qbtrade/pkg/strategy/dca2/collector.go

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2024-06-27 14:42:38 +00:00
package dca2
import (
"context"
"strconv"
"time"
"git.qtrade.icu/lychiyu/qbtrade/pkg/exchange/retry"
"git.qtrade.icu/lychiyu/qbtrade/pkg/types"
"github.com/sirupsen/logrus"
)
// Round contains the open-position orders and the take-profit orders
// 1. len(OpenPositionOrders) == 0 -> not open position
// 2. len(TakeProfitOrders) == 0 -> not in the take-profit stage
// 3. There are take-profit orders only when open-position orders are cancelled
// 4. We need to make sure the order: open-position (BUY) -> take-profit (SELL) -> open-position (BUY) -> take-profit (SELL) -> ...
// 5. When there is one filled take-profit order, this round must be finished. We need to verify all take-profit orders are not active
type Round struct {
OpenPositionOrders []types.Order
TakeProfitOrders []types.Order
}
type Collector struct {
logger *logrus.Entry
symbol string
groupID uint32
filterGroupID bool
// service
ex types.Exchange
historyService types.ExchangeTradeHistoryService
queryService types.ExchangeOrderQueryService
tradeService types.ExchangeTradeService
queryClosedOrderDesc descendingClosedOrderQueryService
}
func NewCollector(logger *logrus.Entry, symbol string, groupID uint32, filterGroupID bool, ex types.Exchange) *Collector {
historyService, ok := ex.(types.ExchangeTradeHistoryService)
if !ok {
logger.Errorf("exchange %s doesn't support ExchangeTradeHistoryService", ex.Name())
return nil
}
queryService, ok := ex.(types.ExchangeOrderQueryService)
if !ok {
logger.Errorf("exchange %s doesn't support ExchangeOrderQueryService", ex.Name())
return nil
}
tradeService, ok := ex.(types.ExchangeTradeService)
if !ok {
logger.Errorf("exchange %s doesn't support ExchangeTradeService", ex.Name())
return nil
}
queryClosedOrderDesc, ok := ex.(descendingClosedOrderQueryService)
if !ok {
logger.Errorf("exchange %s doesn't support query closed orders desc", ex.Name())
return nil
}
return &Collector{
logger: logger,
symbol: symbol,
groupID: groupID,
filterGroupID: filterGroupID,
ex: ex,
historyService: historyService,
queryService: queryService,
tradeService: tradeService,
queryClosedOrderDesc: queryClosedOrderDesc,
}
}
func (rc Collector) CollectCurrentRound(ctx context.Context) (Round, error) {
openOrders, err := retry.QueryOpenOrdersUntilSuccessful(ctx, rc.ex, rc.symbol)
if err != nil {
return Round{}, err
}
var closedOrders []types.Order
var op = func() (err2 error) {
closedOrders, err2 = rc.queryClosedOrderDesc.QueryClosedOrdersDesc(ctx, rc.symbol, recoverSinceLimit, time.Now(), 0)
return err2
}
if err := retry.GeneralBackoff(ctx, op); err != nil {
return Round{}, err
}
openPositionSide := types.SideTypeBuy
takeProfitSide := types.SideTypeSell
var allOrders []types.Order
allOrders = append(allOrders, openOrders...)
allOrders = append(allOrders, closedOrders...)
types.SortOrdersDescending(allOrders)
var currentRound Round
lastSide := takeProfitSide
for _, order := range allOrders {
// group id filter is used for debug when local running
if rc.filterGroupID && order.GroupID != rc.groupID {
continue
}
if order.Side == takeProfitSide && lastSide == openPositionSide {
break
}
switch order.Side {
case openPositionSide:
currentRound.OpenPositionOrders = append(currentRound.OpenPositionOrders, order)
case takeProfitSide:
currentRound.TakeProfitOrders = append(currentRound.TakeProfitOrders, order)
default:
}
lastSide = order.Side
}
return currentRound, nil
}
func (rc *Collector) CollectFinishRounds(ctx context.Context, fromOrderID uint64) ([]Round, error) {
// TODO: pagination for it
// query the orders
rc.logger.Infof("query %s closed orders from order id #%d", rc.symbol, fromOrderID)
orders, err := retry.QueryClosedOrdersUntilSuccessfulLite(ctx, rc.historyService, rc.symbol, time.Time{}, time.Time{}, fromOrderID)
if err != nil {
return nil, err
}
rc.logger.Infof("there are %d closed orders from order id #%d", len(orders), fromOrderID)
var rounds []Round
var round Round
for _, order := range orders {
// skip not this strategy order
if rc.filterGroupID && order.GroupID != rc.groupID {
continue
}
switch order.Side {
case types.SideTypeBuy:
round.OpenPositionOrders = append(round.OpenPositionOrders, order)
case types.SideTypeSell:
round.TakeProfitOrders = append(round.TakeProfitOrders, order)
if order.Status != types.OrderStatusFilled {
rc.logger.Infof("take-profit order is not filled (%s), so this round is not finished. Keep collecting", order.Status)
continue
}
for _, o := range round.TakeProfitOrders {
if types.IsActiveOrder(o) {
// Should not happen ! but we only log it
rc.logger.Errorf("unexpected error, there is at least one take-profit order #%d is still active, please check it. %s", o.OrderID, o.String())
}
}
rounds = append(rounds, round)
round = Round{}
default:
rc.logger.Errorf("there is order with unsupported side")
}
}
return rounds, nil
}
// CollectRoundTrades collect the trades of the orders in the given round. The trades' fee are processed (feeProcessing = false)
func (rc *Collector) CollectRoundTrades(ctx context.Context, round Round) ([]types.Trade, error) {
debugRoundOrders(rc.logger, "collect round trades", round)
var roundTrades []types.Trade
var roundOrders []types.Order = round.OpenPositionOrders
roundOrders = append(roundOrders, round.TakeProfitOrders...)
for _, order := range roundOrders {
if order.ExecutedQuantity.IsZero() {
rc.logger.Info("collect trads from order but no executed quantity ", order.String())
continue
} else {
rc.logger.Info("collect trades from order ", order.String())
}
// QueryOrderTradesUntilSuccessful will query trades and their feeProcessing = false
trades, err := retry.QueryOrderTradesUntilSuccessful(ctx, rc.queryService, types.OrderQuery{
Symbol: order.Symbol,
OrderID: strconv.FormatUint(order.OrderID, 10),
})
if err != nil {
return nil, err
}
roundTrades = append(roundTrades, trades...)
}
return roundTrades, nil
}