Compute the isometric default transform of a vector (or dataset) of compositions or amounts in the selected class.
idt(x,...)
# S3 method for default
idt( x,... )
# S3 method for acomp
idt( x ,...)
# S3 method for rcomp
idt( x ,...)
# S3 method for aplus
idt( x ,...)
# S3 method for rplus
idt( x ,...)
# S3 method for rmult
idt( x ,...)
# S3 method for ccomp
idt( x ,...)
# S3 method for factor
idt( x ,...)
# S3 method for data.frame
idt( x ,...)
idtInv(x,orig=gsi.orig(x),...)
# S3 method for default
idtInv( x ,orig=gsi.orig(x),...)
# S3 method for acomp
idtInv( x ,orig=gsi.orig(x), V=gsi.getV(x),...)
# S3 method for rcomp
idtInv( x ,orig=gsi.orig(x), V=gsi.getV(x),...)
# S3 method for aplus
idtInv( x ,orig=gsi.orig(x),...)
# S3 method for rplus
idtInv( x ,orig=gsi.orig(x),...)
# S3 method for ccomp
idtInv( x ,orig=gsi.orig(x),...)
# S3 method for rmult
idtInv( x ,orig=gsi.orig(x),...)
# S3 method for factor
idtInv( x ,orig=gsi.orig(x), V=gsi.getV(x),...)
# S3 method for data.frame
idtInv( x , orig=gsi.orig(x), ...)
a classed amount or composition, to be transformed with its
isometric default transform, or its inverse; in case of the method for data.frame
objects, the function attempts to track information about a previous class (in an attribute
origClass
, and if found, a transformation is tried with it; for factors, idt expands
the factor according to the contrasts represented by V
, or vice-versa.)
generic arguments past to underlying functions
a compositional object which should be mimicked
by the inverse transformation. It is the generic
argument. Typically the orig
argument is stored as an attribute
in x
and will be extracted automatically by this function; if this
fails, orig
can be set equal to the dataset that
was transformed in the first place.
matrix of (transposed, inverted) logcontrasts;
together with orig
, it defines the back-transformation.
Typically the V
argument is stored as an attribute
in x
and will be extracted automatically by this function; if this
fails, V
must be manually set to the matrix V used in the idt/ilr/ipt
calculations. Argument not used in amounts or counts geometries.
A corresponding matrix of row-vectors containing the transforms. (Exception: idt.data.frame can return a data.frame if the input has no "origClass"-attribute)
The general idea of this package is to analyse the same data with
different geometric concepts, in a fashion as similar as possible. For each of the
four concepts there exists an isometric transform expressing the geometry
in a full-rank euclidean vector space. Such a transformation is computed
by idt
. For acomp
the transform is ilr
, for
rcomp
it is ipt
, for
aplus
it is ilt
, and for
rplus
it is iit
. Keep in mind that the
transform does not keep the variable names, since there is no guaranteed
one-to-one relation between the original parts and each transformed
variable.
The inverse idtInv
is intended to allow for an "easy" and automatic
back-transformation, without intervention of the user. The argument orig
(the one determining the behaviour of idtInv
as a generic function)
tells the function which back-transformation should be applied, and
gives the column names of orig
to the back-transformed
values of x
. Therefore, it is very conventient to give the original classed
data set used in the analysis as orig
.
van den Boogaart, K.G. and R. Tolosana-Delgado (2008) "compositions": a unified R package to analyze Compositional Data, Computers & Geosciences, 34 (4), pages 320-338, doi:10.1016/j.cageo.2006.11.017.
backtransform
, cdt
, ilr
, ipt
,
ilt
, cdtInv
, ilrInv
, iptInv
,
iltInv
, iitInv
# NOT RUN {
# the idt is defined by
idt <- function(x) UseMethod("idt",x)
idt.default <- function(x) x
idt.acomp <- function(x) ilr(x)
idt.rcomp <- function(x) ipt(x)
idt.aplus <- ilt
idt.rplus <- iit
# }
# NOT RUN {
idt(acomp(1:5))
idt(rcomp(1:5))
data(Hydrochem)
x = Hydrochem[,c("Na","K","Mg","Ca")]
y = acomp(x)
z = idt(y)
y2 = idtInv(z,y)
par(mfrow=c(2,2))
for(i in 1:4){plot(y[,i],y2[,i])}
# }
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