# This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Library General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Library General Public License for more details. # # You should have received A copy of the GNU Library General # Public License along with this library; if not, write to the # Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, # MA 02111-1307 USA # Copyrights (C) # for this R-port: # 1999 - 2008, Diethelm Wuertz, Rmetrics Foundation, GPL # Diethelm Wuertz # www.rmetrics.org # for the code accessed (or partly included) from other R-ports: # see R's copyright and license files # for the code accessed (or partly included) from contributed R-ports # and other sources # see Rmetrics's copyright file ################################################################################ # FUNCTION: SLIDER MENU: # .subStars Creates a sub stars plot ################################################################################ .subStars <- function (x, keyOffset = c(0, 0), loc = NULL, palette = NULL) { # Description: # Creates a sub stars plot # Details: # this is the stars::graphics() function modified in such a # way, that it works together with the subplot builtin. # FUNCTION: # Palette: if (is.null(palette)) palette = palette(rainbow(12, s = 0.6, v = 0.75)) # Graph Frame: xCol = ncol(x) yCol = nrow(x) NY = NX = ceiling(sqrt(xCol)) if (NX * NY == xCol) NY = NY + 1 if (is.null(loc)) { for (nx in 1:NY) for (ny in 1:NX) loc = rbind(loc, c(nx, ny)) loc = loc[1:xCol, ] loc[, 2] = NY + 1 - loc[, 2] } # Stars - Settings: x = t(x) locations = loc len = 0.4 key.loc = c(NX + 1, 1) + keyOffset xlim = c(1, NX + 0.5) ylim = c(0, NY + 1) op <- par("xpd") on.exit(par(op)) par(xpd = TRUE) labels = dimnames(x)[[1]] key.labels = dimnames(x)[[2]] n.loc <- nrow(x) n.seg <- ncol(x) xloc <- locations[, 1] yloc <- locations[, 2] angles <- seq.int(0, 2 * pi, length.out = n.seg + 1)[-(n.seg + 1)] x <- apply(x, 2, function(x) (x - min(x, na.rm = TRUE))/diff(range(x, na.rm = TRUE))) mx <- max(x <- x * len) if (is.null(xlim)) xlim <- range(xloc) + c(-mx, mx) if (is.null(ylim)) ylim <- range(yloc) + c(-mx, mx) deg <- pi/180 plot(0, type = "n", xlim = xlim, ylim = ylim, main = "", sub = "", xlab = "", ylab = "", asp = 1, axes = FALSE) s.x <- xloc + x * rep.int(cos(angles), rep.int(n.loc, n.seg)) s.y <- yloc + x * rep.int(sin(angles), rep.int(n.loc, n.seg)) aangl <- c(angles, if (TRUE) 2 * pi else pi) for (i in 1:n.loc) { px <- py <- numeric() for (j in 1:n.seg) { k <- seq.int(from = aangl[j], to = aangl[j + 1], by = 1 * deg) px <- c(px, xloc[i], s.x[i, j], x[i, j] * cos(k) + xloc[i], NA) py <- c(py, yloc[i], s.y[i, j], x[i, j] * sin(k) + yloc[i], NA) } polygon(px, py, col = 1:n.seg, lwd = 0.25, lty = 1) } text(xloc, yloc - mx + 0.04, labels, cex = 0.7, font = 2, adj = c(0.5, 1)) key.x <- len * cos(angles) + key.loc[1] key.y <- len * sin(angles) + key.loc[2] px <- py <- numeric() for (j in 1:n.seg) { k <- seq.int(from = aangl[j], to = aangl[j + 1], by = 1 * deg) px <- c(px, key.loc[1], key.x[j], len * cos(k) + key.loc[1], NA) py <- c(py, key.loc[2], key.y[j], len * sin(k) + key.loc[2], NA) } polygon(px, py, col = 1:n.seg, lwd = 0.25, lty = 1) lab.angl <- angles + (angles[2] - angles[1])/2 label.x <- 1.15 * len * cos(lab.angl) + key.loc[1] label.y <- 1.15 * len * sin(lab.angl) + key.loc[2] for (k in 1:n.seg) { text.adj <- c(if (lab.angl[k] < 90 * deg || lab.angl[k] > 270 * deg) 0 else if (lab.angl[k] > 90 * deg && lab.angl[k] < 270 * deg) 1 else 0.5, if (lab.angl[k] <= 90 * deg) (1 - lab.angl[k]/(90 * deg))/2 else if (lab.angl[k] <= 270 * deg) (lab.angl[k] - 90 * deg)/(180 * deg) else 1 - (lab.angl[k] - 270 * deg)/(180 * deg)) text(label.x[k], label.y[k], labels = key.labels[k], cex = 0.7, adj = text.adj) } # Return Value: invisible(locations) } ################################################################################