rust/tests/ui/drop/dynamic-drop.rs
2023-09-19 12:48:40 +00:00

539 lines
14 KiB
Rust

// run-pass
// needs-unwind
#![feature(generators, generator_trait)]
#![feature(if_let_guard)]
#![allow(unused_assignments)]
#![allow(unused_variables)]
use std::cell::{Cell, RefCell};
use std::mem::ManuallyDrop;
use std::ops::Generator;
use std::panic;
use std::pin::Pin;
struct InjectedFailure;
struct Allocator {
data: RefCell<Vec<bool>>,
failing_op: usize,
cur_ops: Cell<usize>,
}
impl panic::UnwindSafe for Allocator {}
impl panic::RefUnwindSafe for Allocator {}
impl Drop for Allocator {
fn drop(&mut self) {
let data = self.data.borrow();
if data.iter().any(|d| *d) {
panic!("missing free: {:?}", data);
}
}
}
impl Allocator {
fn new(failing_op: usize) -> Self {
Allocator {
failing_op: failing_op,
cur_ops: Cell::new(0),
data: RefCell::new(vec![])
}
}
fn alloc(&self) -> Ptr<'_> {
self.cur_ops.set(self.cur_ops.get() + 1);
if self.cur_ops.get() == self.failing_op {
panic::panic_any(InjectedFailure);
}
let mut data = self.data.borrow_mut();
let addr = data.len();
data.push(true);
Ptr(addr, self)
}
// FIXME(#47949) Any use of this indicates a bug in rustc: we should never
// be leaking values in the cases here.
//
// Creates a `Ptr<'_>` and checks that the allocated value is leaked if the
// `failing_op` is in the list of exception.
fn alloc_leaked(&self, exceptions: Vec<usize>) -> Ptr<'_> {
let ptr = self.alloc();
if exceptions.iter().any(|operation| *operation == self.failing_op) {
let mut data = self.data.borrow_mut();
data[ptr.0] = false;
}
ptr
}
}
struct Ptr<'a>(usize, &'a Allocator);
impl<'a> Drop for Ptr<'a> {
fn drop(&mut self) {
match self.1.data.borrow_mut()[self.0] {
false => {
panic!("double free at index {:?}", self.0)
}
ref mut d => *d = false
}
self.1.cur_ops.set(self.1.cur_ops.get()+1);
if self.1.cur_ops.get() == self.1.failing_op {
panic::panic_any(InjectedFailure);
}
}
}
fn dynamic_init(a: &Allocator, c: bool) {
let _x;
if c {
_x = Some(a.alloc());
}
}
fn dynamic_drop(a: &Allocator, c: bool) {
let x = a.alloc();
if c {
Some(x)
} else {
None
};
}
struct TwoPtrs<'a>(Ptr<'a>, #[allow(unused_tuple_struct_fields)] Ptr<'a>);
fn struct_dynamic_drop(a: &Allocator, c0: bool, c1: bool, c: bool) {
for i in 0..2 {
let x;
let y;
if (c0 && i == 0) || (c1 && i == 1) {
x = (a.alloc(), a.alloc(), a.alloc());
y = TwoPtrs(a.alloc(), a.alloc());
if c {
drop(x.1);
drop(y.0);
}
}
}
}
fn field_assignment(a: &Allocator, c0: bool) {
let mut x = (TwoPtrs(a.alloc(), a.alloc()), a.alloc());
x.1 = a.alloc();
x.1 = a.alloc();
let f = (x.0).0;
if c0 {
(x.0).0 = f;
}
}
fn assignment2(a: &Allocator, c0: bool, c1: bool) {
let mut _v = a.alloc();
let mut _w = a.alloc();
if c0 {
drop(_v);
}
_v = _w;
if c1 {
_w = a.alloc();
}
}
fn assignment1(a: &Allocator, c0: bool) {
let mut _v = a.alloc();
let mut _w = a.alloc();
if c0 {
drop(_v);
}
_v = _w;
}
union Boxy<T> {
a: ManuallyDrop<T>,
b: ManuallyDrop<T>,
}
fn union1(a: &Allocator) {
unsafe {
let mut u = Boxy { a: ManuallyDrop::new(a.alloc()) };
*u.b = a.alloc(); // drops first alloc
drop(ManuallyDrop::into_inner(u.a));
}
}
fn array_simple(a: &Allocator) {
let _x = [a.alloc(), a.alloc(), a.alloc(), a.alloc()];
}
fn vec_simple(a: &Allocator) {
let _x = vec![a.alloc(), a.alloc(), a.alloc(), a.alloc()];
}
fn generator(a: &Allocator, run_count: usize) {
assert!(run_count < 4);
let mut gen = || {
(a.alloc(),
yield a.alloc(),
a.alloc(),
yield a.alloc()
);
};
for _ in 0..run_count {
Pin::new(&mut gen).resume(());
}
}
fn mixed_drop_and_nondrop(a: &Allocator) {
// check that destructor panics handle drop
// and non-drop blocks in the same scope correctly.
//
// Surprisingly enough, this used to not work.
let (x, y, z);
x = a.alloc();
y = 5;
z = a.alloc();
}
#[allow(unreachable_code)]
fn vec_unreachable(a: &Allocator) {
let _x = vec![a.alloc(), a.alloc(), a.alloc(), return];
}
fn slice_pattern_first(a: &Allocator) {
let[_x, ..] = [a.alloc(), a.alloc(), a.alloc()];
}
fn slice_pattern_middle(a: &Allocator) {
let[_, _x, _] = [a.alloc(), a.alloc(), a.alloc()];
}
fn slice_pattern_two(a: &Allocator) {
let[_x, _, _y, _] = [a.alloc(), a.alloc(), a.alloc(), a.alloc()];
}
fn slice_pattern_last(a: &Allocator) {
let[.., _y] = [a.alloc(), a.alloc(), a.alloc(), a.alloc()];
}
fn slice_pattern_one_of(a: &Allocator, i: usize) {
let array = [a.alloc(), a.alloc(), a.alloc(), a.alloc()];
let _x = match i {
0 => { let [a, ..] = array; a }
1 => { let [_, a, ..] = array; a }
2 => { let [_, _, a, _] = array; a }
3 => { let [_, _, _, a] = array; a }
_ => panic!("unmatched"),
};
}
fn subslice_pattern_from_end(a: &Allocator, arg: bool) {
let a = [a.alloc(), a.alloc(), a.alloc()];
if arg {
let[.., _x, _] = a;
} else {
let[_, _y @ ..] = a;
}
}
fn subslice_pattern_from_end_with_drop(a: &Allocator, arg: bool, arg2: bool) {
let a = [a.alloc(), a.alloc(), a.alloc(), a.alloc(), a.alloc()];
if arg2 {
drop(a);
return;
}
if arg {
let[.., _x, _] = a;
} else {
let[_, _y @ ..] = a;
}
}
fn slice_pattern_reassign(a: &Allocator) {
let mut ar = [a.alloc(), a.alloc()];
let[_, _x] = ar;
ar = [a.alloc(), a.alloc()];
let[.., _y] = ar;
}
fn subslice_pattern_reassign(a: &Allocator) {
let mut ar = [a.alloc(), a.alloc(), a.alloc()];
let[_, _, _x] = ar;
ar = [a.alloc(), a.alloc(), a.alloc()];
let[_, _y @ ..] = ar;
}
fn index_field_mixed_ends(a: &Allocator) {
let ar = [(a.alloc(), a.alloc()), (a.alloc(), a.alloc())];
let[(_x, _), ..] = ar;
let[(_, _y), _] = ar;
let[_, (_, _w)] = ar;
let[.., (_z, _)] = ar;
}
fn subslice_mixed_min_lengths(a: &Allocator, c: i32) {
let ar = [(a.alloc(), a.alloc()), (a.alloc(), a.alloc())];
match c {
0 => { let[_x, ..] = ar; }
1 => { let[_x, _, ..] = ar; }
2 => { let[_x, _] = ar; }
3 => { let[(_x, _), _, ..] = ar; }
4 => { let[.., (_x, _)] = ar; }
5 => { let[.., (_x, _), _] = ar; }
6 => { let [_y @ ..] = ar; }
_ => { let [_y @ .., _] = ar; }
}
}
fn bindings_after_at_dynamic_init_move(a: &Allocator, c: bool) {
let foo = if c { Some(a.alloc()) } else { None };
let _x;
if let bar @ Some(_) = foo {
_x = bar;
}
}
fn bindings_after_at_dynamic_init_ref(a: &Allocator, c: bool) {
let foo = if c { Some(a.alloc()) } else { None };
let _x;
if let bar @ Some(_baz) = &foo {
_x = bar;
}
}
fn bindings_after_at_dynamic_drop_move(a: &Allocator, c: bool) {
let foo = if c { Some(a.alloc()) } else { None };
if let bar @ Some(_) = foo {
bar
} else {
None
};
}
fn bindings_after_at_dynamic_drop_ref(a: &Allocator, c: bool) {
let foo = if c { Some(a.alloc()) } else { None };
if let bar @ Some(_baz) = &foo {
bar
} else {
&None
};
}
fn move_ref_pattern(a: &Allocator) {
let mut tup = (a.alloc(), a.alloc(), a.alloc(), a.alloc());
let (ref _a, ref mut _b, _c, mut _d) = tup;
}
fn if_let_guard(a: &Allocator, c: bool, d: i32) {
let foo = if c { Some(a.alloc()) } else { None };
match d == 0 {
false if let Some(a) = foo => { let b = a; }
true if let true = { drop(foo.unwrap_or_else(|| a.alloc())); d == 1 } => {}
_ => {}
}
}
fn panic_after_return(a: &Allocator) -> Ptr<'_> {
// Panic in the drop of `p` or `q` can leak
let exceptions = vec![8, 9];
a.alloc();
let p = a.alloc();
{
a.alloc();
let p = a.alloc();
// FIXME (#47949) We leak values when we panic in a destructor after
// evaluating an expression with `rustc_mir::build::Builder::into`.
a.alloc_leaked(exceptions)
}
}
fn panic_after_return_expr(a: &Allocator) -> Ptr<'_> {
// Panic in the drop of `p` or `q` can leak
let exceptions = vec![8, 9];
a.alloc();
let p = a.alloc();
{
a.alloc();
let q = a.alloc();
// FIXME (#47949)
return a.alloc_leaked(exceptions);
}
}
fn panic_after_init(a: &Allocator) {
// Panic in the drop of `r` can leak
let exceptions = vec![8];
a.alloc();
let p = a.alloc();
let q = {
a.alloc();
let r = a.alloc();
// FIXME (#47949)
a.alloc_leaked(exceptions)
};
}
fn panic_after_init_temp(a: &Allocator) {
// Panic in the drop of `r` can leak
let exceptions = vec![8];
a.alloc();
let p = a.alloc();
{
a.alloc();
let r = a.alloc();
// FIXME (#47949)
a.alloc_leaked(exceptions)
};
}
fn panic_after_init_by_loop(a: &Allocator) {
// Panic in the drop of `r` can leak
let exceptions = vec![8];
a.alloc();
let p = a.alloc();
let q = loop {
a.alloc();
let r = a.alloc();
// FIXME (#47949)
break a.alloc_leaked(exceptions);
};
}
fn run_test<F>(mut f: F)
where F: FnMut(&Allocator)
{
let first_alloc = Allocator::new(usize::MAX);
f(&first_alloc);
for failing_op in 1..first_alloc.cur_ops.get()+1 {
let alloc = Allocator::new(failing_op);
let alloc = &alloc;
let f = panic::AssertUnwindSafe(&mut f);
let result = panic::catch_unwind(move || {
f.0(alloc);
});
match result {
Ok(..) => panic!("test executed {} ops but now {}",
first_alloc.cur_ops.get(), alloc.cur_ops.get()),
Err(e) => {
if e.downcast_ref::<InjectedFailure>().is_none() {
panic::resume_unwind(e);
}
}
}
}
}
fn run_test_nopanic<F>(mut f: F)
where F: FnMut(&Allocator)
{
let first_alloc = Allocator::new(usize::MAX);
f(&first_alloc);
}
fn main() {
run_test(|a| dynamic_init(a, false));
run_test(|a| dynamic_init(a, true));
run_test(|a| dynamic_drop(a, false));
run_test(|a| dynamic_drop(a, true));
run_test(|a| assignment2(a, false, false));
run_test(|a| assignment2(a, false, true));
run_test(|a| assignment2(a, true, false));
run_test(|a| assignment2(a, true, true));
run_test(|a| assignment1(a, false));
run_test(|a| assignment1(a, true));
run_test(|a| array_simple(a));
run_test(|a| vec_simple(a));
run_test(|a| vec_unreachable(a));
run_test(|a| struct_dynamic_drop(a, false, false, false));
run_test(|a| struct_dynamic_drop(a, false, false, true));
run_test(|a| struct_dynamic_drop(a, false, true, false));
run_test(|a| struct_dynamic_drop(a, false, true, true));
run_test(|a| struct_dynamic_drop(a, true, false, false));
run_test(|a| struct_dynamic_drop(a, true, false, true));
run_test(|a| struct_dynamic_drop(a, true, true, false));
run_test(|a| struct_dynamic_drop(a, true, true, true));
run_test(|a| field_assignment(a, false));
run_test(|a| field_assignment(a, true));
run_test(|a| generator(a, 0));
run_test(|a| generator(a, 1));
run_test(|a| generator(a, 2));
run_test(|a| generator(a, 3));
run_test(|a| mixed_drop_and_nondrop(a));
run_test(|a| slice_pattern_first(a));
run_test(|a| slice_pattern_middle(a));
run_test(|a| slice_pattern_two(a));
run_test(|a| slice_pattern_last(a));
run_test(|a| slice_pattern_one_of(a, 0));
run_test(|a| slice_pattern_one_of(a, 1));
run_test(|a| slice_pattern_one_of(a, 2));
run_test(|a| slice_pattern_one_of(a, 3));
run_test(|a| subslice_pattern_from_end(a, true));
run_test(|a| subslice_pattern_from_end(a, false));
run_test(|a| subslice_pattern_from_end_with_drop(a, true, true));
run_test(|a| subslice_pattern_from_end_with_drop(a, true, false));
run_test(|a| subslice_pattern_from_end_with_drop(a, false, true));
run_test(|a| subslice_pattern_from_end_with_drop(a, false, false));
run_test(|a| slice_pattern_reassign(a));
run_test(|a| subslice_pattern_reassign(a));
run_test(|a| index_field_mixed_ends(a));
run_test(|a| subslice_mixed_min_lengths(a, 0));
run_test(|a| subslice_mixed_min_lengths(a, 1));
run_test(|a| subslice_mixed_min_lengths(a, 2));
run_test(|a| subslice_mixed_min_lengths(a, 3));
run_test(|a| subslice_mixed_min_lengths(a, 4));
run_test(|a| subslice_mixed_min_lengths(a, 5));
run_test(|a| subslice_mixed_min_lengths(a, 6));
run_test(|a| subslice_mixed_min_lengths(a, 7));
run_test(|a| move_ref_pattern(a));
run_test(|a| if_let_guard(a, true, 0));
run_test(|a| if_let_guard(a, true, 1));
run_test(|a| if_let_guard(a, true, 2));
run_test(|a| if_let_guard(a, false, 0));
run_test(|a| if_let_guard(a, false, 1));
run_test(|a| if_let_guard(a, false, 2));
run_test(|a| {
panic_after_return(a);
});
run_test(|a| {
panic_after_return_expr(a);
});
run_test(|a| panic_after_init(a));
run_test(|a| panic_after_init_temp(a));
run_test(|a| panic_after_init_by_loop(a));
run_test(|a| bindings_after_at_dynamic_init_move(a, true));
run_test(|a| bindings_after_at_dynamic_init_move(a, false));
run_test(|a| bindings_after_at_dynamic_init_ref(a, true));
run_test(|a| bindings_after_at_dynamic_init_ref(a, false));
run_test(|a| bindings_after_at_dynamic_drop_move(a, true));
run_test(|a| bindings_after_at_dynamic_drop_move(a, false));
run_test(|a| bindings_after_at_dynamic_drop_ref(a, true));
run_test(|a| bindings_after_at_dynamic_drop_ref(a, false));
run_test_nopanic(|a| union1(a));
}