EliCobra

SuperTrend Toolkit

EliCobra 已更新   
The SuperTrend Toolkit (Super Kit) introduces a versatile approach to trend analysis by extending the application of the SuperTrend indicator to a wide array of @TradingView's built-in or Community Scripts. This tool facilitates the integration of the SuperTrend algorithm with various indicators, including oscillators, moving averages, overlays, and channels.

Methodology:
The SuperTrend, at its core, calculates a trend-following indicator based on the Average-True-Range (ATR) and price action. It creates dynamic support and resistance levels, adjusting to changing market conditions, and aiding in trend identification.
pine_st(simple float factor = 3., simple int length = 10) =>
    float atr = ta.atr(length)
    float up  = hl2 + factor * atr
    up       := up < nz(up[1]) or close[1] > nz(up[1]) ? up : nz(up[1])
    float lo  = hl2 - factor * atr
    lo       := lo > nz(lo[1]) or close[1] < nz(lo[1]) ? lo : nz(lo[1])

    int   dir = na
    float st  = na

    if na(atr[1])
        dir := 1
    else if st[1] == nz(up[1])
        dir := close > up ? -1 : 1
    else
        dir := close < lo ? 1 : -1

    st := dir == -1 ? lo : up

    [st, dir]

@TradingView's native SuperTrend lacks the flexibility to incorporate different price sources into its calculation.
Community scripts, addressed the limitation by implementing the option to input different price sources, for example, one of the most popular publications, @KivancOzbilgic's SuperTrend script.

In May 2023, @TradingView introduced an update allowing the passing of another indicator's plot as a source value via the input.source() function. However, the built-in ta.atr function still relied on the chart's price data, limiting the formerly mentioned scripts to the chart's price data alone.

Unique Approach -
This script addresses the aforementioned limitations by processing the data differently.
Firstly we create a User-Defined-Type (UDT) replicating a bar's open, high, low, close (OHLC) values.
type bar
    float o = open
    float h = high
    float l = low
    float c = close

We then use this type to store the external input data.
src = input.source(close, "External Source")

bar b = bar.new(
       nz(src[1])               ,   open  𝘷𝘢𝘭𝘶𝘦
       math.max(nz(src[1]), src),   high  𝘷𝘢𝘭𝘶𝘦
       math.min(nz(src[1]), src),   low   𝘷𝘢𝘭𝘶𝘦
       src                      )   close 𝘷𝘢𝘭𝘶𝘦

Finally, we pass the data into our custom built SuperTrend with ATR functions to derive the external source's version of the SuperTrend indicator.
supertrend st = b.st(mlt, len)

- Setup Guide -

Utility and Use Cases:
  1. Universal Compatibility - Apply SuperTrend to any built-in indicator or script, expanding its use beyond traditional price data.
    - A simple example on one of my own public scripts -

  2. Trend Analysis - Gain additional trend insights into otherwise mainly mean reverting or volume indicators.

- Alerts Setup Guide -

The Super Kit empowers traders and analysts with a tool that adapts the robust SuperTrend algorithm to a myriad of indicators, allowing comprehensive trend analysis and strategy development.
發布通知:
Added alerts.
發布通知:
Small fix
發布通知:
Added option for any alert call.

開源腳本

本著真正的TradingView精神,該腳本的作者將其開源發布,以便交易者可以理解和驗證它。為作者喝彩吧!您可以免費使用它,但在出版物中重複使用此代碼受網站規則的約束。 您可以收藏它以在圖表上使用。

免責聲明

這些資訊和出版物並不意味著也不構成TradingView提供或認可的金融、投資、交易或其他類型的意見或建議。請在使用條款閱讀更多資訊。

想在圖表上使用此腳本?