The package semptools (CRAN page)
contains functions that post-process an output from
semPlot::semPaths(), to help users to customize the
appearance of the graphs generated by
For the introduction to functions for doing very specific tasks, such as
moving the parameter estimate of a path or rotating the residual of a
variable, please refer to
present guide focuses on how to use
configure various aspects of an
semPaths graph generated
for a typical confirmatory factor analysis (CFA) model.
Let us consider a CFA model. We will use
sample CFA dataset from
semptools with 14 variables for
library(semptools) head(round(cfa_example, 3), 3) #> x01 x02 x03 x04 x05 x06 x07 x08 x09 x10 x11 #> 1 1.159 1.271 1.451 -0.691 -0.015 -0.212 -0.336 1.559 0.870 1.115 -1.251 #> 2 0.059 -0.496 -0.585 -1.800 -0.555 0.012 1.208 0.551 0.055 -0.365 -0.142 #> 3 -0.737 2.933 1.625 0.642 -1.218 -0.155 -0.861 0.862 0.738 2.443 -0.628 #> x12 x13 x14 #> 1 0.253 0.663 -1.049 #> 2 0.110 -0.207 -0.226 #> 3 1.604 -1.688 0.395
This is the CFA model to be fitted:
<- mod 'f1 =~ x01 + x02 + x03 f2 =~ x04 + x05 + x06 + x07 f3 =~ x08 + x09 + x10 f4 =~ x11 + x12 + x13 + x14 '
Fitting the model by
library(lavaan) <- lavaan::cfa(mod, cfa_example)fit
This is the plot from
library(semPlot) <- semPaths(fit, whatLabels="est", p sizeMan = 3.25, node.width = 1, edge.label.cex = .75, style = "ram", mar = c(10, 5, 10, 5))
The default layout is sufficient to have a quick examination of the
results. We will see how
set_cfa_layout() can be used to do
the following tasks to post-process the graph:
Change the order of the indicators.
Change the order of the factors.
Change the curvature of the inter-factor covariances.
Move the loadings along the paths from factors to indicators.
Rotate the graph.
Suppose we want to do this:
Order the factors this way, from the left to the right:
f2, f1, f4, f3
Order the indicators this way, from the left to the right:
x04, x05, x06, x07, x01, x02, x03, x11, x12, x13, x14, x08, x09, x10
We would like to place the factors this way:
f2 above the center of
f1 above the center of
f4 above the center of
f3 above the center of
To do this, we create two vectors, one for the argument
indicator_order and the other for the argument
indicator_orderis a string vector with length equal to the number of indicators, with the desired order. In this example, it will be like this:
<- c("x04", "x05", "x06", "x07", indicator_order "x01", "x02", "x03", "x11", "x12", "x13", "x14", "x08", "x09", "x10")
indicator_factoris a string vector with length equal to the number of indicators. The elements are the names of the latent factors, denoting which indicators will be used to compute the mean positions to place the latent factors:
<- c( "f2", "f2", "f2", "f2", indicator_factor "f1", "f1", "f1", "f4", "f4", "f4", "f4", "f3", "f3", "f3")
set_cfa_layout() function needs at least three
indicator_order: The vector for the order of
indicator_factor: The vector for the placement of
the latent factors.
They do not have to be named if they are in this order.
We now use
set_cfa_layout() to post-process the
<- set_cfa_layout(p, p2 indicator_order, indicator_factor)plot(p2)
The graph has the factors and indicators ordered as required.
However, the inter-factor covariances are too close to the factors. To
increases the curvatures of the covariances, we can use the argument
fcov_curve. The default is .4. Let us increase it to
<- set_cfa_layout(p, p2 indicator_order, indicator_factor,fcov_curve = 1.75) plot(p2)
The covariances are now more readable. The exact effect of the values vary from graph to graph. Therefore, trial and error is required to find a value suitable for a graph.
We can also move all the factor loadings together using the argument
loading_position. The default value is .5, at the middle of
the paths. If we want to move the loadings closer to the indicators, we
increase this number. If we want to move the loadings closer to the
indicators, we decrease this number. In the following example, we move
the loadings closer to the indicators, and increase the distance between
them in the process.
<- set_cfa_layout(p, p2 indicator_order, indicator_factor,fcov_curve = 1.75, loading_position = .8) plot(p2)
The factor loadings are now easier to read, and also closer to the corresponding indicators.
The default orientation is “pointing downwards”: latent factors on
the top, pointing down to the indicators on the bottom. The orientation
can be set to one of these four directions: down (default), left, up,
and right. This is done by the argument
<- set_cfa_layout(p, p2 indicator_order, indicator_factor,fcov_curve = 1.75, loading_position = .8, point_to = "up") plot(p2)
Like other functions in
set_cfa_layout() function can be chained with other
functions using the pipe operator,
%>%, from the package
magrittr, or the native pipe operator
available since R 4.1.x. Suppose we want to mark the significant test
results for the free parameters using
# If R version >= 4.1.0 <- set_cfa_layout(p, p2 indicator_order, indicator_factor,fcov_curve = 1.75, loading_position = .9, point_to = "up") |> mark_sig(fit) plot(p2)
#> Loading required package: magrittr