public HMA HMA(DataSeries input, int period) { return(Indicator.HMA(input, period)); }
/// <summary> /// /// </summary> /// <param name="input"></param> /// <param name="period"></param> /// <returns></returns> public Lowest Lowest(DataSeries input, int period) { return(Indicator.Lowest(input, period)); }
/// <summary> /// 比较输入序列是否相同 /// </summary> /// <param name="input"></param> /// <returns></returns> public bool EqualsInput(DataSeries input) { return(Input.Equals(input)); }
public DMIndex DMIndex(DataSeries input, int smooth) { return(Indicator.DMIndex(input, smooth)); }
public TSI TSI(DataSeries input, int fast, int slow) { return(Indicator.TSI(input, fast, slow)); }
/// <summary> /// /// </summary> /// <param name="input"></param> /// <param name="fast"></param> /// <param name="slow"></param> /// <param name="smooth"></param> /// <returns></returns> public MACD MACD(DataSeries input, int fast, int slow, int smooth) { return(Indicator.MACD(input, fast, slow, smooth)); }
public EaseOfMovement EaseOfMovement(DataSeries high, DataSeries low, DataSeries volume, DataSeries close, int smoothing, int volumeDivisor) { if (cacheEaseOfMovement != null) { var cat = cacheEaseOfMovement; for (int idx = 0; idx < cacheEaseOfMovement.Length; idx++) { if (cacheEaseOfMovement[idx] != null && cacheEaseOfMovement[idx].Smoothing == smoothing && cacheEaseOfMovement[idx].VolumeDivisor == volumeDivisor && cat[idx].High == high && cat[idx].Low == low && cat[idx].Volume == volume && cacheEaseOfMovement[idx].EqualsInput(close)) { return(cacheEaseOfMovement[idx]); } } } return(CacheIndicator <EaseOfMovement>(new EaseOfMovement() { Smoothing = smoothing, VolumeDivisor = volumeDivisor, High = high, Low = low, Volume = volume, Input = close }, ref cacheEaseOfMovement)); }
public StochRSI StochRSI(DataSeries input, int period) { return(Indicator.StochRSI(input, period)); }
public ChaikinMoneyFlow ChaikinMoneyFlow(DataSeries high, DataSeries low, DataSeries close, DataSeries volume, int period) { var cat = cacheChaikinMoneyFlow; if (cacheChaikinMoneyFlow != null) { for (int idx = 0; idx < cacheChaikinMoneyFlow.Length; idx++) { if (cacheChaikinMoneyFlow[idx] != null && cacheChaikinMoneyFlow[idx].Period == period && cat[idx].High == high && cat[idx].Low == low && cat[idx].Volume == volume && cacheChaikinMoneyFlow[idx].EqualsInput(close)) { return(cacheChaikinMoneyFlow[idx]); } } } return(CacheIndicator <ChaikinMoneyFlow>(new ChaikinMoneyFlow() { Period = period, High = high, Low = low, Volume = volume, Input = close }, ref cacheChaikinMoneyFlow)); }
public PFE PFE(DataSeries input, int period, int smooth) { return(Indicator.PFE(input, period, smooth)); }
DataSeries Close; //只在Close被修改时才会触发指标计算,以避免多个input造成指标计算多次的性能问题. protected override void Init() { Close = Input; Typical = new DataSeries(this.Input); sma = SMA(Typical, Period); }
public FOSC FOSC(DataSeries input, int period) { return(Indicator.FOSC(input, period)); }
protected override void Init() { Close = Input; }
public RSI RSI(DataSeries input, int period, int smooth) { return(Indicator.RSI(input, period, smooth)); }