use crate::runtime::metrics::{HistogramBatch, WorkerMetrics};

use std::sync::atomic::Ordering::Relaxed;
use std::time::{Duration, Instant};

pub(crate) struct MetricsBatch {
    /// Number of times the worker parked.
    park_count: u64,

    /// Number of times the worker parked and unparked.
    park_unpark_count: u64,

    /// Number of times the worker woke w/o doing work.
    noop_count: u64,

    /// Number of tasks stolen.
    steal_count: u64,

    /// Number of times tasks where stolen.
    steal_operations: u64,

    /// Number of tasks that were polled by the worker.
    poll_count: u64,

    /// Number of tasks polled when the worker entered park. This is used to
    /// track the noop count.
    poll_count_on_last_park: u64,

    /// Number of tasks that were scheduled locally on this worker.
    local_schedule_count: u64,

    /// Number of tasks moved to the global queue to make space in the local
    /// queue
    overflow_count: u64,

    /// The total busy duration in nanoseconds.
    busy_duration_total: u64,

    /// Instant at which work last resumed (continued after park).
    processing_scheduled_tasks_started_at: Instant,

    /// If `Some`, tracks poll times in nanoseconds
    poll_timer: Option<PollTimer>,
}

struct PollTimer {
    /// Histogram of poll counts within each band.
    poll_counts: HistogramBatch,

    /// Instant when the most recent task started polling.
    poll_started_at: Instant,
}

impl MetricsBatch {
    pub(crate) fn new(worker_metrics: &WorkerMetrics) -> MetricsBatch {
        let now = Instant::now();

        MetricsBatch {
            park_count: 0,
            park_unpark_count: 0,
            noop_count: 0,
            steal_count: 0,
            steal_operations: 0,
            poll_count: 0,
            poll_count_on_last_park: 0,
            local_schedule_count: 0,
            overflow_count: 0,
            busy_duration_total: 0,
            processing_scheduled_tasks_started_at: now,
            poll_timer: worker_metrics
                .poll_count_histogram
                .as_ref()
                .map(|worker_poll_counts| PollTimer {
                    poll_counts: HistogramBatch::from_histogram(worker_poll_counts),
                    poll_started_at: now,
                }),
        }
    }

    pub(crate) fn submit(&mut self, worker: &WorkerMetrics, mean_poll_time: u64) {
        worker.mean_poll_time.store(mean_poll_time, Relaxed);
        worker.park_count.store(self.park_count, Relaxed);
        worker
            .park_unpark_count
            .store(self.park_unpark_count, Relaxed);
        worker.noop_count.store(self.noop_count, Relaxed);
        worker.steal_count.store(self.steal_count, Relaxed);
        worker
            .steal_operations
            .store(self.steal_operations, Relaxed);
        worker.poll_count.store(self.poll_count, Relaxed);

        worker
            .busy_duration_total
            .store(self.busy_duration_total, Relaxed);

        worker
            .local_schedule_count
            .store(self.local_schedule_count, Relaxed);
        worker.overflow_count.store(self.overflow_count, Relaxed);

        if let Some(poll_timer) = &self.poll_timer {
            let dst = worker.poll_count_histogram.as_ref().unwrap();
            poll_timer.poll_counts.submit(dst);
        }
    }

    /// The worker is about to park.
    pub(crate) fn about_to_park(&mut self) {
        self.park_count += 1;
        self.park_unpark_count += 1;

        if self.poll_count_on_last_park == self.poll_count {
            self.noop_count += 1;
        } else {
            self.poll_count_on_last_park = self.poll_count;
        }
    }

    /// The worker was unparked.
    pub(crate) fn unparked(&mut self) {
        self.park_unpark_count += 1;
    }

    /// Start processing a batch of tasks
    pub(crate) fn start_processing_scheduled_tasks(&mut self) {
        self.processing_scheduled_tasks_started_at = Instant::now();
    }

    /// Stop processing a batch of tasks
    pub(crate) fn end_processing_scheduled_tasks(&mut self) {
        let busy_duration = self.processing_scheduled_tasks_started_at.elapsed();
        self.busy_duration_total += duration_as_u64(busy_duration);
    }

    /// Start polling an individual task
    pub(crate) fn start_poll(&mut self) {
        self.poll_count += 1;

        if let Some(poll_timer) = &mut self.poll_timer {
            poll_timer.poll_started_at = Instant::now();
        }
    }

    /// Stop polling an individual task
    pub(crate) fn end_poll(&mut self) {
        if let Some(poll_timer) = &mut self.poll_timer {
            let elapsed = duration_as_u64(poll_timer.poll_started_at.elapsed());
            poll_timer.poll_counts.measure(elapsed, 1);
        }
    }

    pub(crate) fn inc_local_schedule_count(&mut self) {
        self.local_schedule_count += 1;
    }
}

cfg_rt_multi_thread! {
    impl MetricsBatch {
        pub(crate) fn incr_steal_count(&mut self, by: u16) {
            self.steal_count += by as u64;
        }

        pub(crate) fn incr_steal_operations(&mut self) {
            self.steal_operations += 1;
        }

        pub(crate) fn incr_overflow_count(&mut self) {
            self.overflow_count += 1;
        }
    }
}

pub(crate) fn duration_as_u64(dur: Duration) -> u64 {
    u64::try_from(dur.as_nanos()).unwrap_or(u64::MAX)
}