bbgo_origin/bbgo/stock.go

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package bbgo
import (
"fmt"
"math"
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"sort"
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"strconv"
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"strings"
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"sync"
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"github.com/c9s/bbgo/types"
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)
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func zero(a float64) bool {
return int(math.Round(a*1e8)) == 0
}
func round(a float64) float64 {
return math.Round(a*1e8) / 1e8
}
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type Stock types.Trade
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func (stock *Stock) String() string {
return fmt.Sprintf("%f (%f)", stock.Price, stock.Quantity)
}
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func (stock *Stock) Consume(quantity float64) float64 {
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q := math.Min(stock.Quantity, quantity)
stock.Quantity = round(stock.Quantity - q)
return q
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}
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type StockSlice []Stock
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func (slice StockSlice) QuantityBelowPrice(price float64) (quantity float64) {
for _, stock := range slice {
if stock.Price < price {
quantity += stock.Quantity
}
}
return round(quantity)
}
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func (slice StockSlice) Quantity() (total float64) {
for _, stock := range slice {
total += stock.Quantity
}
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return round(total)
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}
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type StockDistribution struct {
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mu sync.Mutex
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Symbol string
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TradingFeeCurrency string
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Stocks StockSlice
PendingSells StockSlice
}
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type DistributionStats struct {
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PriceLevels []string `json:"priceLevels"`
TotalQuantity float64 `json:"totalQuantity"`
Quantities map[string]float64 `json:"quantities"`
Stocks map[string]StockSlice `json:"stocks"`
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}
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func (m *StockDistribution) DistributionStats(level int) *DistributionStats {
var d = DistributionStats{
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Quantities: map[string]float64{},
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Stocks: map[string]StockSlice{},
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}
for _, stock := range m.Stocks {
n := math.Ceil(math.Log10(stock.Price))
digits := int(n - math.Max(float64(level), 1.0))
div := math.Pow10(digits)
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priceLevel := math.Floor(stock.Price/div) * div
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key := strconv.FormatFloat(priceLevel, 'f', 2, 64)
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d.TotalQuantity += stock.Quantity
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d.Stocks[key] = append(d.Stocks[key], stock)
d.Quantities[key] += stock.Quantity
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}
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var priceLevels []float64
for priceString := range d.Stocks {
price, _ := strconv.ParseFloat(priceString, 32)
priceLevels = append(priceLevels, price)
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}
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sort.Float64s(priceLevels)
for _, price := range priceLevels {
d.PriceLevels = append(d.PriceLevels, strconv.FormatFloat(price, 'f', 2, 64))
}
sort.Float64s(priceLevels)
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return &d
}
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func (m *StockDistribution) stock(stock Stock) error {
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m.mu.Lock()
m.Stocks = append(m.Stocks, stock)
m.mu.Unlock()
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return m.flushPendingSells()
}
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func (m *StockDistribution) squash() {
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m.mu.Lock()
defer m.mu.Unlock()
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var squashed StockSlice
for _, stock := range m.Stocks {
if !zero(stock.Quantity) {
squashed = append(squashed, stock)
}
}
m.Stocks = squashed
}
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func (m *StockDistribution) flushPendingSells() error {
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if len(m.Stocks) == 0 || len(m.PendingSells) == 0 {
return nil
}
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pendingSells := m.PendingSells
m.PendingSells = nil
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for _, sell := range pendingSells {
if err := m.consume(sell); err != nil {
return err
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}
}
return nil
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}
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func (m *StockDistribution) consume(sell Stock) error {
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m.mu.Lock()
defer m.mu.Unlock()
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if len(m.Stocks) == 0 {
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m.PendingSells = append(m.PendingSells, sell)
return nil
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}
idx := len(m.Stocks) - 1
for ; idx >= 0; idx-- {
stock := m.Stocks[idx]
// find any stock price is lower than the sell trade
if stock.Price >= sell.Price {
continue
}
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if zero(stock.Quantity) {
continue
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}
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delta := stock.Consume(sell.Quantity)
sell.Consume(delta)
m.Stocks[idx] = stock
if zero(sell.Quantity) {
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return nil
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}
}
idx = len(m.Stocks) - 1
for ; idx >= 0; idx-- {
stock := m.Stocks[idx]
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if zero(stock.Quantity) {
continue
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}
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delta := stock.Consume(sell.Quantity)
sell.Consume(delta)
m.Stocks[idx] = stock
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if zero(sell.Quantity) {
return nil
}
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}
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if sell.Quantity > 0.0 {
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m.PendingSells = append(m.PendingSells, sell)
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}
return nil
}
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func (m *StockDistribution) AddTrades(trades []types.Trade) (checkpoints []int, err error) {
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feeSymbol := strings.HasPrefix(m.Symbol, m.TradingFeeCurrency)
for idx, trade := range trades {
// for other market trades
// convert trading fee trades to sell trade
if trade.Symbol != m.Symbol {
if feeSymbol && trade.FeeCurrency == m.TradingFeeCurrency {
trade.Symbol = m.Symbol
trade.IsBuyer = false
trade.Quantity = trade.Fee
trade.Fee = 0.0
}
}
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if trade.Symbol != m.Symbol {
continue
}
if trade.IsBuyer {
if idx > 0 && len(m.Stocks) == 0 {
checkpoints = append(checkpoints, idx)
}
stock := toStock(trade)
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if err := m.stock(stock); err != nil {
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return checkpoints, err
}
} else {
stock := toStock(trade)
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if err := m.consume(stock); err != nil {
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return checkpoints, err
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}
}
}
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err = m.flushPendingSells()
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m.squash()
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return checkpoints, err
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}
func toStock(trade types.Trade) Stock {
if strings.HasPrefix(trade.Symbol, trade.FeeCurrency) {
if trade.IsBuyer {
trade.Quantity -= trade.Fee
} else {
trade.Quantity += trade.Fee
}
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trade.Fee = 0.0
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}
return Stock(trade)
}