image3D: Images in 3-D plots.
In plot3D: Plotting Multi-Dimensional Data

Description Usage Arguments Details Value Author(s) See Also Examples

image3D adds an image in a 3-D plot.

image3D (x = NULL, y = NULL, z = NULL, ..., colvar = NULL, 
      phi = 40, theta = 40, col = NULL,
      NAcol = "white", breaks = NULL, border = NA, facets = TRUE,
      colkey = NULL, resfac = 1, panel.first = NULL,
      clim = NULL, clab = NULL, bty = "b",
      inttype = 1, add = FALSE, plot = TRUE)

`x, y, z`	Matrix (2-D), vector, or one value containing the values where the image is to be plotted. At least one of them should be one number, as this will determine where the image is plotted, parallel to the (y-z) plane (x one number), to the (x-z) plane (y one number) or to the (z-y) plane (z one number). If two are vectors, the first vector should be of length equal to `nrow(colvar)` and the second should be of length equal to `ncol(colvar)`.
`colvar`	The variable used for coloring.
`col`	Color palette to be used for the `colvar` variable.
`NAcol`	Color to be used for `NA` values of `colvar`; default is “white”.
`breaks`	a set of finite numeric breakpoints for the colors; must have one more breakpoint than color and be in increasing order. Unsorted vectors will be sorted, with a warning.
`colkey`	A logical, `NULL` (default), or a `list` with parameters for the color key (legend). List parameters should be one of `side, plot, length, width, dist, shift, addlines, col.clab, cex.clab, side.clab, line.clab, adj.clab, font.clab` and the axis parameters `at, labels, tick, line, pos, outer, font, lty, lwd, lwd.ticks, col.box, col.axis, col.ticks, hadj, padj, cex.axis, mgp, tck, tcl, las`. The defaults for the parameters are `side = 4, plot = TRUE, length = 1, width = 1, dist = 0, shift = 0, addlines = FALSE, col.clab = NULL, cex.clab = par("cex.lab"), side.clab = NULL, line.clab = NULL, adj.clab = NULL, font.clab = NULL`) See colkey. The default is to draw the color key on side = 4, i.e. in the right margin. If `colkey` = `NULL` then a color key will be added only if `col` is a vector. Setting `colkey = list(plot = FALSE)` will create room for the color key without drawing it. if `colkey = FALSE`, no color key legend will be added.
`clab`	Only if `colkey = TRUE`, the label to be written on top of the color key. The label will be written at the same level as the main title. to lower it, `clab` can be made a vector, with the first values empty strings.
`clim`	Only if `colvar` is specified, the range of the color variable, used for the color key. Values of `colvar` that extend the range will be put to `NA`.
`resfac`	Resolution factor, one value or a vector of two numbers, for the x and y- values respectively. A value > 1 will increase the resolution. For instance, if `resfac` equals `3` then for each adjacent pair of x- and y-values, z will be interpolated to two intermediary points. This uses simple linear interpolation. If `resfac` is one number then the resolution will be increased similarly in x and y-direction.
`theta, phi`	The angles defining the viewing direction. `theta` gives the azimuthal direction and `phi` the colatitude. see persp.
`border`	The color of the lines drawn around the surface facets. The default, `NA`, will disable the drawing of borders.
`facets`	If `TRUE`, then `col` denotes the color of the surface facets. If `FALSE`, then the surface facets are colored “white” and the `border` (if `NA`) will be colored as specified by `col`. If `NA` then the facets will be transparent. It is usually faster to draw with `facets = FALSE`.
`panel.first`	A `function` to be evaluated after the plot axes are set up (and if applicable, images or contours drawn) but before any plotting takes place. This can be useful for drawing background grids or scatterplot smooths. The function should have as argument the transformation matrix, e.g. it should be defined as `function(pmat)`. See example of persp3D and last example of voxel3D.
`bty`	The type of the box, the default only drawing background panels. Only effective if the persp argument (`box`) equals `TRUE` (this is the default). See perspbox.
`inttype`	The interpolation type to create the polygons, either taking the mean of the `colvar` variable (`inttype = 1, 3` or extending the `x, y, z` values (`inttype = 2`). Values `1, 3` differ in how they treat `NA`s in the `colvar` variable. For `inttype = 3`, `NA`s are removed before taking averages; this will tend to make the `NA` region smaller. `NA`s are included when `inttype = 1`. This will tend to make the `NA` region larger. see details and an example in persp3D.
`add`	Logical. If `TRUE`, then the image will be added to the current plot. If `FALSE` a new plot is started.
`plot`	Logical. If `TRUE` (default), a plot is created, otherwise the viewing transformation matrix is returned (as invisible).
`...`	additional arguments passed to the plotting methods. The following persp arguments can be specified: `xlim, ylim, zlim, xlab, ylab, zlab, main, sub, r, d, scale, expand, box, axes, nticks, ticktype`. The arguments `xlim`, `ylim`, `zlim` only affect the axes. All objects will be plotted, including those that fall out of these ranges. To select objects only within the axis limits, use plotdev. In addition, the perspbox arguments `col.axis, col.panel, lwd.panel, col.grid, lwd.grid` can also be given a value. `shade` and `lighting` arguments will have no effect. `alpha` can be given a value inbetween 0 and 1 to make colors transparent. Also the arguments `lty, lwd` can be specified (when `border` is not `NA`). The arguments after ... must be matched exactly.

image3D calls the surf3D function. The x, y, and z values are expanded as a matrix.

Returns the viewing transformation matrix. See trans3D.

Karline Soetaert <karline.soetaert@nioz.nl>

surf3D for the function on which image3D is based.

image2D for plot3Ds 2-D image function.

# save plotting parameters
 pm <- par("mfrow")

## =======================================================================
## images in x, y, z plane
## =======================================================================

 par(mfrow = c(2, 2))

# images in x, y, z plane
# We use colkey = list(plot = FALSE) to create room for a color key
 image3D(y = seq(0, 1, 0.1), z = seq(0, 1, 0.1), x = 0.5, 
   col = "blue", xlim = c(0,1), colkey = list(plot = FALSE))
 image3D(x = seq(0, 1, 0.1), z = seq(0, 1, 0.1), y = 0.5, 
   add = TRUE, col = "red", alpha = 0.2)   # alpha makes it transparent
 image3D(x = seq(0, 1, 0.1), y = seq(0, 1, 0.1), z = 0.5, 
   add = TRUE, col = "green")
 colkey(col = c("green", "red", "blue"), clim = c(0.5, 3.5), 
   at = 1:3, labels = c("z", "y", "x"), add = TRUE)
#
 image3D(z = 100, colvar = volcano, zlim = c(0, 150),
   clab = c("height", "m"))
  
#
 image3D( x = 0.5, colvar = volcano, xlim = c(0, 1), 
   ylim = c(0, 1), zlim = c(0, 1))

 image3D( y = 0.5, colvar = volcano, add = TRUE)

#
 image3D( z = 1, colvar = volcano, 
   x = seq(0, 1, length.out = nrow(volcano)),
   y = seq(0, 1, length.out = ncol(volcano)), 
   xlim = c(0, 2), ylim = c(0, 2), zlim = c(0, 2))
 image3D(y = 2, colvar = volcano, add = TRUE, 
    shade = 0.2,
    x = seq(0, 1, length.out = nrow(volcano)),
    z = seq(1, 2, length.out = ncol(volcano)))
 image3D(x = 2, colvar = NULL, col = "orange", add = TRUE, 
    y = seq(0, 1, length.out = nrow(volcano)),
    z = seq(1, 2, length.out = ncol(volcano)))

# reset plotting parameters
 par(mfrow = pm)