src/test/run-pass/rfcs/rfc1857-drop-order.rs - toolchain/rustc - Git at Google

 // run-pass
 // ignore-wasm32-bare compiled with panic=abort by default

 #![allow(dead_code, unreachable_code)]

 use std::cell::RefCell;
 use std::rc::Rc;
 use std::panic::{self, AssertUnwindSafe, UnwindSafe};

 // This struct is used to record the order in which elements are dropped
 struct PushOnDrop {
     vec: Rc<RefCell<Vec<u32>>>,
     val: u32
 }

 impl PushOnDrop {
     fn new(val: u32, vec: Rc<RefCell<Vec<u32>>>) -> PushOnDrop {
         PushOnDrop { vec, val }
     }
 }

 impl Drop for PushOnDrop {
     fn drop(&mut self) {
         self.vec.borrow_mut().push(self.val)
     }
 }

 impl UnwindSafe for PushOnDrop { }

 // Structs
 struct TestStruct {
     x: PushOnDrop,
     y: PushOnDrop,
     z: PushOnDrop
 }

 // Tuple structs
 struct TestTupleStruct(PushOnDrop, PushOnDrop, PushOnDrop);

 // Enum variants
 enum TestEnum {
     Tuple(PushOnDrop, PushOnDrop, PushOnDrop),
     Struct { x: PushOnDrop, y: PushOnDrop, z: PushOnDrop }
 }

 fn test_drop_tuple() {
     // Tuple fields are dropped in the same order they are declared
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let test_tuple = (PushOnDrop::new(1, dropped_fields.clone()),
                       PushOnDrop::new(2, dropped_fields.clone()));
     drop(test_tuple);
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);

     // Panic during construction means that fields are treated as local variables
     // Therefore they are dropped in reverse order of initialization
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         (PushOnDrop::new(2, cloned.clone()),
          PushOnDrop::new(1, cloned.clone()),
          panic!("this panic is caught :D"));
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);
 }

 fn test_drop_struct() {
     // Struct fields are dropped in the same order they are declared
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let test_struct = TestStruct {
         x: PushOnDrop::new(1, dropped_fields.clone()),
         y: PushOnDrop::new(2, dropped_fields.clone()),
         z: PushOnDrop::new(3, dropped_fields.clone()),
     };
     drop(test_struct);
     assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

     // The same holds for tuple structs
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let test_tuple_struct = TestTupleStruct(PushOnDrop::new(1, dropped_fields.clone()),
                                             PushOnDrop::new(2, dropped_fields.clone()),
                                             PushOnDrop::new(3, dropped_fields.clone()));
     drop(test_tuple_struct);
     assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

     // Panic during struct construction means that fields are treated as local variables
     // Therefore they are dropped in reverse order of initialization
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         TestStruct {
             x: PushOnDrop::new(2, cloned.clone()),
             y: PushOnDrop::new(1, cloned.clone()),
             z: panic!("this panic is caught :D")
         };
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);

     // Test with different initialization order
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         TestStruct {
             y: PushOnDrop::new(2, cloned.clone()),
             x: PushOnDrop::new(1, cloned.clone()),
             z: panic!("this panic is caught :D")
         };
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);

     // The same holds for tuple structs
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         TestTupleStruct(PushOnDrop::new(2, cloned.clone()),
                         PushOnDrop::new(1, cloned.clone()),
                         panic!("this panic is caught :D"));
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);
 }

 fn test_drop_enum() {
     // Enum variants are dropped in the same order they are declared
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let test_struct_enum = TestEnum::Struct {
         x: PushOnDrop::new(1, dropped_fields.clone()),
         y: PushOnDrop::new(2, dropped_fields.clone()),
         z: PushOnDrop::new(3, dropped_fields.clone())
     };
     drop(test_struct_enum);
     assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

     // The same holds for tuple enum variants
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let test_tuple_enum = TestEnum::Tuple(PushOnDrop::new(1, dropped_fields.clone()),
                                           PushOnDrop::new(2, dropped_fields.clone()),
                                           PushOnDrop::new(3, dropped_fields.clone()));
     drop(test_tuple_enum);
     assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

     // Panic during enum construction means that fields are treated as local variables
     // Therefore they are dropped in reverse order of initialization
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         TestEnum::Struct {
             x: PushOnDrop::new(2, cloned.clone()),
             y: PushOnDrop::new(1, cloned.clone()),
             z: panic!("this panic is caught :D")
         };
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);

     // Test with different initialization order
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         TestEnum::Struct {
             y: PushOnDrop::new(2, cloned.clone()),
             x: PushOnDrop::new(1, cloned.clone()),
             z: panic!("this panic is caught :D")
         };
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);

     // The same holds for tuple enum variants
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         TestEnum::Tuple(PushOnDrop::new(2, cloned.clone()),
                         PushOnDrop::new(1, cloned.clone()),
                         panic!("this panic is caught :D"));
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);
 }

 fn test_drop_list() {
     // Elements in a Vec are dropped in the same order they are pushed
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let xs = vec![PushOnDrop::new(1, dropped_fields.clone()),
                   PushOnDrop::new(2, dropped_fields.clone()),
                   PushOnDrop::new(3, dropped_fields.clone())];
     drop(xs);
     assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

     // The same holds for arrays
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let xs = [PushOnDrop::new(1, dropped_fields.clone()),
               PushOnDrop::new(2, dropped_fields.clone()),
               PushOnDrop::new(3, dropped_fields.clone())];
     drop(xs);
     assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

     // Panic during vec construction means that fields are treated as local variables
     // Therefore they are dropped in reverse order of initialization
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         vec![
             PushOnDrop::new(2, cloned.clone()),
             PushOnDrop::new(1, cloned.clone()),
             panic!("this panic is caught :D")
         ];
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);

     // The same holds for arrays
     let dropped_fields = Rc::new(RefCell::new(Vec::new()));
     let cloned = AssertUnwindSafe(dropped_fields.clone());
     panic::catch_unwind(|| {
         [
             PushOnDrop::new(2, cloned.clone()),
             PushOnDrop::new(1, cloned.clone()),
             panic!("this panic is caught :D")
         ];
     }).err().unwrap();
     assert_eq!(*dropped_fields.borrow(), &[1, 2]);
 }

 fn main() {
     test_drop_tuple();
     test_drop_struct();
     test_drop_enum();
     test_drop_list();
 }
	// run-pass
	// ignore-wasm32-bare compiled with panic=abort by default

	#![allow(dead_code, unreachable_code)]

	use std::cell::RefCell;
	use std::rc::Rc;
	use std::panic::{self, AssertUnwindSafe, UnwindSafe};

	// This struct is used to record the order in which elements are dropped
	struct PushOnDrop {
	vec: Rc<RefCell<Vec<u32>>>,
	val: u32
	}

	impl PushOnDrop {
	fn new(val: u32, vec: Rc<RefCell<Vec<u32>>>) -> PushOnDrop {
	PushOnDrop { vec, val }
	}
	}

	impl Drop for PushOnDrop {
	fn drop(&mut self) {
	self.vec.borrow_mut().push(self.val)
	}
	}

	impl UnwindSafe for PushOnDrop { }

	// Structs
	struct TestStruct {
	x: PushOnDrop,
	y: PushOnDrop,
	z: PushOnDrop
	}

	// Tuple structs
	struct TestTupleStruct(PushOnDrop, PushOnDrop, PushOnDrop);

	// Enum variants
	enum TestEnum {
	Tuple(PushOnDrop, PushOnDrop, PushOnDrop),
	Struct { x: PushOnDrop, y: PushOnDrop, z: PushOnDrop }
	}

	fn test_drop_tuple() {
	// Tuple fields are dropped in the same order they are declared
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let test_tuple = (PushOnDrop::new(1, dropped_fields.clone()),
	PushOnDrop::new(2, dropped_fields.clone()));
	drop(test_tuple);
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);

	// Panic during construction means that fields are treated as local variables
	// Therefore they are dropped in reverse order of initialization
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	(PushOnDrop::new(2, cloned.clone()),
	PushOnDrop::new(1, cloned.clone()),
	panic!("this panic is caught :D"));
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);
	}

	fn test_drop_struct() {
	// Struct fields are dropped in the same order they are declared
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let test_struct = TestStruct {
	x: PushOnDrop::new(1, dropped_fields.clone()),
	y: PushOnDrop::new(2, dropped_fields.clone()),
	z: PushOnDrop::new(3, dropped_fields.clone()),
	};
	drop(test_struct);
	assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

	// The same holds for tuple structs
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let test_tuple_struct = TestTupleStruct(PushOnDrop::new(1, dropped_fields.clone()),
	PushOnDrop::new(2, dropped_fields.clone()),
	PushOnDrop::new(3, dropped_fields.clone()));
	drop(test_tuple_struct);
	assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

	// Panic during struct construction means that fields are treated as local variables
	// Therefore they are dropped in reverse order of initialization
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	TestStruct {
	x: PushOnDrop::new(2, cloned.clone()),
	y: PushOnDrop::new(1, cloned.clone()),
	z: panic!("this panic is caught :D")
	};
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);

	// Test with different initialization order
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	TestStruct {
	y: PushOnDrop::new(2, cloned.clone()),
	x: PushOnDrop::new(1, cloned.clone()),
	z: panic!("this panic is caught :D")
	};
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);

	// The same holds for tuple structs
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	TestTupleStruct(PushOnDrop::new(2, cloned.clone()),
	PushOnDrop::new(1, cloned.clone()),
	panic!("this panic is caught :D"));
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);
	}

	fn test_drop_enum() {
	// Enum variants are dropped in the same order they are declared
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let test_struct_enum = TestEnum::Struct {
	x: PushOnDrop::new(1, dropped_fields.clone()),
	y: PushOnDrop::new(2, dropped_fields.clone()),
	z: PushOnDrop::new(3, dropped_fields.clone())
	};
	drop(test_struct_enum);
	assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

	// The same holds for tuple enum variants
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let test_tuple_enum = TestEnum::Tuple(PushOnDrop::new(1, dropped_fields.clone()),
	PushOnDrop::new(2, dropped_fields.clone()),
	PushOnDrop::new(3, dropped_fields.clone()));
	drop(test_tuple_enum);
	assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

	// Panic during enum construction means that fields are treated as local variables
	// Therefore they are dropped in reverse order of initialization
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	TestEnum::Struct {
	x: PushOnDrop::new(2, cloned.clone()),
	y: PushOnDrop::new(1, cloned.clone()),
	z: panic!("this panic is caught :D")
	};
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);

	// Test with different initialization order
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	TestEnum::Struct {
	y: PushOnDrop::new(2, cloned.clone()),
	x: PushOnDrop::new(1, cloned.clone()),
	z: panic!("this panic is caught :D")
	};
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);

	// The same holds for tuple enum variants
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	TestEnum::Tuple(PushOnDrop::new(2, cloned.clone()),
	PushOnDrop::new(1, cloned.clone()),
	panic!("this panic is caught :D"));
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);
	}

	fn test_drop_list() {
	// Elements in a Vec are dropped in the same order they are pushed
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let xs = vec![PushOnDrop::new(1, dropped_fields.clone()),
	PushOnDrop::new(2, dropped_fields.clone()),
	PushOnDrop::new(3, dropped_fields.clone())];
	drop(xs);
	assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

	// The same holds for arrays
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let xs = [PushOnDrop::new(1, dropped_fields.clone()),
	PushOnDrop::new(2, dropped_fields.clone()),
	PushOnDrop::new(3, dropped_fields.clone())];
	drop(xs);
	assert_eq!(*dropped_fields.borrow(), &[1, 2, 3]);

	// Panic during vec construction means that fields are treated as local variables
	// Therefore they are dropped in reverse order of initialization
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	vec![
	PushOnDrop::new(2, cloned.clone()),
	PushOnDrop::new(1, cloned.clone()),
	panic!("this panic is caught :D")
	];
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);

	// The same holds for arrays
	let dropped_fields = Rc::new(RefCell::new(Vec::new()));
	let cloned = AssertUnwindSafe(dropped_fields.clone());
	panic::catch_unwind(\|\| {
	[
	PushOnDrop::new(2, cloned.clone()),
	PushOnDrop::new(1, cloned.clone()),
	panic!("this panic is caught :D")
	];
	}).err().unwrap();
	assert_eq!(*dropped_fields.borrow(), &[1, 2]);
	}

	fn main() {
	test_drop_tuple();
	test_drop_struct();
	test_drop_enum();
	test_drop_list();
	}