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//! Rust bindings for JACK, a real-time audio and midi library.
//!
//! # Server
//!
//! JACK provides a high priority server to manipulate audio and midi across applications. The rust
//! jack crate does not provide server creation functionality, so a server has to be set up with the
//! `jackd` commandline tool, `qjackctl` the gui tool, or another method.
//!
//! # Client
//!
//! Typically, applications connect clients to the server. For the rust jack crate, a connection can
//! be made with `client::Client::new`, which returns a `client::Client`.
//!
//! The `Client` can query the server for information, register ports, and manage connections for
//! ports.
//!
//! To commence processing audio/midi and other information in real-time, rust jack provides the
//! `Client::activate_async`, which consumes the `Client`, an object that implements
//! `NotificationHandler` and an object that implements `ProcessHandler` and returns a
//! `AsyncClient`. `AsyncClient` processes the data in real-time with the provided handlers.
//!
//! # Port
//!
//! A `Client` may obtain port information through the `Client::port_by_id` and
//! `Client::port_by_name` methods. These ports can be used to manage connections or to obtain port
//! metadata, though their port data (audio buffers and midi buffers) cannot be accessed safely.
//!
//! Ports can be registered with the `Client::register_port` method. This requires a `PortSpec`. The
//! jack crate comes with common specs such as `AudioIn`, `AudioOut`, `MidiIn`, and
//! `MidiOut`.
//!
//! To access the data of registered ports, use their specialized methods within a `ProcessHandler`
//! callback. For example, `Port<AudioIn>::as_mut_slice` returns a audio buffer that can be written
//! to.

pub use crate::client::{
    AsyncClient, Client, ClientOptions, ClientStatus, ClosureProcessHandler, CycleTimes,
    InternalClientID, NotificationHandler, ProcessHandler, ProcessScope, CLIENT_NAME_SIZE,
};
pub use crate::jack_enums::{Control, Error, LatencyType};
pub use crate::port::{
    AudioIn, AudioOut, MidiIn, MidiIter, MidiOut, MidiWriter, Port, PortFlags, PortSpec, RawMidi,
    Unowned, PORT_NAME_SIZE, PORT_TYPE_SIZE,
};
pub use crate::primitive_types::{Frames, PortId, Time};
pub use crate::ringbuffer::{RingBuffer, RingBufferReader, RingBufferWriter};
pub use crate::transport::{
    Transport, TransportBBT, TransportBBTValidationError, TransportPosition, TransportState,
    TransportStatePosition,
};

/// The underlying system bindings for JACK. Can be useful for using possibly
/// experimental stuff through `jack_sys::library()`.
pub use jack_sys;

//only expose metadata if enabled
#[cfg(feature = "metadata")]
pub use crate::properties::*;

/// Create and manage client connections to a JACK server.
mod client;

/// Create and manage JACK ring buffers.
mod ringbuffer;

/// Enum types in jack.
mod jack_enums;

mod jack_utils;

/// Types for safely interacting with port data from JACK.
mod port;

/// Platform independent types.
mod primitive_types;

/// Transport.
mod transport;

/// Properties
mod properties;

/// Return JACK's current system time in microseconds, using the JACK clock
/// source.
pub fn get_time() -> primitive_types::Time {
    unsafe { jack_sys::jack_get_time() }
}

#[cfg(test)]
mod test {
    use super::*;
    use std::{thread, time};

    #[test]
    fn time_can_get_time() {
        get_time();
    }

    #[test]
    fn time_is_monotonically_increasing() {
        let initial_t = get_time();
        thread::sleep(time::Duration::from_millis(100));
        let later_t = get_time();
        assert!(initial_t < later_t);
    }
}