hacky-ruadat/src/model/logbook.rs

use chrono::{Local, NaiveDateTime, TimeZone};
use rocket::FromForm;
use serde::Serialize;
use sqlx::{FromRow, Sqlite, SqlitePool, Transaction};

use super::{boat::Boat, rower::Rower, user::User};

#[derive(FromRow, Serialize, Clone)]
pub struct Logbook {
    pub id: i64,
    pub boat_id: i64,
    pub shipmaster: i64,
    #[serde(default = "bool::default")]
    pub shipmaster_only_steering: bool,
    pub departure: String,       //TODO: Switch to chrono::nativedatetime
    pub arrival: Option<String>, //TODO: Switch to chrono::nativedatetime
    pub destination: Option<String>,
    pub distance_in_km: Option<i64>,
    pub comments: Option<String>,
    pub logtype: Option<i64>,
}

#[derive(FromForm)]
pub struct LogToAdd {
    pub boat_id: i32,
    pub shipmaster: i64,
    pub shipmaster_only_steering: bool,
    pub departure: String,
    pub arrival: Option<String>,
    pub destination: Option<String>,
    pub distance_in_km: Option<i64>,
    pub comments: Option<String>,
    pub logtype: Option<i64>,
    pub rower: Vec<i64>,
}

#[derive(FromForm)]
pub struct LogToFinalize {
    pub destination: String,
    pub distance_in_km: i64,
    pub comments: Option<String>,
    pub logtype: Option<i64>,
    pub rower: Vec<i64>,
}

#[derive(Serialize)]
pub struct LogbookWithBoatAndRowers {
    #[serde(flatten)]
    pub logbook: Logbook,
    pub boat: Boat,
    pub shipmaster_user: User,
    pub rowers: Vec<User>,
    pub departure_timestamp: i64,
    pub arrival_timestamp: Option<i64>,
}

pub enum LogbookUpdateError {
    NotYourEntry,
    TooManyRowers(usize, usize),
}

pub enum LogbookCreateError {
    BoatAlreadyOnWater,
    BoatLocked,
    BoatNotFound,
    TooManyRowers(usize, usize),
    ShipmasterAlreadyOnWater,
    RowerAlreadyOnWater(User),
}

impl Logbook {
    pub async fn find_by_id(db: &SqlitePool, id: i32) -> Option<Self> {
        sqlx::query_as!(
            Self,
            "
    SELECT id,boat_id,shipmaster,shipmaster_only_steering,departure,arrival,destination,distance_in_km,comments,logtype
    FROM logbook
    WHERE id like ?
            ",
            id
        )
        .fetch_one(db)
        .await
        .ok()
    }

    pub async fn on_water(db: &SqlitePool) -> Vec<LogbookWithBoatAndRowers> {
        let rows = sqlx::query!(
    "
SELECT id, boat_id, shipmaster, shipmaster_only_steering, strftime('%Y-%m-%d %H:%M', departure) as departure, arrival, destination, distance_in_km, comments, logtype
FROM logbook
WHERE arrival is null
ORDER BY departure DESC
    "
)
.fetch_all(db)
.await
.unwrap(); //TODO: fixme

        let logs: Vec<Logbook> = rows
            .into_iter()
            .map(|row| Logbook {
                id: row.id,
                boat_id: row.boat_id,
                shipmaster: row.shipmaster,
                shipmaster_only_steering: row.shipmaster_only_steering,
                departure: row.departure.unwrap(),
                arrival: row.arrival,
                destination: row.destination,
                distance_in_km: row.distance_in_km,
                comments: row.comments,
                logtype: row.logtype,
            })
            .collect();

        let mut ret = Vec::new();
        for log in logs {
            let date_time_naive =
                NaiveDateTime::parse_from_str(&log.departure, "%Y-%m-%d %H:%M").unwrap();
            let date_time = Local
                .from_local_datetime(&date_time_naive)
                .single()
                .unwrap();

            ret.push(LogbookWithBoatAndRowers {
                rowers: Rower::for_log(db, &log).await,
                boat: Boat::find_by_id(db, log.boat_id as i32).await.unwrap(),
                shipmaster_user: User::find_by_id(db, log.shipmaster as i32).await.unwrap(),
                logbook: log,
                arrival_timestamp: None, //TODO: send arrival timestmap
                departure_timestamp: date_time.timestamp(),
            });
        }
        ret
    }

    pub async fn completed(db: &SqlitePool) -> Vec<LogbookWithBoatAndRowers> {
        let logs = sqlx::query_as!(
                Logbook,
                "
    SELECT id, boat_id, shipmaster, shipmaster_only_steering, departure, arrival, destination, distance_in_km, comments, logtype
    FROM logbook
    WHERE arrival is not null
    ORDER BY departure DESC
            "
            )
            .fetch_all(db)
            .await
            .unwrap(); //TODO: fixme

        let mut ret = Vec::new();
        for log in logs {
            ret.push(LogbookWithBoatAndRowers {
                rowers: Rower::for_log(db, &log).await,
                boat: Boat::find_by_id(db, log.boat_id as i32).await.unwrap(),
                shipmaster_user: User::find_by_id(db, log.shipmaster as i32).await.unwrap(),
                logbook: log,
                arrival_timestamp: None,
                departure_timestamp: 0,
            });
        }
        ret
    }

    pub async fn create(db: &SqlitePool, log: LogToAdd) -> Result<(), LogbookCreateError> {
        let Some(boat) = Boat::find_by_id(db, log.boat_id).await else {
                 return Err(LogbookCreateError::BoatNotFound);
             };

        if boat.is_locked(db).await {
            return Err(LogbookCreateError::BoatLocked);
        }

        if boat.on_water(db).await {
            return Err(LogbookCreateError::BoatAlreadyOnWater);
        }
        if (User::find_by_id(db, log.shipmaster as i32).await.unwrap())
            .on_water(db)
            .await
        {
            return Err(LogbookCreateError::ShipmasterAlreadyOnWater);
        }

        if log.rower.len() > boat.amount_seats as usize - 1 {
            return Err(LogbookCreateError::TooManyRowers(
                boat.amount_seats as usize,
                log.rower.len() + 1,
            ));
        }

        for rower in &log.rower {
            let user = User::find_by_id(db, *rower as i32).await.unwrap();
            if user.on_water(db).await {
                return Err(LogbookCreateError::RowerAlreadyOnWater(user));
            }
        }

        let mut tx = db.begin().await.unwrap();

        let departure = NaiveDateTime::parse_from_str(&log.departure, "%Y-%m-%dT%H:%M").unwrap();
        let arrival = log
            .arrival
            .map(|a| NaiveDateTime::parse_from_str(&a, "%Y-%m-%dT%H:%M").unwrap());
        let inserted_row = sqlx::query!(
                "INSERT INTO logbook(boat_id, shipmaster, shipmaster_only_steering, departure, arrival, destination, distance_in_km, comments, logtype) VALUES (?,?,?,?,?,?,?,?,?) RETURNING id",
                log.boat_id,
                log.shipmaster,
                log.shipmaster_only_steering,
                departure,
                arrival,
                log.destination,
                log.distance_in_km,
                log.comments,
                log.logtype
            )
            .fetch_one(&mut tx)
            .await.unwrap();

        for rower in &log.rower {
            Rower::create(&mut tx, inserted_row.id, *rower).await;
        }

        tx.commit().await.unwrap();

        Ok(())
    }

    pub async fn distances(db: &SqlitePool) -> Vec<(String, i64)> {
        let result = sqlx::query!("SELECT destination, distance_in_km FROM logbook WHERE id IN (SELECT MIN(id) FROM logbook GROUP BY destination) AND destination IS NOT NULL AND distance_in_km IS NOT NULL;")
        .fetch_all(db)
        .await
        .unwrap();

        result
            .into_iter()
            .filter_map(|r| {
                if let (Some(destination), Some(distance_in_km)) = (r.destination, r.distance_in_km)
                {
                    Some((destination, distance_in_km))
                } else {
                    None
                }
            })
            .collect()
    }

    async fn remove_rowers(&self, db: &mut Transaction<'_, Sqlite>) {
        sqlx::query!("DELETE FROM rower WHERE logbook_id=?", self.id)
            .execute(db)
            .await
            .unwrap();
    }

    pub async fn home(
        &self,
        db: &SqlitePool,
        user: &User,
        log: LogToFinalize,
    ) -> Result<(), LogbookUpdateError> {
        if user.id != self.shipmaster {
            return Err(LogbookUpdateError::NotYourEntry);
        }

        let boat = Boat::find_by_id(db, self.boat_id as i32).await.unwrap(); //ok

        if log.rower.len() > boat.amount_seats as usize - 1 {
            return Err(LogbookUpdateError::TooManyRowers(
                boat.amount_seats as usize,
                log.rower.len() + 1,
            ));
        }

        let arrival = format!("{}", chrono::offset::Local::now().format("%Y-%m-%d %H:%M"));

        let mut tx = db.begin().await.unwrap();

        sqlx::query!(
            "UPDATE logbook SET destination=?, distance_in_km=?, comments=?, logtype=?, arrival=? WHERE id=?",
            log.destination,
            log.distance_in_km,
            log.comments,
            log.logtype,
            arrival,
            self.id
        )
        .execute(&mut tx)
        .await.unwrap(); //TODO: fixme

        self.remove_rowers(&mut tx).await;

        for rower in &log.rower {
            Rower::create(&mut tx, self.id, *rower).await;
        }

        tx.commit().await.unwrap();

        Ok(())
    }

    //    pub async fn delete(&self, db: &SqlitePool) {
    //        sqlx::query!("DELETE FROM boat WHERE id=?", self.id)
    //            .execute(db)
    //            .await
    //            .unwrap(); //Okay, because we can only create a User of a valid id
    //    }
}
//
//#[cfg(test)]
//mod test {
//    use crate::{model::boat::Boat, testdb};
//
//    use sqlx::SqlitePool;
//
//    #[sqlx::test]
//    fn test_find_correct_id() {
//        let pool = testdb!();
//        let boat = Boat::find_by_id(&pool, 1).await.unwrap();
//        assert_eq!(boat.id, 1);
//    }
//
//    #[sqlx::test]
//    fn test_find_wrong_id() {
//        let pool = testdb!();
//        let boat = Boat::find_by_id(&pool, 1337).await;
//        assert!(boat.is_none());
//    }
//
//    #[sqlx::test]
//    fn test_all() {
//        let pool = testdb!();
//        let res = Boat::all(&pool).await;
//        assert!(res.len() > 3);
//    }
//
//    #[sqlx::test]
//    fn test_succ_create() {
//        let pool = testdb!();
//
//        assert_eq!(
//            Boat::create(
//                &pool,
//                "new-boat-name".into(),
//                42,
//                None,
//                "Best Boatbuilder".into(),
//                true,
//                true,
//                false,
//                Some(1),
//                None
//            )
//            .await,
//            true
//        );
//    }
//
//    #[sqlx::test]
//    fn test_duplicate_name_create() {
//        let pool = testdb!();
//
//        assert_eq!(
//            Boat::create(
//                &pool,
//                "Haichenbach".into(),
//                42,
//                None,
//                "Best Boatbuilder".into(),
//                true,
//                true,
//                false,
//                Some(1),
//                None
//            )
//            .await,
//            false
//        );
//    }
//}
send departure as timestamp 2023-07-30 20:40:15 +02:00			`use chrono::{Local, NaiveDateTime, TimeZone};`
clean code with clippy 2023-07-25 13:22:11 +02:00			`use rocket::FromForm;`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`use serde::Serialize;`
clean code with clippy 2023-07-25 13:22:11 +02:00			`use sqlx::{FromRow, Sqlite, SqlitePool, Transaction};`
add first draft of logbook 2023-07-23 12:17:57 +02:00
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`use super::{boat::Boat, rower::Rower, user::User};`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`#[derive(FromRow, Serialize, Clone)]`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`pub struct Logbook {`
			`pub id: i64,`
			`pub boat_id: i64,`
			`pub shipmaster: i64,`
			`#[serde(default = "bool::default")]`
			`pub shipmaster_only_steering: bool,`
			`pub departure: String, //TODO: Switch to chrono::nativedatetime`
			`pub arrival: Option<String>, //TODO: Switch to chrono::nativedatetime`
			`pub destination: Option<String>,`
			`pub distance_in_km: Option<i64>,`
			`pub comments: Option<String>,`
			`pub logtype: Option<i64>,`
			`}`

clean code with clippy 2023-07-25 13:22:11 +02:00			`#[derive(FromForm)]`
			`pub struct LogToAdd {`
			`pub boat_id: i32,`
			`pub shipmaster: i64,`
			`pub shipmaster_only_steering: bool,`
			`pub departure: String,`
			`pub arrival: Option<String>,`
			`pub destination: Option<String>,`
			`pub distance_in_km: Option<i64>,`
			`pub comments: Option<String>,`
			`pub logtype: Option<i64>,`
			`pub rower: Vec<i64>,`
			`}`

			`#[derive(FromForm)]`
			`pub struct LogToFinalize {`
			`pub destination: String,`
			`pub distance_in_km: i64,`
			`pub comments: Option<String>,`
			`pub logtype: Option<i64>,`
			`pub rower: Vec<i64>,`
			`}`

allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`#[derive(Serialize)]`
			`pub struct LogbookWithBoatAndRowers {`
			`#[serde(flatten)]`
			`pub logbook: Logbook,`
			`pub boat: Boat,`
			`pub shipmaster_user: User,`
			`pub rowers: Vec<User>,`
send departure as timestamp 2023-07-30 20:40:15 +02:00			`pub departure_timestamp: i64,`
			`pub arrival_timestamp: Option<i64>,`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`}`

add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`pub enum LogbookUpdateError {`
			`NotYourEntry,`
add stats 2023-07-24 20:56:46 +02:00			`TooManyRowers(usize, usize),`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`}`

			`pub enum LogbookCreateError {`
			`BoatAlreadyOnWater,`
move always_show to tripdetails 2023-07-23 19:45:48 +02:00			`BoatLocked,`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`BoatNotFound,`
			`TooManyRowers(usize, usize),`
check if shipmaster is already on the water 2023-07-27 15:00:52 +02:00			`ShipmasterAlreadyOnWater,`
extract common functionality to functoin 2023-07-27 15:24:29 +02:00			`RowerAlreadyOnWater(User),`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`}`

add first draft of logbook 2023-07-23 12:17:57 +02:00			`impl Logbook {`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`pub async fn find_by_id(db: &SqlitePool, id: i32) -> Option<Self> {`
			`sqlx::query_as!(`
			`Self,`
			`"`
			`SELECT id,boat_id,shipmaster,shipmaster_only_steering,departure,arrival,destination,distance_in_km,comments,logtype`
			`FROM logbook`
			`WHERE id like ?`
			`",`
			`id`
			`)`
			`.fetch_one(db)`
			`.await`
			`.ok()`
			`}`

allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`pub async fn on_water(db: &SqlitePool) -> Vec<LogbookWithBoatAndRowers> {`
fix error on diff sqlite version 2023-07-30 22:17:47 +02:00			`let rows = sqlx::query!(`
			`"`
			`SELECT id, boat_id, shipmaster, shipmaster_only_steering, strftime('%Y-%m-%d %H:%M', departure) as departure, arrival, destination, distance_in_km, comments, logtype`
			`FROM logbook`
			`WHERE arrival is null`
			`ORDER BY departure DESC`
			`"`
			`)`
			`.fetch_all(db)`
			`.await`
			`.unwrap(); //TODO: fixme`

			`let logs: Vec<Logbook> = rows`
			`.into_iter()`
			`.map(\|row\| Logbook {`
			`id: row.id,`
			`boat_id: row.boat_id,`
			`shipmaster: row.shipmaster,`
			`shipmaster_only_steering: row.shipmaster_only_steering,`
			`departure: row.departure.unwrap(),`
			`arrival: row.arrival,`
			`destination: row.destination,`
			`distance_in_km: row.distance_in_km,`
			`comments: row.comments,`
			`logtype: row.logtype,`
			`})`
			`.collect();`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00
			`let mut ret = Vec::new();`
			`for log in logs {`
send departure as timestamp 2023-07-30 20:40:15 +02:00			`let date_time_naive =`
fix parsing of sqlite timestamp (arrival) 2023-07-30 20:50:28 +02:00			`NaiveDateTime::parse_from_str(&log.departure, "%Y-%m-%d %H:%M").unwrap();`
send departure as timestamp 2023-07-30 20:40:15 +02:00			`let date_time = Local`
			`.from_local_datetime(&date_time_naive)`
			`.single()`
			`.unwrap();`

allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`ret.push(LogbookWithBoatAndRowers {`
			`rowers: Rower::for_log(db, &log).await,`
			`boat: Boat::find_by_id(db, log.boat_id as i32).await.unwrap(),`
			`shipmaster_user: User::find_by_id(db, log.shipmaster as i32).await.unwrap(),`
			`logbook: log,`
send departure as timestamp 2023-07-30 20:40:15 +02:00			`arrival_timestamp: None, //TODO: send arrival timestmap`
			`departure_timestamp: date_time.timestamp(),`
more clippy :-) 2023-07-25 13:32:20 +02:00			`});`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`}`
			`ret`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`}`

allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`pub async fn completed(db: &SqlitePool) -> Vec<LogbookWithBoatAndRowers> {`
			`let logs = sqlx::query_as!(`
			`Logbook,`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`"`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`SELECT id, boat_id, shipmaster, shipmaster_only_steering, departure, arrival, destination, distance_in_km, comments, logtype`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`FROM logbook`
			`WHERE arrival is not null`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`ORDER BY departure DESC`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`"`
			`)`
			`.fetch_all(db)`
			`.await`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`.unwrap(); //TODO: fixme`

			`let mut ret = Vec::new();`
			`for log in logs {`
			`ret.push(LogbookWithBoatAndRowers {`
			`rowers: Rower::for_log(db, &log).await,`
			`boat: Boat::find_by_id(db, log.boat_id as i32).await.unwrap(),`
			`shipmaster_user: User::find_by_id(db, log.shipmaster as i32).await.unwrap(),`
			`logbook: log,`
send departure as timestamp 2023-07-30 20:40:15 +02:00			`arrival_timestamp: None,`
			`departure_timestamp: 0,`
more clippy :-) 2023-07-25 13:32:20 +02:00			`});`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`}`
			`ret`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`}`

clean code with clippy 2023-07-25 13:22:11 +02:00			`pub async fn create(db: &SqlitePool, log: LogToAdd) -> Result<(), LogbookCreateError> {`
more clippy :-) 2023-07-25 13:32:20 +02:00			`let Some(boat) = Boat::find_by_id(db, log.boat_id).await else {`
			`return Err(LogbookCreateError::BoatNotFound);`
			`};`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00
			`if boat.is_locked(db).await {`
			`return Err(LogbookCreateError::BoatLocked);`
			`}`

			`if boat.on_water(db).await {`
			`return Err(LogbookCreateError::BoatAlreadyOnWater);`
			`}`
send departure as timestamp 2023-07-30 20:40:15 +02:00			`if (User::find_by_id(db, log.shipmaster as i32).await.unwrap())`
			`.on_water(db)`
			`.await`
			`{`
extract common functionality to functoin 2023-07-27 15:24:29 +02:00			`return Err(LogbookCreateError::ShipmasterAlreadyOnWater);`
check if shipmaster is already on the water 2023-07-27 15:00:52 +02:00			`}`
send departure as timestamp 2023-07-30 20:40:15 +02:00
clean code with clippy 2023-07-25 13:22:11 +02:00			`if log.rower.len() > boat.amount_seats as usize - 1 {`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`return Err(LogbookCreateError::TooManyRowers(`
			`boat.amount_seats as usize,`
clean code with clippy 2023-07-25 13:22:11 +02:00			`log.rower.len() + 1,`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`));`
			`}`

extract common functionality to functoin 2023-07-27 15:24:29 +02:00			`for rower in &log.rower {`
			`let user = User::find_by_id(db, *rower as i32).await.unwrap();`
			`if user.on_water(db).await {`
			`return Err(LogbookCreateError::RowerAlreadyOnWater(user));`
			`}`
			`}`

clean code with clippy 2023-07-25 13:22:11 +02:00			`let mut tx = db.begin().await.unwrap();`

			`let departure = NaiveDateTime::parse_from_str(&log.departure, "%Y-%m-%dT%H:%M").unwrap();`
			`let arrival = log`
			`.arrival`
			`.map(\|a\| NaiveDateTime::parse_from_str(&a, "%Y-%m-%dT%H:%M").unwrap());`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`let inserted_row = sqlx::query!(`
			`"INSERT INTO logbook(boat_id, shipmaster, shipmaster_only_steering, departure, arrival, destination, distance_in_km, comments, logtype) VALUES (?,?,?,?,?,?,?,?,?) RETURNING id",`
clean code with clippy 2023-07-25 13:22:11 +02:00			`log.boat_id,`
			`log.shipmaster,`
			`log.shipmaster_only_steering,`
			`departure,`
			`arrival,`
			`log.destination,`
			`log.distance_in_km,`
			`log.comments,`
			`log.logtype`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`)`
clean code with clippy 2023-07-25 13:22:11 +02:00			`.fetch_one(&mut tx)`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`.await.unwrap();`

clean code with clippy 2023-07-25 13:22:11 +02:00			`for rower in &log.rower {`
			`Rower::create(&mut tx, inserted_row.id, *rower).await;`
allow adding rowers to logbook 2023-07-24 13:01:39 +02:00			`}`
clean code with clippy 2023-07-25 13:22:11 +02:00
			`tx.commit().await.unwrap();`

add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`Ok(())`
add first draft of logbook 2023-07-23 12:17:57 +02:00			`}`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00
send departure as timestamp 2023-07-30 20:40:15 +02:00			`pub async fn distances(db: &SqlitePool) -> Vec<(String, i64)> {`
clean ui for logbook 2023-07-26 12:56:19 +02:00			`let result = sqlx::query!("SELECT destination, distance_in_km FROM logbook WHERE id IN (SELECT MIN(id) FROM logbook GROUP BY destination) AND destination IS NOT NULL AND distance_in_km IS NOT NULL;")`
			`.fetch_all(db)`
			`.await`
			`.unwrap();`

send departure as timestamp 2023-07-30 20:40:15 +02:00			`result`
			`.into_iter()`
			`.filter_map(\|r\| {`
			`if let (Some(destination), Some(distance_in_km)) = (r.destination, r.distance_in_km)`
			`{`
			`Some((destination, distance_in_km))`
			`} else {`
			`None`
			`}`
			`})`
			`.collect()`
clean ui for logbook 2023-07-26 12:56:19 +02:00			`}`

clean code with clippy 2023-07-25 13:22:11 +02:00			`async fn remove_rowers(&self, db: &mut Transaction<'_, Sqlite>) {`
add stats 2023-07-24 20:56:46 +02:00			`sqlx::query!("DELETE FROM rower WHERE logbook_id=?", self.id)`
			`.execute(db)`
			`.await`
			`.unwrap();`
			`}`

add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`pub async fn home(`
			`&self,`
			`db: &SqlitePool,`
			`user: &User,`
clean code with clippy 2023-07-25 13:22:11 +02:00			`log: LogToFinalize,`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`) -> Result<(), LogbookUpdateError> {`
			`if user.id != self.shipmaster {`
			`return Err(LogbookUpdateError::NotYourEntry);`
			`}`
add stats 2023-07-24 20:56:46 +02:00
			`let boat = Boat::find_by_id(db, self.boat_id as i32).await.unwrap(); //ok`

clean code with clippy 2023-07-25 13:22:11 +02:00			`if log.rower.len() > boat.amount_seats as usize - 1 {`
add stats 2023-07-24 20:56:46 +02:00			`return Err(LogbookUpdateError::TooManyRowers(`
			`boat.amount_seats as usize,`
clean code with clippy 2023-07-25 13:22:11 +02:00			`log.rower.len() + 1,`
add stats 2023-07-24 20:56:46 +02:00			`));`
			`}`

add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`let arrival = format!("{}", chrono::offset::Local::now().format("%Y-%m-%d %H:%M"));`

clean code with clippy 2023-07-25 13:22:11 +02:00			`let mut tx = db.begin().await.unwrap();`

add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`sqlx::query!(`
			`"UPDATE logbook SET destination=?, distance_in_km=?, comments=?, logtype=?, arrival=? WHERE id=?",`
clean code with clippy 2023-07-25 13:22:11 +02:00			`log.destination,`
			`log.distance_in_km,`
			`log.comments,`
			`log.logtype,`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`arrival,`
			`self.id`
			`)`
clean code with clippy 2023-07-25 13:22:11 +02:00			`.execute(&mut tx)`
add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`.await.unwrap(); //TODO: fixme`
add stats 2023-07-24 20:56:46 +02:00
clean code with clippy 2023-07-25 13:22:11 +02:00			`self.remove_rowers(&mut tx).await;`
add stats 2023-07-24 20:56:46 +02:00
clean code with clippy 2023-07-25 13:22:11 +02:00			`for rower in &log.rower {`
			`Rower::create(&mut tx, self.id, *rower).await;`
add stats 2023-07-24 20:56:46 +02:00			`}`

clean code with clippy 2023-07-25 13:22:11 +02:00			`tx.commit().await.unwrap();`

add functionality to finish logbook trips 2023-07-23 16:49:14 +02:00			`Ok(())`
			`}`

add first draft of logbook 2023-07-23 12:17:57 +02:00			`// pub async fn delete(&self, db: &SqlitePool) {`
			`// sqlx::query!("DELETE FROM boat WHERE id=?", self.id)`
			`// .execute(db)`
			`// .await`
			`// .unwrap(); //Okay, because we can only create a User of a valid id`
			`// }`
			`}`
			`//`
			`//#[cfg(test)]`
			`//mod test {`
			`// use crate::{model::boat::Boat, testdb};`
			`//`
			`// use sqlx::SqlitePool;`
			`//`
			`// #[sqlx::test]`
			`// fn test_find_correct_id() {`
			`// let pool = testdb!();`
			`// let boat = Boat::find_by_id(&pool, 1).await.unwrap();`
			`// assert_eq!(boat.id, 1);`
			`// }`
			`//`
			`// #[sqlx::test]`
			`// fn test_find_wrong_id() {`
			`// let pool = testdb!();`
			`// let boat = Boat::find_by_id(&pool, 1337).await;`
			`// assert!(boat.is_none());`
			`// }`
			`//`
			`// #[sqlx::test]`
			`// fn test_all() {`
			`// let pool = testdb!();`
			`// let res = Boat::all(&pool).await;`
			`// assert!(res.len() > 3);`
			`// }`
			`//`
			`// #[sqlx::test]`
			`// fn test_succ_create() {`
			`// let pool = testdb!();`
			`//`
			`// assert_eq!(`
			`// Boat::create(`
			`// &pool,`
			`// "new-boat-name".into(),`
			`// 42,`
			`// None,`
			`// "Best Boatbuilder".into(),`
			`// true,`
			`// true,`
			`// false,`
			`// Some(1),`
			`// None`
			`// )`
			`// .await,`
			`// true`
			`// );`
			`// }`
			`//`
			`// #[sqlx::test]`
			`// fn test_duplicate_name_create() {`
			`// let pool = testdb!();`
			`//`
			`// assert_eq!(`
			`// Boat::create(`
			`// &pool,`
			`// "Haichenbach".into(),`
			`// 42,`
			`// None,`
			`// "Best Boatbuilder".into(),`
			`// true,`
			`// true,`
			`// false,`
			`// Some(1),`
			`// None`
			`// )`
			`// .await,`
			`// false`
			`// );`
			`// }`
			`//}`