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plotrix (version 3.8-2)

radial.pie: Plot sectors/annuli on a circular grid of 0 to 2*pi radians

Description

Plot numeric values as sectors with optional annuli on a circular field in the directions defined by angles in radians.

Usage

radial.pie(radial.extents,sector.edges=NULL,
 sector.colors=NULL,cs1=c(0,1),cs2=c(0,1),cs3=c(0,1),
 alpha=1,labels=NA,label.pos=NULL,radlab=FALSE,start=0,
 clockwise=FALSE,label.prop=1.1,radial.lim=NULL,main="",xlab="",ylab="",
 mar=c(2,2,3,2),show.grid=TRUE,show.grid.labels=4,show.radial.grid=TRUE,
 grid.col="gray",grid.bg="transparent",grid.unit=NULL,
 radial.labels=NULL,boxed.radial=TRUE,add=FALSE,...)

Value

The par values that are changed in the function as they were at the time radial.pie was called.

Arguments

radial.extents

A numeric data vector or list. If radial.extents is a list, the elements of the list will be considered separate data vectors.

sector.edges

A numeric vector of positions in radians. These are interpreted as beginning at the right (0 radians) and moving counterclockwise unless clockwise is TRUE.

sector.colors

Optional colors for the sectors and annuli. Defaults to rainbow(nsectors) with fading outward if annuli are specified.

cs1, cs2, cs3, alpha

Color scaling arguments - see color.scale.

labels

Character strings to be placed at the outer ends of the lines. If set to NA, will suppress printing of labels, but if missing, the radial positions will be used.

label.pos

The positions of the labels around the plot in radians.

radlab

Whether to rotate the outer labels to a radial orientation.

start

Where to place the starting (zero) point. Defaults to the 3 o'clock position.

clockwise

Whether to interpret positive positions as clockwise from the starting point. The default is counterclockwise.

label.prop

The label position radius as a proportion of the maximum line length.

radial.lim

The inner and outer radial limits for the plot. Defaults to the range of radial.extents, although zero to max(radial.extents) is often what is wanted.

main

The title for the plot.

xlab,ylab

Normally x and y axis labels are suppressed.

mar

Margins for the plot. Allows the user to leave space for legends, long labels, etc.

show.grid

Logical - whether to draw a circular grid.

show.grid.labels

Whether and where to display labels for the grid - see Details.

show.radial.grid

Whether to draw radial lines to the plot labels.

grid.col

Color of the circular grid.

grid.bg

Fill color of above.

grid.unit

Optional unit description for the grid.

radial.labels

Optional labels for the radial grid. The default is the values of radial.lim.

boxed.radial

Whether to use boxed.labels or text for radial labels.

add

Whether to add one or more series to an existing plot.

...

Additional arguments are passed to plot.

Author

Jim Lemon - thanks to Patrick Jemison for asking for it.

Details

radial.pie displays a plot of radial sectors with optional annular sections centered at the midpoint of the plot frame, the lengths corresponding to the numeric magnitudes of radial.extents.

If more series are added to an existing plot, radial.pie will try to maintain the current plot parameters. However, it seems unlikely that adding series would be sensible in radial.pie. This argument may be dropped if it proves useless.

The size of the labels on the outside of the plot can be adjusted by setting par(cex.axis=) and that of the labels inside by setting par(cex.lab=). If radlab is TRUE, the labels will be rotated to a radial alignment. This may help when there are many values and labels. If some labels are still crowded, try running label.pos through the spreadout function. If the show.grid.labels argument is a number from 1 to 4, the labels will be placed along a horizontal or vertical radius. The numbers represent the same positions as in axis, with the default (4) on the right. To suppress these labels, pass zero or FALSE.

radial.pie works somewhat differently from the radial.plot family and is still under development. I have released it in order to get feedback to improve both the design and the programming. If successful, I hope to merge the code with the radial.plot function.

See Also

radial.plot

Examples

Run this code
 pie1<-c(3,6,5,4,7,8,9,1,4)
 pie2<-list(0:3,1:6,2:5,1:4,0:7,4:8,2:9,0:1,0:4)
 pie3<-sample(10:60,36)
 pie4<-list(sort(sample(1:60,8)))
 for(sector in 2:36) pie4[[sector]]<-sort(sample(1:60,8))
 oldpar<-radial.pie(pie1,labels=LETTERS[1:9])
 radial.pie(pie2,labels=letters[2:10])
 radial.pie(pie3,labels=1:36)
 radial.pie(pie4,labels=1:36)
 # restore the par values
 par(oldpar)

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