rsm (version 2.8)

contour.lm: Surface plot(s) of a fitted linear model

Description

contour, image, and persp methods that display the fitted surface for an lm object involving two or more numerical predictors.

Usage

# S3 method for lm
contour(x, form, at, bounds, zlim, xlabs, hook, 
    plot.it = TRUE, atpos = 1, decode = TRUE, image = FALSE, 
    img.col = terrain.colors(50), ...)

# S3 method for lm image(x, form, at, bounds, zlim, xlabs, hook, atpos = 1, decode = TRUE, ...)

# S3 method for lm persp(x, form, at, bounds, zlim, zlab, xlabs, col = "white", contours = NULL, hook, atpos = 3, decode = TRUE, theta = -25, phi = 20, r = 4, border = NULL, box = TRUE, ticktype = "detailed", ...)

Arguments

x

A lm object.

form

A formula, or a list of formulas.

at

Optional named list of fixed values to use for surface slices. For example, if the predictor variables are x1, x2, and x3, the contour plot of x2 versus x1 would be based on the fitted surface sliced at the x3 value specified in at; the contour plot of x3 versus x1 would be sliced at the at value for x2; etc. If not provided, at defaults to the mean value of each numeric variable.

bounds

Optional named list of bounds or grid values to use for the variables having the same names. See details.

zlim

zlim setting passed to parent methods contour, image, or persp. The same zlim is used in all plots when several are produced. If not provided, the range of values across all plotted surfaces is used.

zlab

Optional label for the vertical axis.

xlabs

Alternate labels for predictor axes (see Details).

hook

Optional list that can contain functions pre.plot and post.plot. May be used to add annotations or to re-route the graphs to separate files (see Details).

atpos

Determines where at values are displayed. A value of 1 (or 2) displays it as part of the x (or y) axis label. A value of 3 displays it as a subtitle below the plot. A value of 0 suppresses it. Any other nonzero value will cause the label to be generated but not displayed; it can be accessed via a hook function.

decode

This has an effect only if x is an rsm object or other model object that supports coded.data. In such cases, if decode is TRUE, the coordinate axes are transformed to their decoded values.

image

Set to TRUE if you want an image plot overlaid by contours.

img.col

Color map to use when image=TRUE.

plot.it

If TRUE, no plot is produced, just the return value.

col

Color or colors used for facets in the perspective plot (see details).

contours

If non-NULL, specifications for added contour lines in perspective plot.

theta, phi

Viewing angles passed to persp (different defaults).

r

Viewing distance passed to persp (different default).

border, box

Options passed to persp.

ticktype

Option passed to persp (different default).

Additional arguments passed to contour, image, or persp. Note, however, that a ylab is ignored, with a message to Use xlabs instead.

Value

A list containing information that is plotted. Each list item is itself a list with the following components:

x, y

The values used for the x and y axes

z

The matrix of fitted response values

labs

Character vector of length 5: Elements 1 and 2 are the x and y axis labels, elements 3 and 4 are their original variable names, and element 5 is the slice label (empty if atpos is 0)

zlim

The computed or provided zlim values

transf

(persp only) The 3D transformation for trans3d

Details

form may be a single formula or a list of formulas. A simple formula like x2 ~ x1 will produce a contour plot of the fitted regression surface for combinations of x2 (vertical axis) and x1 (horizontal axis). A list of several such simple formulas will produce a contour plot for each formula. A two-sided formula produces contour plots for each left-hand variable versus each right-hand variable (except when they are the same); for example, x1+x3 ~ x2+x3 is equivalent to list(x1~x2, x3~x2, x1~x3). A one-sided formula produces contour plots for each pair of variables. For example, ~ x1+x2+x3 is equivalent to list(x2~x1, x3~x1, x3~x2).

For any variables not in the bounds argument, a grid of 26 equally-spaced values in the observed range of that variable is used. If you specify a vector of length 2, it is interpreted as the desired range for that variable and a grid of 26 equally-spaced points is generated. If it is a vector of length 3, the first two elements are used as the range, and the third as the number of grid points. If it is a vector of length 4 or more, those values are used directly as the grid values.

The results are based on the predicted values of the linear model over the specified grid. If there are factors among the predictors, the predictions are made over all levels (or combinations of levels) of those factors, and then averaged together. (However, the user may include factors in at to restrict this behavior.)

By default, the predictor axes are labeled using the variable names in form, unless x is an rsm or other object that supports coded.data, in which case either the decoded variable names or the variable-coding formulas are used to generate axis labels, depending on whether decode is TRUE or FALSE. These axis labels are replaced by the entries in xlabs if provided. One must be careful using this to make sure that the names are mapped correctly. The entries in xlabs should match the respective unique variable names in form, after sorting them in (case-insensitive) alphabetical order (not necessarily in order of appearance). Note that if form is changed, it may also be necessary to change xlabs.

Please note that with models fitted to coded data, coded values should be used in at or bounds, regardless of whether decode is TRUE or FALSE. However, any elements that are added afterward via points, lines, etc., must be specified in terms of whatever coordinate system is present in the plots.

In persp, contour lines may be added via the contours argument. It may be a boolean or character value, or a list. If boolean and TRUE, default black contour lines are added to the bottom surface of the box. Character values of "top", "bottom" add black contour lines to the specified surface of the box. contours = "colors" puts contour lines on the bottom using the same colors as those at the same height on the surface. Other character values of contours are taken to be the desired color of the contour lines, plotted at the bottom. If contours is a named list, its elements (all are optional) are used as follows:

z

Height where the contour lines are plotted. May be "bottom" (default), "top", or a numeric value.

col

Color of the lines. If not specified, they will be black. May be integer color values, color names, or "colors" to match the surface colors.

lwd

Line width; default is 1.

Since these functions often produce several plots, the hook argument is provided if special setups or annotations are needed for each plot. It should be a list that defines one or both of the functions pre.plot and post.plot. Both of these functions have one argument, the character vector labs for that plot (see Value documentation).

Additional examples and discussion of these plotting functions is available via vignette("rsm-plots").

References

Lenth RV (2009) ``Response-Surface Methods in R, Using rsm'', Journal of Statistical Software, 32(7), 1--17. http://www.jstatsoft.org/v32/i07/.

See Also

contour

Examples

Run this code
# NOT RUN {
library (rsm)
heli.rsm <- rsm (ave ~ block + SO(x1, x2, x3, x4), data = heli)

# Plain contour plots
par (mfrow = c (2,3))
contour (heli.rsm, ~x1+x2+x3+x4, at = xs(heli.rsm))

# Same but with image overlay, slices at origin and block 2,
# and no slice labeling
contour (heli.rsm, ~x1+x2+x3+x4, at = list(block="2"), 
    atpos = 0, image = TRUE)

# Default perspective views
persp (heli.rsm, ~x1+x2+x3+x4, at = xs(heli.rsm))

# Same plots, souped-up with facet coloring and axis labeling
persp (heli.rsm, ~x1+x2+x3+x4, at = xs(heli.rsm),
    contours = "col", col = rainbow(40), zlab = "Flight time",
  xlabs = c("Wing area", "Wing length", "Body width", "Body length"))
  
# }
# NOT RUN {
### Hints for creating graphics files for use in publications...

# Save perspective plots in one PDF file (will be six pages long)
pdf(file = "heli-plots.pdf")
persp (heli.rsm, ~x1+x2+x3+x4, at = xs(heli.rsm))
dev.off()

# Save perspective plots in six separate PNG files
png.hook = list(
    pre.plot = function(lab) 
        png(file = paste(lab[3], lab[4], ".png", sep = "")),
    post.plot = function(lab)
        dev.off())
persp (heli.rsm, ~x1+x2+x3+x4, at = xs(heli.rsm), hook = png.hook)
# }
# NOT RUN {
 
# }
# NOT RUN {
<!-- %--- end of dontrun -->
# }

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