R version 3.6.0 beta (2019-04-15 r76395) -- "Planting of a Tree" Copyright (C) 2019 The R Foundation for Statistical Computing Platform: x86_64-pc-linux-gnu (64-bit) R is free software and comes with ABSOLUTELY NO WARRANTY. You are welcome to redistribute it under certain conditions. Type 'license()' or 'licence()' for distribution details. R is a collaborative project with many contributors. Type 'contributors()' for more information and 'citation()' on how to cite R or R packages in publications. Type 'demo()' for some demos, 'help()' for on-line help, or 'help.start()' for an HTML browser interface to help. Type 'q()' to quit R. > #### Run all demos that do not depend on tcl and other specials. > .ptime <- proc.time() > set.seed(123) > options(keep.source=TRUE, useFancyQuotes=FALSE, warn = 1) > > ## Drop these for strict testing {and add them to demos2.R) > ## lm.glm is in ../src/library/utils/man/demo.Rd }: > dont <- list(graphics = c("Hershey", "Japanese", "plotmath"), + stats = c("lm.glm", "nlm") + ) > ## don't take tcltk here > for(pkg in c("base", "graphics", "stats")) { + + demos <- list.files(file.path(system.file(package = pkg), "demo"), + pattern = "\\.R$") + demos <- demos[is.na(match(demos, paste(dont[[pkg]], "R",sep=".")))] + + if(length(demos)) { + if(need <- pkg != "base" && + !any((fpkg <- paste("package", pkg, sep=":")) == search())) + library(pkg, character.only = TRUE) + + for(nam in sub("\\.R$", "", demos)) + demo(nam, character.only = TRUE) + + if(need) detach(pos = which(fpkg == search())) + } + } demo(error.catching) ---- ~~~~~~~~~~~~~~ > ##================================================================## > ### In longer simulations, aka computer experiments, ### > ### you may want to ### > ### 1) catch all errors and warnings (and continue) ### > ### 2) store the error or warning messages ### > ### ### > ### Here's a solution (see R-help mailing list, Dec 9, 2010): ### > ##================================================================## > > ##' Catch *and* save both errors and warnings, and in the case of > ##' a warning, also keep the computed result. > ##' > ##' @title tryCatch both warnings (with value) and errors > ##' @param expr an \R expression to evaluate > ##' @return a list with 'value' and 'warning', where > ##' 'value' may be an error caught. > ##' @author Martin Maechler; > ##' Copyright (C) 2010-2012 The R Core Team > tryCatch.W.E <- function(expr) + { + W <- NULL + w.handler <- function(w){ # warning handler + W <<- w + invokeRestart("muffleWarning") + } + list(value = withCallingHandlers(tryCatch(expr, error = function(e) e), + warning = w.handler), + warning = W) + } > str( tryCatch.W.E( log( 2 ) ) ) List of 2 $ value : num 0.693 $ warning: NULL > str( tryCatch.W.E( log( -1) ) ) List of 2 $ value : num NaN $ warning:List of 2 ..$ message: chr "NaNs produced" ..$ call : language log(-1) ..- attr(*, "class")= chr [1:3] "simpleWarning" "warning" "condition" > str( tryCatch.W.E( log("a") ) ) List of 2 $ value :List of 2 ..$ message: chr "non-numeric argument to mathematical function" ..$ call : language log("a") ..- attr(*, "class")= chr [1:3] "simpleError" "error" "condition" $ warning: NULL demo(is.things) ---- ~~~~~~~~~ > # Copyright (C) 1997-2018 The R Core Team > > ### The Base package has a couple of non-functions: > ## > ## These may be in "base" when they exist; discount them here > ## (see also 'dont.mind' in checkConflicts() inside library()) : > xtraBaseNms <- c("last.dump", "last.warning", ".Last.value", + ".Random.seed", ".Traceback") > ls.base <- Filter(function(nm) is.na(match(nm, xtraBaseNms)), + ls("package:base", all=TRUE)) > base.is.f <- sapply(ls.base, function(x) is.function(get(x))) > cat("\nNumber of all base objects:\t", length(ls.base), + "\nNumber of functions from these:\t", sum(base.is.f), + "\n\t starting with 'is.' :\t ", + sum(grepl("^is\\.", ls.base[base.is.f])), "\n", sep = "") Number of all base objects: 1345 Number of functions from these: 1302 starting with 'is.' : 50 > ## R ver.| #{is*()} > ## ------+--------- > ## 0.14 : 31 > ## 0.50 : 33 > ## 0.60 : 34 > ## 0.63 : 37 > ## 1.0.0 : 38 > ## 1.3.0 : 41 > ## 1.6.0 : 45 > ## 2.0.0 : 45 > ## 2.7.0 : 48 > ## 3.0.0 : 49 > if(interactive()) { + nonDots <- function(nm) substr(nm, 1L, 1L) != "." + cat("Base non-functions not starting with \".\":\n") + Filter(nonDots, ls.base[!base.is.f]) + } > ## Do we have a method (probably)? > is.method <- function(fname) { + isFun <- function(name) (exists(name, mode="function") && + is.na(match(name, c("is", "as")))) + np <- length(sp <- strsplit(fname, split = "\\.")[[1]]) + if(np <= 1 ) + FALSE + else + (isFun(paste(sp[1:(np-1)], collapse = '.')) || + (np >= 3 && + isFun(paste(sp[1:(np-2)], collapse = '.')))) + } > is.ALL <- function(obj, func.names = ls(pos=length(search())), + not.using = c("is.single", "is.real", "is.loaded", + "is.empty.model", "is.R", "is.element", "is.unsorted"), + true.only = FALSE, debug = FALSE) + { + ## Purpose: show many 'attributes' of R object __obj__ + ## ------------------------------------------------------------------------- + ## Arguments: obj: any R object + ## ------------------------------------------------------------------------- + ## Author: Martin Maechler, Date: 6 Dec 1996 + + is.fn <- func.names[substring(func.names,1,3) == "is."] + is.fn <- is.fn[substring(is.fn,1,7) != "is.na<-"] + use.fn <- is.fn[ is.na(match(is.fn, not.using)) + & ! sapply(is.fn, is.method) ] + + r <- if(true.only) character(0) + else structure(vector("list", length= length(use.fn)), names= use.fn) + for(f in use.fn) { + if(any(f == c("is.na", "is.finite"))) { + if(!is.list(obj) && !is.vector(obj) && !is.array(obj)) { + if(!true.only) r[[f]] <- NA + next + } + } + if(any(f == c("is.nan", "is.finite", "is.infinite"))) { + if(!is.atomic(obj)) { + if(!true.only) r[[f]] <- NA + next + } + } + if(debug) cat(f,"") + fn <- get(f) + rr <- if(is.primitive(fn) || length(formals(fn))>0) fn(obj) else fn() + if(!is.logical(rr)) cat("f=",f," --- rr is NOT logical = ",rr,"\n") + ##if(1!=length(rr)) cat("f=",f," --- rr NOT of length 1; = ",rr,"\n") + if(true.only && length(rr)==1 && !is.na(rr) && rr) r <- c(r, f) + else if(!true.only) r[[f]] <- rr + } + if(debug)cat("\n") + if(is.list(r)) structure(r, class = "isList") else r + } > print.isList <- function(x, ..., verbose = getOption("verbose")) + { + ## Purpose: print METHOD for `isList' objects + ## ------------------------------------------------ + ## Author: Martin Maechler, Date: 12 Mar 1997 + if(is.list(x)) { + if(verbose) cat("print.isList(): list case (length=",length(x),")\n") + nm <- format(names(x)) + rr <- lapply(x, stats::symnum, na = "NA") + for(i in seq_along(x)) cat(nm[i],":",rr[[i]],"\n", ...) + } else NextMethod("print", ...) + } > is.ALL(NULL) is.array : . is.atomic : | is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : NA is.function : . is.infinite : is.integer : . is.language : . is.list : . is.logical : . is.matrix : . is.na : NA is.name : . is.nan : is.null : | is.numeric : . is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : | is.primitive : . is.qr : . is.raw : . is.recursive : . is.symbol : . is.table : . is.vector : . > ##fails: is.ALL(NULL, not.using = c("is.single", "is.loaded")) > is.ALL(NULL, true.only = TRUE) [1] "is.atomic" "is.null" "is.pairlist" > all.equal(NULL, pairlist()) [1] TRUE > ## list() != NULL == pairlist() : > is.ALL(list(), true.only = TRUE) [1] "is.list" "is.recursive" "is.vector" > (pl <- is.ALL(pairlist(1, list(3,"A")), true.only = TRUE)) [1] "is.list" "is.pairlist" "is.recursive" > (ll <- is.ALL( list(1,pairlist(3,"A")), true.only = TRUE)) [1] "is.list" "is.recursive" "is.vector" > all.equal(pl[pl != "is.pairlist"], + ll[ll != "is.vector"])## TRUE [1] TRUE > is.ALL(1:5) is.array : . is.atomic : | is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : | | | | | is.function : . is.infinite : . . . . . is.integer : | is.language : . is.list : . is.logical : . is.matrix : . is.na : . . . . . is.name : . is.nan : . . . . . is.null : . is.numeric : | is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : . is.symbol : . is.table : . is.vector : | > is.ALL(array(1:24, 2:4)) is.array : | is.atomic : | is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : | | | | | | | | | | | | | | | | | | | | | | | | is.function : . is.infinite : . . . . . . . . . . . . . . . . . . . . . . . . is.integer : | is.language : . is.list : . is.logical : . is.matrix : . is.na : . . . . . . . . . . . . . . . . . . . . . . . . is.name : . is.nan : . . . . . . . . . . . . . . . . . . . . . . . . is.null : . is.numeric : | is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : . is.symbol : . is.table : . is.vector : . > is.ALL(1 + 3) is.array : . is.atomic : | is.call : . is.character : . is.complex : . is.data.frame : . is.double : | is.environment : . is.expression : . is.factor : . is.finite : | is.function : . is.infinite : . is.integer : . is.language : . is.list : . is.logical : . is.matrix : . is.na : . is.name : . is.nan : . is.null : . is.numeric : | is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : . is.symbol : . is.table : . is.vector : | > e13 <- expression(1 + 3) > is.ALL(e13) Warning in fn(obj) : is.na() applied to non-(list or vector) of type 'expression' is.array : . is.atomic : . is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : | is.factor : . is.finite : NA is.function : . is.infinite : NA is.integer : . is.language : | is.list : . is.logical : . is.matrix : . is.na : . is.name : . is.nan : NA is.null : . is.numeric : . is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : | is.symbol : . is.table : . is.vector : | > is.ALL(substitute(expression(a + 3), list(a=1)), true.only = TRUE) [1] "is.call" "is.language" "is.recursive" > is.ALL(y ~ x) #--> NA for is.na & is.finite is.array : . is.atomic : . is.call : | is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : NA is.function : . is.infinite : NA is.integer : . is.language : | is.list : . is.logical : . is.matrix : . is.na : NA is.name : . is.nan : NA is.null : . is.numeric : . is.numeric_version : . is.object : | is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : | is.symbol : . is.table : . is.vector : . > is0 <- is.ALL(numeric(0)) > is0.ok <- 1 == (lis0 <- sapply(is0, length)) > is0[!is0.ok] $is.finite logical(0) $is.infinite logical(0) $is.na logical(0) $is.nan logical(0) > is0 <- unlist(is0) > is0 is.array is.atomic is.call is.character FALSE TRUE FALSE FALSE is.complex is.data.frame is.double is.environment FALSE FALSE TRUE FALSE is.expression is.factor is.function is.integer FALSE FALSE FALSE FALSE is.language is.list is.logical is.matrix FALSE FALSE FALSE FALSE is.name is.null is.numeric is.numeric_version FALSE FALSE TRUE FALSE is.object is.ordered is.package_version is.pairlist FALSE FALSE FALSE FALSE is.primitive is.qr is.raw is.recursive FALSE FALSE FALSE FALSE is.symbol is.table is.vector FALSE FALSE TRUE > ispi <- unlist(is.ALL(pi)) > all(ispi[is0.ok] == is0) [1] TRUE > is.ALL(numeric(0), true=TRUE) [1] "is.atomic" "is.double" "is.numeric" "is.vector" > is.ALL(array(1,1:3), true=TRUE) [1] "is.array" "is.atomic" "is.double" "is.numeric" > is.ALL(cbind(1:3), true=TRUE) [1] "is.array" "is.atomic" "is.integer" "is.matrix" "is.numeric" > is.ALL(structure(1:7, names = paste("a",1:7,sep=""))) is.array : . is.atomic : | is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : | | | | | | | is.function : . is.infinite : . . . . . . . is.integer : | is.language : . is.list : . is.logical : . is.matrix : . is.na : . . . . . . . is.name : . is.nan : . . . . . . . is.null : . is.numeric : | is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : . is.symbol : . is.table : . is.vector : | > is.ALL(structure(1:7, names = paste("a",1:7,sep="")), true.only = TRUE) [1] "is.atomic" "is.integer" "is.numeric" "is.vector" > x <- 1:20 ; y <- 5 + 6*x + rnorm(20) > lm.xy <- lm(y ~ x) > is.ALL(lm.xy) is.array : . is.atomic : . is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : NA is.function : . is.infinite : NA is.integer : . is.language : . is.list : | is.logical : . is.matrix : . is.na : . . . . . . . . . . . . is.name : . is.nan : NA is.null : . is.numeric : . is.numeric_version : . is.object : | is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : | is.symbol : . is.table : . is.vector : . > is.ALL(structure(1:7, names = paste("a",1:7,sep=""))) is.array : . is.atomic : | is.call : . is.character : . is.complex : . is.data.frame : . is.double : . is.environment : . is.expression : . is.factor : . is.finite : | | | | | | | is.function : . is.infinite : . . . . . . . is.integer : | is.language : . is.list : . is.logical : . is.matrix : . is.na : . . . . . . . is.name : . is.nan : . . . . . . . is.null : . is.numeric : | is.numeric_version : . is.object : . is.ordered : . is.package_version : . is.pairlist : . is.primitive : . is.qr : . is.raw : . is.recursive : . is.symbol : . is.table : . is.vector : | > is.ALL(structure(1:7, names = paste("a",1:7,sep="")), true.only = TRUE) [1] "is.atomic" "is.integer" "is.numeric" "is.vector" demo(recursion) ---- ~~~~~~~~~ > # Copyright (C) 1997-2005 The R Core Team > > ## Adaptive integration: Venables and Ripley pp. 105-110 > ## This is the basic integrator. > > area <- function(f, a, b, ..., fa = f(a, ...), fb = f(b, ...), limit + = 10, eps = 1.e-5) + { + h <- b - a + d <- (a + b)/2 + fd <- f(d, ...) + a1 <- ((fa + fb) * h)/2 + a2 <- ((fa + 4 * fd + fb) * h)/6 + if(abs(a1 - a2) < eps) + return(a2) + if(limit == 0) { + warning(paste("iteration limit reached near x = ", + d)) + return(a2) + } + area(f, a, d, ..., fa = fa, fb = fd, limit = limit - 1, + eps = eps) + area(f, d, b, ..., fa = fd, fb = + fb, limit = limit - 1, eps = eps) + } > ## The function to be integrated > > fbeta <- function(x, alpha, beta) + { + x^(alpha - 1) * (1 - x)^(beta - 1) + } > ## Compute the approximate integral, the exact integral and the error > > b0 <- area(fbeta, 0, 1, alpha=3.5, beta=1.5) > b1 <- exp(lgamma(3.5) + lgamma(1.5) - lgamma(5)) > c(b0, b1, b0-b1) [1] 1.227170e-01 1.227185e-01 -1.443996e-06 > ## Modify the function so that it records where it was evaluated > > fbeta.tmp <- function (x, alpha, beta) + { + val <<- c(val, x) + x^(alpha - 1) * (1 - x)^(beta - 1) + } > ## Recompute and plot the evaluation points. > > val <- NULL > b0 <- area(fbeta.tmp, 0, 1, alpha=3.5, beta=1.5) > plot(val, fbeta(val, 3.5, 1.5), pch=0) > ## Better programming style -- renaming the function will have no effect. > ## The use of "Recall" as in V+R is VERY black magic. You can get the > ## same effect transparently by supplying a wrapper function. > ## This is the approved Abelson+Sussman method. > > area <- function(f, a, b, ..., limit=10, eps=1e-5) { + area2 <- function(f, a, b, ..., fa = f(a, ...), fb = f(b, ...), + limit = limit, eps = eps) { + h <- b - a + d <- (a + b)/2 + fd <- f(d, ...) + a1 <- ((fa + fb) * h)/2 + a2 <- ((fa + 4 * fd + fb) * h)/6 + if(abs(a1 - a2) < eps) + return(a2) + if(limit == 0) { + warning(paste("iteration limit reached near x =", d)) + return(a2) + } + area2(f, a, d, ..., fa = fa, fb = fd, limit = limit - 1, + eps = eps) + area2(f, d, b, ..., fa = fd, fb = + fb, limit = limit - 1, eps = eps) + } + area2(f, a, b, ..., limit=limit, eps=eps) + } demo(scoping) ---- ~~~~~~~ > ## Here is a little example which shows a fundamental difference between > ## R and S. It is a little example from Abelson and Sussman which models > ## the way in which bank accounts work. It shows how R functions can > ## encapsulate state information. > ## > ## When invoked, "open.account" defines and returns three functions > ## in a list. Because the variable "total" exists in the environment > ## where these functions are defined they have access to its value. > ## This is even true when "open.account" has returned. The only way > ## to access the value of "total" is through the accessor functions > ## withdraw, deposit and balance. Separate accounts maintain their > ## own balances. > ## > ## This is a very nifty way of creating "closures" and a little thought > ## will show you that there are many ways of using this in statistics. > > # Copyright (C) 1997-8 The R Core Team > > open.account <- function(total) { + + list( + deposit = function(amount) { + if(amount <= 0) + stop("Deposits must be positive!\n") + total <<- total + amount + cat(amount,"deposited. Your balance is", total, "\n\n") + }, + withdraw = function(amount) { + if(amount > total) + stop("You don't have that much money!\n") + total <<- total - amount + cat(amount,"withdrawn. Your balance is", total, "\n\n") + }, + balance = function() { + cat("Your balance is", total, "\n\n") + } + ) + } > ross <- open.account(100) > robert <- open.account(200) > ross$withdraw(30) 30 withdrawn. Your balance is 70 > ross$balance() Your balance is 70 > robert$balance() Your balance is 200 > ross$deposit(50) 50 deposited. Your balance is 120 > ross$balance() Your balance is 120 > try(ross$withdraw(500)) # no way.. Error in ross$withdraw(500) : You don't have that much money! demo(graphics) ---- ~~~~~~~~ > # Copyright (C) 1997-2009 The R Core Team > > require(datasets) > require(grDevices); require(graphics) > ## Here is some code which illustrates some of the differences between > ## R and S graphics capabilities. Note that colors are generally specified > ## by a character string name (taken from the X11 rgb.txt file) and that line > ## textures are given similarly. The parameter "bg" sets the background > ## parameter for the plot and there is also an "fg" parameter which sets > ## the foreground color. > > > x <- stats::rnorm(50) > opar <- par(bg = "white") > plot(x, ann = FALSE, type = "n") > abline(h = 0, col = gray(.90)) > lines(x, col = "green4", lty = "dotted") > points(x, bg = "limegreen", pch = 21) > title(main = "Simple Use of Color In a Plot", + xlab = "Just a Whisper of a Label", + col.main = "blue", col.lab = gray(.8), + cex.main = 1.2, cex.lab = 1.0, font.main = 4, font.lab = 3) > ## A little color wheel. This code just plots equally spaced hues in > ## a pie chart. If you have a cheap SVGA monitor (like me) you will > ## probably find that numerically equispaced does not mean visually > ## equispaced. On my display at home, these colors tend to cluster at > ## the RGB primaries. On the other hand on the SGI Indy at work the > ## effect is near perfect. > > par(bg = "gray") > pie(rep(1,24), col = rainbow(24), radius = 0.9) > title(main = "A Sample Color Wheel", cex.main = 1.4, font.main = 3) > title(xlab = "(Use this as a test of monitor linearity)", + cex.lab = 0.8, font.lab = 3) > ## We have already confessed to having these. This is just showing off X11 > ## color names (and the example (from the postscript manual) is pretty "cute". > > pie.sales <- c(0.12, 0.3, 0.26, 0.16, 0.04, 0.12) > names(pie.sales) <- c("Blueberry", "Cherry", + "Apple", "Boston Cream", "Other", "Vanilla Cream") > pie(pie.sales, + col = c("purple","violetred1","green3","cornsilk","cyan","white")) > title(main = "January Pie Sales", cex.main = 1.8, font.main = 1) > title(xlab = "(Don't try this at home kids)", cex.lab = 0.8, font.lab = 3) > ## Boxplots: I couldn't resist the capability for filling the "box". > ## The use of color seems like a useful addition, it focuses attention > ## on the central bulk of the data. > > par(bg="cornsilk") > n <- 10 > g <- gl(n, 100, n*100) > x <- rnorm(n*100) + sqrt(as.numeric(g)) > boxplot(split(x,g), col="lavender", notch=TRUE) > title(main="Notched Boxplots", xlab="Group", font.main=4, font.lab=1) > ## An example showing how to fill between curves. > > par(bg="white") > n <- 100 > x <- c(0,cumsum(rnorm(n))) > y <- c(0,cumsum(rnorm(n))) > xx <- c(0:n, n:0) > yy <- c(x, rev(y)) > plot(xx, yy, type="n", xlab="Time", ylab="Distance") > polygon(xx, yy, col="gray") > title("Distance Between Brownian Motions") > ## Colored plot margins, axis labels and titles. You do need to be > ## careful with these kinds of effects. It's easy to go completely > ## over the top and you can end up with your lunch all over the keyboard. > ## On the other hand, my market research clients love it. > > x <- c(0.00, 0.40, 0.86, 0.85, 0.69, 0.48, 0.54, 1.09, 1.11, 1.73, 2.05, 2.02) > par(bg="lightgray") > plot(x, type="n", axes=FALSE, ann=FALSE) > usr <- par("usr") > rect(usr[1], usr[3], usr[2], usr[4], col="cornsilk", border="black") > lines(x, col="blue") > points(x, pch=21, bg="lightcyan", cex=1.25) > axis(2, col.axis="blue", las=1) > axis(1, at=1:12, lab=month.abb, col.axis="blue") > box() > title(main= "The Level of Interest in R", font.main=4, col.main="red") > title(xlab= "1996", col.lab="red") > ## A filled histogram, showing how to change the font used for the > ## main title without changing the other annotation. > > par(bg="cornsilk") > x <- rnorm(1000) > hist(x, xlim=range(-4, 4, x), col="lavender", main="") > title(main="1000 Normal Random Variates", font.main=3) > ## A scatterplot matrix > ## The good old Iris data (yet again) > > pairs(iris[1:4], main="Edgar Anderson's Iris Data", font.main=4, pch=19) > pairs(iris[1:4], main="Edgar Anderson's Iris Data", pch=21, + bg = c("red", "green3", "blue")[unclass(iris$Species)]) > ## Contour plotting > ## This produces a topographic map of one of Auckland's many volcanic "peaks". > > x <- 10*1:nrow(volcano) > y <- 10*1:ncol(volcano) > lev <- pretty(range(volcano), 10) > par(bg = "lightcyan") > pin <- par("pin") > xdelta <- diff(range(x)) > ydelta <- diff(range(y)) > xscale <- pin[1]/xdelta > yscale <- pin[2]/ydelta > scale <- min(xscale, yscale) > xadd <- 0.5*(pin[1]/scale - xdelta) > yadd <- 0.5*(pin[2]/scale - ydelta) > plot(numeric(0), numeric(0), + xlim = range(x)+c(-1,1)*xadd, ylim = range(y)+c(-1,1)*yadd, + type = "n", ann = FALSE) > usr <- par("usr") > rect(usr[1], usr[3], usr[2], usr[4], col="green3") > contour(x, y, volcano, levels = lev, col="yellow", lty="solid", add=TRUE) > box() > title("A Topographic Map of Maunga Whau", font= 4) > title(xlab = "Meters North", ylab = "Meters West", font= 3) > mtext("10 Meter Contour Spacing", side=3, line=0.35, outer=FALSE, + at = mean(par("usr")[1:2]), cex=0.7, font=3) > ## Conditioning plots > > par(bg="cornsilk") > coplot(lat ~ long | depth, data = quakes, pch = 21, bg = "green3") > par(opar) demo(image) ---- ~~~~~ > # Copyright (C) 1997-2009 The R Core Team > > require(datasets) > require(grDevices); require(graphics) > x <- 10*(1:nrow(volcano)); x.at <- seq(100, 800, by=100) > y <- 10*(1:ncol(volcano)); y.at <- seq(100, 600, by=100) > # Using Terrain Colors > > image(x, y, volcano, col=terrain.colors(100),axes=FALSE) > contour(x, y, volcano, levels=seq(90, 200, by=5), add=TRUE, col="brown") > axis(1, at=x.at) > axis(2, at=y.at) > box() > title(main="Maunga Whau Volcano", sub = "col=terrain.colors(100)", font.main=4) > # Using Heat Colors > > image(x, y, volcano, col=heat.colors(100), axes=FALSE) > contour(x, y, volcano, levels=seq(90, 200, by=5), add=TRUE, col="brown") > axis(1, at=x.at) > axis(2, at=y.at) > box() > title(main="Maunga Whau Volcano", sub = "col=heat.colors(100)", font.main=4) > # Using Gray Scale > > image(x, y, volcano, col=gray(100:200/200), axes=FALSE) > contour(x, y, volcano, levels=seq(90, 200, by=5), add=TRUE, col="black") > axis(1, at=x.at) > axis(2, at=y.at) > box() > title(main="Maunga Whau Volcano \n col=gray(100:200/200)", font.main=4) > ## Filled Contours are even nicer sometimes : > example(filled.contour) flld.c> require("grDevices") # for colours flld.c> filled.contour(volcano, asp = 1) # simple flld.c> x <- 10*1:nrow(volcano) flld.c> y <- 10*1:ncol(volcano) flld.c> filled.contour(x, y, volcano, color = function(n) hcl.colors(n, "terrain"), flld.c+ plot.title = title(main = "The Topography of Maunga Whau", flld.c+ xlab = "Meters North", ylab = "Meters West"), flld.c+ plot.axes = { axis(1, seq(100, 800, by = 100)) flld.c+ axis(2, seq(100, 600, by = 100)) }, flld.c+ key.title = title(main = "Height\n(meters)"), flld.c+ key.axes = axis(4, seq(90, 190, by = 10))) # maybe also asp = 1 flld.c> mtext(paste("filled.contour(.) from", R.version.string), flld.c+ side = 1, line = 4, adj = 1, cex = .66) flld.c> # Annotating a filled contour plot flld.c> a <- expand.grid(1:20, 1:20) flld.c> b <- matrix(a[,1] + a[,2], 20) flld.c> filled.contour(x = 1:20, y = 1:20, z = b, flld.c+ plot.axes = { axis(1); axis(2); points(10, 10) }) flld.c> ## Persian Rug Art: flld.c> x <- y <- seq(-4*pi, 4*pi, len = 27) flld.c> r <- sqrt(outer(x^2, y^2, "+")) flld.c> filled.contour(cos(r^2)*exp(-r/(2*pi)), axes = FALSE) flld.c> ## rather, the key *should* be labeled: flld.c> filled.contour(cos(r^2)*exp(-r/(2*pi)), frame.plot = FALSE, flld.c+ plot.axes = {}) demo(persp) ---- ~~~~~ > ### Demos for persp() plots -- things not in example(persp) > ### ------------------------- > > require(datasets) > require(grDevices); require(graphics) > ## (1) The Obligatory Mathematical surface. > ## Rotated sinc function. > > x <- seq(-10, 10, length.out = 50) > y <- x > rotsinc <- function(x,y) + { + sinc <- function(x) { y <- sin(x)/x ; y[is.na(y)] <- 1; y } + 10 * sinc( sqrt(x^2+y^2) ) + } > sinc.exp <- expression(z == Sinc(sqrt(x^2 + y^2))) > z <- outer(x, y, rotsinc) > oldpar <- par(bg = "white") > persp(x, y, z, theta = 30, phi = 30, expand = 0.5, col = "lightblue") > title(sub=".")## work around persp+plotmath bug > title(main = sinc.exp) > persp(x, y, z, theta = 30, phi = 30, expand = 0.5, col = "lightblue", + ltheta = 120, shade = 0.75, ticktype = "detailed", + xlab = "X", ylab = "Y", zlab = "Z") > title(sub=".")## work around persp+plotmath bug > title(main = sinc.exp) > ## (2) Visualizing a simple DEM model > > z <- 2 * volcano # Exaggerate the relief > x <- 10 * (1:nrow(z)) # 10 meter spacing (S to N) > y <- 10 * (1:ncol(z)) # 10 meter spacing (E to W) > persp(x, y, z, theta = 120, phi = 15, scale = FALSE, axes = FALSE) > ## (3) Now something more complex > ## We border the surface, to make it more "slice like" > ## and color the top and sides of the surface differently. > > z0 <- min(z) - 20 > z <- rbind(z0, cbind(z0, z, z0), z0) > x <- c(min(x) - 1e-10, x, max(x) + 1e-10) > y <- c(min(y) - 1e-10, y, max(y) + 1e-10) > fill <- matrix("green3", nrow = nrow(z)-1, ncol = ncol(z)-1) > fill[ , i2 <- c(1,ncol(fill))] <- "gray" > fill[i1 <- c(1,nrow(fill)) , ] <- "gray" > par(bg = "lightblue") > persp(x, y, z, theta = 120, phi = 15, col = fill, scale = FALSE, axes = FALSE) > title(main = "Maunga Whau\nOne of 50 Volcanoes in the Auckland Region.", + font.main = 4) > par(bg = "slategray") > persp(x, y, z, theta = 135, phi = 30, col = fill, scale = FALSE, + ltheta = -120, lphi = 15, shade = 0.65, axes = FALSE) > ## Don't draw the grid lines : border = NA > persp(x, y, z, theta = 135, phi = 30, col = "green3", scale = FALSE, + ltheta = -120, shade = 0.75, border = NA, box = FALSE) > ## `color gradient in the soil' : > fcol <- fill ; fcol[] <- terrain.colors(nrow(fcol)) > persp(x, y, z, theta = 135, phi = 30, col = fcol, scale = FALSE, + ltheta = -120, shade = 0.3, border = NA, box = FALSE) > ## `image like' colors on top : > fcol <- fill > zi <- volcano[ -1,-1] + volcano[ -1,-61] + + volcano[-87,-1] + volcano[-87,-61] ## / 4 > fcol[-i1,-i2] <- + terrain.colors(20)[cut(zi, + stats::quantile(zi, seq(0,1, length.out = 21)), + include.lowest = TRUE)] > persp(x, y, 2*z, theta = 110, phi = 40, col = fcol, scale = FALSE, + ltheta = -120, shade = 0.4, border = NA, box = FALSE) > ## reset par(): > par(oldpar) demo(glm.vr) ---- ~~~~~~ > # Copyright (C) 1997-2009 The R Core Team > > #### -*- R -*- > require(stats) > Fr <- c(68,42,42,30, 37,52,24,43, + 66,50,33,23, 47,55,23,47, + 63,53,29,27, 57,49,19,29) > Temp <- gl(2, 2, 24, labels = c("Low", "High")) > Soft <- gl(3, 8, 24, labels = c("Hard","Medium","Soft")) > M.user <- gl(2, 4, 24, labels = c("N", "Y")) > Brand <- gl(2, 1, 24, labels = c("X", "M")) > detg <- data.frame(Fr,Temp, Soft,M.user, Brand) > detg.m0 <- glm(Fr ~ M.user*Temp*Soft + Brand, family = poisson, data = detg) > summary(detg.m0) Call: glm(formula = Fr ~ M.user * Temp * Soft + Brand, family = poisson, data = detg) Deviance Residuals: Min 1Q Median 3Q Max -2.20876 -0.99190 -0.00126 0.93542 1.97601 Coefficients: Estimate Std. Error z value Pr(>|z|) (Intercept) 4.01524 0.10034 40.018 < 2e-16 *** M.userY -0.21184 0.14257 -1.486 0.13731 TempHigh -0.42381 0.15159 -2.796 0.00518 ** SoftMedium 0.05311 0.13308 0.399 0.68984 SoftSoft 0.05311 0.13308 0.399 0.68984 BrandM -0.01587 0.06300 -0.252 0.80106 M.userY:TempHigh 0.13987 0.22168 0.631 0.52806 M.userY:SoftMedium 0.08323 0.19685 0.423 0.67245 M.userY:SoftSoft 0.12169 0.19591 0.621 0.53449 TempHigh:SoftMedium -0.30442 0.22239 -1.369 0.17104 TempHigh:SoftSoft -0.30442 0.22239 -1.369 0.17104 M.userY:TempHigh:SoftMedium 0.21189 0.31577 0.671 0.50220 M.userY:TempHigh:SoftSoft -0.20387 0.32540 -0.627 0.53098 --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 (Dispersion parameter for poisson family taken to be 1) Null deviance: 118.627 on 23 degrees of freedom Residual deviance: 32.826 on 11 degrees of freedom AIC: 191.24 Number of Fisher Scoring iterations: 4 > detg.mod <- glm(terms(Fr ~ M.user*Temp*Soft + Brand*M.user*Temp, + keep.order = TRUE), + family = poisson, data = detg) > summary(detg.mod) Call: glm(formula = terms(Fr ~ M.user * Temp * Soft + Brand * M.user * Temp, keep.order = TRUE), family = poisson, data = detg) Deviance Residuals: Min 1Q Median 3Q Max -0.91365 -0.35585 0.00253 0.33027 0.92146 Coefficients: Estimate Std. Error z value Pr(>|z|) (Intercept) 4.14887 0.10603 39.128 < 2e-16 *** M.userY -0.40521 0.16188 -2.503 0.01231 * TempHigh -0.44275 0.17121 -2.586 0.00971 ** M.userY:TempHigh -0.12692 0.26257 -0.483 0.62883 SoftMedium 0.05311 0.13308 0.399 0.68984 SoftSoft 0.05311 0.13308 0.399 0.68984 M.userY:SoftMedium 0.08323 0.19685 0.423 0.67245 M.userY:SoftSoft 0.12169 0.19591 0.621 0.53449 TempHigh:SoftMedium -0.30442 0.22239 -1.369 0.17104 TempHigh:SoftSoft -0.30442 0.22239 -1.369 0.17104 M.userY:TempHigh:SoftMedium 0.21189 0.31577 0.671 0.50220 M.userY:TempHigh:SoftSoft -0.20387 0.32540 -0.627 0.53098 BrandM -0.30647 0.10942 -2.801 0.00510 ** M.userY:BrandM 0.40757 0.15961 2.554 0.01066 * TempHigh:BrandM 0.04411 0.18463 0.239 0.81119 M.userY:TempHigh:BrandM 0.44427 0.26673 1.666 0.09579 . --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 (Dispersion parameter for poisson family taken to be 1) Null deviance: 118.627 on 23 degrees of freedom Residual deviance: 5.656 on 8 degrees of freedom AIC: 170.07 Number of Fisher Scoring iterations: 4 > summary(detg.mod, correlation = TRUE, symbolic.cor = TRUE) Call: glm(formula = terms(Fr ~ M.user * Temp * Soft + Brand * M.user * Temp, keep.order = TRUE), family = poisson, data = detg) Deviance Residuals: Min 1Q Median 3Q Max -0.91365 -0.35585 0.00253 0.33027 0.92146 Coefficients: Estimate Std. Error z value Pr(>|z|) (Intercept) 4.14887 0.10603 39.128 < 2e-16 *** M.userY -0.40521 0.16188 -2.503 0.01231 * TempHigh -0.44275 0.17121 -2.586 0.00971 ** M.userY:TempHigh -0.12692 0.26257 -0.483 0.62883 SoftMedium 0.05311 0.13308 0.399 0.68984 SoftSoft 0.05311 0.13308 0.399 0.68984 M.userY:SoftMedium 0.08323 0.19685 0.423 0.67245 M.userY:SoftSoft 0.12169 0.19591 0.621 0.53449 TempHigh:SoftMedium -0.30442 0.22239 -1.369 0.17104 TempHigh:SoftSoft -0.30442 0.22239 -1.369 0.17104 M.userY:TempHigh:SoftMedium 0.21189 0.31577 0.671 0.50220 M.userY:TempHigh:SoftSoft -0.20387 0.32540 -0.627 0.53098 BrandM -0.30647 0.10942 -2.801 0.00510 ** M.userY:BrandM 0.40757 0.15961 2.554 0.01066 * TempHigh:BrandM 0.04411 0.18463 0.239 0.81119 M.userY:TempHigh:BrandM 0.44427 0.26673 1.666 0.09579 . --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 (Dispersion parameter for poisson family taken to be 1) Null deviance: 118.627 on 23 degrees of freedom Residual deviance: 5.656 on 8 degrees of freedom AIC: 170.07 Number of Fisher Scoring iterations: 4 Correlation of Coefficients: (Intercept) 1 M.userY , 1 TempHigh , . 1 M.userY:TempHigh . , , 1 SoftMedium , . . 1 SoftSoft , . . . 1 M.userY:SoftMedium . , . , . 1 M.userY:SoftSoft . , . . , . 1 TempHigh:SoftMedium . , . . . . 1 TempHigh:SoftSoft . , . . . . . 1 M.userY:TempHigh:SoftMedium . . . . , . , . 1 M.userY:TempHigh:SoftSoft . . . . . , . , . 1 BrandM . 1 M.userY:BrandM . , 1 TempHigh:BrandM . . . . 1 M.userY:TempHigh:BrandM . . . . , 1 attr(,"legend") [1] 0 ' ' 0.3 '.' 0.6 ',' 0.8 '+' 0.9 '*' 0.95 'B' 1 > anova(detg.m0, detg.mod) Analysis of Deviance Table Model 1: Fr ~ M.user * Temp * Soft + Brand Model 2: Fr ~ M.user * Temp * Soft + Brand * M.user * Temp Resid. Df Resid. Dev Df Deviance 1 11 32.826 2 8 5.656 3 27.17 demo(smooth) ---- ~~~~~~ > ### This used to be in example(smooth) before we had package-specific demos > # Copyright (C) 1997-2009 The R Core Team > > require(stats); require(graphics); require(datasets) > op <- par(mfrow = c(1,1)) > ## The help(smooth) examples: > example(smooth, package="stats") smooth> require(graphics) smooth> ## see also demo(smooth) ! smooth> smooth> x1 <- c(4, 1, 3, 6, 6, 4, 1, 6, 2, 4, 2) # very artificial smooth> (x3R <- smooth(x1, "3R")) # 2 iterations of "3" 3R Tukey smoother resulting from smooth(x = x1, kind = "3R") used 2 iterations [1] 3 3 3 6 6 4 4 4 2 2 2 smooth> smooth(x3R, kind = "S") S Tukey smoother resulting from smooth(x = x3R, kind = "S") changed [1] 3 3 3 3 4 4 4 4 2 2 2 smooth> sm.3RS <- function(x, ...) smooth+ smooth(smooth(x, "3R", ...), "S", ...) smooth> y <- c(1, 1, 19:1) smooth> plot(y, main = "misbehaviour of \"3RSR\"", col.main = 3) smooth> lines(sm.3RS(y)) smooth> lines(smooth(y)) smooth> lines(smooth(y, "3RSR"), col = 3, lwd = 2) # the horror smooth> x <- c(8:10, 10, 0, 0, 9, 9) smooth> plot(x, main = "breakdown of 3R and S and hence 3RSS") smooth> matlines(cbind(smooth(x, "3R"), smooth(x, "S"), smooth(x, "3RSS"), smooth(x))) smooth> presidents[is.na(presidents)] <- 0 # silly smooth> summary(sm3 <- smooth(presidents, "3R")) 3R Tukey smoother resulting from smooth(x = presidents, kind = "3R") ; n = 120 used 4 iterations Min. 1st Qu. Median Mean 3rd Qu. Max. 0.0 44.0 57.0 54.2 71.0 82.0 smooth> summary(sm2 <- smooth(presidents,"3RSS")) 3RSS Tukey smoother resulting from smooth(x = presidents, kind = "3RSS") ; n = 120 used 5 iterations Min. 1st Qu. Median Mean 3rd Qu. Max. 0.00 44.00 57.00 55.45 69.00 82.00 smooth> summary(sm <- smooth(presidents)) 3RS3R Tukey smoother resulting from smooth(x = presidents) ; n = 120 used 7 iterations Min. 1st Qu. Median Mean 3rd Qu. Max. 24.00 44.00 57.00 55.88 69.00 82.00 smooth> all.equal(c(sm2), c(smooth(smooth(sm3, "S"), "S"))) # 3RSS === 3R S S [1] TRUE smooth> all.equal(c(sm), c(smooth(smooth(sm3, "S"), "3R"))) # 3RS3R === 3R S 3R [1] TRUE smooth> plot(presidents, main = "smooth(presidents0, *) : 3R and default 3RS3R") smooth> lines(sm3, col = 3, lwd = 1.5) smooth> lines(sm, col = 2, lwd = 1.25) > ## Didactical investigation: > > showSmooth <- function(x, leg.x = 1, leg.y = max(x)) { + ss <- cbind(x, "3c" = smooth(x, "3", end="copy"), + "3" = smooth(x, "3"), + "3Rc" = smooth(x, "3R", end="copy"), + "3R" = smooth(x, "3R"), + sm = smooth(x)) + k <- ncol(ss) - 1 + n <- length(x) + slwd <- c(1,1,4,1,3,2) + slty <- c(0, 2:(k+1)) + matplot(ss, main = "Tukey Smoothers", ylab = "y ; sm(y)", + type= c("p",rep("l",k)), pch= par("pch"), lwd= slwd, lty= slty) + legend(leg.x, leg.y, + c("Data", "3 (copy)", "3 (Tukey)", + "3R (copy)", "3R (Tukey)", "smooth()"), + pch= c(par("pch"),rep(-1,k)), col=1:(k+1), lwd= slwd, lty= slty) + ss + } > ## 4 simple didactical examples, showing different steps in smooth(): > > for(x in list(c(4, 6, 2, 2, 6, 3, 6, 6, 5, 2), + c(3, 2, 1, 4, 5, 1, 3, 2, 4, 5, 2), + c(2, 4, 2, 6, 1, 1, 2, 6, 3, 1, 6), + x1)) + print(t(showSmooth(x))) [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] [,10] x 4 6 2 2 6 3 6 6 5 2 3c 4 4 2 2 3 6 6 6 5 2 3 4 4 2 2 3 6 6 6 5 3 3Rc 4 4 2 2 3 6 6 6 5 2 3R 4 4 2 2 3 6 6 6 5 3 sm 4 4 4 3 3 6 6 6 5 3 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] [,10] [,11] x 3 2 1 4 5 1 3 2 4 5 2 3c 3 2 2 4 4 3 2 3 4 4 2 3 2 2 2 4 4 3 2 3 4 4 4 3Rc 3 2 2 4 4 3 3 3 4 4 2 3R 2 2 2 4 4 3 3 3 4 4 4 sm 2 2 2 2 3 3 3 3 4 4 4 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] [,10] [,11] x 2 4 2 6 1 1 2 6 3 1 6 3c 2 2 4 2 1 1 2 3 3 3 6 3 2 2 4 2 1 1 2 3 3 3 3 3Rc 2 2 2 2 1 1 2 3 3 3 6 3R 2 2 2 2 1 1 2 3 3 3 3 sm 2 2 2 2 2 2 2 3 3 3 3 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] [,10] [,11] x 4 1 3 6 6 4 1 6 2 4 2 3c 4 3 3 6 6 4 4 2 4 2 2 3 3 3 3 6 6 4 4 2 4 2 2 3Rc 4 3 3 6 6 4 4 4 2 2 2 3R 3 3 3 6 6 4 4 4 2 2 2 sm 3 3 3 3 4 4 4 4 2 2 2 > par(op) > > cat("Time elapsed: ", proc.time() - .ptime, "\n") Time elapsed: 1.565 0.046 1.617 0 0 >