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use std::cell::{Cell, RefCell};
use std::mem;
use trace::{Finalize, Trace};
#[cfg(feature = "nightly")]
use std::ptr::Shared;
#[cfg(not(feature = "nightly"))]
use stable::Shared;
const INITIAL_THRESHOLD: usize = 100;
const USED_SPACE_RATIO: f64 = 0.7;
struct GcState {
bytes_allocated: usize,
threshold: usize,
boxes_start: Option<Shared<GcBox<Trace>>>,
}
impl Drop for GcState {
fn drop(&mut self) {
unsafe {
{
let mut p = &self.boxes_start;
while let Some(node) = *p {
Finalize::finalize(&(**node).data);
p = &(**node).header.next;
}
}
let _guard = DropGuard::new();
while let Some(node) = self.boxes_start {
let node = Box::from_raw(*node);
self.boxes_start = node.header.next;
}
}
}
}
thread_local!(pub static GC_DROPPING: Cell<bool> = Cell::new(false));
struct DropGuard;
impl DropGuard {
fn new() -> DropGuard {
GC_DROPPING.with(|dropping| dropping.set(true));
DropGuard
}
}
impl Drop for DropGuard {
fn drop(&mut self) {
GC_DROPPING.with(|dropping| dropping.set(false));
}
}
pub fn finalizer_safe() -> bool {
GC_DROPPING.with(|dropping| !dropping.get())
}
thread_local!(static GC_STATE: RefCell<GcState> = RefCell::new(GcState {
bytes_allocated: 0,
threshold: INITIAL_THRESHOLD,
boxes_start: None,
}));
pub struct GcBoxHeader {
roots: Cell<usize>,
next: Option<Shared<GcBox<Trace>>>,
marked: Cell<bool>,
}
pub struct GcBox<T: Trace + ?Sized + 'static> {
header: GcBoxHeader,
data: T,
}
impl<T: Trace> GcBox<T> {
pub fn new(value: T) -> Shared<Self> {
GC_STATE.with(|st| {
let mut st = st.borrow_mut();
if st.bytes_allocated > st.threshold {
collect_garbage(&mut *st);
if st.bytes_allocated as f64 > st.threshold as f64 * USED_SPACE_RATIO {
st.threshold = (st.bytes_allocated as f64 / USED_SPACE_RATIO) as usize
}
}
let gcbox = Box::into_raw(Box::new(GcBox {
header: GcBoxHeader {
roots: Cell::new(1),
marked: Cell::new(false),
next: st.boxes_start.take(),
},
data: value,
}));
st.boxes_start = Some(unsafe { Shared::new(gcbox) });
st.bytes_allocated += mem::size_of::<GcBox<T>>();
unsafe { Shared::new(gcbox) }
})
}
}
impl<T: Trace + ?Sized> GcBox<T> {
pub unsafe fn trace_inner(&self) {
let marked = self.header.marked.get();
if !marked {
self.header.marked.set(true);
self.data.trace();
}
}
pub unsafe fn root_inner(&self) {
self.header.roots.set(self.header.roots.get().checked_add(1).unwrap());
}
pub unsafe fn unroot_inner(&self) {
self.header.roots.set(self.header.roots.get() - 1);
}
pub fn value(&self) -> &T {
&self.data
}
}
fn collect_garbage(st: &mut GcState) {
struct Unmarked {
incoming: *mut Option<Shared<GcBox<Trace>>>,
this: Shared<GcBox<Trace>>,
}
unsafe fn mark(head: &mut Option<Shared<GcBox<Trace>>>) -> Vec<Unmarked> {
let mut mark_head = *head;
while let Some(node) = mark_head {
if (**node).header.roots.get() > 0 {
(**node).trace_inner();
}
mark_head = (**node).header.next;
}
let mut unmarked = Vec::new();
let mut unmark_head = head;
while let Some(node) = *unmark_head {
if (**node).header.marked.get() {
(**node).header.marked.set(false);
} else {
unmarked.push(Unmarked {
incoming: unmark_head,
this: node,
});
}
unmark_head = &mut (**node).header.next;
}
unmarked
}
unsafe fn sweep(finalized: Vec<Unmarked>, bytes_allocated: &mut usize) {
let _guard = DropGuard::new();
for node in finalized.into_iter().rev() {
if (**node.this).header.marked.get() {
continue;
}
let incoming = node.incoming;
let mut node = Box::from_raw(*node.this);
*bytes_allocated -= mem::size_of_val::<GcBox<_>>(&*node);
*incoming = node.header.next.take();
}
}
unsafe {
let unmarked = mark(&mut st.boxes_start);
if unmarked.is_empty() {
return;
}
for node in &unmarked {
Trace::finalize_glue(&(**node.this).data);
}
mark(&mut st.boxes_start);
sweep(unmarked, &mut st.bytes_allocated);
}
}
pub fn force_collect() {
GC_STATE.with(|st| {
let mut st = st.borrow_mut();
collect_garbage(&mut *st);
});
}