src/document/clock.rs

use super::InternalRecord;
use crate::{
    action::{Action, MsgAction, Records},
    document::record::Oid,
    message::{Message, MessageAction},
    name::{Name, Names},
    queue::{
        self,
        data_director::{Include, Path, RegMsg, Register},
        router::Queue,
    },
    Query,
};
use chrono::{DateTime, Utc};
use std::{
    sync::mpsc::{channel, Receiver},
    thread::{sleep, spawn},
    time::Duration,
};

struct Pulser {
    queue: Queue,
}

impl Pulser {
    fn new(queue: Queue) -> Self {
        Self { queue: queue }
    }

    fn pulse(&self) {
        loop {
            let msg = Message::new(MsgAction::OnUpdate(Clock::respnse(self.queue.now())));
            self.queue.send(msg);
            sleep(Duration::from_secs(1));
        }
    }
}

pub struct Clock {
    queue: Queue,
    rx: Receiver<Message>,
}

impl Clock {
    fn new(queue: Queue, rx: Receiver<Message>) -> Self {
        Self {
            queue: queue,
            rx: rx,
        }
    }

    pub fn doc_names() -> Vec<Name> {
        vec![Name::english("system time")]
    }

    fn respnse(timestamp: DateTime<Utc>) -> Records {
        let mut names = Names::new();
        let field_name = Name::english("time");
        names.add_names(vec![field_name.clone()]);
        let field_id = names.get_id(field_name).unwrap();
        let mut recs = Records::new(Self::doc_names(), names);
        let mut rec = InternalRecord::new();
        rec.insert(field_id, timestamp);
        recs.insert(Oid::new(), rec);
        recs
    }

    pub fn gen_message() -> Message {
        Message::new(MsgAction::OnUpdate(Records::new(
            Clock::doc_names(),
            Names::new(),
        )))
    }

    pub fn start(mut queue: Queue) {
        let pulser = Pulser::new(queue.clone());
        spawn(move || {
            pulser.pulse();
        });
        let (tx, rx) = channel();
        let id = queue.add_sender(tx);
        let path = Path::new(
            Include::All,
            Include::Just(Clock::doc_names()[0].clone().into()),
            Include::Just(Action::Query),
        );
        let reg_msg = Register::new(id.clone(), RegMsg::AddRoute(path.clone()));
        queue.send(Message::new(reg_msg));
        rx.recv().unwrap(); // Wait for completion.
        let clock = Clock::new(queue.clone(), rx);
        spawn(move || {
            clock.listen();
        });
    }

    fn listen(&self) {
        loop {
            let msg = self.rx.recv().unwrap();
            let reply = msg.set_action(Clock::respnse(self.queue.now()));
            self.queue.send(reply);
        }
    }
}

#[cfg(test)]
mod clocks {
    use super::*;
    use crate::{
        queue::{
            self,
            data_director::{Include, Path},
            TestClock,
        },
        Field, NameType,
    };
    use chrono::{TimeDelta, Utc};

    static TIMEOUT: Duration = Duration::from_millis(1500);

    #[test]
    fn can_document_names_be_returned() {
        let doc_names = vec![Name::english("system time")];
        assert_eq!(Clock::doc_names(), doc_names);
    }

    #[test]
    fn can_return_time_record() {
        let now = Utc::now();
        let recs = Clock::respnse(now.clone());
        assert_eq!(recs.doc_name(), &Clock::doc_names()[0].clone().into());
        assert_eq!(recs.len(), 1, "received: {:?}", recs);
        let rec = recs.iter().last().unwrap();
        assert_eq!(rec.get(Name::english("time")).unwrap(), now.into());
    }

    #[test]
    fn does_clock_update_return_correct_time() {
        let clock = TestClock::new();
        let mut queue = Queue::with_clock(clock.clone());
        let expected: Field = queue.now().into();
        let (tx, rx) = channel();
        let id = queue.add_sender(tx);
        let request = Register::new(
            id.clone(),
            RegMsg::AddRoute(Path::new(Include::All, Include::All, Include::All)),
        );
        queue.send(Message::new(request));
        rx.recv_timeout(TIMEOUT).unwrap();
        Clock::start(queue.clone());
        let result = rx.recv_timeout(TIMEOUT).unwrap();
        match result.get_action() {
            MsgAction::OnUpdate(data) => {
                let rec = data.iter().last().unwrap();
                assert_eq!(rec.get(Name::english("time")).unwrap(), expected);
            }
            _ => unreachable!("should return on_update: {:?}", result.get_action()),
        }
    }

    #[test]
    fn does_clock_send_reply_every_second() {
        let mut queue = Queue::new();
        let (tx, rx) = channel();
        let id = queue.add_sender(tx);
        let request = Register::new(
            id.clone(),
            RegMsg::AddRoute(Path::new(Include::All, Include::All, Include::All)),
        );
        queue.send(Message::new(request));
        rx.recv_timeout(TIMEOUT).unwrap();
        let mut holder: Vec<Message> = Vec::new();
        let start = Utc::now();
        Clock::start(queue.clone());
        while holder.len() < 2 {
            holder.push(rx.recv_timeout(TIMEOUT).unwrap());
        }
        let end = Utc::now();
        assert!((end - start) > TimeDelta::seconds(1));
        assert!((end - start) < TimeDelta::seconds(2));
    }

    #[test]
    fn can_time_be_queried() {
        let clock = TestClock::new();
        let mut queue = Queue::with_clock(clock.clone());
        let expected: Field = queue.now().into();
        let (tx, rx) = channel();
        let id = queue.add_sender(tx);
        let request = Register::new(
            id.clone(),
            RegMsg::AddRoute(Path::new(
                Include::All,
                Include::Just(Clock::doc_names()[0].clone().into()),
                Include::Just(Action::Records),
            )),
        );
        queue.send(Message::new(request));
        rx.recv_timeout(TIMEOUT).unwrap();
        Clock::start(queue.clone());
        let msg = Message::new(Query::new(Clock::doc_names()[0].clone()));
        queue.send(msg.clone());
        let result = rx.recv_timeout(TIMEOUT).unwrap();
        assert_eq!(result.get_message_id(), msg.get_message_id());
        match result.get_action() {
            MsgAction::Records(data) => {
                let rec = data.iter().last().unwrap();
                assert_eq!(rec.get(Name::english("time")).unwrap(), expected);
            }
            _ => unreachable!("should return on_update: {:?}", result.get_action()),
        }
    }
}
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`use super::InternalRecord;`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`use crate::{`
Moved Records into the document module. 2026-02-13 12:00:39 -05:00			`action::{Action, MsgAction, Records},`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`document::record::Oid,`
			`message::{Message, MessageAction},`
Performed a partial compile cleanup. 2026-04-23 11:31:52 -04:00			`name::{Name, Names},`
Moved queue into separate module. 2026-01-30 13:58:55 -05:00			`queue::{`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`self,`
Refactored clock. 2026-02-04 08:49:03 -05:00			`data_director::{Include, Path, RegMsg, Register},`
Moved queue into separate module. 2026-01-30 13:58:55 -05:00			`router::Queue,`
			`},`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`Query,`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`};`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`use chrono::{DateTime, Utc};`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`use std::{`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`sync::mpsc::{channel, Receiver},`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`thread::{sleep, spawn},`
			`time::Duration,`
			`};`

Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`struct Pulser {`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`queue: Queue,`
			`}`

Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`impl Pulser {`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`fn new(queue: Queue) -> Self {`
			`Self { queue: queue }`
			`}`

Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`fn pulse(&self) {`
			`loop {`
			`let msg = Message::new(MsgAction::OnUpdate(Clock::respnse(self.queue.now())));`
			`self.queue.send(msg);`
			`sleep(Duration::from_secs(1));`
			`}`
			`}`
			`}`

			`pub struct Clock {`
			`queue: Queue,`
			`rx: Receiver<Message>,`
			`}`

			`impl Clock {`
			`fn new(queue: Queue, rx: Receiver<Message>) -> Self {`
			`Self {`
			`queue: queue,`
			`rx: rx,`
			`}`
			`}`

Made records produce a document name. 2026-02-13 15:04:16 -05:00			`pub fn doc_names() -> Vec<Name> {`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`vec![Name::english("system time")]`
			`}`

			`fn respnse(timestamp: DateTime<Utc>) -> Records {`
			`let mut names = Names::new();`
			`let field_name = Name::english("time");`
			`names.add_names(vec![field_name.clone()]);`
			`let field_id = names.get_id(field_name).unwrap();`
			`let mut recs = Records::new(Self::doc_names(), names);`
			`let mut rec = InternalRecord::new();`
			`rec.insert(field_id, timestamp);`
			`recs.insert(Oid::new(), rec);`
			`recs`
Made records produce a document name. 2026-02-13 15:04:16 -05:00			`}`

Moved session tests into general library. 2026-02-19 10:39:03 -05:00			`pub fn gen_message() -> Message {`
Removed document id from message. 2026-02-18 10:09:55 -05:00			`Message::new(MsgAction::OnUpdate(Records::new(`
			`Clock::doc_names(),`
			`Names::new(),`
			`)))`
Refactored clock. 2026-02-04 08:49:03 -05:00			`}`

Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`pub fn start(mut queue: Queue) {`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`let pulser = Pulser::new(queue.clone());`
			`spawn(move \|\| {`
			`pulser.pulse();`
			`});`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`let (tx, rx) = channel();`
			`let id = queue.add_sender(tx);`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`let path = Path::new(`
			`Include::All,`
			`Include::Just(Clock::doc_names()[0].clone().into()),`
			`Include::Just(Action::Query),`
			`);`
			`let reg_msg = Register::new(id.clone(), RegMsg::AddRoute(path.clone()));`
			`queue.send(Message::new(reg_msg));`
			`rx.recv().unwrap(); // Wait for completion.`
			`let clock = Clock::new(queue.clone(), rx);`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`spawn(move \|\| {`
			`clock.listen();`
			`});`
			`}`

			`fn listen(&self) {`
			`loop {`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`let msg = self.rx.recv().unwrap();`
			`let reply = msg.set_action(Clock::respnse(self.queue.now()));`
			`self.queue.send(reply);`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`}`
			`}`
			`}`

			`#[cfg(test)]`
			`mod clocks {`
			`use super::*;`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`use crate::{`
			`queue::{`
			`self,`
			`data_director::{Include, Path},`
			`TestClock,`
			`},`
			`Field, NameType,`
Middle of session move. 2026-05-13 11:35:30 -04:00			`};`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`use chrono::{TimeDelta, Utc};`

			`static TIMEOUT: Duration = Duration::from_millis(1500);`

			`#[test]`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`fn can_document_names_be_returned() {`
			`let doc_names = vec![Name::english("system time")];`
			`assert_eq!(Clock::doc_names(), doc_names);`
			`}`

			`#[test]`
			`fn can_return_time_record() {`
			`let now = Utc::now();`
			`let recs = Clock::respnse(now.clone());`
			`assert_eq!(recs.doc_name(), &Clock::doc_names()[0].clone().into());`
			`assert_eq!(recs.len(), 1, "received: {:?}", recs);`
			`let rec = recs.iter().last().unwrap();`
			`assert_eq!(rec.get(Name::english("time")).unwrap(), now.into());`
			`}`

			`#[test]`
			`fn does_clock_update_return_correct_time() {`
Middle of session move. 2026-05-13 11:35:30 -04:00			`let clock = TestClock::new();`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`let mut queue = Queue::with_clock(clock.clone());`
			`let expected: Field = queue.now().into();`
			`let (tx, rx) = channel();`
			`let id = queue.add_sender(tx);`
			`let request = Register::new(`
			`id.clone(),`
			`RegMsg::AddRoute(Path::new(Include::All, Include::All, Include::All)),`
			`);`
			`queue.send(Message::new(request));`
			`rx.recv_timeout(TIMEOUT).unwrap();`
			`Clock::start(queue.clone());`
			`let result = rx.recv_timeout(TIMEOUT).unwrap();`
			`match result.get_action() {`
			`MsgAction::OnUpdate(data) => {`
			`let rec = data.iter().last().unwrap();`
			`assert_eq!(rec.get(Name::english("time")).unwrap(), expected);`
			`}`
			`_ => unreachable!("should return on_update: {:?}", result.get_action()),`
			`}`
			`}`

			`#[test]`
			`fn does_clock_send_reply_every_second() {`
			`let mut queue = Queue::new();`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`let (tx, rx) = channel();`
			`let id = queue.add_sender(tx);`
			`let request = Register::new(`
			`id.clone(),`
			`RegMsg::AddRoute(Path::new(Include::All, Include::All, Include::All)),`
			`);`
Removed document id from message. 2026-02-18 10:09:55 -05:00			`queue.send(Message::new(request));`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`rx.recv_timeout(TIMEOUT).unwrap();`
			`let mut holder: Vec<Message> = Vec::new();`
			`let start = Utc::now();`
			`Clock::start(queue.clone());`
			`while holder.len() < 2 {`
			`holder.push(rx.recv_timeout(TIMEOUT).unwrap());`
			`}`
			`let end = Utc::now();`
			`assert!((end - start) > TimeDelta::seconds(1));`
			`assert!((end - start) < TimeDelta::seconds(2));`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`}`

			`#[test]`
			`fn can_time_be_queried() {`
			`let clock = TestClock::new();`
			`let mut queue = Queue::with_clock(clock.clone());`
			`let expected: Field = queue.now().into();`
			`let (tx, rx) = channel();`
			`let id = queue.add_sender(tx);`
			`let request = Register::new(`
			`id.clone(),`
			`RegMsg::AddRoute(Path::new(`
			`Include::All,`
			`Include::Just(Clock::doc_names()[0].clone().into()),`
			`Include::Just(Action::Records),`
			`)),`
			`);`
			`queue.send(Message::new(request));`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`rx.recv_timeout(TIMEOUT).unwrap();`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`Clock::start(queue.clone());`
			`let msg = Message::new(Query::new(Clock::doc_names()[0].clone()));`
			`queue.send(msg.clone());`
			`let result = rx.recv_timeout(TIMEOUT).unwrap();`
			`assert_eq!(result.get_message_id(), msg.get_message_id());`
			`match result.get_action() {`
			`MsgAction::Records(data) => {`
			`let rec = data.iter().last().unwrap();`
			`assert_eq!(rec.get(Name::english("time")).unwrap(), expected);`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`}`
Updated clock so it can be queried. 2026-05-13 16:47:51 -04:00			`_ => unreachable!("should return on_update: {:?}", result.get_action()),`
Moved clock into separate documents module. 2026-01-08 15:02:03 -05:00			`}`
			`}`
			`}`