legend package:graphics R Documentation _A_d_d _L_e_g_e_n_d_s _t_o _P_l_o_t_s _D_e_s_c_r_i_p_t_i_o_n: This function can be used to add legends to plots. Note that a call to the function 'locator(1)' can be used in place of the 'x' and 'y' arguments. _U_s_a_g_e: legend(x, y = NULL, legend, fill = NULL, col = par("col"), lty, lwd, pch, angle = 45, density = NULL, bty = "o", bg = par("bg"), box.lwd = par("lwd"), box.lty = par("lty"), box.col = par("fg"), pt.bg = NA, cex = 1, pt.cex = cex, pt.lwd = lwd, xjust = 0, yjust = 1, x.intersp = 1, y.intersp = 1, adj = c(0, 0.5), text.width = NULL, text.col = par("col"), merge = do.lines && has.pch, trace = FALSE, plot = TRUE, ncol = 1, horiz = FALSE, title = NULL, inset = 0, xpd, title.col = text.col) _A_r_g_u_m_e_n_t_s: x, y: the x and y co-ordinates to be used to position the legend. They can be specified by keyword or in any way which is accepted by 'xy.coords': See 'Details'. legend: a character or expression vector. of length >= 1 to appear in the legend. Other objects will be coerced by 'as.graphicsAnnot'. fill: if specified, this argument will cause boxes filled with the specified colors (or shaded in the specified colors) to appear beside the legend text. col: the color of points or lines appearing in the legend. lty, lwd: the line types and widths for lines appearing in the legend. One of these two _must_ be specified for line drawing. pch: the plotting symbols appearing in the legend, either as vector of 1-character strings, or one (multi character) string. _Must_ be specified for symbol drawing. angle: angle of shading lines. density: the density of shading lines, if numeric and positive. If 'NULL' or negative or 'NA' color filling is assumed. bty: the type of box to be drawn around the legend. The allowed values are '"o"' (the default) and '"n"'. bg: the background color for the legend box. (Note that this is only used if 'bty != "n"'.) box.lty, box.lwd, box.col: the line type, width and color for the legend box (if 'bty = "o"'). pt.bg: the background color for the 'points', corresponding to its argument 'bg'. cex: character expansion factor *relative* to current 'par("cex")'. Used for text, and provides the default for 'pt.cex' and 'title.cex'. pt.cex: expansion factor(s) for the points. pt.lwd: line width for the points, defaults to the one for lines, or if that is not set, to 'par("lwd")'. xjust: how the legend is to be justified relative to the legend x location. A value of 0 means left justified, 0.5 means centered and 1 means right justified. yjust: the same as 'xjust' for the legend y location. x.intersp: character interspacing factor for horizontal (x) spacing. y.intersp: the same for vertical (y) line distances. adj: numeric of length 1 or 2; the string adjustment for legend text. Useful for y-adjustment when 'labels' are plotmath expressions. text.width: the width of the legend text in x ('"user"') coordinates. (Should be positive even for a reversed x axis.) Defaults to the proper value computed by 'strwidth(legend)'. text.col: the color used for the legend text. merge: logical; if 'TRUE', merge points and lines but not filled boxes. Defaults to 'TRUE' if there are points and lines. trace: logical; if 'TRUE', shows how 'legend' does all its magical computations. plot: logical. If 'FALSE', nothing is plotted but the sizes are returned. ncol: the number of columns in which to set the legend items (default is 1, a vertical legend). horiz: logical; if 'TRUE', set the legend horizontally rather than vertically (specifying 'horiz' overrides the 'ncol' specification). title: a character string or length-one expression giving a title to be placed at the top of the legend. Other objects will be coerced by 'as.graphicsAnnot'. inset: inset distance(s) from the margins as a fraction of the plot region when legend is placed by keyword. xpd: if supplied, a value of the graphical parameter 'xpd' to be used while the legend is being drawn. title.col: color for 'title'. _D_e_t_a_i_l_s: Arguments 'x, y, legend' are interpreted in a non-standard way to allow the coordinates to be specified _via_ one or two arguments. If 'legend' is missing and 'y' is not numeric, it is assumed that the second argument is intended to be 'legend' and that the first argument specifies the coordinates. The coordinates can be specified in any way which is accepted by 'xy.coords'. If this gives the coordinates of one point, it is used as the top-left coordinate of the rectangle containing the legend. If it gives the coordinates of two points, these specify opposite corners of the rectangle (either pair of corners, in any order). The location may also be specified by setting 'x' to a single keyword from the list '"bottomright"', '"bottom"', '"bottomleft"', '"left"', '"topleft"', '"top"', '"topright"', '"right"' and '"center"'. This places the legend on the inside of the plot frame at the given location. Partial argument matching is used. The optional 'inset' argument specifies how far the legend is inset from the plot margins. If a single value is given, it is used for both margins; if two values are given, the first is used for 'x'- distance, the second for 'y'-distance. Attribute arguments such as 'col', 'pch', 'lty', etc, are recycled if necessary: 'merge' is not. Points are drawn _after_ lines in order that they can cover the line with their background color 'pt.bg', if applicable. See the examples for how to right-justify labels. _V_a_l_u_e: A list with list components rect: a list with components '_w, _h' positive numbers giving *w*idth and *h*eight of the legend's box. '_l_e_f_t, _t_o_p' x and y coordinates of upper left corner of the box. text: a list with components '_x, _y' numeric vectors of length 'length(legend)', giving the x and y coordinates of the legend's text(s). returned invisibly. _R_e_f_e_r_e_n_c_e_s: Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) _The New S Language_. Wadsworth & Brooks/Cole. Murrell, P. (2005) _R Graphics_. Chapman & Hall/CRC Press. _S_e_e _A_l_s_o: 'plot', 'barplot' which uses 'legend()', and 'text' for more examples of math expressions. _E_x_a_m_p_l_e_s: ## Run the example in '?matplot' or the following: leg.txt <- c("Setosa Petals", "Setosa Sepals", "Versicolor Petals", "Versicolor Sepals") y.leg <- c(4.5, 3, 2.1, 1.4, .7) cexv <- c(1.2, 1, 4/5, 2/3, 1/2) matplot(c(1,8), c(0,4.5), type = "n", xlab = "Length", ylab = "Width", main = "Petal and Sepal Dimensions in Iris Blossoms") for (i in seq(cexv)) { text (1, y.leg[i]-.1, paste("cex=",formatC(cexv[i])), cex=.8, adj = 0) legend(3, y.leg[i], leg.txt, pch = "sSvV", col = c(1, 3), cex = cexv[i]) } ## 'merge = TRUE' for merging lines & points: x <- seq(-pi, pi, len = 65) plot(x, sin(x), type = "l", ylim = c(-1.2, 1.8), col = 3, lty = 2) points(x, cos(x), pch = 3, col = 4) lines(x, tan(x), type = "b", lty = 1, pch = 4, col = 6) title("legend(..., lty = c(2, -1, 1), pch = c(-1,3,4), merge = TRUE)", cex.main = 1.1) legend(-1, 1.9, c("sin", "cos", "tan"), col = c(3,4,6), text.col = "green4", lty = c(2, -1, 1), pch = c(-1, 3, 4), merge = TRUE, bg = 'gray90') ## right-justifying a set of labels: thanks to Uwe Ligges x <- 1:5; y1 <- 1/x; y2 <- 2/x plot(rep(x, 2), c(y1, y2), type="n", xlab="x", ylab="y") lines(x, y1); lines(x, y2, lty=2) temp <- legend("topright", legend = c(" ", " "), text.width = strwidth("1,000,000"), lty = 1:2, xjust = 1, yjust = 1, title = "Line Types") text(temp$rect$left + temp$rect$w, temp$text$y, c("1,000", "1,000,000"), pos=2) ##--- log scaled Examples ------------------------------ leg.txt <- c("a one", "a two") par(mfrow = c(2,2)) for(ll in c("","x","y","xy")) { plot(2:10, log=ll, main=paste("log = '",ll,"'", sep="")) abline(1,1) lines(2:3,3:4, col=2) # points(2,2, col=3) # rect(2,3,3,2, col=4) text(c(3,3),2:3, c("rect(2,3,3,2, col=4)", "text(c(3,3),2:3,\"c(rect(...)\")"), adj = c(0,.3)) legend(list(x=2,y=8), legend = leg.txt, col=2:3, pch=1:2, lty=1, merge=TRUE)#, trace=TRUE) } par(mfrow=c(1,1)) ##-- Math expressions: ------------------------------ x <- seq(-pi, pi, len = 65) plot(x, sin(x), type="l", col = 2, xlab = expression(phi), ylab = expression(f(phi))) abline(h=-1:1, v=pi/2*(-6:6), col="gray90") lines(x, cos(x), col = 3, lty = 2) ex.cs1 <- expression(plain(sin) * phi, paste("cos", phi))# 2 ways utils::str(legend(-3, .9, ex.cs1, lty=1:2, plot=FALSE, adj = c(0, .6)))# adj y ! legend(-3, .9, ex.cs1, lty=1:2, col=2:3, adj = c(0, .6)) require(stats) x <- rexp(100, rate = .5) hist(x, main = "Mean and Median of a Skewed Distribution") abline(v = mean(x), col=2, lty=2, lwd=2) abline(v = median(x), col=3, lty=3, lwd=2) ex12 <- expression(bar(x) == sum(over(x[i], n), i==1, n), hat(x) == median(x[i], i==1,n)) utils::str(legend(4.1, 30, ex12, col = 2:3, lty=2:3, lwd=2)) ## 'Filled' boxes -- for more, see example(plot.factor) op <- par(bg="white") # to get an opaque box for the legend plot(cut(weight, 3) ~ group, data = PlantGrowth, col = NULL, density = 16*(1:3)) par(op) ## Using 'ncol' : x <- 0:64/64 matplot(x, outer(x, 1:7, function(x, k) sin(k * pi * x)), type = "o", col = 1:7, ylim = c(-1, 1.5), pch = "*") op <- par(bg="antiquewhite1") legend(0, 1.5, paste("sin(", 1:7, "pi * x)"), col=1:7, lty=1:7, pch = "*", ncol = 4, cex = 0.8) legend(.8,1.2, paste("sin(", 1:7, "pi * x)"), col=1:7, lty=1:7, pch = "*", cex = 0.8) legend(0, -.1, paste("sin(", 1:4, "pi * x)"), col=1:4, lty=1:4, ncol = 2, cex = 0.8) legend(0, -.4, paste("sin(", 5:7, "pi * x)"), col=4:6, pch=24, ncol = 2, cex = 1.5, lwd = 2, pt.bg = "pink", pt.cex = 1:3) par(op) ## point covering line : y <- sin(3*pi*x) plot(x, y, type="l", col="blue", main = "points with bg & legend(*, pt.bg)") points(x, y, pch=21, bg="white") legend(.4,1, "sin(c x)", pch=21, pt.bg="white", lty=1, col = "blue") ## legends with titles at different locations plot(x, y, type='n') legend("bottomright", "(x,y)", pch=1, title="bottomright") legend("bottom", "(x,y)", pch=1, title="bottom") legend("bottomleft", "(x,y)", pch=1, title="bottomleft") legend("left", "(x,y)", pch=1, title="left") legend("topleft", "(x,y)", pch=1, title="topleft, inset = .05", inset = .05) legend("top", "(x,y)", pch=1, title="top") legend("topright", "(x,y)", pch=1, title="topright, inset = .02", inset = .02) legend("right", "(x,y)", pch=1, title="right") legend("center", "(x,y)", pch=1, title="center")