plotSlopes: Generic function for plotting regressions and interaction...
In rockchalk: Regression Estimation and Presentation
plotSlopes R Documentation
Generic function for plotting regressions and interaction effects
Description
This is a function for plotting regression
objects. So far, there is an implementation for lm() objects.
I've been revising plotSlopes so that it should handle the work
performed by plotCurves. As sure as that belief is verified,
the plotCurves work will be handled by plotSlopes. Different
plot types are created, depending on whether the x-axis predictor
plotx is numeric or categorical.
##'
This is a "simple slope" plotter for regression objects created by
lm() or similar functions that have capable predict methods
with newdata arguments. The term "simple slopes" was coined by
psychologists (Aiken and West, 1991; Cohen, et al 2002) for
analysis of interaction effects for particular values of a
moderating variable. The moderating variable may be continuous or
categorical, lines will be plotted for focal values of that
variable.
Usage
plotSlopes(model, plotx, ...)
## S3 method for class 'lm'
plotSlopes(
model,
plotx,
modx = NULL,
n = 3,
modxVals = NULL,
plotxRange = NULL,
interval = c("none", "confidence", "prediction"),
plotPoints = TRUE,
legendPct = TRUE,
legendArgs,
llwd = 2,
opacity = 100,
...,
col = c("black", "blue", "darkgreen", "red", "orange", "purple", "green3"),
type = c("response", "link"),
gridArgs,
width = 0.2
)
Arguments
model
Required. A fitted Regression
plotx
Required. Name of one predictor from the fitted
model to be plotted on horizontal axis. May be numeric or factor.
...
Additional arguments passed to methods. Often includes
arguments that are passed to plot. Any arguments that customize
plot output, such as lwd, cex, and so forth, may be
supplied. These arguments intended for the predict method will be
used: c("type", "se.fit", "interval", "level", "dispersion",
"terms", "na.action")
modx
Optional. String for moderator variable name. May be
either numeric or factor. If omitted, a single predicted value
line will be drawn.
n
Optional. Number of focal values of modx, used by
algorithms specified by modxVals; will be ignored if modxVals
supplies a vector of focal values.
modxVals
Optional. Focal values of modx for which
lines are desired. May be a vector of values or the name of an
algorithm, "quantile", "std.dev.", or "table".
plotxRange
Optional. If not specified, the observed range
of plotx will be used to determine the axis range.
interval
Optional. Intervals provided by the
predict.lm may be supplied, either "confidence"
(confidence interval for the estimated conditional mean) or
"prediction" (interval for observed values of y given the rest
of the model). The level can be specified as an argument
(which goes into ... and then to the predict method)
plotPoints
Optional. TRUE or FALSE: Should the plot include
the scatterplot points along with the lines.
legendPct
Default = TRUE. Variable labels print with sample
percentages.
legendArgs
Set as "none" if no legend is
desired. Otherwise, this can be a list of named arguments that
will override the settings I have for the legend.
llwd
Optional, default = 2. Line widths for predicted
values. Can be single value or a vector, which will be
recycled as necessary.
opacity
Optional, default = 100. A number between 1 and
255. 1 means "transparent" or invisible, 255 means very dark.
Determines the darkness of confidence interval regions
col
Optional.I offer my preferred color vector as default.
Replace if you like. User may supply a vector of valid
color names, or rainbow(10) or
gray.colors(5). Color names will be recycled if there
are more focal values of modx than colors provided.
type
Argument passed to the predict function. If model is glm,
can be either "response" or "link". For lm, no argument of this
type is needed, since both types have same value.
gridArgs
Only used if plotx (horizontal axis) is a factor
variable. Designates reference lines between values. Set as
"none" if no grid lines are needed. Default will be
gridArgs = list(lwd = 0.3, lty = 5)
width
Only used if plotx (horizontal axis) is a factor. Designates
thickness of shading for bars that depict confidence intervals.
Details
The original plotSlopes did not work well with nonlinear
predictors (log(x) and poly(x)). The separate function
plotCurves() was created for nonlinear predictive equations
and generalized linear models, but the separation of the two
functions was confusing for users. I've been working to make
plotSlopes handle everything and plotCurves will disappear
at some point. plotSlopes can create an object which
is then tested with testSlopes() and that can be graphed
by a plot method.
The argument plotx is the name of the horizontal plotting
variable. An innovation was introduced in Version 1.8.33 so that
plotx can be either numeric or categorical.
The argument modx is the moderator variable. It may be
either a numeric or a factor variable. As of version 1.7, the modx
argument may be omitted. A single predicted value line will be
drawn. That version also introduced the arguments interval and n.
There are many ways to specify focal values using the arguments
modxVals and n. This changed in rockchalk-1.7.0. If
modxVals is omitted, a default algorithm for the variable
type will be used to select n values for
plotting. modxVals may be a vector of values (for a numeric
moderator) or levels (for a factor). If modxVals is a vector of
values, then the argument n is ignored. However, if
modxVals is one of the name of one of the algorithms, "table",
"quantile", or "std.dev.", then the argument n sets number
of focal values to be selected. For numeric modx, n
defaults to 3, but for factors modx will be the number of
observed values of modx. If modxVals is omitted, the
defaults will be used ("table" for factors, "quantile" for numeric
variables).
For the predictors besides modx and plotx (the ones
that are not explicitly included in the plot), predicted values
are calculated with variables set to the mean and mode, for numeric
or factor variables (respectively). Those values can be reviewed
in the newdata object that is created as a part of the output from
this function
Value
Creates a plot and an output object that summarizes it.
The return object includes the "newdata" object that was
used to create the plot, along with the "modxVals" vector, the
values of the moderator for which lines were drawn, and the
color vector. It also includes the call that generated the
plot.
Author(s)
Paul E. Johnson pauljohn@ku.edu
References
Aiken, L. S. and West, S.G. (1991). Multiple
Regression: Testing and Interpreting Interactions. Newbury
Park, Calif: Sage Publications.
Cohen, J., Cohen, P., West, S. G., and Aiken, L. S. (2002).
Applied Multiple Regression/Correlation Analysis for the Behavioral
Sciences (Third.). Routledge Academic.
See Also
testSlopes plotCurves
Examples
## Manufacture some predictors
set.seed(12345)
dat <- genCorrelatedData2 (N = 100, means = rep(0,4), sds = 1, rho = 0.2,
beta = c(0.3, 0.5, -0.45, 0.5, -0.1, 0, 0.6),
stde = 2)
dat$xcat1 <- gl(2, 50, labels = c("M", "F"))
dat$xcat2 <- cut(rnorm(100), breaks = c(-Inf, 0, 0.4, 0.9, 1, Inf),
labels = c("R", "M", "D", "P", "G"))
## incorporate effect of categorical predictors
dat$y <- dat$y + 1.9 * dat$x1 * contrasts(dat$xcat1)[dat$xcat1] +
contrasts(dat$xcat2)[dat$xcat2 , ] %*% c(0.1, -0.16, 0, 0.2)
m1 <- lm(y ~ x1 * x2 + x3 + x4 + xcat1* xcat2, data = dat)
summary(m1)
## New in rockchalk 1.7.x. No modx required:
plotSlopes(m1, plotx = "x1")
## Confidence interval, anybody?
plotSlopes(m1, plotx = "x1", interval = "conf")
## Prediction interval.
plotSlopes(m1, plotx = "x1", interval = "pred")
plotSlopes(m1, plotx = "x1", modx = "xcat2", modxVals = c("R", "M"))
plotSlopes(m1, plotx = "x1", modx = "xcat2", interval = "pred")
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "conf", space = c(0,1))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2",
modxVals = c("Print R" = "R" , "Show M" = "M"), gridArgs = "none")
## Now experiment with a moderator variable
## let default quantile algorithm do its job
plotSlopes(m1, plotx = "xcat2", interval = "none")
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "none")
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
legendArgs = list(title = "xcat2"), ylim = c(-3, 3), lwd = 0.4)
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
legendArgs = list(title = "xcat2"), ylim = c(-3, 3), lwd = 0.4, width = 0.25)
m1.ps <- plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "prediction")
m1.ps <- plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "prediction", space=c(0,2))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "prediction", gridArgs = "none")
plotSlopes(m1, plotx = "xcat2", modx = "xcat1", interval = "confidence", ylim = c(-3, 3))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = c("black", "blue", "green", "red", "orange"), lty = c(1, 4, 6, 3))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = gray.colors(4, end = 0.5), lty = c(1, 4, 6, 3), legendArgs = list(horiz=TRUE))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = c("pink", "orange"))
plotSlopes(m1, plotx = "xcat1", interval = "confidence",
col = c("black", "blue", "green", "red", "orange"))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = c("black", "blue", "green", "red", "orange"),
gridlwd = 0.2)
## previous uses default equivalent to
## plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = "quantile")
## Want more focal values?
plotSlopes(m1, plotx = "x1", modx = "x2", n = 5)
## Pick focal values yourself?
plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = c(-2, 0, 0.5))
## Alternative algorithm?
plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = "std.dev.",
main = "Uses \"std.dev.\" Divider for the Moderator",
xlab = "My Predictor", ylab = "Write Anything You Want for ylab")
## Will catch output object from this one
m1ps <- plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = "std.dev.", n = 5,
main = "Setting n = 5 Selects More Focal Values for Plotting")
m1ts <- testSlopes(m1ps)
plot(m1ts)
### Examples with categorical Moderator variable
m3 <- lm (y ~ x1 + xcat1, data = dat)
summary(m3)
plotSlopes(m3, modx = "xcat1", plotx = "x1")
plotSlopes(m3, modx = "xcat1", plotx = "x1", interval = "predict")
plotSlopes(m3, modx = "x1", plotx = "xcat1", interval = "confidence",
legendArgs = list(x = "bottomright", title = ""))
m4 <- lm (y ~ x1 * xcat1, data = dat)
summary(m4)
plotSlopes(m4, modx = "xcat1", plotx = "x1")
plotSlopes(m4, modx = "xcat1", plotx = "x1", interval = "conf")
m5 <- lm (y ~ x1 + x2 + x1 * xcat2, data = dat)
summary(m5)
plotSlopes(m5, modx = "xcat2", plotx = "x1")
m5ps <- plotSlopes(m5, modx = "xcat2", plotx = "x1", interval = "conf")
testSlopes(m5ps)
## Now examples with real data. How about Chilean voters?
library(carData)
m6 <- lm(statusquo ~ income * sex, data = Chile)
summary(m6)
plotSlopes(m6, modx = "sex", plotx = "income")
m6ps <- plotSlopes(m6, modx = "sex", plotx = "income", col = c("orange", "blue"))
testSlopes(m6ps)
m7 <- lm(statusquo ~ region * income, data= Chile)
summary(m7)
plotSlopes(m7, plotx = "income", modx = "region")
plotSlopes(m7, plotx = "income", modx = "region", plotPoints = FALSE)
plotSlopes(m7, plotx = "income", modx = "region", plotPoints = FALSE,
interval = "conf")
plotSlopes(m7, plotx = "income", modx = "region", modxVals = c("SA","S", "C"),
plotPoints = FALSE, interval = "conf")
## Same, choosing 3 most frequent values
plotSlopes(m7, plotx = "income", modx = "region", n = 3, plotPoints = FALSE,
interval = "conf")
m8 <- lm(statusquo ~ region * income + sex + age, data= Chile)
summary(m8)
plotSlopes(m8, modx = "region", plotx = "income")
m9 <- lm(statusquo ~ income * age + education + sex + age, data = Chile)
summary(m9)
plotSlopes(m9, modx = "income", plotx = "age")
m9ps <- plotSlopes(m9, modx = "income", plotx = "age")
m9psts <- testSlopes(m9ps)
plot(m9psts) ## only works if moderator is numeric
## Demonstrate re-labeling
plotSlopes(m9, modx = "income", plotx = "age", n = 5,
modxVals = c("Very poor" = 7500, "Rich" = 125000),
main = "Chile Data", legendArgs = list(title = "Designated Incomes"))
plotSlopes(m9, modx = "income", plotx = "age", n = 5, modxVals = c("table"),
main = "Moderator: mean plus/minus 2 SD")
## Convert education to numeric, for fun
Chile$educationn <- as.numeric(Chile$education)
m10 <- lm(statusquo ~ income * educationn + sex + age, data = Chile)
summary(m10)
plotSlopes(m10, plotx = "educationn", modx = "income")
## Now, the occupational prestige data. Please note careful attention
## to consistency of colors selected
data(Prestige)
m11 <- lm(prestige ~ education * type, data = Prestige)
plotSlopes(m11, plotx = "education", modx = "type", interval = "conf")
dev.new()
plotSlopes(m11, plotx = "education", modx = "type",
modxVals = c("prof"), interval = "conf")
dev.new()
plotSlopes(m11, plotx = "education", modx = "type",
modxVals = c("bc"), interval = "conf")
dev.new()
plotSlopes(m11, plotx = "education", modx = "type",
modxVals = c("bc", "wc"), interval = "conf")
rockchalk documentation built on Aug. 6, 2022, 5:05 p.m.
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| plotSlopes | R Documentation |
Generic function for plotting regressions and interaction effects
Description
This is a function for plotting regression
objects. So far, there is an implementation for lm() objects.
I've been revising plotSlopes so that it should handle the work
performed by plotCurves. As sure as that belief is verified,
the plotCurves work will be handled by plotSlopes. Different
plot types are created, depending on whether the x-axis predictor
plotx is numeric or categorical.
##'
This is a "simple slope" plotter for regression objects created by
lm() or similar functions that have capable predict methods
with newdata arguments. The term "simple slopes" was coined by
psychologists (Aiken and West, 1991; Cohen, et al 2002) for
analysis of interaction effects for particular values of a
moderating variable. The moderating variable may be continuous or
categorical, lines will be plotted for focal values of that
variable.
Usage
plotSlopes(model, plotx, ...)
## S3 method for class 'lm'
plotSlopes(
model,
plotx,
modx = NULL,
n = 3,
modxVals = NULL,
plotxRange = NULL,
interval = c("none", "confidence", "prediction"),
plotPoints = TRUE,
legendPct = TRUE,
legendArgs,
llwd = 2,
opacity = 100,
...,
col = c("black", "blue", "darkgreen", "red", "orange", "purple", "green3"),
type = c("response", "link"),
gridArgs,
width = 0.2
)
Arguments
model |
Required. A fitted Regression |
plotx |
Required. Name of one predictor from the fitted model to be plotted on horizontal axis. May be numeric or factor. |
... |
Additional arguments passed to methods. Often includes arguments that are passed to plot. Any arguments that customize plot output, such as lwd, cex, and so forth, may be supplied. These arguments intended for the predict method will be used: c("type", "se.fit", "interval", "level", "dispersion", "terms", "na.action") |
modx |
Optional. String for moderator variable name. May be either numeric or factor. If omitted, a single predicted value line will be drawn. |
n |
Optional. Number of focal values of |
modxVals |
Optional. Focal values of |
plotxRange |
Optional. If not specified, the observed range of plotx will be used to determine the axis range. |
interval |
Optional. Intervals provided by the
|
plotPoints |
Optional. TRUE or FALSE: Should the plot include the scatterplot points along with the lines. |
legendPct |
Default = TRUE. Variable labels print with sample percentages. |
legendArgs |
Set as "none" if no legend is desired. Otherwise, this can be a list of named arguments that will override the settings I have for the legend. |
llwd |
Optional, default = 2. Line widths for predicted values. Can be single value or a vector, which will be recycled as necessary. |
opacity |
Optional, default = 100. A number between 1 and 255. 1 means "transparent" or invisible, 255 means very dark. Determines the darkness of confidence interval regions |
col |
Optional.I offer my preferred color vector as default.
Replace if you like. User may supply a vector of valid
color names, or |
type |
Argument passed to the predict function. If model is glm, can be either "response" or "link". For lm, no argument of this type is needed, since both types have same value. |
gridArgs |
Only used if plotx (horizontal axis) is a factor
variable. Designates reference lines between values. Set as
"none" if no grid lines are needed. Default will be
|
width |
Only used if plotx (horizontal axis) is a factor. Designates thickness of shading for bars that depict confidence intervals. |
Details
The original plotSlopes did not work well with nonlinear
predictors (log(x) and poly(x)). The separate function
plotCurves() was created for nonlinear predictive equations
and generalized linear models, but the separation of the two
functions was confusing for users. I've been working to make
plotSlopes handle everything and plotCurves will disappear
at some point. plotSlopes can create an object which
is then tested with testSlopes() and that can be graphed
by a plot method.
The argument plotx is the name of the horizontal plotting
variable. An innovation was introduced in Version 1.8.33 so that
plotx can be either numeric or categorical.
The argument modx is the moderator variable. It may be
either a numeric or a factor variable. As of version 1.7, the modx
argument may be omitted. A single predicted value line will be
drawn. That version also introduced the arguments interval and n.
There are many ways to specify focal values using the arguments
modxVals and n. This changed in rockchalk-1.7.0. If
modxVals is omitted, a default algorithm for the variable
type will be used to select n values for
plotting. modxVals may be a vector of values (for a numeric
moderator) or levels (for a factor). If modxVals is a vector of
values, then the argument n is ignored. However, if
modxVals is one of the name of one of the algorithms, "table",
"quantile", or "std.dev.", then the argument n sets number
of focal values to be selected. For numeric modx, n
defaults to 3, but for factors modx will be the number of
observed values of modx. If modxVals is omitted, the
defaults will be used ("table" for factors, "quantile" for numeric
variables).
For the predictors besides modx and plotx (the ones
that are not explicitly included in the plot), predicted values
are calculated with variables set to the mean and mode, for numeric
or factor variables (respectively). Those values can be reviewed
in the newdata object that is created as a part of the output from
this function
Value
Creates a plot and an output object that summarizes it.
The return object includes the "newdata" object that was used to create the plot, along with the "modxVals" vector, the values of the moderator for which lines were drawn, and the color vector. It also includes the call that generated the plot.
Author(s)
Paul E. Johnson pauljohn@ku.edu
References
Aiken, L. S. and West, S.G. (1991). Multiple Regression: Testing and Interpreting Interactions. Newbury Park, Calif: Sage Publications.
Cohen, J., Cohen, P., West, S. G., and Aiken, L. S. (2002). Applied Multiple Regression/Correlation Analysis for the Behavioral Sciences (Third.). Routledge Academic.
See Also
testSlopes plotCurves
Examples
## Manufacture some predictors
set.seed(12345)
dat <- genCorrelatedData2 (N = 100, means = rep(0,4), sds = 1, rho = 0.2,
beta = c(0.3, 0.5, -0.45, 0.5, -0.1, 0, 0.6),
stde = 2)
dat$xcat1 <- gl(2, 50, labels = c("M", "F"))
dat$xcat2 <- cut(rnorm(100), breaks = c(-Inf, 0, 0.4, 0.9, 1, Inf),
labels = c("R", "M", "D", "P", "G"))
## incorporate effect of categorical predictors
dat$y <- dat$y + 1.9 * dat$x1 * contrasts(dat$xcat1)[dat$xcat1] +
contrasts(dat$xcat2)[dat$xcat2 , ] %*% c(0.1, -0.16, 0, 0.2)
m1 <- lm(y ~ x1 * x2 + x3 + x4 + xcat1* xcat2, data = dat)
summary(m1)
## New in rockchalk 1.7.x. No modx required:
plotSlopes(m1, plotx = "x1")
## Confidence interval, anybody?
plotSlopes(m1, plotx = "x1", interval = "conf")
## Prediction interval.
plotSlopes(m1, plotx = "x1", interval = "pred")
plotSlopes(m1, plotx = "x1", modx = "xcat2", modxVals = c("R", "M"))
plotSlopes(m1, plotx = "x1", modx = "xcat2", interval = "pred")
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "conf", space = c(0,1))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2",
modxVals = c("Print R" = "R" , "Show M" = "M"), gridArgs = "none")
## Now experiment with a moderator variable
## let default quantile algorithm do its job
plotSlopes(m1, plotx = "xcat2", interval = "none")
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "none")
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
legendArgs = list(title = "xcat2"), ylim = c(-3, 3), lwd = 0.4)
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
legendArgs = list(title = "xcat2"), ylim = c(-3, 3), lwd = 0.4, width = 0.25)
m1.ps <- plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "prediction")
m1.ps <- plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "prediction", space=c(0,2))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "prediction", gridArgs = "none")
plotSlopes(m1, plotx = "xcat2", modx = "xcat1", interval = "confidence", ylim = c(-3, 3))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = c("black", "blue", "green", "red", "orange"), lty = c(1, 4, 6, 3))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = gray.colors(4, end = 0.5), lty = c(1, 4, 6, 3), legendArgs = list(horiz=TRUE))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = c("pink", "orange"))
plotSlopes(m1, plotx = "xcat1", interval = "confidence",
col = c("black", "blue", "green", "red", "orange"))
plotSlopes(m1, plotx = "xcat1", modx = "xcat2", interval = "confidence",
col = c("black", "blue", "green", "red", "orange"),
gridlwd = 0.2)
## previous uses default equivalent to
## plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = "quantile")
## Want more focal values?
plotSlopes(m1, plotx = "x1", modx = "x2", n = 5)
## Pick focal values yourself?
plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = c(-2, 0, 0.5))
## Alternative algorithm?
plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = "std.dev.",
main = "Uses \"std.dev.\" Divider for the Moderator",
xlab = "My Predictor", ylab = "Write Anything You Want for ylab")
## Will catch output object from this one
m1ps <- plotSlopes(m1, plotx = "x1", modx = "x2", modxVals = "std.dev.", n = 5,
main = "Setting n = 5 Selects More Focal Values for Plotting")
m1ts <- testSlopes(m1ps)
plot(m1ts)
### Examples with categorical Moderator variable
m3 <- lm (y ~ x1 + xcat1, data = dat)
summary(m3)
plotSlopes(m3, modx = "xcat1", plotx = "x1")
plotSlopes(m3, modx = "xcat1", plotx = "x1", interval = "predict")
plotSlopes(m3, modx = "x1", plotx = "xcat1", interval = "confidence",
legendArgs = list(x = "bottomright", title = ""))
m4 <- lm (y ~ x1 * xcat1, data = dat)
summary(m4)
plotSlopes(m4, modx = "xcat1", plotx = "x1")
plotSlopes(m4, modx = "xcat1", plotx = "x1", interval = "conf")
m5 <- lm (y ~ x1 + x2 + x1 * xcat2, data = dat)
summary(m5)
plotSlopes(m5, modx = "xcat2", plotx = "x1")
m5ps <- plotSlopes(m5, modx = "xcat2", plotx = "x1", interval = "conf")
testSlopes(m5ps)
## Now examples with real data. How about Chilean voters?
library(carData)
m6 <- lm(statusquo ~ income * sex, data = Chile)
summary(m6)
plotSlopes(m6, modx = "sex", plotx = "income")
m6ps <- plotSlopes(m6, modx = "sex", plotx = "income", col = c("orange", "blue"))
testSlopes(m6ps)
m7 <- lm(statusquo ~ region * income, data= Chile)
summary(m7)
plotSlopes(m7, plotx = "income", modx = "region")
plotSlopes(m7, plotx = "income", modx = "region", plotPoints = FALSE)
plotSlopes(m7, plotx = "income", modx = "region", plotPoints = FALSE,
interval = "conf")
plotSlopes(m7, plotx = "income", modx = "region", modxVals = c("SA","S", "C"),
plotPoints = FALSE, interval = "conf")
## Same, choosing 3 most frequent values
plotSlopes(m7, plotx = "income", modx = "region", n = 3, plotPoints = FALSE,
interval = "conf")
m8 <- lm(statusquo ~ region * income + sex + age, data= Chile)
summary(m8)
plotSlopes(m8, modx = "region", plotx = "income")
m9 <- lm(statusquo ~ income * age + education + sex + age, data = Chile)
summary(m9)
plotSlopes(m9, modx = "income", plotx = "age")
m9ps <- plotSlopes(m9, modx = "income", plotx = "age")
m9psts <- testSlopes(m9ps)
plot(m9psts) ## only works if moderator is numeric
## Demonstrate re-labeling
plotSlopes(m9, modx = "income", plotx = "age", n = 5,
modxVals = c("Very poor" = 7500, "Rich" = 125000),
main = "Chile Data", legendArgs = list(title = "Designated Incomes"))
plotSlopes(m9, modx = "income", plotx = "age", n = 5, modxVals = c("table"),
main = "Moderator: mean plus/minus 2 SD")
## Convert education to numeric, for fun
Chile$educationn <- as.numeric(Chile$education)
m10 <- lm(statusquo ~ income * educationn + sex + age, data = Chile)
summary(m10)
plotSlopes(m10, plotx = "educationn", modx = "income")
## Now, the occupational prestige data. Please note careful attention
## to consistency of colors selected
data(Prestige)
m11 <- lm(prestige ~ education * type, data = Prestige)
plotSlopes(m11, plotx = "education", modx = "type", interval = "conf")
dev.new()
plotSlopes(m11, plotx = "education", modx = "type",
modxVals = c("prof"), interval = "conf")
dev.new()
plotSlopes(m11, plotx = "education", modx = "type",
modxVals = c("bc"), interval = "conf")
dev.new()
plotSlopes(m11, plotx = "education", modx = "type",
modxVals = c("bc", "wc"), interval = "conf")
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