bbgo_origin/pkg/strategy/grid2/grid.go

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package grid2
import (
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"fmt"
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"math"
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"sort"
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"strconv"
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"github.com/c9s/bbgo/pkg/fixedpoint"
)
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type PinCalculator func() []Pin
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type Grid struct {
UpperPrice fixedpoint.Value `json:"upperPrice"`
LowerPrice fixedpoint.Value `json:"lowerPrice"`
// Size is the number of total grids
Size fixedpoint.Value `json:"size"`
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// TickSize is the price tick size, this is used for truncating price
TickSize fixedpoint.Value `json:"tickSize"`
// Spread is a immutable number
Spread fixedpoint.Value `json:"spread"`
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// Pins are the pinned grid prices, from low to high
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Pins []Pin `json:"pins"`
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pinsCache map[Pin]struct{} `json:"-"`
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calculator PinCalculator
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}
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type Pin fixedpoint.Value
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func calculateArithmeticPins(lower, upper, spread, tickSize fixedpoint.Value) []Pin {
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var pins []Pin
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// tickSize number is like 0.01, 0.1, 0.001
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var ts = tickSize.Float64()
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var prec = int(math.Round(math.Log10(ts) * -1.0))
var pow10 = math.Pow10(prec)
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for p := lower; p.Compare(upper.Sub(spread)) <= 0; p = p.Add(spread) {
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pp := math.Round(p.Float64()*pow10*10.0) / 10.0
pp = math.Trunc(pp) / pow10
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pps := strconv.FormatFloat(pp, 'f', prec, 64)
price := fixedpoint.MustNewFromString(pps)
pins = append(pins, Pin(price))
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}
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// this makes sure there is no error at the upper price
pins = append(pins, Pin(upper))
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return pins
}
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func buildPinCache(pins []Pin) map[Pin]struct{} {
cache := make(map[Pin]struct{}, len(pins))
for _, pin := range pins {
cache[pin] = struct{}{}
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}
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return cache
}
func NewGrid(lower, upper, size, tickSize fixedpoint.Value) *Grid {
height := upper.Sub(lower)
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one := fixedpoint.NewFromInt(1)
spread := height.Div(size.Sub(one))
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grid := &Grid{
UpperPrice: upper,
LowerPrice: lower,
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Size: size,
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TickSize: tickSize,
Spread: spread,
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}
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return grid
}
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func (g *Grid) CalculateGeometricPins() {
g.calculator = func() []Pin {
// TODO: implement geometric calculator
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// return calculateArithmeticPins(g.LowerPrice, g.UpperPrice, g.Spread, g.TickSize)
return nil
}
g.addPins(g.calculator())
}
func (g *Grid) CalculateArithmeticPins() {
g.calculator = func() []Pin {
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one := fixedpoint.NewFromInt(1)
height := g.UpperPrice.Sub(g.LowerPrice)
spread := height.Div(g.Size.Sub(one))
return calculateArithmeticPins(g.LowerPrice, g.UpperPrice, spread, g.TickSize)
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}
g.addPins(g.calculator())
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}
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func (g *Grid) Height() fixedpoint.Value {
return g.UpperPrice.Sub(g.LowerPrice)
}
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func (g *Grid) Above(price fixedpoint.Value) bool {
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return price.Compare(g.UpperPrice) > 0
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}
func (g *Grid) Below(price fixedpoint.Value) bool {
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return price.Compare(g.LowerPrice) < 0
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}
func (g *Grid) OutOfRange(price fixedpoint.Value) bool {
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return price.Compare(g.LowerPrice) < 0 || price.Compare(g.UpperPrice) > 0
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}
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func (g *Grid) HasPin(pin Pin) (ok bool) {
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_, ok = g.pinsCache[pin]
return ok
}
// NextHigherPin finds the next higher pin
func (g *Grid) NextHigherPin(price fixedpoint.Value) (Pin, bool) {
i := g.SearchPin(price)
if i < len(g.Pins) && fixedpoint.Value(g.Pins[i]).Compare(price) == 0 && i+1 < len(g.Pins) {
return g.Pins[i+1], true
}
return Pin(fixedpoint.Zero), false
}
// NextLowerPin finds the next lower pin
func (g *Grid) NextLowerPin(price fixedpoint.Value) (Pin, bool) {
i := g.SearchPin(price)
if i < len(g.Pins) && fixedpoint.Value(g.Pins[i]).Compare(price) == 0 && i-1 >= 0 {
return g.Pins[i-1], true
}
return Pin(fixedpoint.Zero), false
}
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func (g *Grid) HasPrice(price fixedpoint.Value) bool {
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if _, exists := g.pinsCache[Pin(price)]; exists {
return exists
}
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i := g.SearchPin(price)
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if i >= 0 && i < len(g.Pins) {
return fixedpoint.Value(g.Pins[i]).Compare(price) == 0
}
return false
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}
func (g *Grid) SearchPin(price fixedpoint.Value) int {
i := sort.Search(len(g.Pins), func(i int) bool {
a := fixedpoint.Value(g.Pins[i])
return a.Compare(price) >= 0
})
return i
}
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func (g *Grid) ExtendUpperPrice(upper fixedpoint.Value) (newPins []Pin) {
if upper.Compare(g.UpperPrice) <= 0 {
return nil
}
newPins = calculateArithmeticPins(g.UpperPrice.Add(g.Spread), upper, g.Spread, g.TickSize)
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g.UpperPrice = upper
g.addPins(newPins)
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return newPins
}
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func (g *Grid) ExtendLowerPrice(lower fixedpoint.Value) (newPins []Pin) {
if lower.Compare(g.LowerPrice) >= 0 {
return nil
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}
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n := g.LowerPrice.Sub(lower).Div(g.Spread).Floor()
lower = g.LowerPrice.Sub(g.Spread.Mul(n))
newPins = calculateArithmeticPins(lower, g.LowerPrice.Sub(g.Spread), g.Spread, g.TickSize)
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g.LowerPrice = lower
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g.addPins(newPins)
return newPins
}
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func (g *Grid) TopPin() Pin {
return g.Pins[len(g.Pins)-1]
}
func (g *Grid) BottomPin() Pin {
return g.Pins[0]
}
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func (g *Grid) addPins(pins []Pin) {
g.Pins = append(g.Pins, pins...)
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sort.Slice(g.Pins, func(i, j int) bool {
a := fixedpoint.Value(g.Pins[i])
b := fixedpoint.Value(g.Pins[j])
return a.Compare(b) < 0
})
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g.updatePinsCache()
}
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func (g *Grid) updatePinsCache() {
g.pinsCache = buildPinCache(g.Pins)
}
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func (g *Grid) String() string {
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return fmt.Sprintf("GRID: priceRange: %f <=> %f size: %f spread: %f tickSize: %f", g.LowerPrice.Float64(), g.UpperPrice.Float64(), g.Size.Float64(), g.Spread.Float64(), g.TickSize.Float64())
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}