//! Simple example usage of [`thread_local_collect::tlcr::probed`]. //! Requires feature flag "tlcr". use std::{ thread::{self, ThreadId}, time::Duration, }; use thread_local_collect::tlcr::probed::Control; // Define your data type, e.g.: type Data = i32; // Define your accumulated value type. type AccValue = i32; // Define your zero accumulated value function. fn acc_zero() -> AccValue { 0 } // Define your accumulation operation. fn op(data: Data, acc: &mut AccValue, _: ThreadId) { *acc += data; } // Define your accumulor reduction operation. fn op_r(acc1: AccValue, acc2: AccValue) -> AccValue { acc1 + acc2 } fn main() { // Instantiate the control object. let mut control = Control::new(acc_zero, op_r); // Send data to control from main thread if desired. control.aggregate_data(1, op); let h = thread::spawn({ // Clone control for use in the new thread. let control = control.clone(); move || { control.aggregate_data(10, op); thread::sleep(Duration::from_millis(10)); control.aggregate_data(20, op); } }); // Wait for spawned thread to do some work. thread::sleep(Duration::from_millis(5)); // Probe the thread-local values and get the accuulated value computed from // current thread-local values. let acc = control.probe_tls(); println!("non-final accumulated from probe_tls(): {}", acc); h.join().unwrap(); // Probe the thread-local variables and get the accuulated value computed from // final thread-local values. let acc = control.probe_tls(); println!("final accumulated from probe_tls(): {}", acc); // Drain the final thread-local values. let acc = control.drain_tls().unwrap(); // Print the accumulated value println!("accumulated={acc}"); }