The scatter3d
function uses the rgl
package to draw 3D scatterplots
with various regression surfaces. The function Identify3d
allows you to label points interactively with the mouse:
Press the right mouse button (on a two-button mouse) or the centre button (on a
three-button mouse), drag a
rectangle around the points to be identified, and release the button.
Repeat this procedure for each point or
set of “nearby” points to be identified. To exit from point-identification mode,
click the right (or centre) button in an empty region of the plot.
scatter3d(x, ...)# S3 method for formula
scatter3d(formula, data, subset, radius, xlab, ylab, zlab, labels, ...)
# S3 method for default
scatter3d(x, y, z,
xlab=deparse(substitute(x)), ylab=deparse(substitute(y)),
zlab=deparse(substitute(z)), axis.scales=TRUE, axis.ticks=FALSE,
revolutions=0, bg.col=c("white", "black"),
axis.col=if (bg.col == "white") c("darkmagenta", "black", "darkcyan")
else c("darkmagenta", "white", "darkcyan"),
surface.col=c("blue", "green", "orange", "magenta", "cyan", "red",
"yellow", "gray"), surface.alpha=0.5,
neg.res.col="red", pos.res.col="green",
square.col=if (bg.col == "white") "black" else "gray", point.col="yellow",
text.col=axis.col, grid.col=if (bg.col == "white") "black" else "gray",
fogtype=c("exp2", "linear", "exp", "none"),
residuals=(length(fit) == 1), surface=TRUE, fill=TRUE, grid=TRUE,
grid.lines=26, df.smooth=NULL, df.additive=NULL,
sphere.size=1, radius=1, threshold=0.01, speed=1, fov=60,
fit="linear", groups=NULL, parallel=TRUE,
ellipsoid=FALSE, level=0.5, ellipsoid.alpha=0.1,
id.method=c("mahal", "xz", "y", "xyz", "identify", "none"),
id.n=if (id.method == "identify") Inf else 0,
labels=as.character(seq(along=x)), offset = ((100/length(x))^(1/3)) * 0.02,
model.summary=FALSE, ...)
Identify3d(x, y, z, axis.scales=TRUE, groups = NULL, labels = 1:length(x),
col = c("blue", "green", "orange", "magenta", "cyan", "red", "yellow", "gray"),
offset = ((100/length(x))^(1/3)) * 0.02)
``model'' formula, of the form y ~ x + z
or
(to plot by groups) y ~ x + z | g
, where g
evaluates to a factor
or other variable dividing the data into groups.
data frame within which to evaluate the formula.
expression defining a subset of observations.
variable for horizontal axis.
variable for vertical axis (response).
variable for out-of-screen axis.
axis labels.
if TRUE
, label the values of the ends of the axes.
Note: For Identify3d
to work properly, the value of this argument must
be the same as in scatter3d
.
if TRUE
, print interior axis-``tick'' labels; the default is FALSE
.
(The code for this option was provided by David Winsemius.)
number of full revolutions of the display.
background colour; one of "white"
, "black"
.
colours for axes; if axis.scales
is FALSE
, then
the second colour is used for all three axes.
vector of colours for regression planes,
used in the order specified by fit
; for multi-group plots, the colours are used for the regression
surfaces and points in the several groups.
transparency of regression surfaces, from 0.0
(fully transparent) to 1.0
(opaque); default is 0.5
.
colours for lines representing negative and positive residuals.
colour to use to plot squared residuals.
colour of points.
colour of axis labels.
colour of grid lines on the regression surface(s).
type of fog effect; one of "exp2"
, "linear"
,
"exp"
, "none".
plot residuals if TRUE
; if residuals="squares"
,
then the squared residuals are shown as squares (using code adapted from Richard
Heiberger). Residuals are available only when there is one surface plotted.
plot surface(s) (TRUE
or FALSE
).
fill the plotted surface(s) with colour (TRUE
or FALSE
).
plot grid lines on the regression surface(s) (TRUE
or FALSE
).
number of lines (default, 26) forming the grid, in each of the x and z directions.
degrees of freedom for the two-dimensional smooth regression surface;
if NULL
(the default), the gam
function will select the degrees of freedom
for a smoothing spline by generalized cross-validation; if a positive number, a fixed
regression spline will be fit with the specified degrees of freedom.
degrees of freedom for each explanatory variable in an additive regression;
if NULL
(the default), the gam
function will select degrees of freedom
for the smoothing splines by generalized cross-validation; if a positive number
or a vector of two positive numbers, fixed
regression splines will be fit with the specified degrees of freedom for each term.
general size of spheres representing points; the actual size is dependent on the number of observations.
relative radii of the spheres representing the points. This is normally a vector of the
same length as the variables giving the coordinates of the points, and for the formula
method,
that must be the case or the argument may be omitted, in which case spheres are the same size;
for the default
method, the default for the argument, 1
, produces spheres
all of the same size. The radii are scaled so that their median is 1.
if the actual size of the spheres is less than the threshold, points are plotted instead.
relative speed of revolution of the plot.
field of view (in degrees); controls degree of perspective.
one or more of "linear"
, "quadratic"
, "smooth"
,
"additive"
; to display fitted surface(s); partial matching is supported --
e.g., c("lin", "quad")
.
if NULL
(the default), no groups are defined; if a factor, a different surface
or set of surfaces is plotted for each level of the factor; in this event, the colours in
surface.col
are used successively for the points, surfaces, and residuals corresponding to
each level of the factor.
when plotting surfaces by groups
, should the surfaces be constrained to be
parallel? A logical value, with default TRUE
.
plot concentration ellipsoid(s) (TRUE
or FALSE
).
expected proportion of bivariate-normal observations included in the concentration ellipsoid(s); default is 0.5.
transparency of ellipsoids, from 0.0
(fully transparent) to 1.0
(opaque); default is 0.1
.
if "mahal"
(the default), relatively extreme points are identified automatically
according to their Mahalanobis distances from the centroid (point of means);
if "identify"
, points are identified interactively by right-clicking and dragging a box around them; right-click
in an empty area to exit from interactive-point-identification mode; if "xz"
, identify extreme points in the
predictor plane; if "y"
, identify unusual values of the response; if "xyz"
identify
unusual values of an variable; if "none"
, no point identification.
See showLabels
for more information.
Number of relatively extreme points to identify automatically (default, 0
unless
id.method="identify"
).
print summary or summaries of the model(s) fit
(TRUE
or FALSE
). scatter3d
rescales the three variables
internally to fit in the unit cube; this rescaling will affect regression
coefficients.
text labels for the points, one for each point; in the default
method defaults to
the observation indices, in the formula
method to the row names of the data.
colours for the point labels, given by group. There must be at
least as many colours as groups; if there are no groups, the first colour is used. Normally, the colours
would correspond to the surface.col
argument to scatter3d
.
vertical displacement for point labels (to avoid overplotting the points).
arguments to be passed down.
scatter3d
does not return a useful value; it is used for its side-effect of
creating a 3D scatterplot. Identify3d
returns the labels of the
identified points.
Fox, J. and Weisberg, S. (2011) An R Companion to Applied Regression, Second Edition, Sage.
# NOT RUN {
if(interactive() && require(rgl) && require(mgcv)){
scatter3d(prestige ~ income + education, data=Duncan)
Sys.sleep(5) # wait 5 seconds
scatter3d(prestige ~ income + education | type, data=Duncan)
Sys.sleep(5)
scatter3d(prestige ~ income + education | type, surface=FALSE,
ellipsoid=TRUE, revolutions=3, data=Duncan)
scatter3d(prestige ~ income + education, fit=c("linear", "additive"),
data=Prestige)
Sys.sleep(5)
scatter3d(prestige ~ income + education | type,
radius=(1 + women)^(1/3), data=Prestige)
}
# }
# NOT RUN {
# drag right mouse button to identify points, click right button in open area to exit
scatter3d(prestige ~ income + education, data=Duncan, id.method="identify")
scatter3d(prestige ~ income + education | type, data=Duncan, id.method="identify")
# }
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