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Move Task#10 into task#4

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This commit is contained in:
Sik Yoon 2023-08-02 23:56:45 +09:00
parent fdc7c887e5
commit dd37415e1d
1 changed files with 229 additions and 140 deletions
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369
src/main.rs
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@ -119,7 +119,6 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
// price per second data and channels
let mut price_vec: Vec<CoinPriceData> = Vec::new(); // (symbol, price)
let (tx_price_vec, mut rx_price_vec) = watch::channel(price_vec);
let mut rx2_price_vec = rx_price_vec.clone();
let mut rx3_price_vec = rx_price_vec.clone();
let mut rx4_price_vec = rx_price_vec.clone();
let mut rx5_price_vec = rx_price_vec.clone();
@ -791,6 +790,7 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
// Task#4: price per second
tokio::task::spawn(async move {
sleep(Duration::from_secs(20)).await;
let client = ClientBuilder::new()
.timeout(tokio::time::Duration::from_millis(1000))
.build()
@ -799,36 +799,126 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
let mut elapsed_time = 0;
loop {
let instant = Instant::now();
// let tx1_changed = rx1_7.changed().await;
// server_epoch = *rx1_7.borrow();
// match tx1_changed {
// Ok(T) => {
// let mut price_vec_temp: Vec<CoinPriceData> = Vec::new();
// let result = request_others::request_all_coin_price(&client, &mut price_vec_temp).await;
// match result {
// Ok(T) => {
// tx_price_vec.send_modify(|vec| *vec = price_vec_temp);
// tx_task4.send(4).expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// // monitors::monitoring_all_coin_profit_change().await;
// }
// Err(e) => {}
// }
let mut price_vec_temp: Vec<CoinPriceData> = Vec::new();
let result = request_others::request_all_coin_price(&client, &mut price_vec_temp).await;
let mut price_vec_temp_c: Vec<CoinPriceData> = Vec::new();
match result {
Ok(T) => {
price_vec_temp_c = price_vec_temp.clone();
tx_price_vec.send_modify(|vec| *vec = price_vec_temp);
tx_task4.send(4).expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
// Task#10: make realtime price data of 1m, 30m, 1d, 1w and 1mon
let valid_usdt_trade_vec = rx_valid_usdt_trade_vec.borrow().clone();
// 1m
let interval = String::from("1m");
let candle_1m_vec = rx_candle_1m_vec.borrow().clone();
let rt_price_1m_vec_read_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
let mut rt_price_1m_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
let result =
value_estimation_team::datapoints::price_data::update_realtime_price_data(
&interval,
&candle_1m_vec,
&rt_price_1m_vec_read_temp,
&mut rt_price_1m_vec_write_temp,
&price_vec_temp_c,
&valid_usdt_trade_vec,
)
.await;
match result {
Ok(T) => {
tx_rt_price_1m_vec.send_modify(|vec| *vec = rt_price_1m_vec_write_temp);
tx_task10
.send(10)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
// 30m
let interval = String::from("30m");
let candle_30m_vec = rx_candle_30m_vec.borrow().clone();
let rt_price_1m_vec = rx_rt_price_1m_vec.borrow().clone();
let mut rt_price_30m_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
if !rt_price_1m_vec.is_empty() {
let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_30m_vec, &rt_price_1m_vec, &mut rt_price_30m_vec_write_temp, &price_vec_temp_c, &valid_usdt_trade_vec).await;
match result {
Ok(T) => {
tx_rt_price_30m_vec
.send_modify(|vec| *vec = rt_price_30m_vec_write_temp);
tx_task10
.send(10)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
}
// 1d
let interval = String::from("1d");
let candle_1d_vec = rx_candle_1d_vec.borrow().clone();
let rt_price_30m_vec = rx_rt_price_30m_vec.borrow().clone();
let mut rt_price_1d_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
if !rt_price_30m_vec.is_empty() {
let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1d_vec, &rt_price_30m_vec, &mut rt_price_1d_vec_write_temp, &price_vec_temp_c, &valid_usdt_trade_vec).await;
match result {
Ok(T) => {
tx_rt_price_1d_vec
.send_modify(|vec| *vec = rt_price_1d_vec_write_temp);
tx_task10
.send(10)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
}
// { // 1w
// let interval = String::from("1w");
// let candle_1w_vec = rx_candle_1w_vec.borrow().clone();
// let rt_price_1d_vec = rx_rt_price_1d_vec.borrow().clone();
// let mut rt_price_1w_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> = Vec::new();
// let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1w_vec, &rt_price_1d_vec, &mut rt_price_1w_vec_write_temp, &price_vec_temp_c, &valid_usdt_trade_vec).await;
// match result {
// Ok(T) => {
// tx_rt_price_1w_vec.send_modify(|vec| *vec = rt_price_1w_vec_write_temp);
// tx_task10.send(10).expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// }
// { // 1mon
// let interval = String::from("1mon");
// let candle_1mon_vec = rx_candle_1mon_vec.borrow().clone();
// let rt_price_1w_vec = rx_rt_price_1w_vec.borrow().clone();
// let mut rt_price_1mon_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> = Vec::new();
// let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1mon_vec, &rt_price_1w_vec, &mut rt_price_1mon_vec_write_temp, &price_vec_temp_c, &valid_usdt_trade_vec).await;
// match result {
// Ok(T) => {
// tx_rt_price_1mon_vec.send_modify(|vec| *vec = rt_price_1mon_vec_write_temp);
// tx_task10.send(10).expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// }
// sleep as much as the loop recurs per 1 seconds if all operation finished within 1 seconds.
elapsed_time = instant.elapsed().as_millis();
if 500 > elapsed_time {
@ -951,134 +1041,134 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
// });
// Task#10: make realtime price data of 1m, 30m, 1d, 1w and 1mon
tokio::task::spawn(async move {
let mut elapsed_time = 0;
if RUNNING_MODE == REAL || RUNNING_MODE == SIMUL {
sleep(Duration::from_secs(30)).await;
} else {
sleep(Duration::from_secs(5)).await;
}
// tokio::task::spawn(async move {
// let mut elapsed_time = 0;
// if RUNNING_MODE == REAL || RUNNING_MODE == SIMUL {
// sleep(Duration::from_secs(30)).await;
// } else {
// sleep(Duration::from_secs(5)).await;
// }
loop {
let instant = Instant::now();
let price_changed = rx_price_vec.changed().await;
if price_changed.is_ok() {
let price_vec = rx_price_vec.borrow().clone();
let valid_usdt_trade_vec = rx_valid_usdt_trade_vec.borrow().clone();
// loop {
// let instant = Instant::now();
// let price_changed = rx_price_vec.changed().await;
// if price_changed.is_ok() {
// let price_vec = rx_price_vec.borrow().clone();
// let valid_usdt_trade_vec = rx_valid_usdt_trade_vec.borrow().clone();
if !price_vec.is_empty() {
// 1m
let interval = String::from("1m");
let candle_1m_vec = rx_candle_1m_vec.borrow().clone();
let rt_price_1m_vec_read_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
let mut rt_price_1m_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
let result =
value_estimation_team::datapoints::price_data::update_realtime_price_data(
&interval,
&candle_1m_vec,
&rt_price_1m_vec_read_temp,
&mut rt_price_1m_vec_write_temp,
&price_vec,
&valid_usdt_trade_vec,
)
.await;
// if !price_vec.is_empty() {
// // 1m
// let interval = String::from("1m");
// let candle_1m_vec = rx_candle_1m_vec.borrow().clone();
// let rt_price_1m_vec_read_temp: Vec<(String, Vec<RealtimePriceData>)> =
// Vec::new();
// let mut rt_price_1m_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
// Vec::new();
// let result =
// value_estimation_team::datapoints::price_data::update_realtime_price_data(
// &interval,
// &candle_1m_vec,
// &rt_price_1m_vec_read_temp,
// &mut rt_price_1m_vec_write_temp,
// &price_vec,
// &valid_usdt_trade_vec,
// )
// .await;
match result {
Ok(T) => {
tx_rt_price_1m_vec.send_modify(|vec| *vec = rt_price_1m_vec_write_temp);
tx_task10
.send(10)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
// match result {
// Ok(T) => {
// tx_rt_price_1m_vec.send_modify(|vec| *vec = rt_price_1m_vec_write_temp);
// tx_task10
// .send(10)
// .expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// 30m
let interval = String::from("30m");
let candle_30m_vec = rx_candle_30m_vec.borrow().clone();
let rt_price_1m_vec = rx_rt_price_1m_vec.borrow().clone();
let mut rt_price_30m_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
// // 30m
// let interval = String::from("30m");
// let candle_30m_vec = rx_candle_30m_vec.borrow().clone();
// let rt_price_1m_vec = rx_rt_price_1m_vec.borrow().clone();
// let mut rt_price_30m_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
// Vec::new();
if !rt_price_1m_vec.is_empty() {
let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_30m_vec, &rt_price_1m_vec, &mut rt_price_30m_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
// if !rt_price_1m_vec.is_empty() {
// let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_30m_vec, &rt_price_1m_vec, &mut rt_price_30m_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
match result {
Ok(T) => {
tx_rt_price_30m_vec
.send_modify(|vec| *vec = rt_price_30m_vec_write_temp);
tx_task10
.send(10)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
}
// match result {
// Ok(T) => {
// tx_rt_price_30m_vec
// .send_modify(|vec| *vec = rt_price_30m_vec_write_temp);
// tx_task10
// .send(10)
// .expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// }
// 1d
let interval = String::from("1d");
let candle_1d_vec = rx_candle_1d_vec.borrow().clone();
let rt_price_30m_vec = rx_rt_price_30m_vec.borrow().clone();
let mut rt_price_1d_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
Vec::new();
// // 1d
// let interval = String::from("1d");
// let candle_1d_vec = rx_candle_1d_vec.borrow().clone();
// let rt_price_30m_vec = rx_rt_price_30m_vec.borrow().clone();
// let mut rt_price_1d_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> =
// Vec::new();
if !rt_price_30m_vec.is_empty() {
let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1d_vec, &rt_price_30m_vec, &mut rt_price_1d_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
// if !rt_price_30m_vec.is_empty() {
// let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1d_vec, &rt_price_30m_vec, &mut rt_price_1d_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
match result {
Ok(T) => {
tx_rt_price_1d_vec
.send_modify(|vec| *vec = rt_price_1d_vec_write_temp);
tx_task10
.send(10)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
}
}
// match result {
// Ok(T) => {
// tx_rt_price_1d_vec
// .send_modify(|vec| *vec = rt_price_1d_vec_write_temp);
// tx_task10
// .send(10)
// .expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// }
// { // 1w
// let interval = String::from("1w");
// let candle_1w_vec = rx_candle_1w_vec.borrow().clone();
// let rt_price_1d_vec = rx_rt_price_1d_vec.borrow().clone();
// let mut rt_price_1w_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> = Vec::new();
// let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1w_vec, &rt_price_1d_vec, &mut rt_price_1w_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
// // { // 1w
// // let interval = String::from("1w");
// // let candle_1w_vec = rx_candle_1w_vec.borrow().clone();
// // let rt_price_1d_vec = rx_rt_price_1d_vec.borrow().clone();
// // let mut rt_price_1w_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> = Vec::new();
// // let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1w_vec, &rt_price_1d_vec, &mut rt_price_1w_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
// match result {
// Ok(T) => {
// tx_rt_price_1w_vec.send_modify(|vec| *vec = rt_price_1w_vec_write_temp);
// tx_task10.send(10).expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// }
// // match result {
// // Ok(T) => {
// // tx_rt_price_1w_vec.send_modify(|vec| *vec = rt_price_1w_vec_write_temp);
// // tx_task10.send(10).expect("The mpsc channel has been closed.");
// // }
// // Err(E) => {}
// // }
// // }
// { // 1mon
// let interval = String::from("1mon");
// let candle_1mon_vec = rx_candle_1mon_vec.borrow().clone();
// let rt_price_1w_vec = rx_rt_price_1w_vec.borrow().clone();
// let mut rt_price_1mon_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> = Vec::new();
// let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1mon_vec, &rt_price_1w_vec, &mut rt_price_1mon_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
// // { // 1mon
// // let interval = String::from("1mon");
// // let candle_1mon_vec = rx_candle_1mon_vec.borrow().clone();
// // let rt_price_1w_vec = rx_rt_price_1w_vec.borrow().clone();
// // let mut rt_price_1mon_vec_write_temp: Vec<(String, Vec<RealtimePriceData>)> = Vec::new();
// // let result = value_estimation_team::datapoints::price_data::update_realtime_price_data(&interval, &candle_1mon_vec, &rt_price_1w_vec, &mut rt_price_1mon_vec_write_temp, &price_vec, &valid_usdt_trade_vec).await;
// match result {
// Ok(T) => {
// tx_rt_price_1mon_vec.send_modify(|vec| *vec = rt_price_1mon_vec_write_temp);
// tx_task10.send(10).expect("The mpsc channel has been closed.");
// }
// Err(E) => {}
// }
// }
}
}
// sleep as much as the loop recurs per 1 second if all operation finished within 1 second.
elapsed_time = instant.elapsed().as_millis();
if 1_000 > elapsed_time {
sleep(Duration::from_millis((1_000 - elapsed_time) as u64)).await;
}
}
});
// // match result {
// // Ok(T) => {
// // tx_rt_price_1mon_vec.send_modify(|vec| *vec = rt_price_1mon_vec_write_temp);
// // tx_task10.send(10).expect("The mpsc channel has been closed.");
// // }
// // Err(E) => {}
// // }
// // }
// }
// }
// // sleep as much as the loop recurs per 1 second if all operation finished within 1 second.
// elapsed_time = instant.elapsed().as_millis();
// if 250 > elapsed_time {
// sleep(Duration::from_millis((250 - elapsed_time) as u64)).await;
// }
// }
// });
// Task#11
// SMA, EMA, RSI, Stoch RSI, BollingerBand (3, 10, 30) for candle 1m, 30m, 1d, 1w, and 1mon
@ -1684,7 +1774,6 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
let mut elapsed_time = 0;
loop {
let instant = Instant::now();
all_data.price_vec = rx2_price_vec.borrow().clone();
all_data.valid_symbol_vec = rx3_valid_usdt_trade_vec.borrow().clone();
// realtime price data
@ -1776,7 +1865,9 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
.send(18)
.expect("The mpsc channel has been closed.");
}
Err(E) => {}
Err(E) => {
println!("Task #18 Error");
}
}
// sleep as much as the loop recurs per 1 second if all operation finished within 1 second.
@ -1793,8 +1884,6 @@ async fn main() -> Result<(), Box<dyn std::error::Error>> {
let mut all_data = AllData::new();
loop {
let instant = Instant::now();
all_data.price_vec = rx2_price_vec.borrow().clone();
all_data.valid_symbol_vec = rx3_valid_usdt_trade_vec.borrow().clone();
// realtime price data
all_data.rt_price_1m_vec = rx3_rt_price_1m_vec.borrow().clone();