@ -1,3 +1,167 @@
#![ allow(dead_code) ]
use std ::sync ::atomic ::{
self ,
AtomicBool ,
AtomicUsize ,
} ;
use std ::mem ::{ self , MaybeUninit } ;
use std ::cell ::UnsafeCell ;
use std ::ops ::Drop ;
/// A parallel, atomic populator of items
pub struct Populator < T >
{
values : Box < [ UnsafeCell < MaybeUninit < T > > ] > ,
populates : Box < [ AtomicBool ] > , //
populated : AtomicUsize , // number of populated items
}
impl < T > Drop for Populator < T >
{
fn drop ( & mut self )
{
if mem ::needs_drop ::< T > ( ) {
if self . populated ( ) = = self . values . len ( ) {
// Fully populated, drop whole slice in place
unsafe {
std ::ptr ::drop_in_place ( self . values . as_mut ( ) as * mut [ UnsafeCell < MaybeUninit < T > > ] as * mut [ T ] )
}
} else if self . values . len ( ) > 0 { // If values is 0, then that means `[try_]complete()` has been called.
// Partially populated, drop individual parts
for value in self . values . iter_mut ( ) . zip ( self . populates . iter ( ) . map ( | x | x . load ( atomic ::Ordering ::Acquire ) ) ) . filter_map ( | ( v , prod ) | prod . then ( move | | v . get_mut ( ) . as_mut_ptr ( ) ) )
{
unsafe {
std ::ptr ::drop_in_place ( value )
}
}
}
}
// Both boxes will be dealloced after this, the values are dropped.
}
}
unsafe impl < T > Send for Populator < T > where Box < T > : Send { }
unsafe impl < T > Sync for Populator < T > { } // Populator is always sync
impl < T > Populator < T >
{
/// How many items are populated
pub fn populated ( & self ) -> usize
{
self . populated . load ( atomic ::Ordering ::Acquire )
}
/// Is the populator full?
pub fn is_full ( & self ) -> bool
{
self . populated ( ) = = self . values . len ( )
}
/// Number of items held by the populator
pub fn len ( & self ) -> usize
{
self . values . len ( )
}
/// Create a new, empty populator with this size
pub fn new ( size : usize ) -> Self
{
Self {
// SAFETY: MaybeUninit is not Copy, so instead we allocate the space for uninitialised memory and then .set_len().
values : unsafe {
let mut uninit = Vec ::with_capacity ( size ) ;
uninit . set_len ( size ) ;
uninit
} . into_boxed_slice ( ) ,
populates : std ::iter ::repeat_with ( | | false . into ( ) ) . take ( size ) . collect ( ) ,
populated : 0 usize . into ( ) ,
}
}
/// Try to insert `value` at `idx`.
///
/// If `idx` already has a value, then `Err(value)` is returned, otherwise, `value` is inserted into the table and the number of items now populated is returned.
pub fn try_insert ( & self , idx : usize , value : T ) -> Result < usize , T >
{
//TODO: XXX: Should we use SeqCst -> Acquire, or Acquire -> Relaxed?
if let Ok ( false ) = self . populates [ idx ] . compare_exchange ( false , true , atomic ::Ordering ::SeqCst , atomic ::Ordering ::Acquire ) {
// The value at idx hasn't been set
if cfg! ( debug_assertions ) {
match std ::panic ::catch_unwind ( std ::panic ::AssertUnwindSafe ( | | {
let ptr = self . values [ idx ] . get ( ) ;
unsafe {
* ptr = MaybeUninit ::new ( value ) ;
}
} ) ) {
Err ( p ) = > std ::panic ::resume_unwind ( p ) ,
Ok ( _ ) = > ( ) ,
}
} else {
// SAFETY: This operation will never panic, since `values` and `populates` are always the same size
// SAFETY: We have already ensured that `values[idx]` does not contain a value.
unsafe {
* self . values [ idx ] . get ( ) = MaybeUninit ::new ( value ) ;
}
}
// Value is inserted, increment `populated`
Ok ( self . populated . fetch_add ( 1 , atomic ::Ordering ::SeqCst ) + 1 )
} else {
Err ( value )
}
}
/// Insert `value` into `idx`.
///
/// # Panics
/// If `idx` already has a value inserted.
pub fn insert ( & self , idx : usize , value : T ) -> usize
{
#[ inline(never) ]
#[ cold ]
fn panic_inserted ( i : usize ) -> !
{
panic! ( "There is already a value at {}" , i )
}
match self . try_insert ( idx , value ) {
Ok ( v ) = > v ,
Err ( _ ) = > panic_inserted ( idx ) ,
}
}
/// If all values are populated, then convert it into a boxed slice and return it.
pub fn try_complete ( mut self ) -> Result < Box < [ T ] > , Self >
{
if * self . populated . get_mut ( ) = = self . values . len ( ) {
let ptr = Box ::into_raw ( std ::mem ::replace ( & mut self . values , vec! [ ] . into_boxed_slice ( ) ) ) ;
Ok ( unsafe {
Box ::from_raw ( ptr as * mut [ T ] )
} )
} else {
Err ( self )
}
}
/// Returns the completed population.
///
/// # Panics
/// If the collection is not fully populated.
pub fn complete ( self ) -> Box < [ T ] >
{
#[ inline(never) ]
#[ cold ]
fn panic_uncomplete ( ) -> !
{
panic! ( "Not all values had been populated" )
}
match self . try_complete ( ) {
Ok ( v ) = > v ,
Err ( _ ) = > panic_uncomplete ( ) ,
}
}
}
#[ cfg(test) ]
#[ cfg(test) ]
mod tests {
mod tests {
#[ test ]
#[ test ]