Augment accepts a model object and a dataset and adds
information about each observation in the dataset. Most commonly, this
includes predicted values in the .fitted
column, residuals in the
.resid
column, and standard errors for the fitted values in a .se.fit
column. New columns always begin with a .
prefix to avoid overwriting
columns in the original dataset.
Users may pass data to augment via either the data
argument or the
newdata
argument. If the user passes data to the data
argument,
it must be exactly the data that was used to fit the model
object. Pass datasets to newdata
to augment data that was not used
during model fitting. This still requires that at least all predictor
variable columns used to fit the model are present. If the original outcome
variable used to fit the model is not included in newdata
, then no
.resid
column will be included in the output.
Augment will often behave differently depending on whether data
or
newdata
is given. This is because there is often information
associated with training observations (such as influences or related)
measures that is not meaningfully defined for new observations.
For convenience, many augment methods provide default data
arguments,
so that augment(fit)
will return the augmented training data. In these
cases, augment tries to reconstruct the original data based on the model
object with varying degrees of success.
The augmented dataset is always returned as a tibble::tibble with the
same number of rows as the passed dataset. This means that the
passed data must be coercible to a tibble. At this time, tibbles do not
support matrix-columns. This means you should not specify a matrix
of covariates in a model formula during the original model fitting
process, and that splines::ns()
, stats::poly()
and
survival::Surv()
objects are not supported in input data. If you
encounter errors, try explicitly passing a tibble, or fitting the original
model on data in a tibble.
We are in the process of defining behaviors for models fit with various
na.action
arguments, but make no guarantees about behavior when data is
missing at this time.
# S3 method for ivreg
augment(x, data = model.frame(x), newdata = NULL, ...)
A tibble::tibble()
with columns:
Fitted or predicted value.
The difference between observed and fitted values.
An ivreg
object created by a call to AER::ivreg()
.
A base::data.frame or tibble::tibble()
containing the original
data that was used to produce the object x
. Defaults to
stats::model.frame(x)
so that augment(my_fit)
returns the augmented
original data. Do not pass new data to the data
argument.
Augment will report information such as influence and cooks distance for
data passed to the data
argument. These measures are only defined for
the original training data.
A base::data.frame()
or tibble::tibble()
containing all
the original predictors used to create x
. Defaults to NULL
, indicating
that nothing has been passed to newdata
. If newdata
is specified,
the data
argument will be ignored.
Additional arguments. Not used. Needed to match generic
signature only. Cautionary note: Misspelled arguments will be
absorbed in ...
, where they will be ignored. If the misspelled
argument has a default value, the default value will be used.
For example, if you pass conf.lvel = 0.9
, all computation will
proceed using conf.level = 0.95
. Two exceptions here are:
tidy()
methods will warn when supplied an exponentiate
argument if
it will be ignored.
augment()
methods will warn when supplied a newdata
argument if it
will be ignored.
This tidier currently only supports ivreg
-classed objects
outputted by the AER
package. The ivreg
package also outputs
objects of class ivreg
, and will be supported in a later release.
augment()
, AER::ivreg()
Other ivreg tidiers:
glance.ivreg()
,
tidy.ivreg()
if (FALSE) { # rlang::is_installed("AER")
# load libraries for models and data
library(AER)
# load data
data("CigarettesSW", package = "AER")
# fit model
ivr <- ivreg(
log(packs) ~ income | population,
data = CigarettesSW,
subset = year == "1995"
)
# summarize model fit with tidiers
tidy(ivr)
tidy(ivr, conf.int = TRUE)
tidy(ivr, conf.int = TRUE, instruments = TRUE)
augment(ivr)
augment(ivr, data = CigarettesSW)
augment(ivr, newdata = CigarettesSW)
glance(ivr)
}
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