This vignette illustrates how to use `plotmod()`

from the
`stdmod`

package. More about this package can be found in
`vignette("stdmod", package = "stdmod")`

or at https://sfcheung.github.io/stdmod/.

`plotmod()`

Can DoIt can visualize a moderation effect by plotting the effect of the predictor (focal variable) on the outcome variable (dependent variable) for different levels of the moderator:

It can also plot a tumble graph (Bodner, 2016), in which the width of each line depends on the distribution of the predictor (focal variable) in each level of the moderator:

`plotmod()`

is not designed to be a versatile tool. It is
designed to be a function “good-enough” for common scenarios. The output
of `plotmod()`

is a `ggplot`

object and so can be
further manipulated by functions from the `ggplot2`

package.

`x`

), and Moderator
(`w`

)`output`

: The output of`lm()`

,`std_selected()`

, or`std_selected_boot()`

, with at least one interaction term.`x`

: The predictor (focal variable). The variable in the horizontal axis.`w`

: The moderator. The variable for which the conditional effects will be plotted.

These are the only required arguments. Just setting them can generate the graph:

If the moderator is a numeric variable, then two lines will be drawn, by default. One line for one standard deviation (SD) below the mean on the moderator (“Low”), and the other for one SD above the mean (“High”).

Users can also use percentiles to define “Low” and “High” by setting
`w_method`

to `"percentile"`

. By default, 16th
percentile and 84th percentile are used, which correspond approximately
to one SD below and above mean, respectively, for a normal
distribution.

If the moderator is a categorical variable (a string variable or a factor), then one line will be drawn for each category.

By default, each line starts from one SD below mean of the predictor to one SD above mean of the predictor. This assumes that variation of the predictor is the same for different levels of the moderator. However, this may not be the case when the predictor and the moderator are associated. Bodner (2016) proposed a type of graph called tumble graph that can show the association between the predictor and the moderator, if any.

The idea is simple. Instead of using the SD of the predictor in the
whole sample, the mean and SD of the predictor for the selected level of
the moderator is used. (See the technical notes below on how it is
implemented in `plotmod()`

.)

To plot a tumble graph, just set `graph_type`

to
`"tumble"`

:

```
lm_raw <- lm(sleep_duration ~ age + gender +
emotional_stability * conscientiousness,
sleep_emo_con)
plotmod(lm_raw,
x = "emotional_stability",
w = "conscientiousness",
graph_type = "tumble")
```

The graph above shows that, the distribution of the predictor shifts to the left when the moderator is low.

By default, the variable names are used in the graph. Users can
supply labels that will be used instead of variable names by setting
`x_label`

, `w_label`

, and `y_label`

to
strings for the predictor, moderator, and outcome variable,
respectively.

The default title is “Moderation Effect”. This can be changed via the
argument `title`

:

```
lm_raw <- lm(sleep_duration ~ age + gender +
emotional_stability * conscientiousness,
sleep_emo_con)
plotmod(lm_raw,
x = "emotional_stability",
w = "conscientiousness",
title = "EMO Effects For Low/High CON")
```

Some journals require submitted figures to have no title because they
will be described by figure captions, supplied separately. The title can
be disabled by setting `no_title`

to `TRUE`

.

`plotmod()`

supports basic control of the lines. The width
of the lines can be set by `line_width`

and the size on the
end-points can be set by `point_size`

:

By default, `plotmod()`

prints the conditional effects of
the predictor as a subtitle. This can be disabled by adding a
`ggplot2::theme()`

call to the output and set
`plot.subtitle`

to `element_blank()`

, which
removes the subtitle:

By default, the definitions of the levels of moderator (e.g., one SD
below mean for “Low” and one SD above mean for “High”) are printed as a
caption. This can also be disabled by adding a
`ggplot2::theme()`

call and set `plot.caption`

to
`element_blank()`

:

If the output is generated by `std_selected()`

or
`std_selected_boot()`

, `plotmod()`

will try to
detect if a variable is standardized or not, and report this in the
graph:

```
lm_raw <- lm(sleep_duration ~ age + gender +
emotional_stability * conscientiousness,
sleep_emo_con)
lm_std <- std_selected(lm_raw,
to_standardize = ~ emotional_stability + conscientiousness)
# Before Version 0.2.6.3 of stdmod, to_center and to_scale need to be used:
# lm_std <- std_selected(lm_raw,
# to_center = ~ emotional_stability + conscientiousness,
# to_scale = ~ emotional_stability + conscientiousness)
```

The output of `std_selected()`

can then be passed to
`plotmod()`

:

If the predictor, moderator, and outcome variable are all standardized, then the moderation effect is standardized moderation effect (Cheung, Cheung, Lau, Hui, & Vong, 2022), and the conditional effect printed on the graph are the standardized effects of the predictor for different levels of the moderator.

If which variables are standardized will be reported in the main text
and so the figure does not need to report this, set
`note_standardized`

to `FALSE`

.

The output of `plotmod()`

is a `ggplot`

object.
Therefore, it can be manipulated by functions that modify a
`ggplot`

object. For example, users can change the colors of
the lines and the theme:

Bodner (2016) proposed regressing the predictor on the moderator.
`plotmod()`

uses a nonparametric approach.

If the moderator is numerical, for a level of moderator, say, one SD below mean, a certain percentage of cases (about 16% of cases above and below this value of the moderator) is used to compute the mean and SD of the predictor, which will be used to determine the end-points of the line segment for this level.

If the moderator is categorical, then the mean and SD of all cases in each group will be used to the determine the end-points of a line segment.

Please refer to the help page of `plotmod()`

for other
options available.

Bodner, T. E. (2016). Tumble graphs: Avoiding misleading end point
extrapolation when graphing interactions from a moderated multiple
regression analysis. *Journal of Educational and Behavioral
Statistics, 41*(6), 593-604.

Cheung, S. F., Cheung, S.-H., Lau, E. Y. Y., Hui, C. H., & Vong,
W. N. (2022) Improving an old way to measure moderation effect in
standardized units. *Health Psychology*, *41*(7), 502-505.
https://doi.org/10.1037/hea0001188.