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// Copyright 2015 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
// ignore-emscripten no threads support
// This test is checking that the move_val_init intrinsic is
// respecting cleanups for both of its argument expressions.
//
// In other words, if either DEST or SOURCE in
//
// `intrinsics::move_val_init(DEST, SOURCE)
//
// introduce temporaries that require cleanup, and SOURCE panics, then
// make sure the cleanups still occur.
#![feature(core_intrinsics, sync_poison)]
use std::cell::RefCell;
use std::intrinsics;
use std::sync::{Arc, LockResult, Mutex, MutexGuard};
use std::thread;
type LogEntry = (&'static str, i32);
type Guarded = RefCell<Vec<LogEntry>>;
#[derive(Clone)]
struct Log(Arc<Mutex<Guarded>>);
struct Acquired<'a>(MutexGuard<'a, Guarded>);
type LogState = (MutexWas, &'static [LogEntry]);
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum MutexWas { Poisoned, NotPoisoned }
impl Log {
fn lock(&self) -> LockResult<MutexGuard<RefCell<Vec<LogEntry>>>> { self.0.lock() }
fn acquire(&self) -> Acquired { Acquired(self.0.lock().unwrap()) }
}
impl<'a> Acquired<'a> {
fn log(&self, s: &'static str, i: i32) { self.0.borrow_mut().push((s, i)); }
}
const TEST1_EXPECT: LogState = (MutexWas::NotPoisoned,
&[("double-check non-poisoning path", 1)
]);
fn test1(log: Log) {
{
let acq = log.acquire();
acq.log("double-check non-poisoning path", 1);
}
panic!("every test ends in a panic");
}
const TEST2_EXPECT: LogState = (MutexWas::Poisoned,
&[("double-check poisoning path", 1),
("and multiple log entries", 2),
]);
fn test2(log: Log) {
let acq = log.acquire();
acq.log("double-check poisoning path", 1);
acq.log("and multiple log entries", 2);
panic!("every test ends in a panic");
}
struct LogOnDrop<'a>(&'a Acquired<'a>, &'static str, i32);
impl<'a> Drop for LogOnDrop<'a> {
fn drop(&mut self) {
self.0.log(self.1, self.2);
}
}
const TEST3_EXPECT: LogState = (MutexWas::Poisoned,
&[("double-check destructors can log", 1),
("drop d2", 2),
("drop d1", 3),
]);
fn test3(log: Log) {
let acq = log.acquire();
acq.log("double-check destructors can log", 1);
let _d1 = LogOnDrop(&acq, "drop d1", 3);
let _d2 = LogOnDrop(&acq, "drop d2", 2);
panic!("every test ends in a panic");
}
// The *real* tests of panic-handling for move_val_init intrinsic
// start here.
const TEST4_EXPECT: LogState = (MutexWas::Poisoned,
&[("neither arg panics", 1),
("drop temp LOD", 2),
("drop temp LOD", 3),
("drop dest_b", 4),
("drop dest_a", 5),
]);
fn test4(log: Log) {
let acq = log.acquire();
acq.log("neither arg panics", 1);
let mut dest_a = LogOnDrop(&acq, "a will be overwritten, not dropped", 0);
let mut dest_b = LogOnDrop(&acq, "b will be overwritten, not dropped", 0);
unsafe {
intrinsics::move_val_init({ LogOnDrop(&acq, "drop temp LOD", 2); &mut dest_a },
LogOnDrop(&acq, "drop dest_a", 5));
intrinsics::move_val_init(&mut dest_b, { LogOnDrop(&acq, "drop temp LOD", 3);
LogOnDrop(&acq, "drop dest_b", 4) });
}
panic!("every test ends in a panic");
}
// Check that move_val_init(PANIC, SOURCE_EXPR) never evaluates SOURCE_EXPR
const TEST5_EXPECT: LogState = (MutexWas::Poisoned,
&[("first arg panics", 1),
("drop orig dest_a", 2),
]);
fn test5(log: Log) {
let acq = log.acquire();
acq.log("first arg panics", 1);
let mut _dest_a = LogOnDrop(&acq, "drop orig dest_a", 2);
unsafe {
intrinsics::move_val_init({ panic!("every test ends in a panic") },
LogOnDrop(&acq, "we never get here", 0));
}
}
// Check that move_val_init(DEST_EXPR, PANIC) cleans up temps from DEST_EXPR.
const TEST6_EXPECT: LogState = (MutexWas::Poisoned,
&[("second arg panics", 1),
("drop temp LOD", 2),
("drop orig dest_a", 3),
]);
fn test6(log: Log) {
let acq = log.acquire();
acq.log("second arg panics", 1);
let mut dest_a = LogOnDrop(&acq, "drop orig dest_a", 3);
unsafe {
intrinsics::move_val_init({ LogOnDrop(&acq, "drop temp LOD", 2); &mut dest_a },
{ panic!("every test ends in a panic"); });
}
}
// Check that move_val_init(DEST_EXPR, COMPLEX_PANIC) cleans up temps from COMPLEX_PANIC.
const TEST7_EXPECT: LogState = (MutexWas::Poisoned,
&[("second arg panics", 1),
("drop temp LOD", 2),
("drop temp LOD", 3),
("drop orig dest_a", 4),
]);
fn test7(log: Log) {
let acq = log.acquire();
acq.log("second arg panics", 1);
let mut dest_a = LogOnDrop(&acq, "drop orig dest_a", 4);
unsafe {
intrinsics::move_val_init({ LogOnDrop(&acq, "drop temp LOD", 2); &mut dest_a },
{ LogOnDrop(&acq, "drop temp LOD", 3);
panic!("every test ends in a panic"); });
}
}
const TEST_SUITE: &'static [(&'static str, fn (Log), LogState)] =
&[("test1", test1, TEST1_EXPECT),
("test2", test2, TEST2_EXPECT),
("test3", test3, TEST3_EXPECT),
("test4", test4, TEST4_EXPECT),
("test5", test5, TEST5_EXPECT),
("test6", test6, TEST6_EXPECT),
("test7", test7, TEST7_EXPECT),
];
fn main() {
for &(name, test, expect) in TEST_SUITE {
let log = Log(Arc::new(Mutex::new(RefCell::new(Vec::new()))));
let ret = { let log = log.clone(); thread::spawn(move || test(log)).join() };
assert!(ret.is_err(), "{} must end with panic", name);
{
let l = log.lock();
match l {
Ok(acq) => {
assert_eq!((MutexWas::NotPoisoned, &acq.borrow()[..]), expect);
println!("{} (unpoisoned) log: {:?}", name, *acq);
}
Err(e) => {
let acq = e.into_inner();
assert_eq!((MutexWas::Poisoned, &acq.borrow()[..]), expect);
println!("{} (poisoned) log: {:?}", name, *acq);
}
}
}
}
}