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rxQuantile: Approximate Quantiles for .xdf Files and Data Frames

Description

Quickly computes approximate quantiles (without sorting)

Usage

  rxQuantile(varName, data, pweights = NULL, fweights = NULL,
      probs = seq(0, 1, 0.25), names = TRUE,
      maxIntegerBins = 500000, multiple = NA, 
      numericBins = FALSE, numNumericBreaks = 1000,
      blocksPerRead = rxGetOption("blocksPerRead"),
      reportProgress = rxGetOption("reportProgress"), verbose = 0) 

Arguments

varName

A character string containing the name of the numeric variable for which to compute the quantiles.

data

data frame, character string containing an .xdf file name (with path), or RxDataSource-class object representing the data set.

pweights

character string specifying the variable to use as probability weights for the observations.

fweights

character string specifying the variable to use as frequency weights for the observations.

probs

numeric vector of probabilities with values in the [0,1] range.

names

logical; if TRUE, the result has a names attribute.

maxIntegerBins

integer. The maximum number of integer bins to use for integer data. For exact results, this should be larger than the range of data. However, larger values may increase memory requirements and computational time.

multiple

numeric value to multiply data values by before computing integer bins.

numericBins

logical. If TRUE, do not use integer approximations for bins.

numNumericBreaks

integer. The number of breaks to use in computing numeric bins. Ignored if numericBins is FALSE.

blocksPerRead

number of blocks to read for each chunk of data read from an .xdf data source.

reportProgress

integer value with options:

  • 0: no progress is reported.
  • 1: the number of processed rows is printed and updated.
  • 2: rows processed and timings are reported.
  • 3: rows processed and all timings are reported.

verbose

integer value. If 0, no additional output is printed. If 1, additional computational information may be printed.

Details

rxQuantiles computes approximate quantiles by counting binned data, then computing a linear interpolation of the empirical cdf for continuous data or the inverse of empirical distribution function for integer data.
If the binned data are integers, or can be converted to integers by multiplication, the computation is exact when integral bins are used. The size of the bins can be controlled by using the multiple function if desired.

Missing values are removed before computing the quantiles.

Value

A vector the length of probs is returned; if names = TRUE, it has a names attribute.

Author(s)

Microsoft Corporation Microsoft Technical Support

See Also

quantile, rxCube.

Examples


 # Estimate a GLM model and compute quantiles for the predictions
 claimsXdf <- file.path(rxGetOption("sampleDataDir"),"claims.xdf")
 claimsPred <- tempfile(pattern = "claimsPred", fileext = ".xdf")

 claimsGlm <- rxGlm(cost ~ age + car.age + type, family = Gamma,
               dropFirst = TRUE, data = claimsXdf)

 rxPredict(claimsGlm, data = claimsXdf, outData = claimsPred,
   writeModelVars = TRUE, overwrite = TRUE)

 predBreaks <- rxQuantile(data = claimsPred, varName = "cost_Pred",
   probs = seq(from = 0, to = 1, by = .1))

 predBreaks

 # Compare with the quantile function
 claimsPredDF <- rxDataStep(inData = claimsPred)
 quantile(claimsPredDF$cost_Pred, probs = seq(0, 1, by = .1), type = 4)

 file.remove(claimsPred)