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212 lines
5.7 KiB
Markdown
212 lines
5.7 KiB
Markdown
How To Use Builtin Indicators and Add New Indicators (V2)
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=========================================================
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## Using Built-in Indicators
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In bbgo session, we already have several built-in indicators defined.
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We could refer to the live-data without the worriedness of handling market data subscription.
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To use the builtin indicators, call `Indicators(symbol)` method to get the indicator set of a symbol,
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```go
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session.Indicators(symbol string) *IndicatorSet
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```
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IndicatorSet is a helper that helps you construct the indicator instance.
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Each indicator is a stream that subscribes to
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an upstream through the callback.
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We will explain how the indicator works from scratch in the following section.
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The following code will create a kLines stream that subscribes to specific klines from a websocket stream instance:
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```go
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kLines := indicatorv2.KLines(stream, "BTCUSDT", types.Interval1m)
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```
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The kLines stream is a special indicator stream that subscribes to the kLine event from the websocket stream. It
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registers a callback on `OnKLineClosed`, and when there is a kLine event triggered, it pushes the kLines into its
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series, and then it triggers all the subscribers that subscribe to it.
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To get the closed prices from the kLines stream, simply pass the kLines stream instance to a ClosedPrice indicator:
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```go
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closePrices := indicatorv2.ClosePrices(kLines)
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```
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When the kLine indicator pushes a new kline, the ClosePrices stream receives a kLine object then gets the closed price
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from the kLine object.
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to get the latest value of an indicator (closePrices), use Last(n) method, where n starts from 0:
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```go
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lastClosedPrice := closePrices.Last(0)
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secondClosedPrice := closePrices.Last(1)
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```
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To create an EMA indicator instance, again, simply pass the closePrice indicator to the SMA stream constructor:
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```go
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ema := indicatorv2.EMA(closePrices, 17)
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```
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If you want to listen to the EMA value events, add a callback on the indicator instance:
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```go
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ema.OnUpdate(func(v float64) { .... })
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```
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To combine these techniques together:
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```go
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// use dot import to use the constructors as helpers
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import . "github.com/c9s/bbgo/pkg/indicator/v2"
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func main() {
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// you should get the correct stream instance from the *bbgo.ExchangeSession instance
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stream := &types.Stream{}
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ema := EMA(
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ClosePrices(
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KLines(stream, types.Interval1m)), 14)
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_ = ema
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}
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```
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## Adding New Indicator
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Adding a new indicator is pretty straightforward. Simply create a new struct and insert the necessary parameters as
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struct fields.
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The indicator algorithm will be implemented in the `Calculate(v float64) float64` method.
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You can think of it as a simple input-output model: it takes a float64 number as input, calculates the value, and
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returns a float64 number as output.
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```
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[input float64] -> [Calculate] -> [output float64]
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```
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Since it will be a float64 value indicator, we will use `*types.Float64Series` here to store our values,
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`types.Float64Series` is a struct that contains a slice to store the float64 values, it is implemented as follows:
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```go
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type Float64Series struct {
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SeriesBase
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Float64Updater
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Slice floats.Slice
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}
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```
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The `Slice` field is a []float64 slice,
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which provides some helper methods that helps you do some calculation on the float64 slice.
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And Float64Updater provides a way to let indicators subscribe to the updated value:
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```go
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u := Float64Updater{}
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u.OnUpdate(func(v float64) { ... })
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u.OnUpdate(func(v float64) { ... })
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// to emit the callbacks
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u.EmitUpdate(10.0)
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```
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Now you have a basic concept about the Float64Series,
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we can now start to implement our first indicator structure:
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```go
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package indicatorv2
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type EWMAStream struct {
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// embedded struct to inherit Float64Series methods
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*types.Float64Series
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// parameters we need
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window int
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multiplier float64
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}
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```
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Again, since it is a float64 value indicator, we use `*types.Float64Series` here to store our values.
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And then, add the constructor of the indicator stream:
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```go
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// the "source" here is your value source
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func EWMA(source types.Float64Source, window int) *EWMAStream {
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s := &EWMAStream{
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Float64Series: types.NewFloat64Series(),
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window: window,
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multiplier: 2.0 / float64(1+window),
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}
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s.Bind(source, s)
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return s
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}
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```
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Where the source refers to your upstream value, such as closedPrices, openedPrices, or any type of float64 series. For
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example, Volume could also serve as the source.
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The Bind method invokes the `Calculate()` method to obtain the updated value from a callback of the upstream source.
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Subsequently, it calls EmitUpdate to activate the callbacks of its subscribers,
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thereby passing the updated value to all of them.
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Next, write your algorithm within the Calculate method:
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```go
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func (s *EWMAStream) Calculate(v float64) float64 {
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// if you need the last number to calculate the next value
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// call s.Slice.Last(0)
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//
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last := s.Slice.Last(0)
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if last == 0.0 {
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return v
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}
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m := s.multiplier
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return (1.0-m)*last + m*v
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}
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```
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Sometimes you might need to store the intermediate values inside your indicator, you can add the extra field with type Float64Series like this:
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```go
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type EWMAStream struct {
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// embedded struct to inherit Float64Series methods
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*types.Float64Series
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A *types.Float64Series
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B *types.Float64Series
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// parameters we need
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window int
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multiplier float64
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}
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```
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In your `Calculate()` method, you can push the values into these float64 series, for example:
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```go
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func (s *EWMAStream) Calculate(v float64) float64 {
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// if you need the last number to calculate the next value
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// call s.Slice.Last(0)
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last := s.Slice.Last(0)
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if last == 0.0 {
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return v
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}
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// If you need to trigger callbacks, use PushAndEmit
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s.A.Push(last / 2)
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s.B.Push(last / 3)
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m := s.multiplier
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return (1.0-m)*last + m*v
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}
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```
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