TRA: Transform Data by (Grouped) Replacing or Sweeping out...

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TRAR Documentation

Transform Data by (Grouped) Replacing or Sweeping out Statistics

Description

TRA is an S3 generic that efficiently transforms data by either (column-wise) replacing data values with supplied statistics or sweeping the statistics out of the data. TRA supports grouped operations and data transformation by reference, and is thus a generalization of sweep.

Usage

   TRA(x, STATS, FUN = "-", ...)
setTRA(x, STATS, FUN = "-", ...) # Shorthand for invisible(TRA(..., set = TRUE))

## Default S3 method:
TRA(x, STATS, FUN = "-", g = NULL, set = FALSE, ...)

## S3 method for class 'matrix'
TRA(x, STATS, FUN = "-", g = NULL, set = FALSE, ...)

## S3 method for class 'data.frame'
TRA(x, STATS, FUN = "-", g = NULL, set = FALSE, ...)

## S3 method for class 'grouped_df'
TRA(x, STATS, FUN = "-", keep.group_vars = TRUE, set = FALSE, ...)

Arguments

x

a atomic vector, matrix, data frame or grouped data frame (class 'grouped_df').

STATS

a matching set of summary statistics. See Details and Examples.

FUN

an integer or character string indicating the operation to perform. There are 11 supported operations:

Int. String Description
0 "na" or "replace_na" replace missing values in x
1 "fill" or "replace_fill" replace data and missing values in x
2 "replace" replace data but preserve missing values in x
3 "-" subtract (i.e. center)
4 "-+" subtract group-statistics but add group-frequency weighted average of group statistics (i.e. center on overall average statistic)
5 "/" divide (i.e. scale. For mean-preserving scaling see also fscale)
6 "%" compute percentages (i.e. divide and multiply by 100)
7 "+" add
8 "*" multiply
9 "%%" modulus (i.e. remainder from division by STATS)
10 "-%%" subtract modulus (i.e. make data divisible by STATS)
g

a factor, GRP object, atomic vector (internally converted to factor) or a list of vectors / factors (internally converted to a GRP object) used to group x. Number of groups must match rows of STATS. See Details.

set

logical. TRUE transforms data by reference i.e. performs in-place modification of the data without creating a copy.

keep.group_vars

grouped_df method: Logical. FALSE removes grouping variables after computation. See Details and Examples.

...

arguments to be passed to or from other methods.

Details

Without groups (g = NULL), TRA is little more than a column based version of sweep, albeit many times more efficient. In this case all methods support an atomic vector of statistics of length NCOL(x) passed to STATS. The matrix and data frame methods also support a 1-row matrix or 1-row data frame / list, respectively. TRA always preserves all attributes of x.

With groups passed to g, STATS needs to be of the same type as x and of appropriate dimensions [such that NCOL(x) == NCOL(STATS) and NROW(STATS) equals the number of groups (i.e. the number of levels if g is a factor)]. If this condition is satisfied, TRA will assume that the first row of STATS is the set of statistics computed on the first group/level of g, the second row on the second group/level etc. and do groupwise replacing or sweeping out accordingly.

For example Let x = c(1.2, 4.6, 2.5, 9.1, 8.7, 3.3), g is an integer vector in 3 groups g = c(1,3,3,2,1,2) and STATS = fmean(x,g) = c(4.95, 6.20, 3.55). Then out = TRA(x,STATS,"-",g) = c(-3.75, 1.05, -1.05, 2.90, 3.75, -2.90) [same as fmean(x, g, TRA = "-")] does the equivalent of the following for-loop: for(i in 1:6) out[i] = x[i] - STATS[g[i]].

Correct computation requires that g as used in fmean and g passed to TRA are exactly the same vector. Using g = c(1,3,3,2,1,2) for fmean and g = c(3,1,1,2,3,2) for TRA will not give the right result. The safest way of programming with TRA is thus to repeatedly employ the same factor or GRP object for all grouped computations. Atomic vectors passed to g will be converted to factors (see qF) and lists will be converted to GRP objects. This is also done by all Fast Statistical Functions and BY, thus together with these functions, TRA can also safely be used with atomic- or list-groups (as long as all functions apply sorted grouping, which is the default in collapse).

If x is a grouped data frame ('grouped_df'), TRA matches the columns of x and STATS and also checks for grouping columns in x and STATS. TRA.grouped_df will then only transform those columns in x for which matching counterparts were found in STATS (exempting grouping columns) and return x again (with columns in the same order). If keep.group_vars = FALSE, the grouping columns are dropped after computation, however the "groups" attribute is not dropped (it can be removed using fungroup() or dplyr::ungroup()).

Value

x with columns replaced or swept out using STATS, (optionally) grouped by g.

Note

In most cases there is no need to call the TRA() function, because of the TRA-argument to all Fast Statistical Functions (ensuring that the exact same grouping vector is used for computing statistics and subsequent transformation). In addition the functions fbetween/B and fwithin/W and fscale/STD provide optimized solutions for frequent scaling, centering and averaging tasks.

See Also

sweep, Fast Statistical Functions, Data Transformations, Collapse Overview

Examples

v <- iris$Sepal.Length          # A numeric vector
f <- iris$Species               # A factor
dat <- num_vars(iris)           # Numeric columns
m <- qM(dat)                    # Matrix of numeric data

head(TRA(v, fmean(v)))                # Simple centering [same as fmean(v, TRA = "-") or W(v)]
head(TRA(m, fmean(m)))                # [same as sweep(m, 2, fmean(m)), fmean(m, TRA = "-") or W(m)]
head(TRA(dat, fmean(dat)))            # [same as fmean(dat, TRA = "-") or W(dat)]
head(TRA(v, fmean(v), "replace"))     # Simple replacing [same as fmean(v, TRA = "replace") or B(v)]
head(TRA(m, fmean(m), "replace"))     # [same as sweep(m, 2, fmean(m)), fmean(m, TRA = 1L) or B(m)]
head(TRA(dat, fmean(dat), "replace")) # [same as fmean(dat, TRA = "replace") or B(dat)]
head(TRA(m, fsd(m), "/"))             # Simple scaling... [same as fsd(m, TRA = "/")]...

# Note: All grouped examples also apply for v and dat...
head(TRA(m, fmean(m, f), "-", f))       # Centering [same as fmean(m, f, TRA = "-") or W(m, f)]
head(TRA(m, fmean(m, f), "replace", f)) # Replacing [same fmean(m, f, TRA = "replace") or B(m, f)]
head(TRA(m, fsd(m, f), "/", f))         # Scaling [same as fsd(m, f, TRA = "/")]

head(TRA(m, fmean(m, f), "-+", f))      # Centering on the overall mean ...
                                        # [same as fmean(m, f, TRA = "-+") or
                                        #           W(m, f, mean = "overall.mean")]
head(TRA(TRA(m, fmean(m, f), "-", f),   # Also the same thing done manually !!
     fmean(m), "+"))

# Grouped data method
library(magrittr)
iris %>% fgroup_by(Species) %>% TRA(fmean(.))
iris %>% fgroup_by(Species) %>% fmean(TRA = "-")        # Same thing
iris %>% fgroup_by(Species) %>% TRA(fmean(.)[c(2,4)])   # Only transforming 2 columns
iris %>% fgroup_by(Species) %>% TRA(fmean(.)[c(2,4)],   # Dropping species column
                                        keep.group_vars = FALSE)

SebKrantz/collapse documentation built on Dec. 16, 2024, 7:26 p.m.