use static_init::{destructor, dynamic, Finaly, LazyAccess, Phase};
use std::panic::catch_unwind;
use std::sync::atomic::{AtomicU32, Ordering};
static FINALIZE_A_COUNT: AtomicU32 = AtomicU32::new(0);
struct A(u32);
impl A {
fn new(v: u32) -> A {
A(v)
}
}
impl Finaly for A {
fn finaly(&self) {
FINALIZE_A_COUNT.fetch_add(1, Ordering::Relaxed);
}
}
#[dynamic(lazy, finalize)]
static NORMAL: A = A::new(33);
#[test]
fn normal() {
assert!(LazyAccess::phase(&NORMAL).is_empty());
assert!(LazyAccess::try_get(&NORMAL).is_err());
assert!(LazyAccess::phase(&NORMAL).is_empty());
assert_eq!(NORMAL.0, 33);
assert!(LazyAccess::phase(&NORMAL) == Phase::INITIALIZED | Phase::REGISTERED);
assert_eq!(LazyAccess::try_get(&NORMAL).unwrap().0, 33);
assert!(LazyAccess::phase(&NORMAL) == Phase::INITIALIZED | Phase::REGISTERED);
assert_eq!(NORMAL.0, 33);
assert_eq!(LazyAccess::get(&NORMAL).0, 33);
}
#[destructor(10)]
extern "C" fn check_a_finalized() {
assert_eq!(FINALIZE_A_COUNT.load(Ordering::Relaxed), 1)
}
static FINALIZE_B_COUNT: AtomicU32 = AtomicU32::new(0);
struct B(u32);
impl B {
fn new(v: u32) -> Self {
B(v)
}
}
impl Finaly for B {
fn finaly(&self) {
FINALIZE_B_COUNT.fetch_add(1, Ordering::Relaxed);
}
}
#[destructor(10)]
extern "C" fn check_b_finalized() {
assert_eq!(FINALIZE_B_COUNT.load(Ordering::Relaxed), 1)
}
static UNINIT_COUNT: AtomicU32 = AtomicU32::new(0);
#[dynamic(lazy, finalize)]
static INIT_MAY_PANICK: B = {
if UNINIT_COUNT.fetch_add(1, Ordering::Relaxed) < 2 {
panic!("Should not be seen");
}
B::new(42)
};
#[test]
fn init_may_panick() {
assert!(LazyAccess::phase(&INIT_MAY_PANICK).is_empty());
assert!(LazyAccess::try_get(&INIT_MAY_PANICK).is_err());
assert!(LazyAccess::phase(&INIT_MAY_PANICK).is_empty());
assert!(catch_unwind(|| INIT_MAY_PANICK.0).is_err());
assert_eq!(UNINIT_COUNT.load(Ordering::Relaxed), 1);
assert_eq!(
LazyAccess::phase(&INIT_MAY_PANICK),
Phase::REGISTERED | Phase::INITIALIZATION_PANICKED | Phase::INITIALIZATION_SKIPED
);
assert!(catch_unwind(|| INIT_MAY_PANICK.0).is_err());
assert_eq!(UNINIT_COUNT.load(Ordering::Relaxed), 2);
assert_eq!(
LazyAccess::phase(&INIT_MAY_PANICK),
Phase::REGISTERED | Phase::INITIALIZATION_PANICKED | Phase::INITIALIZATION_SKIPED
);
assert_eq!(INIT_MAY_PANICK.0, 42);
assert_eq!(UNINIT_COUNT.load(Ordering::Relaxed), 3);
assert!(LazyAccess::phase(&INIT_MAY_PANICK) == Phase::REGISTERED | Phase::INITIALIZED);
assert_eq!(LazyAccess::try_get(&INIT_MAY_PANICK).unwrap().0, 42);
assert!(LazyAccess::phase(&INIT_MAY_PANICK) == Phase::REGISTERED | Phase::INITIALIZED);
assert_eq!(INIT_MAY_PANICK.0, 42);
assert_eq!(LazyAccess::get(&INIT_MAY_PANICK).0, 42);
}
static FINALIZE_C_COUNT: AtomicU32 = AtomicU32::new(0);
struct C(u32);
impl C {
fn new(v: u32) -> C {
C(v)
}
}
impl Finaly for C {
fn finaly(&self) {
FINALIZE_C_COUNT.fetch_add(1, Ordering::Relaxed);
}
}
#[destructor(10)]
extern "C" fn check_c_finalized() {
println!("Without this message threads cannot be spawned in destructors...");
assert_eq!(FINALIZE_C_COUNT.load(Ordering::Relaxed), 1)
}
static UNINIT_ONCE_COUNT: AtomicU32 = AtomicU32::new(0);
#[dynamic(lazy, finalize, try_init_once)]
static UNINITIALIZABLE: C = {
UNINIT_ONCE_COUNT.fetch_add(1, Ordering::Relaxed);
panic!("Panicked on purpose")
};
#[test]
fn init_may_panick_intolerant() {
assert!(LazyAccess::phase(&UNINITIALIZABLE).is_empty());
assert!(LazyAccess::try_get(&UNINITIALIZABLE).is_err());
assert!(LazyAccess::phase(&UNINITIALIZABLE).is_empty());
assert!(catch_unwind(|| UNINITIALIZABLE.0).is_err());
assert_eq!(UNINIT_ONCE_COUNT.load(Ordering::Relaxed), 1);
assert_eq!(
LazyAccess::phase(&UNINITIALIZABLE),
Phase::REGISTERED | Phase::INITIALIZATION_PANICKED | Phase::INITIALIZATION_SKIPED
);
assert!(catch_unwind(|| UNINITIALIZABLE.0).is_err());
assert_eq!(UNINIT_ONCE_COUNT.load(Ordering::Relaxed), 1);
assert_eq!(
LazyAccess::phase(&UNINITIALIZABLE),
Phase::REGISTERED | Phase::INITIALIZATION_PANICKED | Phase::INITIALIZATION_SKIPED
);
assert_eq!(UNINIT_ONCE_COUNT.load(Ordering::Relaxed), 1);
}
#[dynamic(lazy, finalize, try_init_once)]
static NORMAL_WITH_TOLERANCE: C = C::new(33);
#[test]
fn normal_with_tolerance() {
assert!(LazyAccess::phase(&NORMAL_WITH_TOLERANCE).is_empty());
assert!(LazyAccess::try_get(&NORMAL_WITH_TOLERANCE).is_err());
assert!(LazyAccess::phase(&NORMAL_WITH_TOLERANCE).is_empty());
assert_eq!(NORMAL_WITH_TOLERANCE.0, 33);
assert!(LazyAccess::phase(&NORMAL_WITH_TOLERANCE) == Phase::INITIALIZED | Phase::REGISTERED);
assert_eq!(LazyAccess::try_get(&NORMAL_WITH_TOLERANCE).unwrap().0, 33);
assert!(LazyAccess::phase(&NORMAL_WITH_TOLERANCE) == Phase::INITIALIZED | Phase::REGISTERED);
assert_eq!(NORMAL_WITH_TOLERANCE.0, 33);
assert_eq!(LazyAccess::get(&NORMAL_WITH_TOLERANCE).0, 33);
}
#[dynamic(lazy, finalize)]
static ATEMPT_AFTER_MAIN: D = D::new(33);
#[dynamic(lazy, finalize, tolerate_leak)] static ATEMPT_AFTER_MAIN_TOL: D = D::new(33);
static FINALIZE_D_COUNT: AtomicU32 = AtomicU32::new(0);
struct D(u32);
impl D {
fn new(v: u32) -> D {
D(v)
}
}
impl Finaly for D {
fn finaly(&self) {
FINALIZE_D_COUNT.fetch_add(1, Ordering::Relaxed);
}
}
#[destructor(100)]
extern "C" fn check_d_finalized() {
assert_eq!(FINALIZE_D_COUNT.load(Ordering::Relaxed), 0)
}
#[destructor(10)]
extern "C" fn check_late() {
assert!(LazyAccess::phase(&ATEMPT_AFTER_MAIN_TOL).is_empty());
assert!(LazyAccess::try_get(&ATEMPT_AFTER_MAIN_TOL).is_err());
assert!(LazyAccess::phase(&ATEMPT_AFTER_MAIN_TOL).is_empty());
assert_eq!(ATEMPT_AFTER_MAIN_TOL.0, 33);
assert!(
LazyAccess::phase(&ATEMPT_AFTER_MAIN_TOL)
== Phase::INITIALIZED | Phase::REGISTRATION_REFUSED
);
assert_eq!(LazyAccess::try_get(&ATEMPT_AFTER_MAIN_TOL).unwrap().0, 33);
assert!(
LazyAccess::phase(&ATEMPT_AFTER_MAIN_TOL)
== Phase::INITIALIZED | Phase::REGISTRATION_REFUSED
);
assert_eq!(ATEMPT_AFTER_MAIN_TOL.0, 33);
assert_eq!(LazyAccess::get(&ATEMPT_AFTER_MAIN_TOL).0, 33);
assert!(LazyAccess::phase(&ATEMPT_AFTER_MAIN).is_empty());
assert!(LazyAccess::try_get(&ATEMPT_AFTER_MAIN).is_err());
assert!(LazyAccess::phase(&ATEMPT_AFTER_MAIN).is_empty());
}