Learn R Programming

TTR (version 0.24.3)

stoch: Stochastic Oscillator / Stochastic Momentum Index

Description

The stochastic oscillator is a momentum indicator that relates the location of each day's close relative to the high/low range over the past n periods. Developed by George C. Lane in the late 1950s. The SMI relates the close to the midpoint of the high/low range. Developed by William Blau in 1993.

Usage

stoch(
  HLC,
  nFastK = 14,
  nFastD = 3,
  nSlowD = 3,
  maType,
  bounded = TRUE,
  smooth = 1,
  ...
)

SMI(HLC, n = 13, nFast = 2, nSlow = 25, nSig = 9, maType, bounded = TRUE, ...)

Value

A object of the same class as HLC or a matrix (if try.xts fails) containing the columns:

fastK

Stochastic Fast %K

fastD

Stochastic Fast %D

slowD

Stochastic Slow %D

SMI

Stochastic Momentum Index

signal

Stochastic Momentum Index signal line

Arguments

HLC

Object that is coercible to xts or matrix and contains High-Low-Close prices. If only a univariate series is given, it will be used. See details.

nFastK

Number of periods for fast %K (i.e. the number of past periods to use).

nFastD

Number of periods for fast %D (i.e. the number smoothing periods to apply to fast %K).

nSlowD

Number of periods for slow %D (i.e. the number smoothing periods to apply to fast %D).

maType

Either:

  1. A function or a string naming the function to be called.

  2. A list with the first component like (1) above, and additional parameters specified as named components. See Examples.

bounded

Logical, should current period's values be used in the calculation?

smooth

Number of internal smoothing periods to be applied before calculating FastK. See Details.

...

Other arguments to be passed to the maType function in case (1) above.

n

Number of periods to use.

nFast

Number of periods for initial smoothing.

nSlow

Number of periods for double smoothing.

nSig

Number of periods for signal line.

Author

Joshua Ulrich

Details

If a High-Low-Close series is provided, the indicator is calculated using the high/low values. If a vector is provided, the calculation only uses that series. This allows stochastics to be calculated for: (1) series that have no HLC definition (e.g. foreign exchange), and (2) stochastic indicators (e.g. stochastic RSI - see examples).

The smooth argument is the number of periods of internal smoothing to apply to the differences in the high-low-close range before calculating Fast K. Thanks to Stanley Neo for the suggestion.

References

The following site(s) were used to code/document these indicators:
Stochastic Oscillator:
https://www.fmlabs.com/reference/StochasticOscillator.htm
https://www.metastock.com/Customer/Resources/TAAZ/?p=106
https://www.linnsoft.com/techind/stochastics
https://school.stockcharts.com/doku.php?id=technical_indicators:stochastic_oscillator_fast_slow_and_full

SMI:
https://www.fmlabs.com/reference/default.htm?url=SMI.htm

See Also

See EMA, SMA, etc. for moving average options; and note Warning section. See WPR to compare it's results to fast %K.

Examples

Run this code

data(ttrc)
stochOSC <- stoch(ttrc[,c("High","Low","Close")])
stochWPR <- WPR(ttrc[,c("High","Low","Close")])

plot(tail(stochOSC[,"fastK"], 100), type="l",
    main="Fast %K and Williams %R", ylab="",
    ylim=range(cbind(stochOSC, stochWPR), na.rm=TRUE) )
lines(tail(stochWPR, 100), col="blue")
lines(tail(1-stochWPR, 100), col="red", lty="dashed")

stoch2MA <- stoch( ttrc[,c("High","Low","Close")],
    maType=list(list(SMA), list(EMA, wilder=TRUE), list(SMA)) )

SMI3MA <- SMI(ttrc[,c("High","Low","Close")],
    maType=list(list(SMA), list(EMA, wilder=TRUE), list(SMA)) )

stochRSI <- stoch( RSI(ttrc[,"Close"]) )

Run the code above in your browser using DataLab