This article is a brief illustration of how to use
mod_levels(), mod_levels_list(), and
merge_mod_levels() from the package manymome (Cheung & Cheung,
2023) to generate a table of moderator levels for use by
cond_indirect_effects(). No need to use these functions if
the default levels generated by cond_indirect_effects() is
appropriated, as illustrated in vignette("manymome").
Use these functions only when users want to use levels of the moderators other than those default levels.
We first use the sample data set data_med_mod_ab:
library(manymome)
dat <- data_med_mod_ab
print(head(dat), digits = 3)
#> x w1 w2 m y c1 c2
#> 1 9.27 4.97 2.66 3.46 8.80 9.26 3.14
#> 2 10.79 4.13 3.33 4.05 7.37 10.71 5.80
#> 3 11.10 5.91 3.32 4.04 8.24 10.60 5.45
#> 4 9.53 4.78 2.32 3.54 8.37 9.22 3.83
#> 5 10.00 4.38 2.95 4.65 8.39 9.58 4.26
#> 6 12.25 5.81 4.04 4.73 9.65 9.51 4.01Suppose this is the model being fitted:
library(lavaan)
#> This is lavaan 0.6-19
#> lavaan is FREE software! Please report any bugs.
dat$w1x <- dat$w1 * dat$x
dat$w2m <- dat$w2 * dat$m
mod <-
"
m ~ x + w1 + w1x
y ~ m + w2 + w2m
m ~~ w2 + w2m
w2 ~~ w2m + x + w1 + w1x
w2m ~~ x + w1 + w1x
x ~~ w1 + w1x
w1 ~~ w1x
"
fit <- sem(model = mod, data = dat)It has two numeric moderators, w1 and w2.
To generate these three levels for w1, one standard
deviation (SD) below mean, mean, and one SD above mean, just call
mod_levels():
w1levels <- mod_levels(w = "w1", fit = fit)
w1levels
#> w1
#> M+1.0SD 6.173157
#> Mean 5.105602
#> M-1.0SD 4.038047This is not necessary in calling cond_indirect_effects()
because it will automatically generate these default levels.
Suppose we want to use only two levels, one SD below and one SD above
mean, we can set the argument sd_from_mean to a vector of
distances from means, which are -1 and 1 in
this example:
To generate the levels based on percentiles, set the argument
w_method to "percentile":
w1levels <- mod_levels(w = "w1", fit = fit,
w_method = "percentile")
w1levels
#> w1
#> 84% 6.207972
#> 50% 5.215974
#> 16% 3.932444The default percentiles are 16th, 50th, and 84th, corresponding to one SD below mean, mean, and one SD above mean in a normal distribution.
Suppose we want to change the percentiles to be used, for example,
25th and 75th, set the argument percentiles as shown
below:
If there are values that are meaningful for a moderator, they can be
used by setting values to a vector of values:
w1levels <- mod_levels(w = "w1", fit = fit,
values = c(2, 4, 8))
w1levels
#> w1
#> 8 8
#> 4 4
#> 2 2The output of mod_levels can be used when calling
cond_indirect_effects():
out <- cond_indirect_effects(wlevels = w1levels,
x = "x", y = "m",
fit = fit)
out
#>
#> == Conditional effects ==
#>
#> Path: x -> m
#> Conditional on moderator(s): w1
#> Moderator(s) represented by: w1
#>
#> [w1] (w1) ind SE Stat pvalue Sig CI.lo CI.hi
#> 1 8 8 0.964 0.308 3.130 0.002 ** 0.360 1.568
#> 2 4 4 0.165 0.164 1.007 0.314 -0.156 0.486
#> 3 2 2 -0.235 0.314 -0.747 0.455 -0.850 0.381
#>
#> - [SE] are 'lavaan' standard errors.
#> - [Stat] are the z statistics used to test the effects.
#> - [pvalue] are p-values computed from 'Stat'.
#> - [Sig]: 0 '***' 0.001 '**' 0.01 '*' 0.05 ' ' 1.
#> - [CI.lo to CI.hi] are 95.0% confidence interval computed from 'lavaan'
#> standard errors.
#> - IMPORTANT: For a model fitted by structural equation model, the
#> p-values and confidence intervals for the conditional effects
#> computed from standard errors can only be trusted if all covariances
#> involving the product terms are free. Otherwise, the model may not
#> be invariant to linear transformation of the variables.
#> - The 'ind' column shows the conditional effects.
#> cond_indirect_effects() will determine the moderators
automatically from the object assigned to wlevels.
In the previous example, there are two moderators. We can call
mod_levels() once for each of them, or call
mod_levels_list():
wlevels_list <- mod_levels_list("w1", "w2", fit = fit)
wlevels_list
#> [[1]]
#> w1
#> M+1.0SD 6.173157
#> M-1.0SD 4.038047
#>
#> [[2]]
#> w2
#> M+1.0SD 4.040487
#> M-1.0SD 2.055091The output is a list of the output of mod_levels(). With
two or more moderators, the default levels are two: one SD below mean
and one SD above mean.
The function mod_levels_list() can merge the output into
one table by setting merge to TRUE:
wlevels_list <- mod_levels_list("w1", "w2", fit = fit,
merge = TRUE)
wlevels_list
#> w1 w2
#> w1: M+1.0SD; w2: M+1.0SD 6.173157 4.040487
#> w1: M+1.0SD; w2: M-1.0SD 6.173157 2.055091
#> w1: M-1.0SD; w2: M+1.0SD 4.038047 4.040487
#> w1: M-1.0SD; w2: M-1.0SD 4.038047 2.055091Calling mod_levels_list() is useful when the same
settings will be used for all moderators. Most arguments of
mod_levels() can be used in mod_levels_list().
For example, if we want to use 25th and 75th percentiles for both
w1 and w2, use w_method and
percentiles as before:
If we need to use different settings for the two moderators, then we
need to call mod_levels() once for each of them, and merge
the results by merge_mod_levels():
w1levels <- mod_levels(w = "w1", fit = fit)
w1levels
#> w1
#> M+1.0SD 6.173157
#> Mean 5.105602
#> M-1.0SD 4.038047
w2levels <- mod_levels(w = "w2", fit = fit, values = c(2, 5))
w2levels
#> w2
#> 5 5
#> 2 2
wlevels_all <- merge_mod_levels(w1levels, w2levels)
wlevels_all
#> w1 w2
#> w1: M+1.0SD; w2: 5 6.173157 5
#> w1: M+1.0SD; w2: 2 6.173157 2
#> w1: Mean; w2: 5 5.105602 5
#> w1: Mean; w2: 2 5.105602 2
#> w1: M-1.0SD; w2: 5 4.038047 5
#> w1: M-1.0SD; w2: 2 4.038047 2We use the dataset data_med_mod_serial_cat for
illustration:
dat <- data_med_mod_serial_cat
print(head(dat), digits = 3)
#> x w1 w2 m1 m2 y c1 c2
#> 1 8.09 group2 team1 7.70 5.26 3.17 4.31 5.03
#> 2 6.16 group2 team2 5.71 4.36 3.12 4.69 3.19
#> 3 6.03 group2 team2 5.40 5.22 4.23 4.07 4.25
#> 4 6.92 group1 team1 7.26 5.98 3.65 5.87 5.35
#> 5 7.76 group3 team1 4.49 4.83 4.01 4.35 4.16
#> 6 6.84 group2 team2 5.72 6.31 3.38 4.32 4.48It has two categorical moderators, w1 with three
categories and w2 with two categories. We use only
w1 here for illustration.
To fit a model using path analysis, two dummy variables need to be
created for w1. This can be done by
factor2var() or similar functions from other packages.
w1dummies <- factor2var(dat$w1, prefix = "w1")
head(w1dummies)
#> w1group2 w1group3
#> group2 1 0
#> group2 1 0
#> group2 1 0
#> group1 0 0
#> group3 0 1
#> group2 1 0
# Add them to the dataset
dat[, c("w1group2", "w1group3")] <- w1dummies
print(head(dat), digits = 3)
#> x w1 w2 m1 m2 y c1 c2 w1group2 w1group3
#> 1 8.09 group2 team1 7.70 5.26 3.17 4.31 5.03 1 0
#> 2 6.16 group2 team2 5.71 4.36 3.12 4.69 3.19 1 0
#> 3 6.03 group2 team2 5.40 5.22 4.23 4.07 4.25 1 0
#> 4 6.92 group1 team1 7.26 5.98 3.65 5.87 5.35 0 0
#> 5 7.76 group3 team1 4.49 4.83 4.01 4.35 4.16 0 1
#> 6 6.84 group2 team2 5.72 6.31 3.38 4.32 4.48 1 0This is the model:
The levels of a categorical moderator are just the categories (unique
combinations of the coding). This can be generated by
mod_levels(). w should be a vector of the
dummy variables:
w1levels <- mod_levels(w = c("w1group2", "w1group3"), fit = fit)
w1levels
#> w1group2 w1group3
#> Reference 0 0
#> 2 1 0
#> 3 0 1The names of group2 and group3 are
2 and 3 because they are inferred from the
names of the dummy variables. The common part, "w1group",
is removed.
To tell mod_levels which part to be removed, set
prefix to the part to be removed:
w1levels <- mod_levels(w = c("w1group2", "w1group3"), fit = fit,
prefix = "w1")
w1levels
#> w1group2 w1group3
#> Reference 0 0
#> group2 1 0
#> group3 0 1By default, the group with 0s on all dummy variables is labelled
Reference because its name cannot be determined from the
names of the dummy variables. The label can be changed by setting
reference_group_label:
w1levels <- mod_levels(w = c("w1group2", "w1group3"), fit = fit,
prefix = "w1",
reference_group_label = "group1")
w1levels
#> w1group2 w1group3
#> group1 0 0
#> group2 1 0
#> group3 0 1The output can then be used in
cond_indirect_effects():
out <- cond_indirect_effects(wlevels = w1levels,
x = "x", y = "y", m = "m1",
fit = fit)
out
#>
#> == Conditional indirect effects ==
#>
#> Path: x -> m1 -> y
#> Conditional on moderator(s): w1
#> Moderator(s) represented by: w1group2, w1group3
#>
#> [w1] (w1group2) (w1group3) ind m1~x y~m1
#> 1 group1 0 0 0.263 1.002 0.262
#> 2 group2 1 0 0.249 0.950 0.262
#> 3 group3 0 1 0.122 0.467 0.262
#>
#> - The 'ind' column shows the conditional indirect effects.
#> - 'm1~x','y~m1' is/are the path coefficient(s) along the path
#> conditional on the moderator(s).To have full control on the labels and coding, use
values and supply a named list of numeric
vectors: the name is the group label and the vector is
the coding:
Numeric and categorical moderators can be mixed but they need to be
generated separately and then merged by
merge_mod_levels().
Using the example in the previous section, pretending that
x is a numeric moderator:
xlevels <- mod_levels(w = "x", fit = fit,
sd_from_mean = c(-1, 1))
xlevels
#> x
#> M+1.0SD 7.149362
#> M-1.0SD 5.087437
w1levels <- mod_levels(w = c("w1group2", "w1group3"), fit = fit,
prefix = "w1",
reference_group_label = "group1")
w1levels
#> w1group2 w1group3
#> group1 0 0
#> group2 1 0
#> group3 0 1
wlevels_all <- merge_mod_levels(xlevels, w1levels)
wlevels_all
#> x w1group2 w1group3
#> x: M+1.0SD; w1: group1 7.149362 0 0
#> x: M+1.0SD; w1: group2 7.149362 1 0
#> x: M+1.0SD; w1: group3 7.149362 0 1
#> x: M-1.0SD; w1: group1 5.087437 0 0
#> x: M-1.0SD; w1: group2 5.087437 1 0
#> x: M-1.0SD; w1: group3 5.087437 0 1The function mod_levels() and
mod_levels_list() usually can determine the type correctly.
However, if the detected type is wrong or users want to specify
explicitly the type, set the argument w_type to either
"numeric" or "categorical".
For further information on mod_levels(),
mod_levels_list(), and merge_mod_levels(),
please refer to their help pages.
Cheung, S. F., & Cheung, S.-H. (2023). manymome: An R package for computing the indirect effects, conditional effects, and conditional indirect effects, standardized or unstandardized, and their bootstrap confidence intervals, in many (though not all) models. Behavior Research Methods. https://doi.org/10.3758/s13428-023-02224-z