expr, right: &Expr) -> bool { match (&left.node, &right.node) { (&ExprBinary(l_op, ref ll, ref lr), &ExprBinary(r_op, ref rl, ref rr)) => { l_op.node == r_op.node && self.eq_expr(ll, rl) && self.eq_expr(lr, rr) || swap_binop(l_op.node, ll, lr).map_or(false, |(l_op, ll, lr)| { l_op == r_op.node && self.eq_expr(ll, rl) && self.eq_expr(lr, rr) }) } } } } fn foo() { lifetimes_iter___map(|lasdfasfd| { let hi = if l.bounds.is_empty() { l.lifetime.span.hi }; }); } fn issue1405() { open_raw_fd(fd, b'r').and_then(|file| { Capture::new_raw(None, |_, err| unsafe { raw::pcap_fopen_offline(file, err) }) }); } fn issue1466() { let vertex_buffer = frame.scope(|ctx| { let buffer = ctx.create_host_visible_buffer::>(&vertices); ctx.create_device_local_buffer(buffer) }); } fn issue470() { { { { let explicit_arg_decls = explicit_arguments .into_iter() .enumerate() .map(|(index, (ty, pattern))| { let lvalue = Lvalue::Arg(index as u32); block = this.pattern(block, argument_extent, hair::PatternRef::Hair(pattern), &lvalue); ArgDecl { ty: ty } }); } } } } // #1509 impl Foo { pub fn bar(&self) { Some(SomeType { push_closure_out_to_100_chars: iter(otherwise_it_works_ok .into_iter() .map(|f| Ok(f))), }) } }