src/tools/clippy/tests/ui/len_zero.fixed - toolchain/rustc - Git at Google

 // run-rustfix

 #![warn(clippy::len_zero)]
 #![allow(dead_code, unused, clippy::len_without_is_empty)]

 pub struct One;
 struct Wither;

 trait TraitsToo {
     fn len(self: &Self) -> isize;
     // No error; `len` is private; see issue #1085.
 }

 impl TraitsToo for One {
     fn len(self: &Self) -> isize {
         0
     }
 }

 pub struct HasIsEmpty;

 impl HasIsEmpty {
     pub fn len(self: &Self) -> isize {
         1
     }

     fn is_empty(self: &Self) -> bool {
         false
     }
 }

 pub struct HasWrongIsEmpty;

 impl HasWrongIsEmpty {
     pub fn len(self: &Self) -> isize {
         1
     }

     pub fn is_empty(self: &Self, x: u32) -> bool {
         false
     }
 }

 pub trait WithIsEmpty {
     fn len(self: &Self) -> isize;
     fn is_empty(self: &Self) -> bool;
 }

 impl WithIsEmpty for Wither {
     fn len(self: &Self) -> isize {
         1
     }

     fn is_empty(self: &Self) -> bool {
         false
     }
 }

 fn main() {
     let x = [1, 2];
     if x.is_empty() {
         println!("This should not happen!");
     }

     if "".is_empty() {}

     let y = One;
     if y.len() == 0 {
         // No error; `One` does not have `.is_empty()`.
         println!("This should not happen either!");
     }

     let z: &dyn TraitsToo = &y;
     if z.len() > 0 {
         // No error; `TraitsToo` has no `.is_empty()` method.
         println!("Nor should this!");
     }

     let has_is_empty = HasIsEmpty;
     if has_is_empty.is_empty() {
         println!("Or this!");
     }
     if !has_is_empty.is_empty() {
         println!("Or this!");
     }
     if !has_is_empty.is_empty() {
         println!("Or this!");
     }
     if has_is_empty.is_empty() {
         println!("Or this!");
     }
     if !has_is_empty.is_empty() {
         println!("Or this!");
     }
     if has_is_empty.len() > 1 {
         // No error.
         println!("This can happen.");
     }
     if has_is_empty.len() <= 1 {
         // No error.
         println!("This can happen.");
     }
     if has_is_empty.is_empty() {
         println!("Or this!");
     }
     if !has_is_empty.is_empty() {
         println!("Or this!");
     }
     if !has_is_empty.is_empty() {
         println!("Or this!");
     }
     if !has_is_empty.is_empty() {
         println!("Or this!");
     }
     if has_is_empty.is_empty() {
         println!("Or this!");
     }
     if 1 < has_is_empty.len() {
         // No error.
         println!("This can happen.");
     }
     if 1 >= has_is_empty.len() {
         // No error.
         println!("This can happen.");
     }
     assert!(!has_is_empty.is_empty());

     let with_is_empty: &dyn WithIsEmpty = &Wither;
     if with_is_empty.is_empty() {
         println!("Or this!");
     }
     assert!(!with_is_empty.is_empty());

     let has_wrong_is_empty = HasWrongIsEmpty;
     if has_wrong_is_empty.len() == 0 {
         // No error; `HasWrongIsEmpty` does not have `.is_empty()`.
         println!("Or this!");
     }
 }

 fn test_slice(b: &[u8]) {
     if !b.is_empty() {}
 }
	// run-rustfix

	#![warn(clippy::len_zero)]
	#![allow(dead_code, unused, clippy::len_without_is_empty)]

	pub struct One;
	struct Wither;

	trait TraitsToo {
	fn len(self: &Self) -> isize;
	// No error; `len` is private; see issue #1085.
	}

	impl TraitsToo for One {
	fn len(self: &Self) -> isize {
	0
	}
	}

	pub struct HasIsEmpty;

	impl HasIsEmpty {
	pub fn len(self: &Self) -> isize {
	1
	}

	fn is_empty(self: &Self) -> bool {
	false
	}
	}

	pub struct HasWrongIsEmpty;

	impl HasWrongIsEmpty {
	pub fn len(self: &Self) -> isize {
	1
	}

	pub fn is_empty(self: &Self, x: u32) -> bool {
	false
	}
	}

	pub trait WithIsEmpty {
	fn len(self: &Self) -> isize;
	fn is_empty(self: &Self) -> bool;
	}

	impl WithIsEmpty for Wither {
	fn len(self: &Self) -> isize {
	1
	}

	fn is_empty(self: &Self) -> bool {
	false
	}
	}

	fn main() {
	let x = [1, 2];
	if x.is_empty() {
	println!("This should not happen!");
	}

	if "".is_empty() {}

	let y = One;
	if y.len() == 0 {
	// No error; `One` does not have `.is_empty()`.
	println!("This should not happen either!");
	}

	let z: &dyn TraitsToo = &y;
	if z.len() > 0 {
	// No error; `TraitsToo` has no `.is_empty()` method.
	println!("Nor should this!");
	}

	let has_is_empty = HasIsEmpty;
	if has_is_empty.is_empty() {
	println!("Or this!");
	}
	if !has_is_empty.is_empty() {
	println!("Or this!");
	}
	if !has_is_empty.is_empty() {
	println!("Or this!");
	}
	if has_is_empty.is_empty() {
	println!("Or this!");
	}
	if !has_is_empty.is_empty() {
	println!("Or this!");
	}
	if has_is_empty.len() > 1 {
	// No error.
	println!("This can happen.");
	}
	if has_is_empty.len() <= 1 {
	// No error.
	println!("This can happen.");
	}
	if has_is_empty.is_empty() {
	println!("Or this!");
	}
	if !has_is_empty.is_empty() {
	println!("Or this!");
	}
	if !has_is_empty.is_empty() {
	println!("Or this!");
	}
	if !has_is_empty.is_empty() {
	println!("Or this!");
	}
	if has_is_empty.is_empty() {
	println!("Or this!");
	}
	if 1 < has_is_empty.len() {
	// No error.
	println!("This can happen.");
	}
	if 1 >= has_is_empty.len() {
	// No error.
	println!("This can happen.");
	}
	assert!(!has_is_empty.is_empty());

	let with_is_empty: &dyn WithIsEmpty = &Wither;
	if with_is_empty.is_empty() {
	println!("Or this!");
	}
	assert!(!with_is_empty.is_empty());

	let has_wrong_is_empty = HasWrongIsEmpty;
	if has_wrong_is_empty.len() == 0 {
	// No error; `HasWrongIsEmpty` does not have `.is_empty()`.
	println!("Or this!");
	}
	}

	fn test_slice(b: &[u8]) {
	if !b.is_empty() {}
	}