Create coefficient plots of R regression output using ggplot2.
plotreg(
l,
file = NULL,
custom.model.names = NULL,
custom.title = NULL,
custom.coef.names = NULL,
custom.coef.map = NULL,
custom.note = NULL,
override.coef = 0,
override.se = 0,
override.pval = 0,
override.ci.low = 0,
override.ci.up = 0,
omit.coef = NULL,
reorder.coef = NULL,
ci.level = 0.95,
ci.inner = 0.5,
use.se = FALSE,
type = "facet",
theme = NULL,
signif.light = "#FBC9B9",
signif.medium = "#F7523A",
signif.dark = "#BD0017",
insignif.light = "#C5DBE9",
insignif.medium = "#5A9ECC",
insignif.dark = "#1C5BA6",
...
)
A statistical model or a list of statistical models. Lists of
models can be specified as l = list(model.1, model.2, ...)
.
Different object types can also be mixed.
Using this argument, the resulting table is written to a file
rather than to the R prompt. The file name can be specified as a character
string. Writing a table to a file can be useful for working with MS Office
or LibreOffice. For example, using the htmlreg
function, an
HTML table can be written to a file with the extension .doc
and
opened with MS Word. The table can then be simply copied into any Word
document, retaining the formatting of the table. Note that LibreOffice can
import only plain HTML; CSS decorations are not supported; the resulting
tables do not retain the full formatting in LibreOffice.
A character vector of labels for the models. By
default, the models are named "Model 1", "Model 2", etc. Specifying
model.names = c("My name 1", "My name 2")
etc. overrides the default
behavior.
With this argument, a replacement text for the
ggtitle
, which provides a title above the diagram, can be provided.
If an empty character object is provided (custom.title = ""
), the
title will be omitted completely.
By default, texreg uses the coefficient names
which are stored in the models. The custom.coef.names
argument can
be used to replace them by other character strings in the order of
appearance. For example, if a table shows a total of three different
coefficients (including the intercept), the argument
custom.coef.names = c("Intercept", "variable 1", "variable 2")
will
replace their names in this order.
Sometimes it happens that the same variable has a different name in different models. In this case, the user can use this function to assign identical names. If possible, the rows will then be merged into a single row unless both rows contain values in the same column.
Where the argument contains an NA
value, the original name of the
coefficient is kept. For example, custom.coef.names = c(NA, "age",
NA)
will only replace the second coefficient name and leave the first and
third name as they are in the original model.
See also custom.coef.map
for an easier and more comprehensive way to
rename, omit, and reorder coefficients.
The custom.coef.map
argument can be used to
select, omit, rename, and reorder coefficients.
Users must supply a named list of this form: list("x" = "First
variable", "y" = NA, "z" = "Third variable")
. With that particular example
of custom.coef.map
,
coefficients will be presented in order: "x"
, "y"
,
"z"
.
variable "x"
will appear as "First variable"
, variable
"y"
will appear as "y"
, and variable "z"
will
appear as "Third variable".
all variables not named "x"
, "y"
, or "z"
will
be omitted from the table.
With this argument, a replacement text for the
significance note below the table can be provided. If an empty
character
object is provided (custom.note = ""
), the note
will be omitted completely. If some character string is provided (e.g.,
custom.note = "My note"
), the significance legend is replaced by
My note
. The original significance legend can be included by
inserting the %stars
wildcard. For example, a custom note can be
added right after the significance legend by providing custom.note =
"%stars. My note."
.
If the threeparttable
argument is used, any note should be preceded
by "\\item"
, for example
"\\item %stars. \\item Second note. \\item Third note."
, and
it is possible to create line breaks in the formatted table by including
"\\\\"
and line breaks in the LaTeX code by including
"\n"
, for example
"\n\\item %stars.\\\\\n\\item Second line.\n"
.
Set custom values for the coefficients. New coefficients
are provided as a list of numeric vectors. The list contains vectors of
coefficients for each model. There must be as many vectors of coefficients
as there are models. For example, if there are two models with three model
terms each, the argument could be specified as override.coef =
list(c(0.1, 0.2, 0.3), c(0.05, 0.06, 0.07))
. If there is only one model,
custom values can be provided as a plain vector (not embedded in a list).
For example: override.coef = c(0.05, 0.06, 0.07)
.
Set custom values for the standard errors. New standard
errors are provided as a list of numeric vectors. The list contains vectors
of standard errors for each model. There must be as many vectors of
standard errors as there are models. For example, if there are two models
with three coefficients each, the argument could be specified as
override.se = list(c(0.1, 0.2, 0.3), c(0.05, 0.06, 0.07))
. If there
is only one model, custom values can be provided as a plain vector (not
embedded in a list).For example: override.se = c(0.05, 0.06, 0.07)
.
Overriding standard errors can be useful for the implementation of robust
SEs, for example.
Set custom values for the p-values. New p-values are
provided as a list of numeric vectors. The list contains vectors of
p-values for each model. There must be as many vectors of p-values as there
are models. For example, if there are two models with three coefficients
each, the argument could be specified as override.pvalues =
list(c(0.1, 0.2, 0.3), c(0.05, 0.06, 0.07))
. If there is only one model,
custom values can be provided as a plain vector (not embedded in a list).
For example: override.pvalues = c(0.05, 0.06, 0.07)
. Overriding
p-values can be useful for the implementation of robust SEs and p-values,
for example.
Set custom lower confidence interval bounds. This
works like the other override arguments, with one exception: if confidence
intervals are provided here and in the override.ci.up
argument, the
standard errors and p-values as well as the ci.force
argument are
ignored.
Set custom upper confidence interval bounds. This
works like the other override arguments, with one exception: if confidence
intervals are provided here and in the override.ci.low
argument, the
standard errors and p values as well as the ci.force
argument are
ignored.
A character string which is used as a regular expression to
remove coefficient rows from the table. For example, omit.coef =
"group"
deletes all coefficient rows from the table where the name of the
coefficient contains the character sequence "group"
. More complex
regular expressions can be used to filter out several kinds of model terms,
for example omit.coef = "(thresh)|(ranef)"
to remove all model terms
matching either "thresh"
or "ranef"
. The omit.coef
argument is processed after the custom.coef.names
argument, so the
regular expression should refer to the custom coefficient names. To omit
GOF entries instead of coefficient entries, use the custom arguments of the
extract functions instead (see the help entry of the extract
function.
Reorder the rows of the coefficient block of the
resulting table in a custom way. The argument takes a vector of the same
length as the number of coefficients. For example, if there are three
coefficients, reorder.coef = c(3, 2, 1)
will put the third
coefficient in the first row and the first coefficient in the third row.
Reordering can be sensible because interaction effects are often added to
the end of the model output although they were specified earlier in the
model formula. Note: Reordering takes place after processing custom
coefficient names and after omitting coefficients, so the
custom.coef.names
and omit.coef
arguments should follow the
original order.
If standard errors are converted to confidence intervals
(because a model does not natively support CIs), what confidence level
should be used for the outer confidence interval? By default, 0.95
is used (i.e., an alpha value of 0.05).
If standard errors are converted to confidence intervals
(because a model does not natively support CIs), what confidence level
should be used for the inner confidence interval? By default, 0.50
is used (i.e., an alpha value of 0.5). Can be set to ci.inner = 0
to
suppress inner confidence CI bars.
Use one standard error for the inner horizontal bar and two
standard errors from the estimate for the outer horizontal bar (instead
of confidence intervals). Only available if standard errors can be
extracted from the model using the respective extract
method.
The default option is type = "facet"
. If only one model is
specified, it will print one forest plot applied to point estimates and
confidence intervals. If more than one model is specified, it will print
as many facets as the number of models in a column of plots. Alternatively,
if type = "forest"
is specified, coefficients from one or more
models will be grouped together and displayed as a single forest plot.
The theme
argument can be used to customize the
appearance of the plot. The default theme is theme_bw
. It can be
replaced by any other ggplot2 theme. See
ggtheme
for details.
Color of outer confidence intervals for significant model terms.
Color of inner confidence intervals for significant model terms.
Color of point estimates and labels for significant model terms.
Color of outer confidence intervals for insignificant model terms.
Color of inner confidence intervals for insignificant model terms.
Color of point estimates and labels for insignificant model terms.
Coefficient plot as a ggplot2 gg
object if
file = FALSE
. NULL
otherwise.
The plotreg
function produces coefficient plots (i.e., forest plots
applied to point estimates and confidence intervals) and works much like the
screenreg
, texreg
, htmlreg
,
matrixreg
and wordreg
functions. It accepts a
single model or multiple statistical models as input and internally extracts
the relevant data from the models. If confidence intervals are not defined in
the extract method of a statistical model (see extract), the default
standard errors are converted to confidence intervals. Most of the arguments
work like in the screenreg
, texreg
, and
htmlreg
matrixreg
, and wordreg
functions. It is possible to display the plots in two ways: using the
type = "facet"
argument, one forest plot applied to point estimates
and confidence intervals will be visualized in case there is only one model.
If there is more than one model, each one will be plotted next to the other
as a separate facet; using the type = "forest"
argument, coefficients
from one or more models will be grouped together and displayed as a single
forest plot.
texreg-package
extract
texreg
matrixreg
Other texreg:
htmlreg()
,
huxtablereg()
,
knitreg()
,
matrixreg()
,
screenreg()
,
texreg
,
wordreg()
# NOT RUN {
# example from the 'lm' help file:
ctl <- c(4.17, 5.58, 5.18, 6.11, 4.50, 4.61, 5.17, 4.53, 5.33, 5.14)
trt <- c(4.81, 4.17, 4.41, 3.59, 5.87, 3.83, 6.03, 4.89, 4.32, 4.69)
group <- gl(2, 10, 20, labels = c("Ctl", "Trt"))
weight <- c(ctl, trt)
lm.D9 <- lm(weight ~ group)
lm.D90 <- lm(weight ~ group - 1)
plotreg(lm.D9) # plot model output as a diagram
# customize theme and title and save as a PDF file.
plotreg(lm.D9,
theme = theme_dark(),
ggtitle = "my title",
file = "myplot.pdf")
unlink("myplot.pdf")
# group coefficients from multiple models
plotreg(list(lm.D9, lm.D90), type = "forest")
# }
# NOT RUN {
# }
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