Crate crossbeam_deque[−][src]
Expand description
Concurrent work-stealing deques.
These data structures are most commonly used in work-stealing schedulers. The typical setup involves a number of threads, each having its own FIFO or LIFO queue (worker). There is also one global FIFO queue (injector) and a list of references to worker queues that are able to steal tasks (stealers).
We spawn a new task onto the scheduler by pushing it into the injector queue. Each worker thread waits in a loop until it finds the next task to run and then runs it. To find a task, it first looks into its local worker queue, and then into the injector and stealers.
Queues
Injector
is a FIFO queue, where tasks are pushed and stolen from opposite ends. It is
shared among threads and is usually the entry point for new tasks.
Worker
has two constructors:
new_fifo()
- Creates a FIFO queue, in which tasks are pushed and popped from opposite ends.new_lifo()
- Creates a LIFO queue, in which tasks are pushed and popped from the same end.
Each Worker
is owned by a single thread and supports only push and pop operations.
Method stealer()
creates a Stealer
that may be shared among threads and can only steal
tasks from its Worker
. Tasks are stolen from the end opposite to where they get pushed.
Stealing
Steal operations come in three flavors:
steal()
- Steals one task.steal_batch()
- Steals a batch of tasks and moves them into another worker.steal_batch_and_pop()
- Steals a batch of tasks, moves them into another queue, and pops one task from that worker.
In contrast to push and pop operations, stealing can spuriously fail with Steal::Retry
, in
which case the steal operation needs to be retried.
Examples
Suppose a thread in a work-stealing scheduler is idle and looking for the next task to run. To find an available task, it might do the following:
- Try popping one task from the local worker queue.
- Try stealing a batch of tasks from the global injector queue.
- Try stealing one task from another thread using the stealer list.
An implementation of this work-stealing strategy:
use crossbeam_deque::{Injector, Stealer, Worker}; use std::iter; fn find_task<T>( local: &Worker<T>, global: &Injector<T>, stealers: &[Stealer<T>], ) -> Option<T> { // Pop a task from the local queue, if not empty. local.pop().or_else(|| { // Otherwise, we need to look for a task elsewhere. iter::repeat_with(|| { // Try stealing a batch of tasks from the global queue. global.steal_batch_and_pop(local) // Or try stealing a task from one of the other threads. .or_else(|| stealers.iter().map(|s| s.steal()).collect()) }) // Loop while no task was stolen and any steal operation needs to be retried. .find(|s| !s.is_retry()) // Extract the stolen task, if there is one. .and_then(|s| s.success()) }) }
Structs
Injector | An injector queue. |
Stealer | A stealer handle of a worker queue. |
Worker | A worker queue. |
Enums
Steal | Possible outcomes of a steal operation. |