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Type 'q()' to quit R. > ## Regression tests for which the printed output is the issue > ### _and_ must work (no Recommended packages, please) > > pdf("reg-tests-2.pdf", encoding = "ISOLatin1.enc") > > ## force standard handling for data frames > options(stringsAsFactors=TRUE) > options(useFancyQuotes=FALSE) > > ### moved from various .Rd files > ## abbreviate > for(m in 1:5) { + cat("\n",m,":\n") + print(as.vector(abbreviate(state.name, minl=m))) + } 1 : [1] "Alb" "Als" "Arz" "Ark" "Clf" "Clr" "Cn" "D" "F" "G" [11] "H" "Id" "Il" "In" "Iw" "Kns" "Knt" "L" "Man" "Mr" [21] "Mssc" "Mc" "Mnn" "Msss" "Mssr" "Mnt" "Nb" "Nv" "NH" "NJ" [31] "NM" "NY" "NC" "ND" "Oh" "Ok" "Or" "P" "RI" "SC" [41] "SD" "Tn" "Tx" "U" "Vrm" "Vrg" "Wsh" "WV" "Wsc" "Wy" 2 : [1] "Alb" "Als" "Arz" "Ark" "Clf" "Clr" "Cn" "Dl" "Fl" "Gr" [11] "Hw" "Id" "Il" "In" "Iw" "Kns" "Knt" "Ls" "Man" "Mr" [21] "Mssc" "Mc" "Mnn" "Msss" "Mssr" "Mnt" "Nb" "Nv" "NH" "NJ" [31] "NM" "NY" "NC" "ND" "Oh" "Ok" "Or" "Pn" "RI" "SC" [41] "SD" "Tn" "Tx" "Ut" "Vrm" "Vrg" "Wsh" "WV" "Wsc" "Wy" 3 : [1] "Alb" "Als" "Arz" "Ark" "Clf" "Clr" "Cnn" "Dlw" "Flr" "Grg" [11] "Haw" "Idh" "Ill" "Ind" "Iow" "Kns" "Knt" "Lsn" "Man" "Mry" [21] "Mssc" "Mch" "Mnn" "Msss" "Mssr" "Mnt" "Nbr" "Nvd" "NwH" "NwJ" [31] "NwM" "NwY" "NrC" "NrD" "Ohi" "Okl" "Org" "Pnn" "RhI" "StC" [41] "StD" "Tnn" "Txs" "Uth" "Vrm" "Vrg" "Wsh" "WsV" "Wsc" "Wym" 4 : [1] "Albm" "Alsk" "Arzn" "Arkn" "Clfr" "Clrd" "Cnnc" "Dlwr" "Flrd" "Gerg" [11] "Hawa" "Idah" "Illn" "Indn" "Iowa" "Knss" "Kntc" "Losn" "Main" "Mryl" [21] "Mssc" "Mchg" "Mnns" "Msss" "Mssr" "Mntn" "Nbrs" "Nevd" "NwHm" "NwJr" [31] "NwMx" "NwYr" "NrtC" "NrtD" "Ohio" "Oklh" "Orgn" "Pnns" "RhdI" "SthC" [41] "SthD" "Tnns" "Texs" "Utah" "Vrmn" "Vrgn" "Wshn" "WstV" "Wscn" "Wymn" 5 : [1] "Alabm" "Alask" "Arizn" "Arkns" "Clfrn" "Colrd" "Cnnct" "Delwr" "Flord" [10] "Georg" "Hawai" "Idaho" "Illns" "Indin" "Iowa" "Kanss" "Kntck" "Lousn" [19] "Maine" "Mryln" "Mssch" "Mchgn" "Mnnst" "Mssss" "Missr" "Montn" "Nbrsk" [28] "Nevad" "NwHmp" "NwJrs" "NwMxc" "NwYrk" "NrthC" "NrthD" "Ohio" "Oklhm" [37] "Oregn" "Pnnsy" "RhdIs" "SthCr" "SthDk" "Tnnss" "Texas" "Utah" "Vrmnt" [46] "Virgn" "Wshng" "WstVr" "Wscns" "Wymng" > > ## apply > x <- cbind(x1 = 3, x2 = c(4:1, 2:5)) > dimnames(x)[[1]] <- letters[1:8] > apply(x, 2, summary) # 6 x n matrix x1 x2 Min. 3 1 1st Qu. 3 2 Median 3 3 Mean 3 3 3rd Qu. 3 4 Max. 3 5 > apply(x, 1, quantile)# 5 x n matrix a b c d e f g h 0% 3.00 3 2.00 1.0 2.00 3 3.00 3.0 25% 3.25 3 2.25 1.5 2.25 3 3.25 3.5 50% 3.50 3 2.50 2.0 2.50 3 3.50 4.0 75% 3.75 3 2.75 2.5 2.75 3 3.75 4.5 100% 4.00 3 3.00 3.0 3.00 3 4.00 5.0 > > d.arr <- 2:5 > arr <- array(1:prod(d.arr), d.arr, + list(NULL,letters[1:d.arr[2]],NULL,paste("V",4+1:d.arr[4],sep=""))) > aa <- array(1:20,c(2,2,5)) > str(apply(aa[FALSE,,,drop=FALSE], 1, dim))# empty integer, `incorrect' dim. int(0) > stopifnot( + apply(arr, 1:2, sum) == t(apply(arr, 2:1, sum)), + aa == apply(aa,2:3,function(x) x), + all.equal(apply(apply(aa,2:3, sum),2,sum), + 10+16*0:4, tolerance = 4*.Machine$double.eps) + ) > marg <- list(1:2, 2:3, c(2,4), c(1,3), 2:4, 1:3, 1:4) > for(m in marg) print(apply(arr, print(m), sum)) [1] 1 2 a b c [1,] 1160 1200 1240 [2,] 1180 1220 1260 [1] 2 3 [,1] [,2] [,3] [,4] a 495 555 615 675 b 515 575 635 695 c 535 595 655 715 [1] 2 4 V5 V6 V7 V8 V9 a 84 276 468 660 852 b 100 292 484 676 868 c 116 308 500 692 884 [1] 1 3 [,1] [,2] [,3] [,4] [1,] 765 855 945 1035 [2,] 780 870 960 1050 [1] 2 3 4 , , V5 [,1] [,2] [,3] [,4] a 3 15 27 39 b 7 19 31 43 c 11 23 35 47 , , V6 [,1] [,2] [,3] [,4] a 51 63 75 87 b 55 67 79 91 c 59 71 83 95 , , V7 [,1] [,2] [,3] [,4] a 99 111 123 135 b 103 115 127 139 c 107 119 131 143 , , V8 [,1] [,2] [,3] [,4] a 147 159 171 183 b 151 163 175 187 c 155 167 179 191 , , V9 [,1] [,2] [,3] [,4] a 195 207 219 231 b 199 211 223 235 c 203 215 227 239 [1] 1 2 3 , , 1 a b c [1,] 245 255 265 [2,] 250 260 270 , , 2 a b c [1,] 275 285 295 [2,] 280 290 300 , , 3 a b c [1,] 305 315 325 [2,] 310 320 330 , , 4 a b c [1,] 335 345 355 [2,] 340 350 360 [1] 1 2 3 4 , , 1, V5 a b c [1,] 1 3 5 [2,] 2 4 6 , , 2, V5 a b c [1,] 7 9 11 [2,] 8 10 12 , , 3, V5 a b c [1,] 13 15 17 [2,] 14 16 18 , , 4, V5 a b c [1,] 19 21 23 [2,] 20 22 24 , , 1, V6 a b c [1,] 25 27 29 [2,] 26 28 30 , , 2, V6 a b c [1,] 31 33 35 [2,] 32 34 36 , , 3, V6 a b c [1,] 37 39 41 [2,] 38 40 42 , , 4, V6 a b c [1,] 43 45 47 [2,] 44 46 48 , , 1, V7 a b c [1,] 49 51 53 [2,] 50 52 54 , , 2, V7 a b c [1,] 55 57 59 [2,] 56 58 60 , , 3, V7 a b c [1,] 61 63 65 [2,] 62 64 66 , , 4, V7 a b c [1,] 67 69 71 [2,] 68 70 72 , , 1, V8 a b c [1,] 73 75 77 [2,] 74 76 78 , , 2, V8 a b c [1,] 79 81 83 [2,] 80 82 84 , , 3, V8 a b c [1,] 85 87 89 [2,] 86 88 90 , , 4, V8 a b c [1,] 91 93 95 [2,] 92 94 96 , , 1, V9 a b c [1,] 97 99 101 [2,] 98 100 102 , , 2, V9 a b c [1,] 103 105 107 [2,] 104 106 108 , , 3, V9 a b c [1,] 109 111 113 [2,] 110 112 114 , , 4, V9 a b c [1,] 115 117 119 [2,] 116 118 120 > for(m in marg) ## 75% of the time here was spent on the names + print(dim(apply(arr, print(m), quantile, names=FALSE)) == c(5,d.arr[m])) [1] 1 2 [1] TRUE TRUE TRUE [1] 2 3 [1] TRUE TRUE TRUE [1] 2 4 [1] TRUE TRUE TRUE [1] 1 3 [1] TRUE TRUE TRUE [1] 2 3 4 [1] TRUE TRUE TRUE TRUE [1] 1 2 3 [1] TRUE TRUE TRUE TRUE [1] 1 2 3 4 [1] TRUE TRUE TRUE TRUE TRUE > > ## Bessel > nus <- c(0:5,10,20) > > x0 <- 2^(-20:10) > plot(x0,x0, log='xy', ylab="", ylim=c(.1,1e60),type='n', + main = "Bessel Functions -Y_nu(x) near 0\n log - log scale") > for(nu in sort(c(nus,nus+.5))) lines(x0, -besselY(x0,nu=nu), col = nu+2) > legend(3,1e50, leg=paste("nu=", paste(nus,nus+.5, sep=",")), col=nus+2, lwd=1) > > x <- seq(3,500);yl <- c(-.3, .2) > plot(x,x, ylim = yl, ylab="",type='n', main = "Bessel Functions Y_nu(x)") > for(nu in nus){xx <- x[x > .6*nu]; lines(xx,besselY(xx,nu=nu), col = nu+2)} > legend(300,-.08, leg=paste("nu=",nus), col = nus+2, lwd=1) > > x <- seq(10,50000,by=10);yl <- c(-.1, .1) > plot(x,x, ylim = yl, ylab="",type='n', main = "Bessel Functions Y_nu(x)") > for(nu in nus){xx <- x[x > .6*nu]; lines(xx,besselY(xx,nu=nu), col = nu+2)} > summary(bY <- besselY(2,nu = nu <- seq(0,100,len=501))) Min. 1st Qu. Median Mean 3rd Qu. Max. -3.001e+155 -1.067e+107 -1.976e+62 -9.961e+152 -2.059e+23 1.000e+00 > which(bY >= 0) [1] 1 2 3 4 5 > summary(bY <- besselY(2,nu = nu <- seq(3,300,len=51))) Min. 1st Qu. Median Mean 3rd Qu. Max. -Inf -Inf -2.248e+263 -Inf -3.777e+116 -1.000e+00 There were 22 warnings (use warnings() to see them) > summary(bI <- besselI(x = x <- 10:700, 1)) Min. 1st Qu. Median Mean 3rd Qu. Max. 2.671e+03 6.026e+77 3.161e+152 3.501e+299 2.409e+227 1.529e+302 > ## end of moved from Bessel.Rd > > ## data.frame > set.seed(123) > L3 <- LETTERS[1:3] > d <- data.frame(cbind(x=1, y=1:10), fac = sample(L3, 10, replace=TRUE)) > str(d) 'data.frame': 10 obs. of 3 variables: $ x : num 1 1 1 1 1 1 1 1 1 1 $ y : num 1 2 3 4 5 6 7 8 9 10 $ fac: Factor w/ 3 levels "A","B","C": 1 3 2 3 3 1 2 3 2 2 > (d0 <- d[, FALSE]) # NULL dataframe with 10 rows data frame with 0 columns and 10 rows > (d.0 <- d[FALSE, ]) # <0 rows> dataframe (3 cols) [1] x y fac <0 rows> (or 0-length row.names) > (d00 <- d0[FALSE,]) # NULL dataframe with 0 rows data frame with 0 columns and 0 rows > stopifnot(identical(d, cbind(d, d0)), + identical(d, cbind(d0, d))) > stopifnot(identical(d, rbind(d,d.0)), + identical(d, rbind(d.0,d)), + identical(d, rbind(d00,d)), + identical(d, rbind(d,d00))) > ## Comments: failed before ver. 1.4.0 > > ## diag > diag(array(1:4, dim=5)) [,1] [,2] [,3] [,4] [,5] [1,] 1 0 0 0 0 [2,] 0 2 0 0 0 [3,] 0 0 3 0 0 [4,] 0 0 0 4 0 [5,] 0 0 0 0 1 > ## test behaviour with 0 rows or columns > diag(0) <0 x 0 matrix> > z <- matrix(0, 0, 4) > diag(z) numeric(0) > diag(z) <- numeric(0) > z [,1] [,2] [,3] [,4] > ## end of moved from diag.Rd > > ## format > ## handling of quotes > zz <- data.frame(a=I("abc"), b=I("def\"gh")) > format(zz) a b 1 abc def"gh > ## " (E fontification) > > ## printing more than 16 is platform-dependent > for(i in c(1:5,10,15,16)) cat(i,":\t",format(pi,digits=i),"\n") 1 : 3 2 : 3.1 3 : 3.14 4 : 3.142 5 : 3.1416 10 : 3.141592654 15 : 3.14159265358979 16 : 3.141592653589793 > > p <- c(47,13,2,.1,.023,.0045, 1e-100)/1000 > format.pval(p) [1] "0.0470" "0.0130" "0.0020" "0.0001" "2.3e-05" "4.5e-06" "< 2e-16" > format.pval(p / 0.9) [1] "0.05222222" "0.01444444" "0.00222222" "0.00011111" "2.5556e-05" [6] "5.0000e-06" "< 2.22e-16" > format.pval(p / 0.9, dig=3) [1] "0.052222" "0.014444" "0.002222" "0.000111" "2.56e-05" "5.00e-06" "< 2e-16" > ## end of moved from format.Rd > > > ## is.finite > x <- c(100,-1e-13,Inf,-Inf, NaN, pi, NA) > x # 1.000000 -3.000000 Inf -Inf NA 3.141593 NA [1] 1.000000e+02 -1.000000e-13 Inf -Inf NaN [6] 3.141593e+00 NA > names(x) <- formatC(x, dig=3) > is.finite(x) 100 -1e-13 Inf -Inf NaN 3.14 NA TRUE TRUE FALSE FALSE FALSE TRUE FALSE > ##- 100 -1e-13 Inf -Inf NaN 3.14 NA > ##- T T . . . T . > is.na(x) 100 -1e-13 Inf -Inf NaN 3.14 NA FALSE FALSE FALSE FALSE TRUE FALSE TRUE > ##- 100 -1e-13 Inf -Inf NaN 3.14 NA > ##- . . . . T . T > which(is.na(x) & !is.nan(x))# only 'NA': 7 NA 7 > > is.na(x) | is.finite(x) 100 -1e-13 Inf -Inf NaN 3.14 NA TRUE TRUE FALSE FALSE TRUE TRUE TRUE > ##- 100 -1e-13 Inf -Inf NaN 3.14 NA > ##- T T . . T T T > is.infinite(x) 100 -1e-13 Inf -Inf NaN 3.14 NA FALSE FALSE TRUE TRUE FALSE FALSE FALSE > ##- 100 -1e-13 Inf -Inf NaN 3.14 NA > ##- . . T T . . . > > ##-- either finite or infinite or NA: > all(is.na(x) != is.finite(x) | is.infinite(x)) # TRUE [1] TRUE > all(is.nan(x) != is.finite(x) | is.infinite(x)) # FALSE: have 'real' NA [1] FALSE > > ##--- Integer > (ix <- structure(as.integer(x),names= names(x))) 100 -1e-13 Inf -Inf NaN 3.14 NA 100 0 NA NA NA 3 NA Warning message: In structure(as.integer(x), names = names(x)) : NAs introduced by coercion to integer range > ##- 100 -1e-13 Inf -Inf NaN 3.14 NA > ##- 100 0 NA NA NA 3 NA > all(is.na(ix) != is.finite(ix) | is.infinite(ix)) # TRUE (still) [1] TRUE > > storage.mode(ii <- -3:5) [1] "integer" > storage.mode(zm <- outer(ii,ii, FUN="*"))# integer [1] "double" > storage.mode(zd <- outer(ii,ii, FUN="/"))# double [1] "double" > range(zd, na.rm=TRUE)# -Inf Inf [1] -Inf Inf > zd[,ii==0] [1] -Inf -Inf -Inf NaN Inf Inf Inf Inf Inf > > (storage.mode(print(1:1 / 0:0)))# Inf "double" [1] Inf [1] "double" > (storage.mode(print(1:1 / 1:1)))# 1 "double" [1] 1 [1] "double" > (storage.mode(print(1:1 + 1:1)))# 2 "integer" [1] 2 [1] "integer" > (storage.mode(print(2:2 * 2:2)))# 4 "integer" [1] 4 [1] "integer" > ## end of moved from is.finite.Rd > > > ## kronecker > fred <- matrix(1:12, 3, 4, dimnames=list(LETTERS[1:3], LETTERS[4:7])) > bill <- c("happy" = 100, "sad" = 1000) > kronecker(fred, bill, make.dimnames = TRUE) D: E: F: G: A:happy 100 400 700 1000 A:sad 1000 4000 7000 10000 B:happy 200 500 800 1100 B:sad 2000 5000 8000 11000 C:happy 300 600 900 1200 C:sad 3000 6000 9000 12000 > > bill <- outer(bill, c("cat"=3, "dog"=4)) > kronecker(fred, bill, make.dimnames = TRUE) D:cat D:dog E:cat E:dog F:cat F:dog G:cat G:dog A:happy 300 400 1200 1600 2100 2800 3000 4000 A:sad 3000 4000 12000 16000 21000 28000 30000 40000 B:happy 600 800 1500 2000 2400 3200 3300 4400 B:sad 6000 8000 15000 20000 24000 32000 33000 44000 C:happy 900 1200 1800 2400 2700 3600 3600 4800 C:sad 9000 12000 18000 24000 27000 36000 36000 48000 > > # dimnames are hard work: let's test them thoroughly > > dimnames(bill) <- NULL > kronecker(fred, bill, make=TRUE) D: D: E: E: F: F: G: G: A: 300 400 1200 1600 2100 2800 3000 4000 A: 3000 4000 12000 16000 21000 28000 30000 40000 B: 600 800 1500 2000 2400 3200 3300 4400 B: 6000 8000 15000 20000 24000 32000 33000 44000 C: 900 1200 1800 2400 2700 3600 3600 4800 C: 9000 12000 18000 24000 27000 36000 36000 48000 > kronecker(bill, fred, make=TRUE) :D :E :F :G :D :E :F :G :A 300 1200 2100 3000 400 1600 2800 4000 :B 600 1500 2400 3300 800 2000 3200 4400 :C 900 1800 2700 3600 1200 2400 3600 4800 :A 3000 12000 21000 30000 4000 16000 28000 40000 :B 6000 15000 24000 33000 8000 20000 32000 44000 :C 9000 18000 27000 36000 12000 24000 36000 48000 > > dim(bill) <- c(2, 2, 1) > dimnames(bill) <- list(c("happy", "sad"), NULL, "") > kronecker(fred, bill, make=TRUE) , , : D: D: E: E: F: F: G: G: A:happy 300 400 1200 1600 2100 2800 3000 4000 A:sad 3000 4000 12000 16000 21000 28000 30000 40000 B:happy 600 800 1500 2000 2400 3200 3300 4400 B:sad 6000 8000 15000 20000 24000 32000 33000 44000 C:happy 900 1200 1800 2400 2700 3600 3600 4800 C:sad 9000 12000 18000 24000 27000 36000 36000 48000 > > bill <- array(1:24, c(3, 4, 2)) > dimnames(bill) <- list(NULL, NULL, c("happy", "sad")) > kronecker(bill, fred, make=TRUE) , , happy: :D :E :F :G :D :E :F :G :D :E :F :G :D :E :F :G :A 1 4 7 10 4 16 28 40 7 28 49 70 10 40 70 100 :B 2 5 8 11 8 20 32 44 14 35 56 77 20 50 80 110 :C 3 6 9 12 12 24 36 48 21 42 63 84 30 60 90 120 :A 2 8 14 20 5 20 35 50 8 32 56 80 11 44 77 110 :B 4 10 16 22 10 25 40 55 16 40 64 88 22 55 88 121 :C 6 12 18 24 15 30 45 60 24 48 72 96 33 66 99 132 :A 3 12 21 30 6 24 42 60 9 36 63 90 12 48 84 120 :B 6 15 24 33 12 30 48 66 18 45 72 99 24 60 96 132 :C 9 18 27 36 18 36 54 72 27 54 81 108 36 72 108 144 , , sad: :D :E :F :G :D :E :F :G :D :E :F :G :D :E :F :G :A 13 52 91 130 16 64 112 160 19 76 133 190 22 88 154 220 :B 26 65 104 143 32 80 128 176 38 95 152 209 44 110 176 242 :C 39 78 117 156 48 96 144 192 57 114 171 228 66 132 198 264 :A 14 56 98 140 17 68 119 170 20 80 140 200 23 92 161 230 :B 28 70 112 154 34 85 136 187 40 100 160 220 46 115 184 253 :C 42 84 126 168 51 102 153 204 60 120 180 240 69 138 207 276 :A 15 60 105 150 18 72 126 180 21 84 147 210 24 96 168 240 :B 30 75 120 165 36 90 144 198 42 105 168 231 48 120 192 264 :C 45 90 135 180 54 108 162 216 63 126 189 252 72 144 216 288 > kronecker(fred, bill, make=TRUE) , , :happy D: D: D: D: E: E: E: E: F: F: F: F: G: G: G: G: A: 1 4 7 10 4 16 28 40 7 28 49 70 10 40 70 100 A: 2 5 8 11 8 20 32 44 14 35 56 77 20 50 80 110 A: 3 6 9 12 12 24 36 48 21 42 63 84 30 60 90 120 B: 2 8 14 20 5 20 35 50 8 32 56 80 11 44 77 110 B: 4 10 16 22 10 25 40 55 16 40 64 88 22 55 88 121 B: 6 12 18 24 15 30 45 60 24 48 72 96 33 66 99 132 C: 3 12 21 30 6 24 42 60 9 36 63 90 12 48 84 120 C: 6 15 24 33 12 30 48 66 18 45 72 99 24 60 96 132 C: 9 18 27 36 18 36 54 72 27 54 81 108 36 72 108 144 , , :sad D: D: D: D: E: E: E: E: F: F: F: F: G: G: G: G: A: 13 16 19 22 52 64 76 88 91 112 133 154 130 160 190 220 A: 14 17 20 23 56 68 80 92 98 119 140 161 140 170 200 230 A: 15 18 21 24 60 72 84 96 105 126 147 168 150 180 210 240 B: 26 32 38 44 65 80 95 110 104 128 152 176 143 176 209 242 B: 28 34 40 46 70 85 100 115 112 136 160 184 154 187 220 253 B: 30 36 42 48 75 90 105 120 120 144 168 192 165 198 231 264 C: 39 48 57 66 78 96 114 132 117 144 171 198 156 192 228 264 C: 42 51 60 69 84 102 120 138 126 153 180 207 168 204 240 276 C: 45 54 63 72 90 108 126 144 135 162 189 216 180 216 252 288 > > fred <- outer(fred, c("frequentist"=4, "bayesian"=4000)) > kronecker(fred, bill, make=TRUE) , , frequentist:happy D: D: D: D: E: E: E: E: F: F: F: F: G: G: G: G: A: 4 16 28 40 16 64 112 160 28 112 196 280 40 160 280 400 A: 8 20 32 44 32 80 128 176 56 140 224 308 80 200 320 440 A: 12 24 36 48 48 96 144 192 84 168 252 336 120 240 360 480 B: 8 32 56 80 20 80 140 200 32 128 224 320 44 176 308 440 B: 16 40 64 88 40 100 160 220 64 160 256 352 88 220 352 484 B: 24 48 72 96 60 120 180 240 96 192 288 384 132 264 396 528 C: 12 48 84 120 24 96 168 240 36 144 252 360 48 192 336 480 C: 24 60 96 132 48 120 192 264 72 180 288 396 96 240 384 528 C: 36 72 108 144 72 144 216 288 108 216 324 432 144 288 432 576 , , frequentist:sad D: D: D: D: E: E: E: E: F: F: F: F: G: G: G: G: A: 52 64 76 88 208 256 304 352 364 448 532 616 520 640 760 880 A: 56 68 80 92 224 272 320 368 392 476 560 644 560 680 800 920 A: 60 72 84 96 240 288 336 384 420 504 588 672 600 720 840 960 B: 104 128 152 176 260 320 380 440 416 512 608 704 572 704 836 968 B: 112 136 160 184 280 340 400 460 448 544 640 736 616 748 880 1012 B: 120 144 168 192 300 360 420 480 480 576 672 768 660 792 924 1056 C: 156 192 228 264 312 384 456 528 468 576 684 792 624 768 912 1056 C: 168 204 240 276 336 408 480 552 504 612 720 828 672 816 960 1104 C: 180 216 252 288 360 432 504 576 540 648 756 864 720 864 1008 1152 , , bayesian:happy D: D: D: D: E: E: E: E: F: F: F: A: 4000 16000 28000 40000 16000 64000 112000 160000 28000 112000 196000 A: 8000 20000 32000 44000 32000 80000 128000 176000 56000 140000 224000 A: 12000 24000 36000 48000 48000 96000 144000 192000 84000 168000 252000 B: 8000 32000 56000 80000 20000 80000 140000 200000 32000 128000 224000 B: 16000 40000 64000 88000 40000 100000 160000 220000 64000 160000 256000 B: 24000 48000 72000 96000 60000 120000 180000 240000 96000 192000 288000 C: 12000 48000 84000 120000 24000 96000 168000 240000 36000 144000 252000 C: 24000 60000 96000 132000 48000 120000 192000 264000 72000 180000 288000 C: 36000 72000 108000 144000 72000 144000 216000 288000 108000 216000 324000 F: G: G: G: G: A: 280000 40000 160000 280000 400000 A: 308000 80000 200000 320000 440000 A: 336000 120000 240000 360000 480000 B: 320000 44000 176000 308000 440000 B: 352000 88000 220000 352000 484000 B: 384000 132000 264000 396000 528000 C: 360000 48000 192000 336000 480000 C: 396000 96000 240000 384000 528000 C: 432000 144000 288000 432000 576000 , , bayesian:sad D: D: D: D: E: E: E: E: F: F: F: A: 52000 64000 76000 88000 208000 256000 304000 352000 364000 448000 532000 A: 56000 68000 80000 92000 224000 272000 320000 368000 392000 476000 560000 A: 60000 72000 84000 96000 240000 288000 336000 384000 420000 504000 588000 B: 104000 128000 152000 176000 260000 320000 380000 440000 416000 512000 608000 B: 112000 136000 160000 184000 280000 340000 400000 460000 448000 544000 640000 B: 120000 144000 168000 192000 300000 360000 420000 480000 480000 576000 672000 C: 156000 192000 228000 264000 312000 384000 456000 528000 468000 576000 684000 C: 168000 204000 240000 276000 336000 408000 480000 552000 504000 612000 720000 C: 180000 216000 252000 288000 360000 432000 504000 576000 540000 648000 756000 F: G: G: G: G: A: 616000 520000 640000 760000 880000 A: 644000 560000 680000 800000 920000 A: 672000 600000 720000 840000 960000 B: 704000 572000 704000 836000 968000 B: 736000 616000 748000 880000 1012000 B: 768000 660000 792000 924000 1056000 C: 792000 624000 768000 912000 1056000 C: 828000 672000 816000 960000 1104000 C: 864000 720000 864000 1008000 1152000 > ## end of moved from kronecker.Rd > > ## merge > authors <- data.frame( + surname = c("Tukey", "Venables", "Tierney", "Ripley", "McNeil"), + nationality = c("US", "Australia", "US", "UK", "Australia"), + deceased = c("yes", rep("no", 4))) > books <- data.frame( + name = c("Tukey", "Venables", "Tierney", + "Ripley", "Ripley", "McNeil", "R Core"), + title = c("Exploratory Data Analysis", + "Modern Applied Statistics ...", + "LISP-STAT", + "Spatial Statistics", "Stochastic Simulation", + "Interactive Data Analysis", + "An Introduction to R"), + other.author = c(NA, "Ripley", NA, NA, NA, NA, + "Venables & Smith")) > b2 <- books; names(b2)[1] <- names(authors)[1] > > merge(authors, b2, all.x = TRUE) surname nationality deceased title other.author 1 McNeil Australia no Interactive Data Analysis 2 Ripley UK no Spatial Statistics 3 Ripley UK no Stochastic Simulation 4 Tierney US no LISP-STAT 5 Tukey US yes Exploratory Data Analysis 6 Venables Australia no Modern Applied Statistics ... Ripley > merge(authors, b2, all.y = TRUE) surname nationality deceased title other.author 1 McNeil Australia no Interactive Data Analysis 2 Ripley UK no Spatial Statistics 3 Ripley UK no Stochastic Simulation 4 Tierney US no LISP-STAT 5 Tukey US yes Exploratory Data Analysis 6 Venables Australia no Modern Applied Statistics ... Ripley 7 R Core An Introduction to R Venables & Smith > > ## empty d.f. : > merge(authors, b2[7,]) [1] surname nationality deceased title other.author <0 rows> (or 0-length row.names) > > merge(authors, b2[7,], all.y = TRUE) surname nationality deceased title other.author 1 R Core An Introduction to R Venables & Smith > merge(authors, b2[7,], all.x = TRUE) surname nationality deceased title other.author 1 McNeil Australia no 2 Ripley UK no 3 Tierney US no 4 Tukey US yes 5 Venables Australia no > ## end of moved from merge.Rd > > ## NA > is.na(c(1,NA)) [1] FALSE TRUE > is.na(paste(c(1,NA))) [1] FALSE FALSE > is.na(list())# logical(0) logical(0) > ll <- list(pi,"C",NaN,Inf, 1:3, c(0,NA), NA) > is.na (ll) [1] FALSE FALSE TRUE FALSE FALSE FALSE TRUE > lapply(ll, is.nan) # is.nan no longer works on lists [[1]] [1] FALSE [[2]] [1] FALSE [[3]] [1] TRUE [[4]] [1] FALSE [[5]] [1] FALSE FALSE FALSE [[6]] [1] FALSE FALSE [[7]] [1] FALSE > ## end of moved from NA.Rd > > ## is.na was returning unset values on nested lists > ll <- list(list(1)) > for (i in 1:5) print(as.integer(is.na(ll))) [1] 0 [1] 0 [1] 0 [1] 0 [1] 0 > > ## scale > ## test out NA handling > tm <- matrix(c(2,1,0,1,0,NA,NA,NA,0), nrow=3) > scale(tm, , FALSE) [,1] [,2] [,3] [1,] 1 0.5 NA [2,] 0 -0.5 NA [3,] -1 NA 0 attr(,"scaled:center") [1] 1.0 0.5 0.0 > scale(tm) [,1] [,2] [,3] [1,] 1 0.7071068 NA [2,] 0 -0.7071068 NA [3,] -1 NA NaN attr(,"scaled:center") [1] 1.0 0.5 0.0 attr(,"scaled:scale") [1] 1.0000000 0.7071068 0.0000000 > ## end of moved from scale.Rd > > ## tabulate > tabulate(numeric(0)) [1] 0 > ## end of moved from tabulate.Rd > > ## ts > # Ensure working arithmetic for `ts' objects : > stopifnot(z == z) > stopifnot(z-z == 0) > > ts(1:5, start=2, end=4) # truncate Time Series: Start = 2 End = 4 Frequency = 1 [1] 1 2 3 > ts(1:5, start=3, end=17)# repeat Time Series: Start = 3 End = 17 Frequency = 1 [1] 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 > ## end of moved from ts.Rd > > ### end of moved > > > ## PR 715 (Printing list elements w/attributes) > ## > l <- list(a=10) > attr(l$a, "xx") <- 23 > l $a [1] 10 attr(,"xx") [1] 23 > ## Comments: > ## should print as > # $a: > # [1] 10 > # attr($a, "xx"): > # [1] 23 > > ## On the other hand > m <- matrix(c(1, 2, 3, 0, 10, NA), 3, 2) > na.omit(m) [,1] [,2] [1,] 1 0 [2,] 2 10 attr(,"na.action") [1] 3 attr(,"class") [1] "omit" > ## should print as > # [,1] [,2] > # [1,] 1 0 > # [2,] 2 10 > # attr(,"na.action") > # [1] 3 > # attr(,"na.action") > # [1] "omit" > > ## and > x <- 1 > attr(x, "foo") <- list(a="a") > x [1] 1 attr(,"foo") attr(,"foo")$a [1] "a" > ## should print as > # [1] 1 > # attr(,"foo") > # attr(,"foo")$a > # [1] "a" > > > ## PR 746 (printing of lists) > ## > test.list <- list(A = list(formula=Y~X, subset=TRUE), + B = list(formula=Y~X, subset=TRUE)) > > test.list $A $A$formula Y ~ X $A$subset [1] TRUE $B $B$formula Y ~ X $B$subset [1] TRUE > ## Comments: > ## should print as > # $A > # $A$formula > # Y ~ X > # > # $A$subset > # [1] TRUE > # > # > # $B > # $B$formula > # Y ~ X > # > # $B$subset > # [1] TRUE > > ## Marc Feldesman 2001-Feb-01. Precision in summary.data.frame & *.matrix > summary(attenu) event mag station dist Min. : 1.00 Min. :5.000 117 : 5 Min. : 0.50 1st Qu.: 9.00 1st Qu.:5.300 1028 : 4 1st Qu.: 11.32 Median :18.00 Median :6.100 113 : 4 Median : 23.40 Mean :14.74 Mean :6.084 112 : 3 Mean : 45.60 3rd Qu.:20.00 3rd Qu.:6.600 135 : 3 3rd Qu.: 47.55 Max. :23.00 Max. :7.700 (Other):147 Max. :370.00 NA's : 16 accel Min. :0.00300 1st Qu.:0.04425 Median :0.11300 Mean :0.15422 3rd Qu.:0.21925 Max. :0.81000 > summary(attenu, digits = 5) event mag station dist Min. : 1.000 Min. :5.0000 117 : 5 Min. : 0.500 1st Qu.: 9.000 1st Qu.:5.3000 1028 : 4 1st Qu.: 11.325 Median :18.000 Median :6.1000 113 : 4 Median : 23.400 Mean :14.742 Mean :6.0841 112 : 3 Mean : 45.603 3rd Qu.:20.000 3rd Qu.:6.6000 135 : 3 3rd Qu.: 47.550 Max. :23.000 Max. :7.7000 (Other):147 Max. :370.000 NA's : 16 accel Min. :0.00300 1st Qu.:0.04425 Median :0.11300 Mean :0.15422 3rd Qu.:0.21925 Max. :0.81000 > summary(data.matrix(attenu), digits = 5)# the same for matrix event mag station dist Min. : 1.000 Min. :5.0000 Min. : 1.000 Min. : 0.500 1st Qu.: 9.000 1st Qu.:5.3000 1st Qu.: 24.250 1st Qu.: 11.325 Median :18.000 Median :6.1000 Median : 56.500 Median : 23.400 Mean :14.742 Mean :6.0841 Mean : 56.928 Mean : 45.603 3rd Qu.:20.000 3rd Qu.:6.6000 3rd Qu.: 86.750 3rd Qu.: 47.550 Max. :23.000 Max. :7.7000 Max. :117.000 Max. :370.000 NA's :16 accel Min. :0.00300 1st Qu.:0.04425 Median :0.11300 Mean :0.15422 3rd Qu.:0.21925 Max. :0.81000 > ## Comments: > ## No difference between these in 1.2.1 and earlier > set.seed(1) > x <- c(round(runif(10), 2), 10000) > summary(x) Min. 1st Qu. Median Mean 3rd Qu. Max. 0.060 0.320 0.630 909.592 0.905 10000.000 > summary(data.frame(x)) x Min. : 0.060 1st Qu.: 0.320 Median : 0.630 Mean : 909.592 3rd Qu.: 0.905 Max. :10000.000 > ## Comments: > ## All entries show all 3 digits after the decimal point now. > > ## Chong Gu 2001-Feb-16. step on binomials > detg1 <- + structure(list(Temp = structure(c(2L, 1L, 2L, 1L, 2L, 1L, 2L, + 1L, 2L, 1L, 2L, 1L), .Label = c("High", "Low"), class = "factor"), + M.user = structure(c(1L, 1L, 2L, 2L, 1L, 1L, 2L, 2L, 1L, + 1L, 2L, 2L), .Label = c("N", "Y"), class = "factor"), + Soft = structure(c(1L, 1L, 1L, 1L, 2L, 2L, 2L, 2L, 3L, 3L, 3L, 3L), + .Label = c("Hard", "Medium", "Soft"), class = "factor"), + M = c(42, 30, 52, 43, + 50, 23, 55, 47, 53, 27, 49, 29), X = c(68, 42, 37, 24, 66, + 33, 47, 23, 63, 29, 57, 19)), .Names = c("Temp", "M.user", + "Soft", "M", "X"), class = "data.frame", row.names = c("1", "3", + "5", "7", "9", "11", "13", "15", "17", "19", "21", "23")) > detg1.m0 <- glm(cbind(X,M)~1,binomial,detg1) > detg1.m0 Call: glm(formula = cbind(X, M) ~ 1, family = binomial, data = detg1) Coefficients: (Intercept) 0.01587 Degrees of Freedom: 11 Total (i.e. Null); 11 Residual Null Deviance: 32.83 Residual Deviance: 32.83 AIC: 92.52 > step(detg1.m0,scope=list(upper=~M.user*Temp*Soft)) Start: AIC=92.52 cbind(X, M) ~ 1 Df Deviance AIC + M.user 1 12.244 73.942 + Temp 1 28.464 90.162 32.826 92.524 + Soft 2 32.430 96.128 Step: AIC=73.94 cbind(X, M) ~ M.user Df Deviance AIC + Temp 1 8.444 72.142 12.244 73.942 + Soft 2 11.967 77.665 - M.user 1 32.826 92.524 Step: AIC=72.14 cbind(X, M) ~ M.user + Temp Df Deviance AIC + M.user:Temp 1 5.656 71.354 8.444 72.142 - Temp 1 12.244 73.942 + Soft 2 8.228 75.926 - M.user 1 28.464 90.162 Step: AIC=71.35 cbind(X, M) ~ M.user + Temp + M.user:Temp Df Deviance AIC 5.6560 71.354 - M.user:Temp 1 8.4440 72.142 + Soft 2 5.4952 75.193 Call: glm(formula = cbind(X, M) ~ M.user + Temp + M.user:Temp, family = binomial, data = detg1) Coefficients: (Intercept) M.userY TempLow M.userY:TempLow 0.26236 -0.85183 0.04411 0.44427 Degrees of Freedom: 11 Total (i.e. Null); 8 Residual Null Deviance: 32.83 Residual Deviance: 5.656 AIC: 71.35 > > ## PR 829 (empty values in all.vars) > ## This example by Uwe Ligges > > temp <- matrix(1:4, 2) > all.vars(temp ~ 3) # OK [1] "temp" > all.vars(temp[1, ] ~ 3) # wrong in 1.2.1 [1] "temp" > > ## 2001-Feb-22 from David Scott. > ## rank-deficient residuals in a manova model. > gofX.df<- + structure(list(A = c(0.696706709347165, 0.362357754476673, + -0.0291995223012888, + 0.696706709347165, 0.696706709347165, -0.0291995223012888, 0.696706709347165, + -0.0291995223012888, 0.362357754476673, 0.696706709347165, -0.0291995223012888, + 0.362357754476673, -0.416146836547142, 0.362357754476673, 0.696706709347165, + 0.696706709347165, 0.362357754476673, -0.416146836547142, -0.0291995223012888, + -0.416146836547142, 0.696706709347165, -0.416146836547142, 0.362357754476673, + -0.0291995223012888), B = c(0.717356090899523, 0.932039085967226, + 0.999573603041505, 0.717356090899523, 0.717356090899523, 0.999573603041505, + 0.717356090899523, 0.999573603041505, 0.932039085967226, 0.717356090899523, + 0.999573603041505, 0.932039085967226, 0.909297426825682, 0.932039085967226, + 0.717356090899523, 0.717356090899523, 0.932039085967226, 0.909297426825682, + 0.999573603041505, 0.909297426825682, 0.717356090899523, 0.909297426825682, + 0.932039085967226, 0.999573603041505), C = c(-0.0291995223012888, + -0.737393715541246, -0.998294775794753, -0.0291995223012888, + -0.0291995223012888, -0.998294775794753, -0.0291995223012888, + -0.998294775794753, -0.737393715541246, -0.0291995223012888, + -0.998294775794753, -0.737393715541246, -0.653643620863612, -0.737393715541246, + -0.0291995223012888, -0.0291995223012888, -0.737393715541246, + -0.653643620863612, -0.998294775794753, -0.653643620863612, + -0.0291995223012888, + -0.653643620863612, -0.737393715541246, -0.998294775794753), + D = c(0.999573603041505, 0.67546318055115, -0.0583741434275801, + 0.999573603041505, 0.999573603041505, -0.0583741434275801, + 0.999573603041505, -0.0583741434275801, 0.67546318055115, + 0.999573603041505, -0.0583741434275801, 0.67546318055115, + -0.756802495307928, 0.67546318055115, 0.999573603041505, + 0.999573603041505, 0.67546318055115, -0.756802495307928, + -0.0583741434275801, -0.756802495307928, 0.999573603041505, + -0.756802495307928, 0.67546318055115, -0.0583741434275801 + ), groups = structure(c(1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, + 2, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3), class = "factor", .Label = c("1", + "2", "3"))), .Names = c("A", "B", "C", "D", "groups"), row.names = 1:24, + class = "data.frame") > > gofX.manova <- manova(formula = cbind(A, B, C, D) ~ groups, data = gofX.df) > try(summary(gofX.manova)) Error in summary.manova(gofX.manova) : residuals have rank 3 < 4 > ## should fail with an error message `residuals have rank 3 < 4' > > ## Prior to 1.3.0 dist did not handle missing values, and the > ## internal C code was incorrectly scaling for missing values. > z <- as.matrix(t(trees)) > z[1,1] <- z[2,2] <- z[3,3] <- z[2,4] <- NA > dist(z, method="euclidean") Girth Height Height 352.4365 Volume 123.5503 261.5802 > dist(z, method="maximum") Girth Height Height 72.7 Volume 56.4 63.3 > dist(z, method="manhattan") Girth Height Height 1954.8821 Volume 557.1448 1392.3429 > dist(z, method="canberra") Girth Height Height 21.66477 Volume 10.96200 13.63365 > > ## F. Tusell 2001-03-07. printing kernels. > kernel("daniell", m=5) Daniell(5) coef[-5] = 0.09091 coef[-4] = 0.09091 coef[-3] = 0.09091 coef[-2] = 0.09091 coef[-1] = 0.09091 coef[ 0] = 0.09091 coef[ 1] = 0.09091 coef[ 2] = 0.09091 coef[ 3] = 0.09091 coef[ 4] = 0.09091 coef[ 5] = 0.09091 > kernel("modified.daniell", m=5) mDaniell(5) coef[-5] = 0.05 coef[-4] = 0.10 coef[-3] = 0.10 coef[-2] = 0.10 coef[-1] = 0.10 coef[ 0] = 0.10 coef[ 1] = 0.10 coef[ 2] = 0.10 coef[ 3] = 0.10 coef[ 4] = 0.10 coef[ 5] = 0.05 > kernel("daniell", m=c(3,5,7)) Daniell(3,5,7) coef[-15] = 0.0008658 coef[-14] = 0.0025974 coef[-13] = 0.0051948 coef[-12] = 0.0086580 coef[-11] = 0.0129870 coef[-10] = 0.0181818 coef[ -9] = 0.0242424 coef[ -8] = 0.0303030 coef[ -7] = 0.0363636 coef[ -6] = 0.0424242 coef[ -5] = 0.0484848 coef[ -4] = 0.0536797 coef[ -3] = 0.0580087 coef[ -2] = 0.0614719 coef[ -1] = 0.0640693 coef[ 0] = 0.0649351 coef[ 1] = 0.0640693 coef[ 2] = 0.0614719 coef[ 3] = 0.0580087 coef[ 4] = 0.0536797 coef[ 5] = 0.0484848 coef[ 6] = 0.0424242 coef[ 7] = 0.0363636 coef[ 8] = 0.0303030 coef[ 9] = 0.0242424 coef[ 10] = 0.0181818 coef[ 11] = 0.0129870 coef[ 12] = 0.0086580 coef[ 13] = 0.0051948 coef[ 14] = 0.0025974 coef[ 15] = 0.0008658 > ## fixed by patch from Adrian Trapletti 2001-03-08 > > ## Start new year (i.e. line) at Jan: > (tt <- ts(1:10, start = c(1920,7), end = c(1921,4), freq = 12)) Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 1920 1 2 3 4 5 6 1921 7 8 9 10 > cbind(tt, tt + 1) tt tt + 1 Jul 1920 1 2 Aug 1920 2 3 Sep 1920 3 4 Oct 1920 4 5 Nov 1920 5 6 Dec 1920 6 7 Jan 1921 7 8 Feb 1921 8 9 Mar 1921 9 10 Apr 1921 10 11 > > > ## PR 883 (cor(x,y) when is.null(y)) > try(cov(rnorm(10), NULL)) Error in cov(rnorm(10), NULL) : supply both 'x' and 'y' or a matrix-like 'x' > try(cor(rnorm(10), NULL)) Error in cor(rnorm(10), NULL) : supply both 'x' and 'y' or a matrix-like 'x' > ## gave the variance and 1 respectively in 1.2.2. > > > ## PR 960 (format() of a character matrix converts to vector) > ## example from > a <- matrix(c("axx","b","c","d","e","f","g","h"), nrow=2) > format(a) [,1] [,2] [,3] [,4] [1,] "axx" "c " "e " "g " [2,] "b " "d " "f " "h " > format(a, justify="right") [,1] [,2] [,3] [,4] [1,] "axx" " c" " e" " g" [2,] " b" " d" " f" " h" > ## lost dimensions in 1.2.3 > > > ## PR 963 > res <- svd(rbind(1:7))## $v lost dimensions in 1.2.3 > if(res$u[1,1] < 0) {res$u <- -res$u; res$v <- -res$v} > res $d [1] 11.83216 $u [,1] [1,] 1 $v [,1] [1,] 0.08451543 [2,] 0.16903085 [3,] 0.25354628 [4,] 0.33806170 [5,] 0.42257713 [6,] 0.50709255 [7,] 0.59160798 > > > ## Make sure on.exit() keeps being evaluated in the proper env [from PD]: > ## A more complete example: > g1 <- function(fitted) { on.exit(remove(fitted)); return(function(foo) foo) } > g2 <- function(fitted) { on.exit(remove(fitted)); function(foo) foo } > f <- function(g) { fitted <- 1; h <- g(fitted); print(fitted) + ls(envir=environment(h)) } > f(g1) [1] 1 character(0) > f(g2) [1] 1 character(0) > > f2 <- function() + { + g.foo <- g1 + g.bar <- g2 + g <- function(x,...) UseMethod("g") + fitted <- 1; class(fitted) <- "foo" + h <- g(fitted); print(fitted); print(ls(envir=environment(h))) + fitted <- 1; class(fitted) <- "bar" + h <- g(fitted); print(fitted); print(ls(envir=environment(h))) + invisible(NULL) + } > f2() [1] 1 attr(,"class") [1] "foo" character(0) [1] 1 attr(,"class") [1] "bar" character(0) > ## The first case in f2() is broken in 1.3.0(-patched). > > ## on.exit() consistency check from Luke: > g <- function() as.environment(-1) > f <- function(x) UseMethod("f") > f.foo <- function(x) { on.exit(e <<- g()); NULL } > f.bar <- function(x) { on.exit(e <<- g()); return(NULL) } > f(structure(1,class = "foo")) NULL > ls(env = e)# only "x", i.e. *not* the GlobalEnv [1] "x" > f(structure(1,class = "bar")) NULL > stopifnot("x" == ls(env = e))# as above; wrongly was .GlobalEnv in R 1.3.x > > > ## some tests that R supports logical variables in formulae > ## it coerced them to numeric prior to 1.4.0 > ## they should appear like 2-level factors, following S > > oldCon <- options("contrasts") > y <- rnorm(10) > x <- rep(c(TRUE, FALSE), 5) > model.matrix(y ~ x) (Intercept) xTRUE 1 1 1 2 1 0 3 1 1 4 1 0 5 1 1 6 1 0 7 1 1 8 1 0 9 1 1 10 1 0 attr(,"assign") [1] 0 1 attr(,"contrasts") attr(,"contrasts")$x [1] "contr.treatment" > lm(y ~ x) Call: lm(formula = y ~ x) Coefficients: (Intercept) xTRUE -0.05293 -0.20018 > DF <- data.frame(x, y) > lm(y ~ x, data=DF) Call: lm(formula = y ~ x, data = DF) Coefficients: (Intercept) xTRUE -0.05293 -0.20018 > options(contrasts=c("contr.helmert", "contr.poly")) > model.matrix(y ~ x) (Intercept) x1 1 1 1 2 1 -1 3 1 1 4 1 -1 5 1 1 6 1 -1 7 1 1 8 1 -1 9 1 1 10 1 -1 attr(,"assign") [1] 0 1 attr(,"contrasts") attr(,"contrasts")$x [1] "contr.helmert" > lm(y ~ x, data=DF) Call: lm(formula = y ~ x, data = DF) Coefficients: (Intercept) x1 -0.1530 -0.1001 > z <- 1:10 > lm(y ~ x*z) Call: lm(formula = y ~ x * z) Coefficients: (Intercept) x1 z x1:z -0.088089 -0.508170 -0.005102 0.073733 > lm(y ~ x*z - 1) Call: lm(formula = y ~ x * z - 1) Coefficients: xFALSE xTRUE z x1:z 0.420081 -0.596259 -0.005102 0.073733 > options(oldCon) > > ## diffinv, Adrian Trapletti, 2001-08-27 > x <- ts(1:10) > diffinv(diff(x),xi=x[1]) Time Series: Start = 1 End = 10 Frequency = 1 [1] 1 2 3 4 5 6 7 8 9 10 > diffinv(diff(x,lag=1,differences=2),lag=1,differences=2,xi=x[1:2]) Time Series: Start = 1 End = 10 Frequency = 1 [1] 1 2 3 4 5 6 7 8 9 10 > ## last had wrong start and end > > ## PR#1072 (Reading Inf and NaN values) > as.numeric(as.character(NaN)) [1] NaN > as.numeric(as.character(Inf)) [1] Inf > ## were NA on Windows at least under 1.3.0. > > ## PR#1092 (rowsum dimnames) > rowsum(matrix(1:12, 3,4), c("Y","X","Y")) [,1] [,2] [,3] [,4] X 2 5 8 11 Y 4 10 16 22 > ## rownames were 1,2 in <= 1.3.1. > > ## PR#1115 (saving strings with ascii=TRUE) > x <- y <- unlist(as.list( + parse(text=paste("\"\\", as.character(as.octmode(1:255)), "\"",sep="")))) > save(x, ascii=TRUE, file=(fn <- tempfile())) > load(fn) > all(x==y) [1] TRUE > unlink(fn) > ## 1.3.1 had trouble with \ > > > ## Some tests of sink() and connections() > ## capture all the output to a file. > zz <- file("all.Rout", open="wt") > sink(zz) > sink(zz, type="message") > try(log("a")) > ## back to the console > sink(type="message") > sink() > try(log("a")) Error in log("a") : non-numeric argument to mathematical function > > ## capture all the output to a file. > zz <- file("all.Rout", open="wt") > sink(zz) > sink(zz, type="message") > try(log("a")) > > ## bail out > closeAllConnections() > (foo <- showConnections()) description class mode text isopen can read can write > stopifnot(nrow(foo) == 0) > try(log("a")) Error in log("a") : non-numeric argument to mathematical function > unlink("all.Rout") > ## many of these were untested before 1.4.0. > > > ## test mean() works on logical but not factor > x <- c(TRUE, FALSE, TRUE, TRUE) > mean(x) [1] 0.75 > mean(as.factor(x)) [1] NA Warning message: In mean.default(as.factor(x)) : argument is not numeric or logical: returning NA > ## last had confusing error message in 1.3.1. > > > ## Kurt Hornik 2001-Nov-13 > z <- table(x = 1:2, y = 1:2) > z - 1 y x 1 2 1 0 -1 2 -1 0 > unclass(z - 1) y x 1 2 1 0 -1 2 -1 0 > ## lost object bit prior to 1.4.0, so printed class attribute. > > > ## PR#1226 (predict.mlm ignored newdata) > ctl <- c(4.17,5.58,5.18,6.11,4.50,4.61,5.17,4.53,5.33,5.14) > trt <- c(4.81,4.17,4.41,3.59,5.87,3.83,6.03,4.89,4.32,4.69) > group <- gl(2,10,20, labels = c("Ctl","Trt")) > weight <- c(ctl, trt) > data <- data.frame(weight, group) > fit <- lm(cbind(w=weight, w2=weight^2) ~ group, data=data) > predict(fit, newdata=data[1:2, ]) w w2 1 5.032 25.62702 2 5.032 25.62702 > ## was 20 rows in R <= 1.4.0 > > > ## Chong Gu 2002-Feb-8: `.' not expanded in drop1 > lab <- dimnames(HairEyeColor) > HairEye <- cbind(expand.grid(Hair=lab$Hair, Eye=lab$Eye, Sex=lab$Sex, + stringsAsFactors = TRUE), + Fr = as.vector(HairEyeColor)) > HairEye.fit <- glm(Fr ~ . ^2, poisson, HairEye) > drop1(HairEye.fit) Single term deletions Model: Fr ~ (Hair + Eye + Sex)^2 Df Deviance AIC 6.761 191.64 Hair:Eye 9 156.678 323.56 Hair:Sex 3 18.327 197.21 Eye:Sex 3 11.764 190.64 > ## broken around 1.2.1 it seems. > > > ## PR#1329 (subscripting matrix lists) > m <- list(a1=1:3, a2=4:6, a3=pi, a4=c("a","b","c")) > dim(m) <- c(2,2) > m [,1] [,2] [1,] Integer,3 3.141593 [2,] Integer,3 Character,3 > m[,2] [[1]] [1] 3.141593 [[2]] [1] "a" "b" "c" > m[2,2] [[1]] [1] "a" "b" "c" > ## 1.4.1 returned null components: the case was missing from a switch. > > m <- list(a1=1:3, a2=4:6, a3=pi, a4=c("a","b","c")) > matrix(m, 2, 2) [,1] [,2] [1,] Integer,3 3.141593 [2,] Integer,3 Character,3 > ## 1.4.1 gave `Unimplemented feature in copyVector' > > x <- vector("list",6) > dim(x) <- c(2,3) > x[1,2] <- list(letters[10:11]) > x [,1] [,2] [,3] [1,] NULL Character,2 NULL [2,] NULL NULL NULL > ## 1.4.1 gave `incompatible types in subset assignment' > > > ## printing of matrix lists > m <- list(as.integer(1), pi, 3+5i, "testit", TRUE, factor("foo")) > dim(m) <- c(1, 6) > m [,1] [,2] [,3] [,4] [,5] [,6] [1,] 1 3.141593 3+5i "testit" TRUE factor,1 > ## prior to 1.5.0 had quotes for 2D case (but not kD, k > 2), > ## gave "numeric,1" etc, (even "numeric,1" for integers and factors) > > > ## ensure RNG is unaltered. > for(type in c("Wichmann-Hill", "Marsaglia-Multicarry", "Super-Duper", + "Mersenne-Twister", "Knuth-TAOCP", "Knuth-TAOCP-2002")) + { + set.seed(123, type) + print(RNGkind()) + runif(100); print(runif(4)) + set.seed(1000, type) + runif(100); print(runif(4)) + set.seed(77, type) + runif(100); print(runif(4)) + } [1] "Wichmann-Hill" "Inversion" [1] 0.8308841 0.4640221 0.9460082 0.8764644 [1] 0.12909876 0.07294851 0.45594560 0.68884911 [1] 0.4062450 0.7188432 0.6241738 0.2511611 [1] "Marsaglia-Multicarry" "Inversion" [1] 0.3479705 0.9469351 0.2489207 0.7329251 [1] 0.5041512 0.3617873 0.1469184 0.3798119 [1] 0.14388128 0.04196294 0.36214015 0.86053575 [1] "Super-Duper" "Inversion" [1] 0.2722510 0.9230240 0.3971743 0.8284474 [1] 0.5706241 0.1806023 0.9633860 0.8434444 [1] 0.09356585 0.41081124 0.38635627 0.72993396 [1] "Mersenne-Twister" "Inversion" [1] 0.5999890 0.3328235 0.4886130 0.9544738 [1] 0.5993679 0.4516818 0.1368254 0.7261788 [1] 0.09594961 0.31235651 0.81244335 0.72330846 [1] "Knuth-TAOCP" "Inversion" [1] 0.9445502 0.3366297 0.6296881 0.5914161 [1] 0.9213954 0.5468138 0.8817100 0.4442237 [1] 0.8016962 0.9226080 0.1473484 0.8827707 [1] "Knuth-TAOCP-2002" "Inversion" [1] 0.9303634 0.2812239 0.1085806 0.8053228 [1] 0.2916627 0.9085017 0.7958965 0.1980655 [1] 0.05247575 0.28290867 0.20930324 0.16794887 > RNGkind(normal.kind = "Kinderman-Ramage") > set.seed(123) > RNGkind() [1] "Knuth-TAOCP-2002" "Kinderman-Ramage" > rnorm(4) [1] -1.9699090 -2.2429340 0.5339321 0.2097153 > RNGkind(normal.kind = "Ahrens-Dieter") > set.seed(123) > RNGkind() [1] "Knuth-TAOCP-2002" "Ahrens-Dieter" > rnorm(4) [1] 0.06267229 0.12421568 -1.86653499 -0.14535921 > RNGkind(normal.kind = "Box-Muller") > set.seed(123) > RNGkind() [1] "Knuth-TAOCP-2002" "Box-Muller" > rnorm(4) [1] 2.26160990 0.59010303 0.30176045 -0.01346139 > set.seed(123) > runif(4) [1] 0.04062130 0.06511825 0.99290488 0.95540467 > set.seed(123, "default") > set.seed(123, "Marsaglia-Multicarry") ## Careful, not the default anymore > runif(4) [1] 0.1200427 0.1991600 0.7292821 0.8115922 > ## last set.seed failed < 1.5.0. > > > ## merging, ggrothendieck@yifan.net, 2002-03-16 > d.df <- data.frame(x = 1:3, y = c("A","D","E"), z = c(6,9,10)) > merge(d.df[1,], d.df) x y z 1 1 A 6 > ## 1.4.1 got confused by inconsistencies in as.character > > > ## PR#1394 (levels<-.factor) > f <- factor(c("a","b")) > levels(f) <- list(C="C", A="a", B="b") > f [1] A B Levels: C A B > ## was [1] C A; Levels: C A in 1.4.1 > > > ## NA levels in factors > (x <- factor(c("a", "NA", "b"), exclude=NULL)) [1] a NA b Levels: NA a b > ## 1.4.1 had wrong order for levels > is.na(x)[3] <- TRUE > x [1] a NA Levels: NA a b > ## missing entry prints as > > > ## printing/formatting NA strings > (x <- c("a", "NA", NA, "b")) [1] "a" "NA" NA "b" > print(x, quote = FALSE) [1] a NA b > paste(x) [1] "a" "NA" "NA" "b" > format(x) [1] "a " "NA" "NA" "b " > format(x, justify = "right") [1] " a" "NA" "NA" " b" > format(x, justify = "none") [1] "a" "NA" "NA" "b" > ## not ideal. > > > ## print.ts problems ggrothendieck@yifan.net on R-help, 2002-04-01 > x <- 1:20 > tt1 <- ts(x,start=c(1960,2), freq=12) > tt2 <- ts(10+x,start=c(1960,2), freq=12) > cbind(tt1, tt2) tt1 tt2 Feb 1960 1 11 Mar 1960 2 12 Apr 1960 3 13 May 1960 4 14 Jun 1960 5 15 Jul 1960 6 16 Aug 1960 7 17 Sep 1960 8 18 Oct 1960 9 19 Nov 1960 10 20 Dec 1960 11 21 Jan 1961 12 22 Feb 1961 13 23 Mar 1961 14 24 Apr 1961 15 25 May 1961 16 26 Jun 1961 17 27 Jul 1961 18 28 Aug 1961 19 29 Sep 1961 20 30 > ## 1.4.1 had `Jan 1961' as `NA 1961' > ## ...and 1.9.1 had it as `Jan 1960'!! > > ## glm boundary bugs (related to PR#1331) > x <- c(0.35, 0.64, 0.12, 1.66, 1.52, 0.23, -1.99, 0.42, 1.86, -0.02, + -1.64, -0.46, -0.1, 1.25, 0.37, 0.31, 1.11, 1.65, 0.33, 0.89, + -0.25, -0.87, -0.22, 0.71, -2.26, 0.77, -0.05, 0.32, -0.64, 0.39, + 0.19, -1.62, 0.37, 0.02, 0.97, -2.62, 0.15, 1.55, -1.41, -2.35, + -0.43, 0.57, -0.66, -0.08, 0.02, 0.24, -0.33, -0.03, -1.13, 0.32, + 1.55, 2.13, -0.1, -0.32, -0.67, 1.44, 0.04, -1.1, -0.95, -0.19, + -0.68, -0.43, -0.84, 0.69, -0.65, 0.71, 0.19, 0.45, 0.45, -1.19, + 1.3, 0.14, -0.36, -0.5, -0.47, -1.31, -1.02, 1.17, 1.51, -0.33, + -0.01, -0.59, -0.28, -0.18, -1.07, 0.66, -0.71, 1.88, -0.14, + -0.19, 0.84, 0.44, 1.33, -0.2, -0.45, 1.46, 1, -1.02, 0.68, 0.84) > y <- c(1, 0, 1, 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 0, 0, 1, 1, 1, 0, + 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 1, 0, 0, 1, 0, 1, 1, + 1, 0, 1, 1, 0, 1, 0, 0, 0, 1, 1, 0, 1, 0, 1, 1, 0, 1, 0, 0, 1, + 0, 1, 0, 1, 1, 0, 0, 0, 1, 1, 0, 1, 1, 0, 0, 1, 1, 1, 0, 0, 1, + 1, 0, 0, 1, 1, 1, 0, 1, 0, 1, 0, 1, 1, 1, 1, 0, 0) > try(glm(y ~ x, family = poisson(identity))) Error : no valid set of coefficients has been found: please supply starting values In addition: Warning message: In log(y/mu) : NaNs produced > ## failed because start = NULL in 1.4.1 > ## now gives useful error message > glm(y ~ x, family = poisson(identity), start = c(1,0)) Call: glm(formula = y ~ x, family = poisson(identity), start = c(1, 0)) Coefficients: (Intercept) x 0.5114 0.1690 Degrees of Freedom: 99 Total (i.e. Null); 98 Residual Null Deviance: 68.01 Residual Deviance: 60.66 AIC: 168.7 Warning messages: 1: step size truncated: out of bounds 2: step size truncated: out of bounds > ## step reduction failed in 1.4.1 > set.seed(123) > y <- rpois(100, pmax(3*x, 0)) > glm(y ~ x, family = poisson(identity), start = c(1,0)) Call: glm(formula = y ~ x, family = poisson(identity), start = c(1, 0)) Coefficients: (Intercept) x 1.1561 0.4413 Degrees of Freedom: 99 Total (i.e. Null); 98 Residual Null Deviance: 317.2 Residual Deviance: 228.5 AIC: 344.7 There were 27 warnings (use warnings() to see them) > warnings() Warning messages: 1: step size truncated: out of bounds 2: step size truncated: out of bounds 3: step size truncated: out of bounds 4: step size truncated: out of bounds 5: step size truncated: out of bounds 6: step size truncated: out of bounds 7: step size truncated: out of bounds 8: step size truncated: out of bounds 9: step size truncated: out of bounds 10: step size truncated: out of bounds 11: step size truncated: out of bounds 12: step size truncated: out of bounds 13: step size truncated: out of bounds 14: step size truncated: out of bounds 15: step size truncated: out of bounds 16: step size truncated: out of bounds 17: step size truncated: out of bounds 18: step size truncated: out of bounds 19: step size truncated: out of bounds 20: step size truncated: out of bounds 21: step size truncated: out of bounds 22: step size truncated: out of bounds 23: step size truncated: out of bounds 24: step size truncated: out of bounds 25: step size truncated: out of bounds 26: glm.fit: algorithm did not converge 27: glm.fit: algorithm stopped at boundary value > > > ## extending char arrrays > x <- y <- LETTERS[1:2] > x[5] <- "C" > length(y) <- 5 > x [1] "A" "B" NA NA "C" > y [1] "A" "B" NA NA NA > ## x was filled with "", y with NA in 1.5.0 > > > ## formula with no intercept, 2002-07-22 > oldcon <- options(contrasts = c("contr.helmert", "contr.poly")) > U <- gl(3, 6, 18, labels=letters[1:3]) > V <- gl(3, 2, 18, labels=letters[1:3]) > A <- rep(c(0, 1), 9) > B <- rep(c(1, 0), 9) > set.seed(1); y <- rnorm(18) > terms(y ~ A:U + A:V - 1) y ~ A:U + A:V - 1 attr(,"variables") list(y, A, U, V) attr(,"factors") A:U A:V y 0 0 A 2 2 U 2 0 V 0 1 attr(,"term.labels") [1] "A:U" "A:V" attr(,"order") [1] 2 2 attr(,"intercept") [1] 0 attr(,"response") [1] 1 attr(,".Environment") > lm(y ~ A:U + A:V - 1)$coefficients # 1.5.1 used dummies coding for V A:Ua A:Ub A:Uc A:V1 A:V2 0.25303884 -0.21875499 -0.71708528 -0.61467193 -0.09030436 > lm(y ~ (A + B) : (U + V) - 1) # 1.5.1 used dummies coding for A:V but not B:V Call: lm(formula = y ~ (A + B):(U + V) - 1) Coefficients: A:Ua A:Ub A:Uc A:V1 A:V2 B:Ua B:Ub B:Uc 0.2530 -0.2188 -0.7171 -0.6147 -0.0903 1.7428 0.0613 0.7649 B:V1 B:V2 -0.4420 0.5388 > options(oldcon) > ## 1.5.1 miscomputed the first factor in the formula. > > > ## quantile extremes, MM 13 Apr 2000 and PR#1852 > (qq <- sapply(0:5, function(k) { + x <- c(rep(-Inf,k+1), 0:k, rep(Inf, k)) + sapply(1:9, function(typ) + quantile(x, pr=(2:10)/10, type=typ)) + }, simplify="array")) , , 1 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] 20% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 30% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 40% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 50% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 60% 0 0 -Inf -Inf -Inf -Inf -Inf -Inf -Inf 70% 0 0 -Inf -Inf -Inf 0 -Inf -Inf -Inf 80% 0 0 0 -Inf 0 0 -Inf 0 0 90% 0 0 0 -Inf 0 0 -Inf 0 0 100% 0 0 0 0 0 0 0 0 0 , , 2 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] 20% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 30% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 40% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 50% 0 0.0 -Inf -Inf 0.0 0.0 0.0 0.0000000 0.000 60% 0 0.5 0 0.0 0.5 0.6 0.4 0.5333333 0.525 70% 1 1.0 1 0.5 1.0 Inf 0.8 Inf Inf 80% 1 Inf 1 1.0 Inf Inf Inf Inf Inf 90% Inf Inf 1 Inf Inf Inf Inf Inf Inf 100% Inf Inf Inf Inf Inf Inf Inf Inf Inf , , 3 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] 20% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 30% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 40% 0 0.0 -Inf -Inf -Inf -Inf -Inf -Inf -Inf 50% 0 0.5 0 0.0 0.5 0.5 0.5 0.500000 0.500 60% 1 1.0 1 0.8 1.3 1.4 1.2 1.333333 1.325 70% 2 2.0 2 1.6 Inf Inf 1.9 Inf Inf 80% Inf Inf 2 Inf Inf Inf Inf Inf Inf 90% Inf Inf Inf Inf Inf Inf Inf Inf Inf 100% Inf Inf Inf Inf Inf Inf Inf Inf Inf , , 4 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] 20% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 30% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 40% 0 0 -Inf -Inf -Inf -Inf 0 -Inf -Inf 50% 1 1 1 0.5 1.0 1.0 1 1.000000 1.000 60% 2 2 2 1.6 2.1 2.2 2 2.133333 2.125 70% 3 3 3 2.7 Inf Inf 3 Inf Inf 80% Inf Inf Inf Inf Inf Inf Inf Inf Inf 90% Inf Inf Inf Inf Inf Inf Inf Inf Inf 100% Inf Inf Inf Inf Inf Inf Inf Inf Inf , , 5 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] 20% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 30% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 40% 0 0.0 0 -Inf 0.1 0.0 0.2 0.06666667 0.075 50% 1 1.5 1 1.0 1.5 1.5 1.5 1.50000000 1.500 60% 3 3.0 2 2.4 2.9 3.0 2.8 2.93333333 2.925 70% 4 4.0 4 3.8 Inf Inf Inf Inf Inf 80% Inf Inf Inf Inf Inf Inf Inf Inf Inf 90% Inf Inf Inf Inf Inf Inf Inf Inf Inf 100% Inf Inf Inf Inf Inf Inf Inf Inf Inf , , 6 [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] 20% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 30% -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf -Inf 40% 0 0 0 -Inf 0.3 0.2 0.4 0.2666667 0.275 50% 2 2 1 1.5 2.0 2.0 2.0 2.0000000 2.000 60% 4 4 3 3.2 3.7 3.8 3.6 3.7333333 3.725 70% 5 5 5 4.9 Inf Inf Inf Inf Inf 80% Inf Inf Inf Inf Inf Inf Inf Inf Inf 90% Inf Inf Inf Inf Inf Inf Inf Inf Inf 100% Inf Inf Inf Inf Inf Inf Inf Inf Inf > x <- c(-Inf, -Inf, Inf, Inf) > median(x) [1] NaN > quantile(x) 0% 25% 50% 75% 100% -Inf -Inf NaN Inf Inf > ## 1.5.1 had -Inf not NaN in several places > > > ## NAs in matrix dimnames > z <- matrix(1:9, 3, 3) > dimnames(z) <- list(c("x", "y", NA), c(1, NA, 3)) > z 1 3 x 1 4 7 y 2 5 8 3 6 9 > ## NAs in dimnames misaligned when printing in 1.5.1 > > > ## weighted aov (PR#1930) > r <- c(10,23,23,26,17,5,53,55,32,46,10,8,10,8,23,0,3,22,15,32,3) > n <- c(39,62,81,51,39,6,74,72,51,79,13,16,30,28,45,4,12,41,30,51,7) > trt <- factor(rep(1:4,c(5,6,5,5))) > Y <- r/n > z <- aov(Y ~ trt, weights=n) > ## 1.5.1 gave unweighted RSS > > > ## rbind (PR#2266) > test <- as.data.frame(matrix(1:25, 5, 5)) > test1 <- matrix(-(1:10), 2, 5) > rbind(test, test1) V1 V2 V3 V4 V5 1 1 6 11 16 21 2 2 7 12 17 22 3 3 8 13 18 23 4 4 9 14 19 24 5 5 10 15 20 25 6 -1 -3 -5 -7 -9 7 -2 -4 -6 -8 -10 > rbind(test1, test) V1 V2 V3 V4 V5 1 -1 -3 -5 -7 -9 2 -2 -4 -6 -8 -10 3 1 6 11 16 21 4 2 7 12 17 22 5 3 8 13 18 23 6 4 9 14 19 24 7 5 10 15 20 25 > ## 1.6.1 treated matrix as a vector. > > > ## escapes in non-quoted printing > x <- "\\abc\\" > names(x) <- 1 > x 1 "\\abc\\" > print(x, quote=FALSE) 1 \\abc\\ > ## 1.6.2 had label misaligned > > > ## summary on data frames containing data frames (PR#1891) > x <- data.frame(1:10) > x$z <- data.frame(x=1:10,yyy=11:20) > summary(x) X1.10 z.x z.yyy Min. : 1.00 Min. : 1.00 Min. :11.00 1st Qu.: 3.25 1st Qu.: 3.25 1st Qu.:13.25 Median : 5.50 Median : 5.50 Median :15.50 Mean : 5.50 Mean : 5.50 Mean :15.50 3rd Qu.: 7.75 3rd Qu.: 7.75 3rd Qu.:17.75 Max. :10.00 Max. :10.00 Max. :20.00 > ## 1.6.2 had NULL labels on output with z columns stacked. > > > ## re-orderings in terms.formula (PR#2206) > form <- formula(y ~ a + b:c + d + e + e:d) > (tt <- terms(form)) y ~ a + b:c + d + e + e:d attr(,"variables") list(y, a, b, c, d, e) attr(,"factors") a d e b:c d:e y 0 0 0 0 0 a 1 0 0 0 0 b 0 0 0 2 0 c 0 0 0 2 0 d 0 1 0 0 1 e 0 0 1 0 1 attr(,"term.labels") [1] "a" "d" "e" "b:c" "d:e" attr(,"order") [1] 1 1 1 2 2 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > (tt2 <- terms(formula(tt))) y ~ a + b:c + d + e + e:d attr(,"variables") list(y, a, b, c, d, e) attr(,"factors") a d e b:c d:e y 0 0 0 0 0 a 1 0 0 0 0 b 0 0 0 2 0 c 0 0 0 2 0 d 0 1 0 0 1 e 0 0 1 0 1 attr(,"term.labels") [1] "a" "d" "e" "b:c" "d:e" attr(,"order") [1] 1 1 1 2 2 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > stopifnot(identical(tt, tt2)) > terms(delete.response(tt)) ~a + b:c + d + e + e:d attr(,"variables") list(a, b, c, d, e) attr(,"factors") a d e b:c d:e a 1 0 0 0 0 b 0 0 0 2 0 c 0 0 0 2 0 d 0 1 0 0 1 e 0 0 1 0 1 attr(,"term.labels") [1] "a" "d" "e" "b:c" "d:e" attr(,"order") [1] 1 1 1 2 2 attr(,"intercept") [1] 1 attr(,"response") [1] 0 attr(,".Environment") > ## both tt and tt2 re-ordered the formula < 1.7.0 > ## now try with a dot > terms(breaks ~ ., data = warpbreaks) breaks ~ wool + tension attr(,"variables") list(breaks, wool, tension) attr(,"factors") wool tension breaks 0 0 wool 1 0 tension 0 1 attr(,"term.labels") [1] "wool" "tension" attr(,"order") [1] 1 1 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > terms(breaks ~ . - tension, data = warpbreaks) breaks ~ (wool + tension) - tension attr(,"variables") list(breaks, wool, tension) attr(,"factors") wool breaks 0 wool 1 tension 0 attr(,"term.labels") [1] "wool" attr(,"order") [1] 1 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > terms(breaks ~ . - tension, data = warpbreaks, simplify = TRUE) breaks ~ wool attr(,"variables") list(breaks, wool, tension) attr(,"factors") wool breaks 0 wool 1 tension 0 attr(,"term.labels") [1] "wool" attr(,"order") [1] 1 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > terms(breaks ~ . ^2, data = warpbreaks) breaks ~ (wool + tension)^2 attr(,"variables") list(breaks, wool, tension) attr(,"factors") wool tension wool:tension breaks 0 0 0 wool 1 0 1 tension 0 1 1 attr(,"term.labels") [1] "wool" "tension" "wool:tension" attr(,"order") [1] 1 1 2 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > terms(breaks ~ . ^2, data = warpbreaks, simplify = TRUE) breaks ~ wool + tension + wool:tension attr(,"variables") list(breaks, wool, tension) attr(,"factors") wool tension wool:tension breaks 0 0 0 wool 1 0 1 tension 0 1 1 attr(,"term.labels") [1] "wool" "tension" "wool:tension" attr(,"order") [1] 1 1 2 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > ## 1.6.2 expanded these formulae out as in simplify = TRUE > > > ## printing attributes (PR#2506) > (x <- structure(1:4, other=as.factor(LETTERS[1:3]))) [1] 1 2 3 4 attr(,"other") [1] A B C Levels: A B C > ## < 1.7.0 printed the codes of the factor attribute > > > ## add logical matrix replacement indexing for data frames > TEMP <- data.frame(VAR1=c(1,2,3,4,5), VAR2=c(5,4,3,2,1), VAR3=c(1,1,1,1,NA)) > TEMP[,c(1,3)][TEMP[,c(1,3)]==1 & !is.na(TEMP[,c(1,3)])] < -10 [1] FALSE FALSE FALSE FALSE FALSE > TEMP VAR1 VAR2 VAR3 1 1 5 1 2 2 4 1 3 3 3 1 4 4 2 1 5 5 1 NA > ## > > ## moved from reg-plot.R as exact output depends on rounding error > ## PR 390 (axis for small ranges) > > relrange <- function(x) { + ## The relative range in EPS units + r <- range(x) + diff(r)/max(abs(r))/.Machine$double.eps + } > > x <- c(0.12345678912345678, + 0.12345678912345679, + 0.12345678912345676) > # relrange(x) ## 1.0125, but depends on strtod > plot(x) # `extra horizontal' ; +- ok on Solaris; label off on Linux > > y <- c(0.9999563255363383973418, + 0.9999563255363389524533, + 0.9999563255363382863194) > ## The relative range number: > # relrange(y) ## 3.000131, but depends on strtod > plot(y)# once gave infinite loop on Solaris [TL]; y-axis too long > > ## Comments: The whole issue was finally deferred to main/graphics.c l.1944 > ## error("relative range of values is too small to compute accurately"); > ## which is not okay. > > set.seed(101) > par(mfrow = c(3,3)) > for(j.fac in 1e-12* c(10, 1, .7, .3, .2, .1, .05, .03, .01)) { + ## ==== + #set.seed(101) # or don't + x <- pi + jitter(numeric(101), f = j.fac) + rrtxt <- paste("rel.range =", formatC(relrange(x), dig = 4),"* EPS") + cat("j.f = ", format(j.fac)," ; ", rrtxt,"\n",sep="") + plot(x, type = "l", main = rrtxt) + cat("par(\"usr\")[3:4]:", formatC(par("usr")[3:4], wid = 10),"\n", + "par(\"yaxp\") : ", formatC(par("yaxp"), wid = 10),"\n\n", sep="") + } j.f = 1e-11 ; rel.range = 553.9 * EPS par("usr")[3:4]: 3.142 3.142 par("yaxp") : 3.142 3.142 3 j.f = 1e-12 ; rel.range = 56.02 * EPS par("usr")[3:4]: 3.142 3.142 par("yaxp") : 3.142 3.142 1 j.f = 7e-13 ; rel.range = 39.47 * EPS par("usr")[3:4]: 3.142 3.142 par("yaxp") : 3.142 3.142 1 j.f = 3e-13 ; rel.range = 16.55 * EPS par("usr")[3:4]: 3.142 3.142 par("yaxp") : 3.142 3.142 1 j.f = 2e-13 ; rel.range = 11.46 * EPS par("usr")[3:4]: 3.108 3.176 par("yaxp") : 3.11 3.17 6 j.f = 1e-13 ; rel.range = 5.093 * EPS par("usr")[3:4]: 3.108 3.176 par("yaxp") : 3.11 3.17 6 j.f = 5e-14 ; rel.range = 2.546 * EPS par("usr")[3:4]: 3.108 3.176 par("yaxp") : 3.11 3.17 6 j.f = 3e-14 ; rel.range = 1.273 * EPS par("usr")[3:4]: 3.108 3.176 par("yaxp") : 3.11 3.17 6 j.f = 1e-14 ; rel.range = 0 * EPS par("usr")[3:4]: 1.784 4.499 par("yaxp") : 2 4 4 Warning messages: 1: In plot.window(...) : relative range of values = 43 * EPS, is small (axis 2) 2: In plot.window(...) : relative range of values = 36 * EPS, is small (axis 2) 3: In plot.window(...) : relative range of values = 0 * EPS, is small (axis 2) > par(mfrow = c(1,1)) > ## The warnings from inside GScale() will differ in their relrange() ... > ## >> do sloppy testing > ## 2003-02-03 hopefully no more. BDR > ## end of PR 390 > > > ## scoping rules calling step inside a function > "cement" <- + structure(list(x1 = c(7, 1, 11, 11, 7, 11, 3, 1, 2, 21, 1, 11, 10), + x2 = c(26, 29, 56, 31, 52, 55, 71, 31, 54, 47, 40, 66, 68), + x3 = c(6, 15, 8, 8, 6, 9, 17, 22, 18, 4, 23, 9, 8), + x4 = c(60, 52, 20, 47, 33, 22, 6, 44, 22, 26, 34, 12, 12), + y = c(78.5, 74.3, 104.3, 87.6, 95.9, 109.2, 102.7, 72.5, + 93.1, 115.9, 83.8, 113.3, 109.4)), + .Names = c("x1", "x2", "x3", "x4", "y"), class = "data.frame", + row.names = 1:13) > teststep <- function(formula, data) + { + d2 <- data + fit <- lm(formula, data=d2) + step(fit) + } > teststep(formula(y ~ .), cement) Start: AIC=26.94 y ~ x1 + x2 + x3 + x4 Df Sum of Sq RSS AIC - x3 1 0.1091 47.973 24.974 - x4 1 0.2470 48.111 25.011 - x2 1 2.9725 50.836 25.728 47.864 26.944 - x1 1 25.9509 73.815 30.576 Step: AIC=24.97 y ~ x1 + x2 + x4 Df Sum of Sq RSS AIC 47.97 24.974 - x4 1 9.93 57.90 25.420 - x2 1 26.79 74.76 28.742 - x1 1 820.91 868.88 60.629 Call: lm(formula = y ~ x1 + x2 + x4, data = d2) Coefficients: (Intercept) x1 x2 x4 71.6483 1.4519 0.4161 -0.2365 > ## failed in 1.6.2 > > str(array(1))# not a scalar num [1(1d)] 1 > > > ## na.print="" shouldn't apply to (dim)names! > (tf <- table(ff <- factor(c(1:2,NA,2), exclude=NULL))) 1 2 1 2 1 > identical(levels(ff), dimnames(tf)[[1]]) [1] TRUE > str(levels(ff)) chr [1:3] "1" "2" NA > ## not quite ok previous to 1.7.0 > > > ## PR#3058 printing with na.print and right=TRUE > a <- matrix( c(NA, "a", "b", "10", + NA, NA, "d", "12", + NA, NA, NA, "14"), + byrow=T, ncol=4 ) > print(a, right=TRUE, na.print=" ") [,1] [,2] [,3] [,4] [1,] "a" "b" "10" [2,] "d" "12" [3,] "14" > print(a, right=TRUE, na.print="----") [,1] [,2] [,3] [,4] [1,] ---- "a" "b" "10" [2,] ---- ---- "d" "12" [3,] ---- ---- ---- "14" > ## misaligned in 1.7.0 > > > ## assigning factors to dimnames > A <- matrix(1:4, 2) > aa <- factor(letters[1:2]) > dimnames(A) <- list(aa, NULL) > A [,1] [,2] a 1 3 b 2 4 > dimnames(A) [[1]] [1] "a" "b" [[2]] NULL > ## 1.7.0 gave internal codes as display and dimnames() > ## 1.7.1beta gave NAs via dimnames() > ## 1.8.0 converts factors to character > > > ## wishlist PR#2776: aliased coefs in lm/glm > set.seed(123) > x2 <- x1 <- 1:10 > x3 <- 0.1*(1:10)^2 > y <- x1 + rnorm(10) > (fit <- lm(y ~ x1 + x2 + x3)) Call: lm(formula = y ~ x1 + x2 + x3) Coefficients: (Intercept) x1 x2 x3 1.4719 0.5867 NA 0.2587 > summary(fit, cor = TRUE) Call: lm(formula = y ~ x1 + x2 + x3) Residuals: Min 1Q Median 3Q Max -1.0572 -0.4836 0.0799 0.4424 1.2699 Coefficients: (1 not defined because of singularities) Estimate Std. Error t value Pr(>|t|) (Intercept) 1.4719 0.9484 1.552 0.165 x1 0.5867 0.3961 1.481 0.182 x2 NA NA NA NA x3 0.2587 0.3509 0.737 0.485 Residual standard error: 0.8063 on 7 degrees of freedom Multiple R-squared: 0.9326, Adjusted R-squared: 0.9134 F-statistic: 48.43 on 2 and 7 DF, p-value: 7.946e-05 Correlation of Coefficients: (Intercept) x1 x1 -0.91 x3 0.81 -0.97 > (fit <- glm(y ~ x1 + x2 + x3)) Call: glm(formula = y ~ x1 + x2 + x3) Coefficients: (Intercept) x1 x2 x3 1.4719 0.5867 NA 0.2587 Degrees of Freedom: 9 Total (i.e. Null); 7 Residual Null Deviance: 67.53 Residual Deviance: 4.551 AIC: 28.51 > summary(fit, cor = TRUE) Call: glm(formula = y ~ x1 + x2 + x3) Deviance Residuals: Min 1Q Median 3Q Max -1.0572 -0.4836 0.0799 0.4424 1.2699 Coefficients: (1 not defined because of singularities) Estimate Std. Error t value Pr(>|t|) (Intercept) 1.4719 0.9484 1.552 0.165 x1 0.5867 0.3961 1.481 0.182 x2 NA NA NA NA x3 0.2587 0.3509 0.737 0.485 (Dispersion parameter for gaussian family taken to be 0.6501753) Null deviance: 67.5316 on 9 degrees of freedom Residual deviance: 4.5512 on 7 degrees of freedom AIC: 28.507 Number of Fisher Scoring iterations: 2 Correlation of Coefficients: (Intercept) x1 x1 -0.91 x3 0.81 -0.97 > ## omitted silently in summary.glm < 1.8.0 > > > ## list-like indexing of data frames with drop specified > women["height"] height 1 58 2 59 3 60 4 61 5 62 6 63 7 64 8 65 9 66 10 67 11 68 12 69 13 70 14 71 15 72 > women["height", drop = FALSE] # same with a warning height 1 58 2 59 3 60 4 61 5 62 6 63 7 64 8 65 9 66 10 67 11 68 12 69 13 70 14 71 15 72 Warning message: In `[.data.frame`(women, "height", drop = FALSE) : 'drop' argument will be ignored > women["height", drop = TRUE] # ditto height 1 58 2 59 3 60 4 61 5 62 6 63 7 64 8 65 9 66 10 67 11 68 12 69 13 70 14 71 15 72 Warning message: In `[.data.frame`(women, "height", drop = TRUE) : 'drop' argument will be ignored > women[,"height", drop = FALSE] # no warning height 1 58 2 59 3 60 4 61 5 62 6 63 7 64 8 65 9 66 10 67 11 68 12 69 13 70 14 71 15 72 > women[,"height", drop = TRUE] # a vector [1] 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 > ## second and third were interpreted as women["height", , drop] in 1.7.x > > > ## make.names > make.names("") [1] "X" > make.names(".aa") [1] ".aa" > ## was "X.aa" in 1.7.1 > make.names(".2") [1] "X.2" > make.names(".2a") # not valid in R [1] "X.2a" > make.names(as.character(NA)) [1] "NA." > ## > > > ## strange names in data frames > as.data.frame(list(row.names=17)) # 0 rows in 1.7.1 row.names 1 17 > aa <- data.frame(aa=1:3) > aa[["row.names"]] <- 4:6 > aa # fine in 1.7.1 aa row.names 1 1 4 2 2 5 3 3 6 > A <- matrix(4:9, 3, 2) > colnames(A) <- letters[1:2] > aa[["row.names"]] <- A > aa aa row.names.a row.names.b 1 1 4 7 2 2 5 8 3 3 6 9 > ## wrong printed names in 1.7.1 > > ## assigning to NULL > a <- NULL > a[["a"]] <- 1 > a a 1 > a <- NULL > a[["a"]] <- "something" > a a "something" > a <- NULL > a[["a"]] <- 1:3 > a $a [1] 1 2 3 > ## Last was an error in 1.7.1 > > > ## examples of 0-rank models, some empty, some rank-deficient > y <- rnorm(10) > x <- rep(0, 10) > (fit <- lm(y ~ 0)) Call: lm(formula = y ~ 0) No coefficients > summary(fit) Call: lm(formula = y ~ 0) Residuals: Min 1Q Median 3Q Max -1.36919 -0.21073 0.00840 0.08437 0.55292 No Coefficients Residual standard error: 0.5235 on 10 degrees of freedom > anova(fit) Analysis of Variance Table Response: y Df Sum Sq Mean Sq F value Pr(>F) Residuals 10 2.7404 0.27404 > predict(fit) 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 > predict(fit, data.frame(x=x), se=TRUE) $fit 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 $se.fit [1] 0 0 0 0 0 0 0 0 0 0 $df [1] 10 $residual.scale [1] 0.5234843 > predict(fit, type="terms", se=TRUE) $fit [1,] [2,] [3,] [4,] [5,] [6,] [7,] [8,] [9,] [10,] attr(,"constant") [1] 0 $se.fit [1,] [2,] [3,] [4,] [5,] [6,] [7,] [8,] [9,] [10,] $df [1] 10 $residual.scale [1] 0.5234843 > variable.names(fit) #should be empty character(0) > model.matrix(fit) 1 2 3 4 5 6 7 8 9 10 attr(,"assign") integer(0) > > (fit <- lm(y ~ x + 0)) Call: lm(formula = y ~ x + 0) Coefficients: x NA > summary(fit) Call: lm(formula = y ~ x + 0) Residuals: Min 1Q Median 3Q Max -1.36919 -0.21073 0.00840 0.08437 0.55292 Coefficients: (1 not defined because of singularities) Estimate Std. Error t value Pr(>|t|) x NA NA NA NA Residual standard error: 0.5235 on 10 degrees of freedom > anova(fit) Analysis of Variance Table Response: y Df Sum Sq Mean Sq F value Pr(>F) Residuals 10 2.7404 0.27404 > predict(fit) 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 > predict(fit, data.frame(x=x), se=TRUE) $fit 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 $se.fit [1] 0 0 0 0 0 0 0 0 0 0 $df [1] 10 $residual.scale [1] 0.5234843 Warning message: In predict.lm(fit, data.frame(x = x), se = TRUE) : prediction from a rank-deficient fit may be misleading > predict(fit, type="terms", se=TRUE) $fit x 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 0 10 0 attr(,"constant") [1] 0 $se.fit x 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 0 10 0 $df [1] 10 $residual.scale [1] 0.5234843 > variable.names(fit) #should be empty character(0) > model.matrix(fit) x 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 0 10 0 attr(,"assign") [1] 1 > > (fit <- glm(y ~ 0)) Call: glm(formula = y ~ 0) No coefficients Degrees of Freedom: 10 Total (i.e. Null); 10 Residual Null Deviance: 2.74 Residual Deviance: 2.74 AIC: 17.43 > summary(fit) Call: glm(formula = y ~ 0) Deviance Residuals: Min 1Q Median 3Q Max -1.36919 -0.21073 0.00840 0.08437 0.55292 No Coefficients (Dispersion parameter for gaussian family taken to be 0.2740358) Null deviance: 2.7404 on 10 degrees of freedom Residual deviance: 2.7404 on 10 degrees of freedom AIC: 17.434 Number of Fisher Scoring iterations: 0 > anova(fit) Analysis of Deviance Table Model: gaussian, link: identity Response: y Terms added sequentially (first to last) Df Deviance Resid. Df Resid. Dev NULL 10 2.7404 > predict(fit) 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 > predict(fit, data.frame(x=x), se=TRUE) $fit 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 $se.fit [1] 0 0 0 0 0 0 0 0 0 0 $residual.scale [1] 0.5234843 > predict(fit, type="terms", se=TRUE) $fit [1,] [2,] [3,] [4,] [5,] [6,] [7,] [8,] [9,] [10,] attr(,"constant") [1] 0 $se.fit [1,] [2,] [3,] [4,] [5,] [6,] [7,] [8,] [9,] [10,] $residual.scale [1] 0.5234843 > > (fit <- glm(y ~ x + 0)) Call: glm(formula = y ~ x + 0) Coefficients: x NA Degrees of Freedom: 10 Total (i.e. Null); 10 Residual Null Deviance: 2.74 Residual Deviance: 2.74 AIC: 17.43 > summary(fit) Call: glm(formula = y ~ x + 0) Deviance Residuals: Min 1Q Median 3Q Max -1.36919 -0.21073 0.00840 0.08437 0.55292 Coefficients: (1 not defined because of singularities) Estimate Std. Error t value Pr(>|t|) x NA NA NA NA (Dispersion parameter for gaussian family taken to be 0.2740358) Null deviance: 2.7404 on 10 degrees of freedom Residual deviance: 2.7404 on 10 degrees of freedom AIC: 17.434 Number of Fisher Scoring iterations: 2 > anova(fit) Analysis of Deviance Table Model: gaussian, link: identity Response: y Terms added sequentially (first to last) Df Deviance Resid. Df Resid. Dev NULL 10 2.7404 x 0 0 10 2.7404 > predict(fit) 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 > predict(fit, data.frame(x=x), se=TRUE) $fit 1 2 3 4 5 6 7 8 9 10 0 0 0 0 0 0 0 0 0 0 $se.fit [1] 0 0 0 0 0 0 0 0 0 0 $residual.scale [1] 0.5234843 Warning message: In predict.lm(object, newdata, se.fit, scale = residual.scale, type = ifelse(type == : prediction from a rank-deficient fit may be misleading > predict(fit, type="terms", se=TRUE) $fit x 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 0 10 0 attr(,"constant") [1] 0 $se.fit x 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 0 10 0 $residual.scale [1] 0.5234843 > ## Lots of problems in 1.7.x > > > ## lm.influence on deficient lm models > dat <- data.frame(y=rnorm(10), x1=1:10, x2=1:10, x3 = 0, wt=c(0,rep(1, 9)), + row.names=letters[1:10]) > dat[3, 1] <- dat[4, 2] <- NA > lm.influence(lm(y ~ x1 + x2, data=dat, weights=wt, na.action=na.omit)) $hat b e f g h i j 0.6546053 0.2105263 0.1546053 0.1447368 0.1809211 0.2631579 0.3914474 $coefficients (Intercept) x1 b 1.39138784 -0.173267165 e -0.70930972 0.068642877 f 0.12039809 -0.007818058 g 0.01971595 0.001314397 h 0.03272637 -0.017325726 i -0.36929526 0.092323814 j 0.33861311 -0.070163076 $sigma b e f g h i j 0.9641441 0.7434598 1.0496727 1.0681908 1.0389586 0.7633748 1.0093187 $wt.res b e f g h i j 0.5513046 -1.3728575 0.4018482 0.1708716 -0.4793451 1.2925334 -0.5643552 > lm.influence(lm(y ~ x1 + x2, data=dat, weights=wt, na.action=na.exclude)) $hat b e c d f g h i 0.6546053 0.2105263 0.0000000 0.0000000 0.1546053 0.1447368 0.1809211 0.2631579 j 0.3914474 $coefficients (Intercept) x1 b 1.39138784 -0.173267165 e -0.70930972 0.068642877 c 0.00000000 0.000000000 d 0.00000000 0.000000000 f 0.12039809 -0.007818058 g 0.01971595 0.001314397 h 0.03272637 -0.017325726 i -0.36929526 0.092323814 j 0.33861311 -0.070163076 $sigma b e c d f g h i 0.9641441 0.7434598 0.9589854 0.9589854 1.0496727 1.0681908 1.0389586 0.7633748 j 1.0093187 $wt.res b e c d f g h 0.5513046 -1.3728575 NA NA 0.4018482 0.1708716 -0.4793451 i j 1.2925334 -0.5643552 > lm.influence(lm(y ~ 0, data=dat, weights=wt, na.action=na.omit)) $hat b d e f g h i j 0 0 0 0 0 0 0 0 $coefficients b d e f g h i j $sigma b d e f g h i j 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 $wt.res b d e f g h i 0.3604547 0.1146812 -1.1426753 0.7723744 0.6817419 0.1718693 2.0840918 j 0.3675473 > lm.influence(lm(y ~ 0, data=dat, weights=wt, na.action=na.exclude)) $hat b d c e f g h i j 0 0 0 0 0 0 0 0 0 $coefficients b d c e f g h i j $sigma b d c e f g h i 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 j 0.9366289 $wt.res b d c e f g h 0.3604547 0.1146812 NA -1.1426753 0.7723744 0.6817419 0.1718693 i j 2.0840918 0.3675473 > lm.influence(lm(y ~ 0 + x3, data=dat, weights=wt, na.action=na.omit)) $hat b d e f g h i j 0 0 0 0 0 0 0 0 $coefficients b d e f g h i j $sigma b d e f g h i j 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 $wt.res b d e f g h i 0.3604547 0.1146812 -1.1426753 0.7723744 0.6817419 0.1718693 2.0840918 j 0.3675473 > lm.influence(lm(y ~ 0 + x3, data=dat, weights=wt, na.action=na.exclude)) $hat b d c e f g h i j 0 0 0 0 0 0 0 0 0 $coefficients b d c e f g h i j $sigma b d c e f g h i 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 0.9366289 j 0.9366289 $wt.res b d c e f g h 0.3604547 0.1146812 NA -1.1426753 0.7723744 0.6817419 0.1718693 i j 2.0840918 0.3675473 > lm.influence(lm(y ~ 0, data=dat, na.action=na.exclude)) $hat a b c d e f g h i j 0 0 0 0 0 0 0 0 0 0 $coefficients a b c d e f g h i j $sigma a b c d e f g h 0.8860916 0.8860916 0.8860916 0.8860916 0.8860916 0.8860916 0.8860916 0.8860916 i j 0.8860916 0.8860916 $wt.res a b c d e f g 0.2196280 0.3604547 NA 0.1146812 -1.1426753 0.7723744 0.6817419 h i j 0.1718693 2.0840918 0.3675473 > ## last three misbehaved in 1.7.x, none had proper names. > > > ## length of results in ARMAacf when lag.max is used > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=1) # was 4 in 1.7.1 0 1 1.0000000 0.7644046 > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=2) 0 1 2 1.0000000 0.7644046 0.2676056 > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=3) 0 1 2 3 1.0000000 0.7644046 0.2676056 -0.2343150 > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=4) 0 1 2 3 4 1.0000000 0.7644046 0.2676056 -0.2343150 -0.5180538 > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=5) # failed in 1.7.1 0 1 2 3 4 5 1.0000000 0.7644046 0.2676056 -0.2343150 -0.5180538 -0.5099616 > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=6) 0 1 2 3 4 5 6 1.0000000 0.7644046 0.2676056 -0.2343150 -0.5180538 -0.5099616 -0.2784942 > ARMAacf(ar=c(1.3,-0.6, -0.2, 0.1),lag.max=10) 0 1 2 3 4 5 6 1.0000000 0.7644046 0.2676056 -0.2343150 -0.5180538 -0.5099616 -0.2784942 7 8 9 10 0.0241137 0.2486313 0.3134551 0.2256408 > ## > > > ## Indexing non-existent columns in a data frame > x <- data.frame(a = 1, b = 2) > try(x[c("a", "c")]) Error in `[.data.frame`(x, c("a", "c")) : undefined columns selected > try(x[, c("a", "c")]) Error in `[.data.frame`(x, , c("a", "c")) : undefined columns selected > try(x[1, c("a", "c")]) Error in `[.data.frame`(x, 1, c("a", "c")) : undefined columns selected > ## Second succeeded, third gave uniformative error message in 1.7.x. > > > ## methods(class = ) with namespaces, .Primitives etc (many missing in 1.7.x): > meth2gen <- function(cl) + noquote(sub(paste("\\.",cl,"$",sep=""),"", c(.S3methods(class = cl)))) > meth2gen("data.frame") [1] $ $<- Math Ops Summary [6] [ [<- [[ [[<- aggregate [11] anyDuplicated as.data.frame as.list as.matrix by [16] cbind dim dimnames dimnames<- droplevels [21] duplicated edit format formula head [26] is.na merge na.exclude na.omit plot [31] print prompt rbind row.names row.names<- [36] rowsum split split<- stack str [41] subset summary t tail transform [46] type.convert unique unstack within > meth2gen("dendrogram") [1] [[ as.dendrogram as.hclust cophenetic cut [6] labels merge nobs plot print [11] reorder rev str > ## --> the output may need somewhat frequent updating.. > > > ## subsetting a 1D array lost the dimensions > x <- array(1:5, dim=c(5)) > dim(x) [1] 5 > dim(x[, drop=TRUE]) [1] 5 > dim(x[2:3]) [1] 2 > dim(x[2]) NULL > dim(x[2, drop=FALSE]) [1] 1 > dimnames(x) <- list(some=letters[1:5]) > x[] some a b c d e 1 2 3 4 5 > x[2:3] some b c 2 3 > x[2] b 2 > x[2, drop=FALSE] some b 2 > ## both dim and dimnames lost in 1.8.0 > > > ## print.dist() didn't show NA's prior to 1.8.1 > x <- cbind(c(1,NA,2,3), c(NA,2,NA,1)) > (d <- dist(x)) 1 2 3 2 NA 3 1.414214 NA 4 2.828427 1.414214 1.414214 > print(d, diag = TRUE) 1 2 3 4 1 0.000000 2 NA 0.000000 3 1.414214 NA 0.000000 4 2.828427 1.414214 1.414214 0.000000 > ## > > > ## offsets in model terms where sometimes not deleted correctly > attributes(terms(~ a + b + a:b + offset(c)))[c("offset", "term.labels")] $offset [1] 3 $term.labels [1] "a" "b" "a:b" > attributes(terms(y ~ a + b + a:b + offset(c)))[c("offset", "term.labels")] $offset [1] 4 $term.labels [1] "a" "b" "a:b" > attributes(terms(~ offset(c) + a + b + a:b))[c("offset", "term.labels")] $offset [1] 1 $term.labels [1] "a" "b" "a:b" > attributes(terms(y ~ offset(c) + a + b + a:b))[c("offset", "term.labels")] $offset [1] 2 $term.labels [1] "a" "b" "a:b" > ## errors prior to 1.8.1 > > > ## 0-level factors gave nonsensical answers in model.matrix > m <- model.frame(~x, data.frame(x=NA), na.action=na.pass) > model.matrix(~x, m) (Intercept) xTRUE 1 1 NA attr(,"assign") [1] 0 1 attr(,"contrasts") attr(,"contrasts")$x [1] "contr.treatment" > lm.fit <- lm(y ~ x, data.frame(x=1:10, y=1:10)) > try(predict(lm.fit, data.frame(x=NA))) Error : variable 'x' was fitted with type "numeric" but type "logical" was supplied > ## wrong answers in 1.8.0, refused to run in 1.8.1 > > > > ## failure to print data frame containing arrays > ## raised by John Fox on R-devel on 2004-01-08 > y1 <- array(1:10, dim=10) > y2 <- array(1:30, dim=c(10,3), dimnames=list(NULL, letters[1:3])) > y3 <- array(1:40, dim=c(10,2,2), + dimnames=list(NULL, letters[1:2], NULL)) > data.frame(y=y1) y 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 > data.frame(y=y2) y.a y.b y.c 1 1 11 21 2 2 12 22 3 3 13 23 4 4 14 24 5 5 15 25 6 6 16 26 7 7 17 27 8 8 18 28 9 9 19 29 10 10 20 30 > data.frame(y=y3) y.a.1 y.b.1 y.a.2 y.b.2 1 1 11 21 31 2 2 12 22 32 3 3 13 23 33 4 4 14 24 34 5 5 15 25 35 6 6 16 26 36 7 7 17 27 37 8 8 18 28 38 9 9 19 29 39 10 10 20 30 40 > > as.data.frame(y1) y1 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 > as.data.frame(y2) a b c 1 1 11 21 2 2 12 22 3 3 13 23 4 4 14 24 5 5 15 25 6 6 16 26 7 7 17 27 8 8 18 28 9 9 19 29 10 10 20 30 > as.data.frame(y3) a.1 b.1 a.2 b.2 1 1 11 21 31 2 2 12 22 32 3 3 13 23 33 4 4 14 24 34 5 5 15 25 35 6 6 16 26 36 7 7 17 27 37 8 8 18 28 38 9 9 19 29 39 10 10 20 30 40 > > X <- data.frame(x=1:10) > X$y <- y1 > X x y 1 1 1 2 2 2 3 3 3 4 4 4 5 5 5 6 6 6 7 7 7 8 8 8 9 9 9 10 10 10 > sapply(X, dim) $x NULL $y [1] 10 > > X$y <- y2 > X x y.a y.b y.c 1 1 1 11 21 2 2 2 12 22 3 3 3 13 23 4 4 4 14 24 5 5 5 15 25 6 6 6 16 26 7 7 7 17 27 8 8 8 18 28 9 9 9 19 29 10 10 10 20 30 > sapply(X, dim) $x NULL $y [1] 10 3 > > X$y <- y3 > X x y.a.1 y.b.1 y.a.2 y.b.2 1 1 1 11 21 31 2 2 2 12 22 32 3 3 3 13 23 33 4 4 4 14 24 34 5 5 5 15 25 35 6 6 6 16 26 36 7 7 7 17 27 37 8 8 8 18 28 38 9 9 9 19 29 39 10 10 10 20 30 40 > sapply(X, dim) $x NULL $y [1] 10 2 2 > ## The last one fails in S. > > ## test of user hooks > for(id in c("A", "B")) { + eval(substitute( + { + setHook(packageEvent("stats4", "onLoad"), + function(pkgname, ...) cat("onLoad", sQuote(pkgname), id, "\n")); + setHook(packageEvent("stats4", "attach"), + function(pkgname, ...) cat("attach", sQuote(pkgname), id, "\n")); + setHook(packageEvent("stats4", "detach"), + function(pkgname, ...) cat("detach", sQuote(pkgname), id, "\n")); + setHook(packageEvent("stats4", "onUnload"), + function(pkgname, ...) cat("onUnload", sQuote(pkgname), id, "\n")) + }, + list(id=id))) + } > loadNamespace("stats4") onLoad 'stats4' A onLoad 'stats4' B > library("stats4") attach 'stats4' A attach 'stats4' B > detach("package:stats4") detach 'stats4' B detach 'stats4' A > unloadNamespace("stats4") onUnload 'stats4' B onUnload 'stats4' A > ## Just tests > > > ## rep(0-length-vector, length.out > 0) > rep(integer(0), length.out=0) integer(0) > rep(integer(0), length.out=10) [1] NA NA NA NA NA NA NA NA NA NA > typeof(.Last.value) [1] "integer" > rep(logical(0), length.out=0) logical(0) > rep(logical(0), length.out=10) [1] NA NA NA NA NA NA NA NA NA NA > typeof(.Last.value) [1] "logical" > rep(numeric(0), length.out=0) numeric(0) > rep(numeric(0), length.out=10) [1] NA NA NA NA NA NA NA NA NA NA > typeof(.Last.value) [1] "double" > rep(character(0), length.out=0) character(0) > rep(character(0), length.out=10) [1] NA NA NA NA NA NA NA NA NA NA > typeof(.Last.value) [1] "character" > rep(complex(0), length.out=0) complex(0) > rep(complex(0), length.out=10) [1] NA NA NA NA NA NA NA NA NA NA > typeof(.Last.value) [1] "complex" > rep(list(), length.out=0) list() > rep(list(), length.out=10) [[1]] NULL [[2]] NULL [[3]] NULL [[4]] NULL [[5]] NULL [[6]] NULL [[7]] NULL [[8]] NULL [[9]] NULL [[10]] NULL > ## always 0-length before 1.9.0 > > > ## supplying 0-length data to array and matrix > array(numeric(0), c(2, 2)) [,1] [,2] [1,] NA NA [2,] NA NA > array(list(), c(2,2)) [,1] [,2] [1,] NULL NULL [2,] NULL NULL > # worked < 1.8.0, error in 1.8.x > matrix(character(0), 1, 2) [,1] [,2] [1,] NA NA > matrix(integer(0), 1, 2) [,1] [,2] [1,] NA NA > matrix(logical(0), 1, 2) [,1] [,2] [1,] NA NA > matrix(numeric(0), 1, 2) [,1] [,2] [1,] NA NA > matrix(complex(0), 1, 2) [,1] [,2] [1,] NA NA > matrix(list(), 1, 2) [,1] [,2] [1,] NULL NULL > ## did not work < 1.9.0 > > > ## S compatibility change in 1.9.0 > rep(1:2, each=3, length=12) [1] 1 1 1 2 2 2 1 1 1 2 2 2 > ## used to pad with NAs. > > > ## PR#6510: aov() with error and -1 > set.seed(1) > test.df <- data.frame (y=rnorm(8), a=gl(2,1,8), b=gl(2,3,8),c=gl(2,4,8)) > aov(y ~ a + b + Error(c), data=test.df) Call: aov(formula = y ~ a + b + Error(c), data = test.df) Grand Mean: 0.8066534 Stratum 1: c Terms: b Sum of Squares 0.3176489 Deg. of Freedom 1 Estimated effects are balanced Stratum 2: Within Terms: a b Residuals Sum of Squares 1.389453 2.148149 5.048689 Deg. of Freedom 1 1 4 Residual standard error: 1.123464 Estimated effects may be unbalanced > aov(y ~ a + b - 1 + Error(c), data=test.df) Call: aov(formula = y ~ a + b - 1 + Error(c), data = test.df) Stratum 1: c Terms: a b Sum of Squares 5.205518 0.317649 Deg. of Freedom 1 1 1 out of 3 effects not estimable Estimated effects may be unbalanced Stratum 2: Within Terms: a b Residuals Sum of Squares 1.389453 2.148149 5.048689 Deg. of Freedom 1 1 4 Residual standard error: 1.123464 1 out of 3 effects not estimable Estimated effects may be unbalanced > ## wrong assignment to strata labels < 1.9.0 > ## Note this is unbalanced and not a good example > > binom.test(c(800,10))# p-value < epsilon Exact binomial test data: c(800, 10) number of successes = 800, number of trials = 810, p-value < 2.2e-16 alternative hypothesis: true probability of success is not equal to 0.5 95 percent confidence interval: 0.9774134 0.9940643 sample estimates: probability of success 0.9876543 > > > ## aov with a singular error model > rd <- c(16.53, 12.12, 10.04, 15.32, 12.33, 10.1, 17.09, 11.69, 11.81, 14.75, + 10.72, 8.79, 13.14, 9.79, 8.36, 15.62, 9.64, 8.72, 15.32, + 11.35, 8.52, 13.27, 9.74, 8.78, 13.16, 10.16, 8.4, 13.08, 9.66, + 8.16, 12.17, 9.13, 7.43, 13.28, 9.16, 7.92, 118.77, 78.83, 62.2, + 107.29, 73.79, 58.59, 118.9, 66.35, 53.12, 372.62, 245.39, 223.72, + 326.03, 232.67, 209.44, 297.55, 239.71, 223.8) > sample.df <- data.frame(dep.variable=rd, + subject=factor(rep(paste("subj",1:6, sep=""),each=9)), + f1=factor(rep(rep(c("f1","f2","f3"),each=6),3)), + f2=factor(rep(c("g1","g2","g3"),each=18)) + ) > sample.aov <- aov(dep.variable ~ f1 * f2 + Error(subject/(f1+f2)), data=sample.df) Warning message: In aov(dep.variable ~ f1 * f2 + Error(subject/(f1 + f2)), data = sample.df) : Error() model is singular > sample.aov Call: aov(formula = dep.variable ~ f1 * f2 + Error(subject/(f1 + f2)), data = sample.df) Grand Mean: 65.07444 Stratum 1: subject Terms: f1 f2 f1:f2 Sum of Squares 47815.99 312824.49 100370.96 Deg. of Freedom 1 2 2 2 out of 7 effects not estimable Estimated effects may be unbalanced Stratum 2: subject:f1 Terms: f1 f1:f2 Sum of Squares 483.9628 869.6876 Deg. of Freedom 2 4 Estimated effects may be unbalanced Stratum 3: Within Terms: Residuals Sum of Squares 29204.13 Deg. of Freedom 42 Residual standard error: 26.36923 > summary(sample.aov) Error: subject Df Sum Sq Mean Sq f1 1 47816 47816 f2 2 312824 156412 f1:f2 2 100371 50185 Error: subject:f1 Df Sum Sq Mean Sq f1 2 484.0 242.0 f1:f2 4 869.7 217.4 Error: Within Df Sum Sq Mean Sq F value Pr(>F) Residuals 42 29204 695.3 > sample.aov <- aov(dep.variable ~ f1 * f2 + Error(subject/(f2+f1)), data=sample.df) Warning message: In aov(dep.variable ~ f1 * f2 + Error(subject/(f2 + f1)), data = sample.df) : Error() model is singular > sample.aov Call: aov(formula = dep.variable ~ f1 * f2 + Error(subject/(f2 + f1)), data = sample.df) Grand Mean: 65.07444 Stratum 1: subject Terms: f1 f2 f1:f2 Sum of Squares 47815.99 312824.49 100370.96 Deg. of Freedom 1 2 2 2 out of 7 effects not estimable Estimated effects may be unbalanced Stratum 2: subject:f1 Terms: f1 f1:f2 Sum of Squares 483.9628 869.6876 Deg. of Freedom 2 4 Estimated effects may be unbalanced Stratum 3: Within Terms: Residuals Sum of Squares 29204.13 Deg. of Freedom 42 Residual standard error: 26.36923 > summary(sample.aov) Error: subject Df Sum Sq Mean Sq f1 1 47816 47816 f2 2 312824 156412 f1:f2 2 100371 50185 Error: subject:f1 Df Sum Sq Mean Sq f1 2 484.0 242.0 f1:f2 4 869.7 217.4 Error: Within Df Sum Sq Mean Sq F value Pr(>F) Residuals 42 29204 695.3 > ## failed in 1.8.1 > > > ## PR#6645 stem() with near-constant values > stem(rep(1, 100)) The decimal point is at the | 1 | 00000000000000000000000000000000000000000000000000000000000000000000+20 > stem(rep(0.1, 10)) The decimal point is 1 digit(s) to the left of the | 1 | 0000000000 > stem(c(rep(1, 10), 1+1.e-8)) The decimal point is 8 digit(s) to the left of the | 100000000 | 0000000000 100000000 | 100000001 | 0 > stem(c(rep(1, 10), 1+1.e-9)) The decimal point is 8 digit(s) to the left of the | 100000000 | 00000000001 > stem(c(rep(1, 10), 1+1.e-10), atom=0) # integer-overflow is avoided. The decimal point is 8 digit(s) to the left of the | 100000000 | 00000000000 > ## had integer overflows in 1.8.1, and silly shifts of decimal point > > > ## PR#6633 warnings with vector op matrix, and more > set.seed(1) > x1 <- rnorm(3) > y1 <- rnorm(4) > x1 * y1 [1] 0.5574682 0.1410502 0.1609194 -0.3641637 Warning message: In x1 * y1 : longer object length is not a multiple of shorter object length > x1 * as.matrix(y1) # no warning in 1.8.1 [,1] [1,] 0.5574682 [2,] 0.1410502 [3,] 0.1609194 [4,] -0.3641637 Warning message: In x1 * as.matrix(y1) : longer object length is not a multiple of shorter object length > x1 * matrix(y1,2,2)# ditto [,1] [,2] [1,] 0.5574682 0.1609194 [2,] 0.1410502 -0.3641637 Warning message: In x1 * matrix(y1, 2, 2) : longer object length is not a multiple of shorter object length > z1 <- x1 > 0 > z2 <- y1 > 0 > z1 & z2 [1] TRUE TRUE TRUE FALSE Warning message: In z1 & z2 : longer object length is not a multiple of shorter object length > z1 & as.matrix(z2) # no warning in 1.8.1 [,1] [1,] TRUE [2,] TRUE [3,] TRUE [4,] FALSE Warning message: In z1 & as.matrix(z2) : longer object length is not a multiple of shorter object length > x1 < y1 # no warning in 1.8.1 [1] FALSE TRUE FALSE FALSE Warning message: In x1 < y1 : longer object length is not a multiple of shorter object length > x1 < as.matrix(y1) # ditto [,1] [1,] FALSE [2,] TRUE [3,] FALSE [4,] FALSE Warning message: In x1 < as.matrix(y1) : longer object length is not a multiple of shorter object length > ## > > > ## summary method for mle > library(stats4) onLoad 'stats4' A onLoad 'stats4' B attach 'stats4' A attach 'stats4' B > N <- c(rep(3:6, 3), 7,7, rep(8,6), 9,9, 10,12)# sample from Pois(lam = 7) > summary(mle(function(Lam = 1) -sum(dpois(N, Lam)))) Maximum likelihood estimation Call: mle(minuslogl = function(Lam = 1) -sum(dpois(N, Lam))) Coefficients: Estimate Std. Error Lam 6.063755 2.307546 -2 log L: -5.437059 > ## "Coefficients" was "NULL" in 1.9.0's "devel" > > > ## PR#6656 terms.formula(simplify = TRUE) was losing offset terms > ## successive offsets caused problems > df <- data.frame(x=1:4, y=sqrt( 1:4), z=c(2:4,1)) > fit1 <- glm(y ~ offset(x) + z, data=df) > update(fit1, ". ~.")$call glm(formula = y ~ z + offset(x), data = df) > ## lost offset in 1.7.0 to 1.8.1 > terms(y ~ offset(x) + offset(log(x)) + z, data=df) y ~ offset(x) + offset(log(x)) + z attr(,"variables") list(y, offset(x), offset(log(x)), z) attr(,"offset") [1] 2 3 attr(,"factors") z y 0 offset(x) 0 offset(log(x)) 0 z 1 attr(,"term.labels") [1] "z" attr(,"order") [1] 1 attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > ## failed to remove second offset from formula in 1.8.1 > terms(y ~ offset(x) + z - z, data=df, simplify = TRUE) y ~ offset(x) attr(,"variables") list(y, offset(x), z) attr(,"offset") [1] 2 attr(,"factors") integer(0) attr(,"term.labels") character(0) attr(,"order") integer(0) attr(,"intercept") [1] 1 attr(,"response") [1] 1 attr(,".Environment") > ## first fix failed for models with no non-offset terms. > > > ## only the first two were wrong up to 1.8.1: > 3:4 * 1e-100 [1] 3e-100 4e-100 > 8:11* 1e-100 [1] 8.0e-100 9.0e-100 1.0e-99 1.1e-99 > 1:2 * 1e-99 [1] 1e-99 2e-99 > 1:2 * 1e+99 [1] 1e+99 2e+99 > 8:11* 1e+99 [1] 8.0e+99 9.0e+99 1.0e+100 1.1e+100 > 3:4 * 1e+100 [1] 3e+100 4e+100 > ## > > > ## negative subscripts could be mixed with NAs > x <- 1:3 > try(x[-c(1, NA)]) Error in x[-c(1, NA)] : only 0's may be mixed with negative subscripts > ## worked on some platforms, segfaulted on others in 1.8.1 > > > ## vector 'border' (and no 'pch', 'cex' nor 'bg'): > boxplot(count ~ spray, data = InsectSprays, border=2:7) > ## gave warnings in 1.9.0 > > summary(as.Date(paste("2002-12", 26:31, sep="-"))) Min. 1st Qu. Median Mean 3rd Qu. Max. "2002-12-26" "2002-12-27" "2002-12-28" "2002-12-28" "2002-12-29" "2002-12-31" > ## printed all "2002.-12-29" in 1.9.1 {because digits was too small} > as.matrix(data.frame(d = as.POSIXct("2004-07-20"))) d [1,] "2004-07-20" > ## gave a warning in 1.9.1 > > > ## Dump should quote when necessary (PR#6857) > x <- quote(b) > dump("x", "") x <- quote(b) > ## doesn't quote b in 1.9.0 > > > ## some checks of indexing by character, used to test hashing code > x <- 1:26 > names(x) <- letters > x[c("a", "aa", "aa")] <- 100:102 > x a b c d e f g h i j k l m n o p q r s t 100 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 u v w x y z aa 21 22 23 24 25 26 102 > > x <- 1:26 > names(x) <- rep("", 26) > x[c("a", "aa", "aa")] <- 100:102 > x 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 a aa 21 22 23 24 25 26 100 102 > ## > > > ## tests of raw type > # tests of logic operators > x <- "A test string" > (y <- charToRaw(x)) [1] 41 20 74 65 73 74 20 73 74 72 69 6e 67 > (xx <- c(y, as.raw(0), charToRaw("more"))) [1] 41 20 74 65 73 74 20 73 74 72 69 6e 67 00 6d 6f 72 65 > > !y [1] be df 8b 9a 8c 8b df 8c 8b 8d 96 91 98 > y & as.raw(15) [1] 01 00 04 05 03 04 00 03 04 02 09 0e 07 > y | as.raw(128) [1] c1 a0 f4 e5 f3 f4 a0 f3 f4 f2 e9 ee e7 > > # tests of binary read/write > zz <- file("testbin", "wb") > writeBin(xx, zz) > close(zz) > zz <- file("testbin", "rb") > (yy <- readBin(zz, "raw", 100)) [1] 41 20 74 65 73 74 20 73 74 72 69 6e 67 00 6d 6f 72 65 > seek(zz, 0, "start") [1] 18 > readBin(zz, "integer", n=100, size = 1) # read as small integers [1] 65 32 116 101 115 116 32 115 116 114 105 110 103 0 109 111 114 101 > seek(zz, 0, "start") [1] 18 > readBin(zz, "character", 100) # is confused by embedded nul. [1] "A test string" Warning message: In readBin(zz, "character", 100) : incomplete string at end of file has been discarded > seek(zz, 0, "start") [1] 18 > readChar(zz, length(xx)) # truncates at embedded nul [1] "A test string" > seek(zz) # make sure current position is reported properly [1] 18 > close(zz) > unlink("testbin") > > # tests of ASCII read/write. > cat(xx, file="testascii") > scan("testascii", what=raw(0)) Read 18 items [1] 41 20 74 65 73 74 20 73 74 72 69 6e 67 00 6d 6f 72 65 > unlink("testascii") > ## > > > ## Example of prediction not from newdata as intended. > set.seed(1) > y <- rnorm(10) > x <- cbind(1:10, sample(1:10)) # matrix > xt <- cbind(1:2, 3:4) > (lm1 <- lm(y ~ x)) Call: lm(formula = y ~ x) Coefficients: (Intercept) x1 x2 0.4359 -0.1376 0.1539 > predict(lm1, newdata = data.frame(x= xt)) 1 2 3 4 5 6 1.83760728 0.93041126 0.17714205 0.19350695 1.13343277 0.84194402 7 8 9 10 0.08867482 0.25896653 0.27533143 -0.47793778 Warning message: 'newdata' had 2 rows but variables found have 10 rows > ## warns as from 2.0.0 > > > ## eval could alter a data.frame/list second argument > data(trees) > a <- trees > eval(quote({Girth[1]<-NA;Girth}),a) [1] NA 8.6 8.8 10.5 10.7 10.8 11.0 11.0 11.1 11.2 11.3 11.4 11.4 11.7 12.0 [16] 12.9 12.9 13.3 13.7 13.8 14.0 14.2 14.5 16.0 16.3 17.3 17.5 17.9 18.0 18.0 [31] 20.6 > a[1, ] Girth Height Volume 1 8.3 70 10.3 > trees[1, ] Girth Height Volume 1 8.3 70 10.3 > ## both a and trees got altered in 1.9.1 > > > ## write.table did not apply qmethod to col.names (PR#7171) > x <- data.frame("test string with \"" = c("a \" and a '"), check.names=FALSE) > write.table(x) "test string with \"" "1" "a \" and a '" > write.table(x, qmethod = "double") "test string with """ "1" "a "" and a '" > ## Quote in col name was unescaped in 1.9.1. > > > ## extensions to read.table > Mat <- matrix(c(1:3, letters[1:3], 1:3, LETTERS[1:3], + c("2004-01-01", "2004-02-01", "2004-03-01"), + c("2004-01-01 12:00", "2004-02-01 12:00", "2004-03-01 12:00")), + 3, 6) > foo <- tempfile() > write.table(Mat, foo, col.names = FALSE, row.names = FALSE) > read.table(foo, colClasses = c(NA, NA, "NULL", "character", "Date", "POSIXct")) V1 V2 V4 V5 V6 1 1 a A 2004-01-01 2004-01-01 12:00:00 2 2 b B 2004-02-01 2004-02-01 12:00:00 3 3 c C 2004-03-01 2004-03-01 12:00:00 > unlist(sapply(.Last.value, class)) V1 V2 V4 V5 V61 V62 "integer" "factor" "character" "Date" "POSIXct" "POSIXt" > read.table(foo, colClasses = c("factor",NA,"NULL","factor","Date","POSIXct")) V1 V2 V4 V5 V6 1 1 a A 2004-01-01 2004-01-01 12:00:00 2 2 b B 2004-02-01 2004-02-01 12:00:00 3 3 c C 2004-03-01 2004-03-01 12:00:00 > unlist(sapply(.Last.value, class)) V1 V2 V4 V5 V61 V62 "factor" "factor" "factor" "Date" "POSIXct" "POSIXt" > read.table(foo, colClasses = c(V4="character")) V1 V2 V3 V4 V5 V6 1 1 a 1 A 2004-01-01 2004-01-01 12:00 2 2 b 2 B 2004-02-01 2004-02-01 12:00 3 3 c 3 C 2004-03-01 2004-03-01 12:00 > unlist(sapply(.Last.value, class)) V1 V2 V3 V4 V5 V6 "integer" "factor" "integer" "character" "factor" "factor" > unlink(foo) > ## added in 2.0.0 > > > ## write.table with complex columns (PR#7260, in part) > write.table(data.frame(x = 0.5+1:4, y = 1:4 + 1.5i), file = "") "x" "y" "1" 1.5 1+1.5i "2" 2.5 2+1.5i "3" 3.5 3+1.5i "4" 4.5 4+1.5i > # printed all as complex in 2.0.0. > write.table(data.frame(x = 0.5+1:4, y = 1:4 + 1.5i), file = "", dec=",") "x" "y" "1" 1,5 1+1,5i "2" 2,5 2+1,5i "3" 3,5 3+1,5i "4" 4,5 4+1,5i > ## used '.' not ',' in 2.0.0 > > ## splinefun() value test > (x <- seq(0,6, length=25)) [1] 0.00 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2.50 2.75 3.00 3.25 3.50 [16] 3.75 4.00 4.25 4.50 4.75 5.00 5.25 5.50 5.75 6.00 > mx <- sapply(c("fmm", "nat", "per"), + function(m) splinefun(1:5, c(1,2,4,3,1), method = m)(x)) > cbind(x,mx) x fmm nat per [1,] 0.00 5.3333333 0.46428571 3.0000000 [2,] 0.25 3.5312500 0.59821429 2.4062500 [3,] 0.50 2.2500000 0.73214286 1.8125000 [4,] 0.75 1.4270833 0.86607143 1.3125000 [5,] 1.00 1.0000000 1.00000000 1.0000000 [6,] 1.25 0.9062500 1.14118304 0.9453125 [7,] 1.50 1.0833333 1.32589286 1.1250000 [8,] 1.75 1.4687500 1.59765625 1.4921875 [9,] 2.00 2.0000000 2.00000000 2.0000000 [10,] 2.25 2.6093750 2.54854911 2.5937500 [11,] 2.50 3.2083333 3.14732143 3.1875000 [12,] 2.75 3.7031250 3.67243304 3.6875000 [13,] 3.00 4.0000000 4.00000000 4.0000000 [14,] 3.25 4.0312500 4.03962054 4.0546875 [15,] 3.50 3.8333333 3.83482143 3.8750000 [16,] 3.75 3.4687500 3.46261161 3.5078125 [17,] 4.00 3.0000000 3.00000000 3.0000000 [18,] 4.25 2.4843750 2.51171875 2.4062500 [19,] 4.50 1.9583333 2.01339286 1.8125000 [20,] 4.75 1.4531250 1.50837054 1.3125000 [21,] 5.00 1.0000000 1.00000000 1.0000000 [22,] 5.25 0.6302083 0.49107143 0.9453125 [23,] 5.50 0.3750000 -0.01785714 1.1250000 [24,] 5.75 0.2656250 -0.52678571 1.4921875 [25,] 6.00 0.3333333 -1.03571429 2.0000000 > > > ## infinite loop in read.fwf (PR#7350) > cat(file="test.txt", sep = "\n", "# comment 1", "1234567 # comment 2", + "1 234567 # comment 3", "12345 67 # comment 4", "# comment 5") > read.fwf("test.txt", width=c(2,2,3), skip=1, n=4) # looped V1 V2 V3 1 12 34 567 2 1 23 456 3 12 34 5 > read.fwf("test.txt", width=c(2,2,3), skip=1) # 1 line short V1 V2 V3 1 12 34 567 2 1 23 456 3 12 34 5 > read.fwf("test.txt", width=c(2,2,3), skip=0) V1 V2 V3 1 12 34 567 2 1 23 456 3 12 34 5 > unlink("test.txt") > ## > > > ## split was not handling lists and raws > split(as.list(1:3), c(1,1,2)) $`1` $`1`[[1]] [1] 1 $`1`[[2]] [1] 2 $`2` $`2`[[1]] [1] 3 > (y <- charToRaw("A test string")) [1] 41 20 74 65 73 74 20 73 74 72 69 6e 67 > (z <- split(y, rep(1:5, times=c(1,1,4,1,6)))) $`1` [1] 41 $`2` [1] 20 $`3` [1] 74 65 73 74 $`4` [1] 20 $`5` [1] 73 74 72 69 6e 67 > sapply(z, rawToChar) 1 2 3 4 5 "A" " " "test" " " "string" > ## wrong results in 2.0.0 > > > ## tests of changed S3 implicit classes in 2.1.0 > foo <- function(x, ...) UseMethod("foo") > foo.numeric <- function(x) cat("numeric arg\n") > foo(1:10) numeric arg > foo(pi) numeric arg > foo(matrix(1:10, 2, 5)) numeric arg > foo.integer <- function(x) cat("integer arg\n") > foo.double <- function(x) cat("double arg\n") > foo(1:10) integer arg > foo(pi) double arg > foo(matrix(1:10, 2, 5)) integer arg > ## > > > ## str() interpreted escape sequences prior to 2.1.0 > x <- "ab\bc\ndef" > str(x) chr "ab\bc\ndef" > str(x, vec.len=0)# failed in rev 32244 chr ... > str(factor(x)) Factor w/ 1 level "ab\bc\ndef": 1 > > x <- c("a", NA, "b") > factor(x) [1] a b Levels: a b > factor(x, exclude="") [1] a b Levels: a b > str(x) chr [1:3] "a" NA "b" > str(factor(x)) Factor w/ 2 levels "a","b": 1 NA 2 > str(factor(x, exclude="")) Factor w/ 3 levels "a","b",NA: 1 3 2 > ## > > > ## print.factor(quote=TRUE) was not quoting levels > x <- c("a", NA, "b", 'a " test') #" (comment for fontification) > factor(x) [1] a b a " test Levels: a a " test b > factor(x, exclude="") [1] a b a " test Levels: a a " test b > print(factor(x), quote=TRUE) [1] "a" NA "b" "a \" test" Levels: "a" "a \" test" "b" > print(factor(x, exclude=""), quote=TRUE) [1] "a" NA "b" "a \" test" Levels: "a" "a \" test" "b" NA > ## last two printed levels differently from values in 2.0.1 > > > ## write.table in marginal cases > x <- matrix(, 3, 0) > write.table(x) # 3 rows "1" "2" "3" > write.table(x, row.names=FALSE) > # note: scan and read.table won't read this as they take empty fields as NA > ## was 1 row in 2.0.1 > > > ## More tests of write.table > x <- list(a=1, b=1:2, c=3:4, d=5) > dim(x) <- c(2,2) > x [,1] [,2] [1,] 1 Integer,2 [2,] Integer,2 5 > write.table(x) "V1" "V2" "1" 1 3:4 "2" 1:2 5 > > x1 <- data.frame(a=1:2, b=I(matrix(LETTERS[1:4], 2, 2)), c = c("(i)", "(ii)")) > x1 a b.1 b.2 c 1 1 A C (i) 2 2 B D (ii) > write.table(x1) # In 2.0.1 had 3 headers, 4 cols "a" "b.1" "b.2" "c" "1" 1 A C "(i)" "2" 2 B D "(ii)" > write.table(x1, quote=c(2,3,4)) "a" "b.1" "b.2" "c" "1" 1 "A" "C" "(i)" "2" 2 "B" "D" "(ii)" > > x2 <- data.frame(a=1:2, b=I(list(a=1, b=2))) > x2 a b a 1 1 b 2 2 > write.table(x2) "a" "b" "a" 1 1 "b" 2 2 > > x3 <- seq(as.Date("2005-01-01"), len=6, by="day") > x4 <- data.frame(x=1:6, y=x3) > dim(x3) <- c(2,3) > x3 [1] "2005-01-01" "2005-01-02" "2005-01-03" "2005-01-04" "2005-01-05" [6] "2005-01-06" > write.table(x3) # matrix, so loses class "V1" "V2" "V3" "1" 12784 12786 12788 "2" 12785 12787 12789 > x4 x y 1 1 2005-01-01 2 2 2005-01-02 3 3 2005-01-03 4 4 2005-01-04 5 5 2005-01-05 6 6 2005-01-06 > write.table(x4) # preserves class, does not quote "x" "y" "1" 1 2005-01-01 "2" 2 2005-01-02 "3" 3 2005-01-03 "4" 4 2005-01-04 "5" 5 2005-01-05 "6" 6 2005-01-06 > ## > > > ## Problem with earlier regexp code spotted by KH > grep("(.*s){2}", "Arkansas", v = TRUE) [1] "Arkansas" > grep("(.*s){3}", "Arkansas", v = TRUE) character(0) > grep("(.*s){3}", state.name, v = TRUE) [1] "Massachusetts" "Mississippi" > ## Thought Arkansas had 3 s's. > > > ## Replacing part of a non-existent column could create a short column. > xx<- data.frame(a=1:4, b=letters[1:4]) > xx[2:3, "c"] <- 2:3 > ## gave short column in R < 2.1.0. > > > ## add1/drop1 could give misleading results if missing values were involved > y <- rnorm(1:20) > x <- 1:20; x[10] <- NA > x2 <- runif(20); x2[20] <- NA > fit <- lm(y ~ x) > drop1(fit) Single term deletions Model: y ~ x Df Sum of Sq RSS AIC 20.191 5.1555 x 1 1.4798 21.671 4.4993 > res <- try(stats:::drop1.default(fit)) Error in stats:::drop1.default(fit) : number of rows in use has changed: remove missing values? > stopifnot(inherits(res, "try-error")) > add1(fit, ~ . +x2) Single term additions Model: y ~ x Df Sum of Sq RSS AIC 17.605 3.6005 x2 1 0.011746 17.593 5.5885 Warning message: In add1.lm(fit, ~. + x2) : using the 18/19 rows from a combined fit > res <- try(stats:::add1.default(fit, ~ . +x2)) Error in stats:::add1.default(fit, ~. + x2) : number of rows in use has changed: remove missing values? > stopifnot(inherits(res, "try-error")) > ## 2.0.1 ran and gave incorrect answers. > > > ## (PR#7789) escaped quotes in the first five lines for read.table > tf <- tempfile() > x <- c("6 'TV2 Shortland Street'", + "2 'I don\\\'t watch TV at 7'", + "1 'I\\\'m not bothered, whatever that looks good'", + "2 'I channel surf'") > writeLines(x, tf) > read.table(tf) V1 V2 1 6 TV2 Shortland Street 2 2 I don't watch TV at 7 3 1 I'm not bothered, whatever that looks good 4 2 I channel surf > x <- c("6 'TV2 Shortland Street'", + "2 'I don''t watch TV at 7'", + "1 'I''m not bothered, whatever that looks good'", + "2 'I channel surf'") > writeLines(x, tf) > read.table(tf, sep=" ") V1 V2 1 6 TV2 Shortland Street 2 2 I don't watch TV at 7 3 1 I'm not bothered, whatever that looks good 4 2 I channel surf > unlink(tf) > ## mangled in 2.0.1 > > > ## (PR#7802) printCoefmat(signif.legend =FALSE) failed > set.seed(123) > cmat <- cbind(rnorm(3, 10), sqrt(rchisq(3, 12))) > cmat <- cbind(cmat, cmat[,1]/cmat[,2]) > cmat <- cbind(cmat, 2*pnorm(-cmat[,3])) > colnames(cmat) <- c("Estimate", "Std.Err", "Z value", "Pr(>z)") > printCoefmat(cmat, signif.stars = TRUE) Estimate Std.Err Z value Pr(>z) [1,] 11.3092 2.8636 3.9493 7.837e-05 *** [2,] 11.2301 3.5301 3.1812 0.001467 ** [3,] 9.9161 3.0927 3.2063 0.001344 ** --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 > printCoefmat(cmat, signif.stars = TRUE, signif.legend = FALSE) Estimate Std.Err Z value Pr(>z) [1,] 11.3092 2.8636 3.9493 7.837e-05 *** [2,] 11.2301 3.5301 3.1812 0.001467 ** [3,] 9.9161 3.0927 3.2063 0.001344 ** > # no stars, so no legend > printCoefmat(cmat, signif.stars = FALSE) Estimate Std.Err Z value Pr(>z) [1,] 11.3092 2.8636 3.9493 7.837e-05 [2,] 11.2301 3.5301 3.1812 0.001467 [3,] 9.9161 3.0927 3.2063 0.001344 > printCoefmat(cmat, signif.stars = TRUE, signif.legend = TRUE) Estimate Std.Err Z value Pr(>z) [1,] 11.3092 2.8636 3.9493 7.837e-05 *** [2,] 11.2301 3.5301 3.1812 0.001467 ** [3,] 9.9161 3.0927 3.2063 0.001344 ** --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 > ## did not work in 2.1.0 > > > ## PR#7824 subscripting an array by a matrix > x <- matrix(1:6, ncol=2) > x[rbind(c(1,1), c(2,2))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(0,1))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(0,0))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(0,2))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(0,3))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(1,0))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(2,0))] [1] 1 5 > x[rbind(c(1,1), c(2,2), c(3,0))] [1] 1 5 > x[rbind(c(1,0), c(0,2), c(3,0))] integer(0) > x[rbind(c(1,0), c(0,0), c(3,0))] integer(0) > x[rbind(c(1,1), c(2,2), c(1,2))] [1] 1 5 4 > x[rbind(c(1,1), c(2,NA), c(1,2))] [1] 1 NA 4 > x[rbind(c(1,0), c(2,NA), c(1,2))] [1] NA 4 > try(x[rbind(c(1,1), c(2,2), c(-1,2))]) Error in x[rbind(c(1, 1), c(2, 2), c(-1, 2))] : negative values are not allowed in a matrix subscript > try(x[rbind(c(1,1), c(2,2), c(-2,2))]) Error in x[rbind(c(1, 1), c(2, 2), c(-2, 2))] : negative values are not allowed in a matrix subscript > try(x[rbind(c(1,1), c(2,2), c(-3,2))]) Error in x[rbind(c(1, 1), c(2, 2), c(-3, 2))] : negative values are not allowed in a matrix subscript > try(x[rbind(c(1,1), c(2,2), c(-4,2))]) Error in x[rbind(c(1, 1), c(2, 2), c(-4, 2))] : negative values are not allowed in a matrix subscript > try(x[rbind(c(1,1), c(2,2), c(-1,-1))]) Error in x[rbind(c(1, 1), c(2, 2), c(-1, -1))] : negative values are not allowed in a matrix subscript > try(x[rbind(c(1,1,1), c(2,2,2))]) [1] 1 2 1 2 1 2 > > # verify that range checks are applied to negative indices > x <- matrix(1:6, ncol=3) > try(x[rbind(c(1,1), c(2,2), c(-3,3))]) Error in x[rbind(c(1, 1), c(2, 2), c(-3, 3))] : negative values are not allowed in a matrix subscript > try(x[rbind(c(1,1), c(2,2), c(-4,3))]) Error in x[rbind(c(1, 1), c(2, 2), c(-4, 3))] : negative values are not allowed in a matrix subscript > ## generally allowed in 2.1.0. > > > ## printing RAW matrices/arrays was not implemented > s <- sapply(0:7, function(i) rawShift(charToRaw("my text"),i)) > s [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [1,] 6d da b4 68 d0 a0 40 80 [2,] 79 f2 e4 c8 90 20 40 80 [3,] 20 40 80 00 00 00 00 00 [4,] 74 e8 d0 a0 40 80 00 00 [5,] 65 ca 94 28 50 a0 40 80 [6,] 78 f0 e0 c0 80 00 00 00 [7,] 74 e8 d0 a0 40 80 00 00 > dim(s) <- c(7,4,2) > s , , 1 [,1] [,2] [,3] [,4] [1,] 6d da b4 68 [2,] 79 f2 e4 c8 [3,] 20 40 80 00 [4,] 74 e8 d0 a0 [5,] 65 ca 94 28 [6,] 78 f0 e0 c0 [7,] 74 e8 d0 a0 , , 2 [,1] [,2] [,3] [,4] [1,] d0 a0 40 80 [2,] 90 20 40 80 [3,] 00 00 00 00 [4,] 40 80 00 00 [5,] 50 a0 40 80 [6,] 80 00 00 00 [7,] 40 80 00 00 > ## empty < 2.1.1 > > > ## interpretation of '.' directly by model.matrix > dd <- data.frame(a = gl(3,4), b = gl(4,1,12)) > model.matrix(~ .^2, data = dd) (Intercept) a2 a3 b2 b3 b4 a2:b2 a3:b2 a2:b3 a3:b3 a2:b4 a3:b4 1 1 0 0 0 0 0 0 0 0 0 0 0 2 1 0 0 1 0 0 0 0 0 0 0 0 3 1 0 0 0 1 0 0 0 0 0 0 0 4 1 0 0 0 0 1 0 0 0 0 0 0 5 1 1 0 0 0 0 0 0 0 0 0 0 6 1 1 0 1 0 0 1 0 0 0 0 0 7 1 1 0 0 1 0 0 0 1 0 0 0 8 1 1 0 0 0 1 0 0 0 0 1 0 9 1 0 1 0 0 0 0 0 0 0 0 0 10 1 0 1 1 0 0 0 1 0 0 0 0 11 1 0 1 0 1 0 0 0 0 1 0 0 12 1 0 1 0 0 1 0 0 0 0 0 1 attr(,"assign") [1] 0 1 1 2 2 2 3 3 3 3 3 3 attr(,"contrasts") attr(,"contrasts")$a [1] "contr.treatment" attr(,"contrasts")$b [1] "contr.treatment" > ## lost ^2 in 2.1.1 > > > ## add1.lm and drop.lm did not know about offsets (PR#8049) > set.seed(2) > y <- rnorm(10) > z <- 1:10 > lm0 <- lm(y ~ 1) > lm1 <- lm(y ~ 1, offset = 1:10) > lm2 <- lm(y ~ z, offset = 1:10) > > add1(lm0, scope = ~ z) Single term additions Model: y ~ 1 Df Sum of Sq RSS AIC 6.3161 -2.59479 z 1 0.00029765 6.3158 -0.59526 > anova(lm1, lm2) Analysis of Variance Table Model 1: y ~ 1 Model 2: y ~ z Res.Df RSS Df Sum of Sq F Pr(>F) 1 9 89.130 2 8 6.316 1 82.814 104.9 7.099e-06 *** --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 > add1(lm1, scope = ~ z) Single term additions Model: y ~ 1 Df Sum of Sq RSS AIC 89.130 23.8751 z 1 82.814 6.316 -0.5953 > drop1(lm2) Single term deletions Model: y ~ z Df Sum of Sq RSS AIC 6.316 -0.5953 z 1 82.814 89.130 23.8751 > ## Last two ignored the offset in 2.1.1 > > > ## tests of raw conversion > as.raw(1234) [1] 00 Warning message: out-of-range values treated as 0 in coercion to raw > as.raw(list(a=1234)) [1] 00 Warning message: out-of-range values treated as 0 in coercion to raw > ## 2.1.1: spurious and missing messages, wrong result for second. > > > ### end of tests added in 2.1.1 patched ### > > > ## Tests of logical matrix indexing with NAs > df1 <- data.frame(a = c(NA, 0, 3, 4)); m1 <- as.matrix(df1) > df2 <- data.frame(a = c(NA, 0, 0, 4)); m2 <- as.matrix(df2) > df1[df1 == 0] <- 2; df1 a 1 NA 2 2 3 3 4 4 > m1[m1 == 0] <- 2; m1 a [1,] NA [2,] 2 [3,] 3 [4,] 4 > df2[df2 == 0] <- 2; df2 # not allowed in 2.{0,1}.z a 1 NA 2 2 3 2 4 4 > m2[m2 == 0] <- 2; m2 a [1,] NA [2,] 2 [3,] 2 [4,] 4 > df1[df1 == 2] # this is first coerced to a matrix, and drops to a vector [1] NA 2 > df3 <- data.frame(a=1:2, b=2:3) > df3[df3 == 2] # had spurious names [1] 2 2 > # but not allowed > ## (modified to make printed result the same whether numeric() is > ## compiled or interpreted) > ## try(df2[df2 == 2] <- 1:2) > ## try(m2[m2 == 2] <- 1:2) > tryCatch(df2[df2 == 2] <- 1:2, + error = function(e) paste("Error:", conditionMessage(e))) [1] "Error: NAs are not allowed in subscripted assignments" > tryCatch(m2[m2 == 2] <- 1:2, + error = function(e) paste("Error:", conditionMessage(e))) [1] "Error: NAs are not allowed in subscripted assignments" > ## > > > ## vector indexing of matrices: issue is when rownames are used > # 1D array > m1 <- c(0,1,2,0) > dim(m1) <- 4 > dimnames(m1) <- list(1:4) > m1[m1 == 0] # has rownames 1 4 0 0 > m1[which(m1 == 0)] # has rownames 1 4 0 0 > m1[which(m1 == 0, arr.ind = TRUE)] # no names < 2.2.0 (side effect of PR#937) 1 4 0 0 > > # 2D array with 2 cols > m2 <- as.matrix(data.frame(a=c(0,1,2,0), b=0:3)) > m2[m2 == 0] # a vector, had names < 2.2.0 [1] 0 0 0 > m2[which(m2 == 0)] # a vector, had names < 2.2.0 [1] 0 0 0 > m2[which(m2 == 0, arr.ind = TRUE)] # no names (PR#937) [1] 0 0 0 > > # 2D array with one col: could use rownames but do not. > m21 <- m2[, 1, drop = FALSE] > m21[m21 == 0] [1] 0 0 > m21[which(m21 == 0)] [1] 0 0 > m21[which(m21 == 0, arr.ind = TRUE)] [1] 0 0 > ## not consistent < 2.2.0: S never gives names > > > ## tests of indexing as quoted in Extract.Rd > x <- NULL > x$foo <- 2 > x # length-1 vector $foo [1] 2 > x <- NULL > x[[2]] <- pi > x # numeric vector [1] NA 3.141593 > x <- NULL > x[[1]] <- 1:3 > x # list [[1]] [1] 1 2 3 > ## > > > ## printing of a kernel: > kernel(1) unknown coef[0] = 1 > ## printed wrongly in R <= 2.1.1 > > > ## using NULL as a replacement value > DF <- data.frame(A=1:2, B=3:4) > try(DF[2, 1:3] <- NULL) Error in x[[jj]][iseq] <- vjj : replacement has length zero > ## wrong error message in R < 2.2.0 > > > ## tests of signif > ob <- 0:9 * 2000 > print(signif(ob, 3), digits=17) # had rounding error in 2.1.1 [1] 0 2000 4000 6000 8000 10000 12000 14000 16000 18000 > signif(1.2347e-305, 4) [1] 1.235e-305 > signif(1.2347e-306, 4) # only 3 digits in 2.1.1 [1] 1.235e-306 > signif(1.2347e-307, 4) [1] 1.235e-307 > ## > > ### end of tests added in 2.2.0 patched ### > > > ## printing lists with NA names > A <- list(1, 2) > names(A) <- c("NA", NA) > A $`NA` [1] 1 $ [1] 2 > ## both printed as "NA" in 2.2.0 > > > ## subscripting with both NA and "NA" names > x <- 1:4 > names(x) <- c(NA, "NA", "a", "") > x[names(x)] NA a NA 2 3 NA > ## 2.2.0 had the second matching the first. > lx <- as.list(x) > lx[[as.character(NA)]] NULL > lx[as.character(NA)] $ NULL > ## 2.2.0 had both matching element 1 > > > ## data frame replacement subscripting > # Charles C. Berry, R-devel, 2005-10-26 > a.frame <- data.frame( x=letters[1:5] ) > a.frame[ 2:5, "y" ] <- letters[2:5] > a.frame # added rows 1:4 x y 1 a 2 b b 3 c c 4 d d 5 e e > # and adding and replacing matrices failed > a.frame[ ,"y" ] <- matrix(1:10, 5, 2) > a.frame x y.1 y.2 1 a 1 6 2 b 2 7 3 c 3 8 4 d 4 9 5 e 5 10 > a.frame[3:5 ,"y" ] <- matrix(1:6, 3, 2) > a.frame x y.1 y.2 1 a 1 6 2 b 2 7 3 c 1 4 4 d 2 5 5 e 3 6 > a.frame <- data.frame( x=letters[1:5] ) > a.frame[3:5 ,"y" ] <- matrix(1:6, 3, 2) > a.frame x y.1 y.2 1 a NA NA 2 b NA NA 3 c 1 4 4 d 2 5 5 e 3 6 > ## failed/wrong ans in 2.2.0 > > > ### end of tests added in 2.2.0 patched ### > > > ## test of fix of trivial warning PR#8252 > pairs(iris[1:4], oma=rep(3,4)) > ## warned in 2.2.0 only > > > ## str() > dend <- as.dendrogram(hclust(dist(USArrests), "ave")) # "print()" method > dend2 <- cut(dend, h=70) > str(dend2$upper) --[dendrogram w/ 2 branches and 4 members at h = 152] |--[dendrogram w/ 2 branches and 2 members at h = 77.6] | |--leaf "Branch 1" (h= 38.5 midpoint = 0.5, x.member = 2 ) | `--leaf "Branch 2" (h= 44.3 midpoint = 5.03, x.member = 14 ) `--[dendrogram w/ 2 branches and 2 members at h = 89.2] |--leaf "Branch 3" (h= 44.8 midpoint = 6.8, x.member = 14 ) `--leaf "Branch 4" (h= 54.7 midpoint = 7.65, x.member = 20 ) > ## {{for Emacs: `}} gave much too many spaces in 2.2.[01] > > > ## formatC on Windows (PR#8337) > xx <- pi * 10^(-5:4) > cbind(formatC(xx, wid = 9)) [,1] [1,] "3.142e-05" [2,] "0.0003142" [3,] " 0.003142" [4,] " 0.03142" [5,] " 0.3142" [6,] " 3.142" [7,] " 31.42" [8,] " 314.2" [9,] " 3142" [10,] "3.142e+04" > cbind(formatC(xx, wid = 9, flag = "-")) [,1] [1,] "3.142e-05" [2,] "0.0003142" [3,] "0.003142 " [4,] "0.03142 " [5,] "0.3142 " [6,] "3.142 " [7,] "31.42 " [8,] "314.2 " [9,] "3142 " [10,] "3.142e+04" > cbind(formatC(xx, wid = 9, flag = "0")) [,1] [1,] "3.142e-05" [2,] "0.0003142" [3,] "00.003142" [4,] "000.03142" [5,] "0000.3142" [6,] "00003.142" [7,] "000031.42" [8,] "0000314.2" [9,] "000003142" [10,] "3.142e+04" > ## extra space on 2.2.1 > > > ## an impossible glm fit > success <- c(13,12,11,14,14,11,13,11,12) > failure <- c(0,0,0,0,0,0,0,2,2) > predictor <- c(0, 5^(0:7)) > try(glm(cbind(success,failure) ~ 0+predictor, family = binomial(link="log"))) Error : no valid set of coefficients has been found: please supply starting values > # no coefficient is possible as the first case will have mu = 1 > ## 2.2.1 gave a subscript out of range warning instead. > > > ## error message from solve (PR#8494) > temp <- diag(1, 5)[, 1:4] > rownames(temp) <- as.character(1:5) > colnames(temp) <- as.character(1:4) > try(solve(temp)) Error in solve.default(temp) : 'a' (5 x 4) must be square > # also complex > try(solve(temp+0i)) Error in solve.default(temp + (0+0i)) : 'a' (5 x 4) must be square > # and non-comformant systems > try(solve(temp, diag(3))) Error in solve.default(temp, diag(3)) : 'a' (5 x 4) must be square > ## gave errors from rownames<- in 2.2.1 > > > ## PR#8462 terms.formula(simplify = TRUE) needs parentheses. > update.formula (Reaction ~ Days + (Days | Subject), . ~ . + I(Days^2)) Reaction ~ Days + (Days | Subject) + I(Days^2) > ## < 2.3.0 dropped parens on second term. > > > ## PR#8528: errors in the post-2.1.0 pgamma > pgamma(seq(0.75, 1.25, by=0.05)*1e100, shape = 1e100, log=TRUE) [1] -3.768207e+98 -2.314355e+98 -1.251893e+98 -5.360516e+97 -1.293294e+97 [6] -6.931472e-01 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 [11] 0.000000e+00 > pgamma(seq(0.75, 1.25, by=0.05)*1e100, shape = 1e100, log=TRUE, lower=FALSE) [1] 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 [6] -6.931472e-01 -1.209836e+97 -4.689820e+97 -1.023806e+98 -1.767844e+98 [11] -2.685645e+98 > pgamma(c(1-1e-10, 1+1e-10)*1e100, shape = 1e100) [1] 0 1 > pgamma(0.9*1e25, 1e25, log=TRUE) [1] -5.360516e+22 > ## were NaN, -Inf etc in 2.2.1. > > > ## + for POSIXt objects was non-commutative > # SPSS-style dates > c(10485849600,10477641600,10561104000,10562745600)+ISOdate(1582,10,14) [1] "1915-01-26 12:00:00 GMT" "1914-10-23 12:00:00 GMT" [3] "1917-06-15 12:00:00 GMT" "1917-07-04 12:00:00 GMT" > ## was in the local time zone in 2.2.1. > > > ## Limiting lines on deparse (wishlist PR#8638) > op <- options(deparse.max.lines = 3) > f <- function(...) browser() > do.call(f, mtcars) Called from: (function (...) browser())(mpg = c(21, 21, 22.8, 21.4, 18.7, 18.1, 14.3, 24.4, 22.8, 19.2, 17.8, 16.4, 17.3, 15.2, 10.4, 10.4, 14.7, 32.4, 30.4, ... Browse[1]> c > > options(error = expression(NULL)) > f <- function(...) stop() > do.call(f, mtcars) Error in (function (...) : Calls: do.call -> > traceback() 3: stop() 2: (function (...) stop())(mpg = c(21, 21, 22.8, 21.4, 18.7, 18.1, 14.3, 24.4, 22.8, 19.2, 17.8, 16.4, 17.3, 15.2, 10.4, 10.4, 14.7, 32.4, 30.4, 33.9, ... 1: do.call(f, mtcars) > > ## Debugger can handle a function that has a single function call as its body > g <- function(fun) fun(1) > debug(g) > g(function(x) x+1) debugging in: g(function(x) x + 1) debug: fun(1) Browse[2]> exiting from: g(function(x) x + 1) [1] 2 > options(op) > ## unlimited < 2.3.0 > > > ## row names in as.table (PR#8652) > as.table(matrix(1:60, ncol=2)) A B A 1 31 B 2 32 C 3 33 D 4 34 E 5 35 F 6 36 G 7 37 H 8 38 I 9 39 J 10 40 K 11 41 L 12 42 M 13 43 N 14 44 O 15 45 P 16 46 Q 17 47 R 18 48 S 19 49 T 20 50 U 21 51 V 22 52 W 23 53 X 24 54 Y 25 55 Z 26 56 A1 27 57 B1 28 58 C1 29 59 D1 30 60 > ## rows past 26 had NA row names > > > ## summary on a glm with zero weights and estimated dispersion (PR#8720) > y <- rnorm(10) > x <- 1:10 > w <- c(rep(1,9), 0) > summary(glm(y ~ x, weights = w)) Call: glm(formula = y ~ x, weights = w) Deviance Residuals: Min 1Q Median 3Q Max -1.7806 -0.1416 0.1863 0.5690 1.2057 Coefficients: Estimate Std. Error t value Pr(>|t|) (Intercept) -0.7532 0.7862 -0.958 0.370 x 0.1311 0.1397 0.938 0.379 (Dispersion parameter for gaussian family taken to be 1.17125) Null deviance: 9.2298 on 8 degrees of freedom Residual deviance: 8.1988 on 7 degrees of freedom AIC: Inf Number of Fisher Scoring iterations: 2 Warning message: In summary.glm(glm(y ~ x, weights = w)) : observations with zero weight not used for calculating dispersion > summary(glm(y ~ x, subset = w > 0)) Call: glm(formula = y ~ x, subset = w > 0) Deviance Residuals: Min 1Q Median 3Q Max -1.7806 -0.1582 0.3726 0.5896 1.2057 Coefficients: Estimate Std. Error t value Pr(>|t|) (Intercept) -0.7532 0.7862 -0.958 0.370 x 0.1311 0.1397 0.938 0.379 (Dispersion parameter for gaussian family taken to be 1.17125) Null deviance: 9.2298 on 8 degrees of freedom Residual deviance: 8.1988 on 7 degrees of freedom AIC: 30.702 Number of Fisher Scoring iterations: 2 > ## has NA dispersion in 2.2.1 > > > ## substitute was losing "..." after r37269 > yaa <- function(...) substitute(list(...)) > yaa(foo(...)) list(foo(...)) > ## and wasn't substituting after "..." > substitute(list(..., x), list(x=1)) list(..., 1) > ## fixed for 2.3.0 > > > ## uniroot never warned (PR#8750) > ff <- function(x) (x-pi)^3 > uniroot(ff, c(-10,10), maxiter=10) $root [1] 3.291126 $f.root [1] 0.003343587 $iter [1] 10 $init.it [1] NA $estim.prec [1] 0.8295023 Warning message: In uniroot(ff, c(-10, 10), maxiter = 10) : _NOT_ converged in 10 iterations > ## should warn, did not < 2.3.0 > > > ### end of tests added in 2.3.0 ### > > > ## prod etc on empty lists and raw vectors > try(min(list())) Error in min(list()) : invalid 'type' (list) of argument > try(max(list())) Error in max(list()) : invalid 'type' (list) of argument > try(sum(list())) Error in sum(list()) : invalid 'type' (list) of argument > try(prod(list())) Error in prod(list()) : invalid 'type' (list) of argument > try(min(raw())) Error in min(raw()) : invalid 'type' (raw) of argument > try(max(raw())) Error in max(raw()) : invalid 'type' (raw) of argument > try(sum(raw())) Error in sum(raw()) : invalid 'type' (raw) of argument > try(prod(raw())) Error in prod(raw()) : invalid 'type' (raw) of argument > ## Inf, -Inf, list(NULL) etc in 2.2.1 > > r <- hist(rnorm(100), plot = FALSE, breaks = 12, + ## arguments which don't make sense for plot=FALSE - give a warning: + xlab = "N(0,1)", col = "blue") Warning message: In hist.default(rnorm(100), plot = FALSE, breaks = 12, xlab = "N(0,1)", : arguments 'col', 'xlab' are not made use of > ## gave no warning in 2.3.0 and earlier > > > ## rbind.data.frame on permuted cols (PR#8868) > d1 <- data.frame(x=1:10, y=letters[1:10], z=1:10) > d2 <- data.frame(y=LETTERS[1:5], z=5:1, x=7:11) > rbind(d1, d2) x y z 1 1 a 1 2 2 b 2 3 3 c 3 4 4 d 4 5 5 e 5 6 6 f 6 7 7 g 7 8 8 h 8 9 9 i 9 10 10 j 10 11 7 A 5 12 8 B 4 13 9 C 3 14 10 D 2 15 11 E 1 > # got factor y wrong in 2.3.0 > # and failed with duplicated col names. > d1 <- data.frame(x=1:2, y=5:6, x=8:9, check.names=FALSE) > d2 <- data.frame(x=3:4, x=-(1:2), y=8:9, check.names=FALSE) > rbind(d1, d2) x y x 1 1 5 8 2 2 6 9 3 3 8 -1 4 4 9 -2 > ## corrupt in 2.3.0 > > > ## sort.list on complex vectors was unimplemented prior to 2.4.0 > x <- rep(2:1, c(2, 2)) + 1i*c(4, 1, 2, 3) > (o <- sort.list(x)) [1] 3 4 2 1 > x[o] [1] 1+2i 1+3i 2+1i 2+4i > sort(x) # for a cross-check [1] 1+2i 1+3i 2+1i 2+4i > ## > > > ## PR#9044 write.table(quote=TRUE, row.names=FALSE) did not quote column names > m <- matrix(1:9, nrow=3, dimnames=list(c("A","B","C"), c("I","II","III"))) > write.table(m) "I" "II" "III" "A" 1 4 7 "B" 2 5 8 "C" 3 6 9 > write.table(m, col.names=FALSE) "A" 1 4 7 "B" 2 5 8 "C" 3 6 9 > write.table(m, row.names=FALSE) "I" "II" "III" 1 4 7 2 5 8 3 6 9 > # wrong < 2.3.1 patched. > write.table(m, quote=FALSE) I II III A 1 4 7 B 2 5 8 C 3 6 9 > write.table(m, col.names=FALSE, quote=FALSE) A 1 4 7 B 2 5 8 C 3 6 9 > write.table(m, row.names=FALSE, quote=FALSE) I II III 1 4 7 2 5 8 3 6 9 > d <- as.data.frame(m) > write.table(d) "I" "II" "III" "A" 1 4 7 "B" 2 5 8 "C" 3 6 9 > write.table(d, col.names=FALSE) "A" 1 4 7 "B" 2 5 8 "C" 3 6 9 > write.table(d, row.names=FALSE) "I" "II" "III" 1 4 7 2 5 8 3 6 9 > write.table(d, quote=FALSE) I II III A 1 4 7 B 2 5 8 C 3 6 9 > write.table(d, col.names=FALSE, quote=FALSE) A 1 4 7 B 2 5 8 C 3 6 9 > write.table(d, row.names=FALSE, quote=FALSE) I II III 1 4 7 2 5 8 3 6 9 > write.table(m, quote=numeric(0)) # not the same as FALSE "I" "II" "III" "A" 1 4 7 "B" 2 5 8 "C" 3 6 9 > ## > > > ## removing variable from baseenv > try(remove("ls", envir=baseenv())) Error in remove("ls", envir = baseenv()) : cannot remove variables from the base environment > try(remove("ls", envir=asNamespace("base"))) Error in remove("ls", envir = asNamespace("base")) : cannot remove variables from base namespace > ## no message in 2.3.1 > > > ## tests of behaviour of factors > (x <- factor(LETTERS[1:5])[2:4]) [1] B C D Levels: A B C D E > x[2] [1] C Levels: A B C D E > x[[2]] [1] C Levels: A B C D E > stopifnot(identical(x[2], x[[2]])) > as.list(x) [[1]] [1] B Levels: A B C D E [[2]] [1] C Levels: A B C D E [[3]] [1] D Levels: A B C D E > (xx <- unlist(as.list(x))) [1] B C D Levels: A B C D E > stopifnot(identical(x, xx)) > as.vector(x, "list") [[1]] [1] B Levels: A B C D E [[2]] [1] C Levels: A B C D E [[3]] [1] D Levels: A B C D E > (sx <- sapply(x, function(.).)) [1] B C D Levels: A B C D E > stopifnot(identical(x, sx)) > ## changed in 2.4.0 > > > ## as.character on a factor with "NA" level > as.character(as.factor(c("AB", "CD", NA))) [1] "AB" "CD" NA > as.character(as.factor(c("NA", "CD", NA))) # use is 2.3.x [1] "NA" "CD" NA > as.vector(as.factor(c("NA", "CD", NA))) # but this did not [1] "NA" "CD" NA > ## used before > > > ## [ on a zero-column data frame, names of such > data.frame()[FALSE] data frame with 0 columns and 0 rows > names(data.frame()) character(0) > # gave NULL names and hence spurious warning. > > > ## residuals from zero-weight glm fits > d.AD <- data.frame(treatment = gl(3,3), outcome = gl(3,1,9), + counts = c(18,17,15,20,10,20,25,13,12)) > fit <- glm(counts ~ outcome + treatment, family = poisson, + data = d.AD, weights = c(0, rep(1,8))) > residuals(fit, type="working") # first was NA < 2.4.0 1 2 3 4 5 6 -0.31250000 0.15546875 -0.13231383 -0.11111111 -0.20909091 0.34622824 7 8 9 0.11111111 0.02818182 -0.19226306 > ## working residuals were NA for zero-weight cases. > fit2 <- glm(counts ~ outcome + treatment, family = poisson, + data = d.AD, weights = c(0, rep(1,8)), y = FALSE) > for(z in c("response", "working", "deviance", "pearson")) + stopifnot(all.equal(residuals(fit, type=z), residuals(fit2, type=z), + scale = 1, tolerance = 1e-10)) > > ## apply on arrays with zero extents > ## Robin Hankin, R-help, 2006-02-13 > A <- array(0, c(3, 0, 4)) > dimnames(A) <- list(D1 = letters[1:3], D2 = NULL, D3 = LETTERS[1:4]) > f <- function(x) 5 > apply(A, 1:2, f) D2 D1 a b c > apply(A, 1, f) a b c 5 5 5 > apply(A, 2, f) numeric(0) > ## dropped dims in 2.3.1 > > > ## print a factor with names > structure(factor(1:4), names = letters[1:4]) a b c d 1 2 3 4 Levels: 1 2 3 4 > ## dropped names < 2.4.0 > > > ## some tests of factor matrices > A <- factor(7:12) > dim(A) <- c(2, 3) > A [,1] [,2] [,3] [1,] 7 9 11 [2,] 8 10 12 Levels: 7 8 9 10 11 12 > str(A) Factor[1:2, 1:3] w/ 6 levels "7","8","9","10",..: 1 2 3 4 5 6 > A[, 1:2] [,1] [,2] [1,] 7 9 [2,] 8 10 Levels: 7 8 9 10 11 12 > A[, 1:2, drop=TRUE] [1] 7 8 9 10 Levels: 7 8 9 10 > A[1,1] <- "9" > A [,1] [,2] [,3] [1,] 9 9 11 [2,] 8 10 12 Levels: 7 8 9 10 11 12 > ## misbehaved < 2.4.0 > > > ## [dpqr]t with vector ncp > nc <- c(0, 0.0001, 1) > dt(1.8, 10, nc) [1] 0.08311639 0.08312972 0.26650393 > pt(1.8, 10, nc) [1] 0.9489739 0.9489641 0.7584267 > qt(0.95, 10, nc) [1] 1.812461 1.812579 3.041742 > ## gave warnings in 2.3.1, short answer for qt. > dt(1.8, 10, -nc[-1]) [1] 0.08310306 0.01074629 > pt(1.8, 10, -nc[-1]) [1] 0.9489837 0.9949472 > qt(0.95, 10, -nc[-1]) [1] 1.8123429 0.6797902 > ## qt in 2.3.1 did not allow negative ncp. > > > ## merge() used to insert row names as factor, not character, so > ## sorting was unexpected. > A <- data.frame(a = 1:4) > row.names(A) <- c("2002-11-15", "2002-12-15", "2003-01-15", "2003-02-15") > B <- data.frame(b = 1:4) > row.names(B) <- c("2002-09-15", "2002-10-15", "2002-11-15", "2002-12-15") > merge(A, B, by=0, all=TRUE) Row.names a b 1 2002-09-15 NA 1 2 2002-10-15 NA 2 3 2002-11-15 1 3 4 2002-12-15 2 4 5 2003-01-15 3 NA 6 2003-02-15 4 NA > > > ## assigning to a list loop index could alter the index (PR#9216) > L <- list(a = list(txt = "original value")) > f <- function(LL) { + for (ll in LL) ll$txt <- "changed in f" + LL + } > f(L) $a $a$txt [1] "original value" > L $a $a$txt [1] "original value" > ## both were changed < 2.4.0 > > > ## summary.mlm misbehaved with na.action = na.exclude > n <- 50 > x <- runif(n=n) > y1 <- 2 * x + rnorm(n=n) > y2 <- 5 * x + rnorm(n=n) > y2[sample(1:n, size=5)] <- NA > y <- cbind(y1, y2) > fit <- lm(y ~ 1, na.action="na.exclude") > summary(fit) Response y1 : Call: lm(formula = y1 ~ 1, na.action = "na.exclude") Residuals: Min 1Q Median 3Q Max -3.2806 -0.9057 0.0500 0.8020 2.5458 Coefficients: Estimate Std. Error t value Pr(>|t|) (Intercept) 1.1866 0.1797 6.602 4.4e-08 *** --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 Residual standard error: 1.206 on 44 degrees of freedom (5 observations deleted due to missingness) Response y2 : Call: lm(formula = y2 ~ 1, na.action = "na.exclude") Residuals: Min 1Q Median 3Q Max -4.4712 -0.6591 0.3364 1.0945 3.6686 Coefficients: Estimate Std. Error t value Pr(>|t|) (Intercept) 2.8988 0.2586 11.21 1.75e-14 *** --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 Residual standard error: 1.735 on 44 degrees of freedom (5 observations deleted due to missingness) > ## failed < 2.4.0 > > RNGkind("default","default")## reset to default - ease R core > > ## prettyNum lost attributes (PR#8695) > format(matrix(1:16, 4), big.mark = ",") [,1] [,2] [,3] [,4] [1,] " 1" " 5" " 9" "13" [2,] " 2" " 6" "10" "14" [3,] " 3" " 7" "11" "15" [4,] " 4" " 8" "12" "16" > ## was a vector < 2.4.0 > > > ## printing of complex numbers of very different magnitudes > 1e100 + 1e44i [1] 1e+100+0e+00i > 1e100 + pi*1i*10^(c(-100,0,1,40,100)) [1] 1e+100+ 0.000000e+00i 1e+100+ 0.000000e+00i 1e+100+ 0.000000e+00i [4] 1e+100+ 0.000000e+00i 1e+100+3.141593e+100i > ## first was silly, second not rounded correctly in 2.2.0 - 2.3.1 > ## We don't get them lining up, but that is a printf issue > ## that only happens for very large complex nos. > > > ### end of tests added in 2.4.0 ### > > > ## Platform-specific behaviour in lowess reported to R-help > ## 2006-10-12 by Frank Harrell > x <- c(0,7,8,14,15,120,242) > y <- c(122,128,130,158,110,110,92) > lowess(x, y, iter=0) $x [1] 0 7 8 14 15 120 242 $y [1] 121.95735 128.00000 131.06649 136.93673 126.76467 109.99903 92.00003 > lowess(x, y) $x [1] 0 7 8 14 15 120 242 $y [1] 122 128 128 158 110 110 92 > ## MAD of iterated residuals was zero, and result depended on the platform. > > > ## PR#9263: problems with R_Visible > a <- list(b=5) > a[[(t<-'b')]] [1] 5 > x <- matrix(5:-6, 3) > x[2, invisible(3)] [1] -2 > ## both invisible in 2.4.0 > > > ### end of tests added in 2.4.1 ### > > > ## tests of deparsing > x <-list(a = NA, b = as.integer(NA), c=0+NA, d=0i+NA, + e = 1, f = 1:1, g = 1:3, h = c(NA, 1:3), + i = as.character(NA), j = c("foo", NA, "bar") + ) > dput(x, control=NULL) list(NA, NA, NA, NA, 1, 1, 1:3, c(NA, 1, 2, 3), NA, c("foo", NA, "bar")) > dput(x, control="keepInteger") list(NA, NA_integer_, NA, NA, 1, 1L, 1:3, c(NA, 1L, 2L, 3L), NA, c("foo", NA, "bar")) > dput(x, control="keepNA") list(NA, NA_integer_, NA_real_, NA_complex_, 1, 1, 1:3, c(NA, 1, 2, 3), NA_character_, c("foo", NA, "bar")) > dput(x) list(a = NA, b = NA_integer_, c = NA_real_, d = NA_complex_, e = 1, f = 1L, g = 1:3, h = c(NA, 1L, 2L, 3L), i = NA_character_, j = c("foo", NA, "bar")) > dput(x, control="all") list(a = NA, b = NA_integer_, c = NA_real_, d = NA_complex_, e = 1, f = 1L, g = 1:3, h = c(NA, 1L, 2L, 3L), i = NA_character_, j = c("foo", NA, "bar")) > dput(x, control=c("all", "S_compatible")) list(a = NA, b = as.integer(NA), c = as.double(NA), d = as.complex(NA), e = 1., f = as.integer(1), g = 1:3, h = as.integer(c(NA, 1, 2, 3)), i = as.character(NA), j = c("foo", NA, "bar")) > tmp <- tempfile() > dput(x, tmp, control="all") > stopifnot(identical(dget(tmp), x)) > dput(x, tmp, control=c("all", "S_compatible")) > stopifnot(identical(dget(tmp), x)) > unlink(tmp) > ## changes in 2.5.0 > > > ## give better error message for nls with no parameters > ## Ivo Welch, R-help, 2006-12-23. > d <- data.frame(y= runif(10), x=runif(10)) > try(nls(y ~ 1/(1+x), data = d, start=list(x=0.5,y=0.5), trace=TRUE)) Error in nls(y ~ 1/(1 + x), data = d, start = list(x = 0.5, y = 0.5), : no parameters to fit > ## changed in 2.4.1 patched > > > ## cut(breaks="years"), in part PR#9433 > cut(as.Date(c("2000-01-17","2001-01-13","2001-01-20")), breaks="years") [1] 2000-01-01 2001-01-01 2001-01-01 Levels: 2000-01-01 2001-01-01 > cut(as.POSIXct(c("2000-01-17","2001-01-13","2001-01-20")), breaks="years") [1] 2000-01-01 2001-01-01 2001-01-01 Levels: 2000-01-01 2001-01-01 > ## did not get day 01 < 2.4.1 patched > > > ## manipulating rownames: problems in pre-2.5.0 > A <- data.frame(a=character(0)) > try(row.names(A) <- 1:10) # succeeded in Dec 2006 Error in `.rowNamesDF<-`(x, value = value) : invalid 'row.names' length > A <- list(a=1:3) > class(A) <- "data.frame" > row.names(A) <- letters[24:26] # failed at one point in Dec 2006 > A a x 1 y 2 z 3 > ## > > > ## extreme cases for subsetting of data frames > w <- women[1, ] > w[] height weight 1 58 115 > w[,drop = TRUE] height weight 1 58 115 Warning message: In `[.data.frame`(w, , drop = TRUE) : 'drop' argument will be ignored > w[1,] height weight 1 58 115 > w[,] height weight 1 58 115 > w[1, , drop = FALSE] height weight 1 58 115 > w[, , drop = FALSE] height weight 1 58 115 > w[1, , drop = TRUE] $height [1] 58 $weight [1] 115 > w[, , drop = TRUE] $height [1] 58 $weight [1] 115 > ## regression test: code changed for 2.5.0 > > > ## data.frame() with zero columns ignored 'row.names' > (x <- data.frame(row.names=1:4)) data frame with 0 columns and 4 rows > nrow(x) [1] 4 > row.names(x) [1] "1" "2" "3" "4" > attr(x, "row.names") [1] 1 2 3 4 > ## ignored prior to 2.5.0. > > > ## identical on data.frames > d0 <- d1 <- data.frame(1:4, row.names=1:4) > row.names(d0) <- NULL > dput(d0) structure(list(X1.4 = 1:4), class = "data.frame", row.names = c(NA, -4L)) > dput(d1) structure(list(X1.4 = 1:4), class = "data.frame", row.names = c(NA, 4L)) > identical(d0, d1) [1] TRUE > all.equal(d0, d1) [1] TRUE > row.names(d1) <- as.character(1:4) > dput(d1) structure(list(X1.4 = 1:4), class = "data.frame", row.names = c("1", "2", "3", "4")) > identical(d0, d1) [1] FALSE > all.equal(d0, d1) [1] "Attributes: < Component \"row.names\": Modes: numeric, character >" [2] "Attributes: < Component \"row.names\": target is numeric, current is character >" > ## identical used internal representation prior to 2.5.0 > > > ## all.equal > # ignored check.attributes in 2.4.1 > all.equal(data.frame(x=1:5, row.names=letters[1:5]), + data.frame(x=1:5,row.names=LETTERS[1:5]), + check.attributes=FALSE) [1] TRUE > # treated logicals as numeric > all.equal(c(T, F, F), c(T, T, F)) [1] "1 element mismatch" > all.equal(c(T, T, F), c(T, F, F)) [1] "1 element mismatch" > # ignored raw: > all.equal(as.raw(1:3), as.raw(1:3)) [1] TRUE > all.equal(as.raw(1:3), as.raw(3:1)) [1] "2 element mismatches" > ## > > > ## tests of deparsing > # if we run this from stdin, we will have no source, so fake it > f <- function(x, xm = max(1L, x)) {xx <- 0L; yy <- NA_real_} > attr(f, "srcref") <- srcref(srcfilecopy("", + "function(x, xm = max(1L, x)) {xx <- 0L; yy <- NA_real_}"), + c(1L, 1L, 1L, 56L)) > f # uses the source function(x, xm = max(1L, x)) {xx <- 0L; yy <- NA_real_} > dput(f) # not source function (x, xm = max(1L, x)) { xx <- 0L yy <- NA_real_ } > dput(f, control="all") # uses the source function(x, xm = max(1L, x)) {xx <- 0L; yy <- NA_real_} > cat(deparse(f), sep="\n") function (x, xm = max(1L, x)) { xx <- 0L yy <- NA_real_ } > dump("f", file="") f <- function(x, xm = max(1L, x)) {xx <- 0L; yy <- NA_real_} > # remove the source > attr(f, "srcref") <- NULL > f function (x, xm = max(1L, x)) { xx <- 0L yy <- NA_real_ } > dput(f, control="all") function (x, xm = max(1L, x)) { xx <- 0L yy <- NA_real_ } > dump("f", file="") f <- function (x, xm = max(1L, x)) { xx <- 0L yy <- NA_real_ } > > expression(bin <- bin + 1L) expression(bin <- bin + 1L) > ## did not preserve e.g. 1L at some point in pre-2.5.0 > > > ## NAs in substr were handled as large negative numbers > x <- "abcde" > substr(x, 1, 3) [1] "abc" > substr(x, NA, 1) [1] NA > substr(x, 1, NA) [1] NA > substr(x, NA, 3) <- "abc"; x [1] NA > substr(x, 1, NA) <- "AA"; x [1] NA > substr(x, 1, 2) <- NA_character_; x [1] NA > ## "" or no change in 2.4.1, except last > > > ## regression tests for pmin/pmax, rewritten in C for 2.5.0 > # NULL == integer(0) > pmin(NULL, integer(0)) integer(0) > pmax(integer(0), NULL) integer(0) > pmin(NULL, 1:3)# now ok integer(0) > pmax(pi, NULL, 2:4) numeric(0) > > x <- c(1, NA, NA, 4, 5) > y <- c(2, NA, 4, NA, 3) > pmin(x, y) [1] 1 NA NA NA 3 > stopifnot(identical(pmin(x, y), pmin(y, x))) > pmin(x, y, na.rm=TRUE) [1] 1 NA 4 4 3 > stopifnot(identical(pmin(x, y, na.rm=TRUE), pmin(y, x, na.rm=TRUE))) > pmax(x, y) [1] 2 NA NA NA 5 > stopifnot(identical(pmax(x, y), pmax(y, x))) > pmax(x, y, na.rm=TRUE) [1] 2 NA 4 4 5 > stopifnot(identical(pmax(x, y, na.rm=TRUE), pmax(y, x, na.rm=TRUE))) > > x <- as.integer(x); y <- as.integer(y) > pmin(x, y) [1] 1 NA NA NA 3 > stopifnot(identical(pmin(x, y), pmin(y, x))) > pmin(x, y, na.rm=TRUE) [1] 1 NA 4 4 3 > stopifnot(identical(pmin(x, y, na.rm=TRUE), pmin(y, x, na.rm=TRUE))) > pmax(x, y) [1] 2 NA NA NA 5 > stopifnot(identical(pmax(x, y), pmax(y, x))) > pmax(x, y, na.rm=TRUE) [1] 2 NA 4 4 5 > stopifnot(identical(pmax(x, y, na.rm=TRUE), pmax(y, x, na.rm=TRUE))) > > x <- as.character(x); y <- as.character(y) > pmin(x, y) [1] "1" NA NA NA "3" > stopifnot(identical(pmin(x, y), pmin(y, x))) > pmin(x, y, na.rm=TRUE) [1] "1" NA "4" "4" "3" > stopifnot(identical(pmin(x, y, na.rm=TRUE), pmin(y, x, na.rm=TRUE))) > pmax(x, y) [1] "2" NA NA NA "5" > stopifnot(identical(pmax(x, y), pmax(y, x))) > pmax(x, y, na.rm=TRUE) [1] "2" NA "4" "4" "5" > stopifnot(identical(pmax(x, y, na.rm=TRUE), pmax(y, x, na.rm=TRUE))) > > # tests of classed quantities > x <- .leap.seconds[1:23]; y <- rev(x) > x[2] <- y[2] <- x[3] <- y[4] <- NA > format(pmin(x, y), tz="GMT") # TZ names differ by platform [1] "1972-07-01" NA NA NA "1976-01-01" [6] "1977-01-01" "1978-01-01" "1979-01-01" "1980-01-01" "1981-07-01" [11] "1982-07-01" "1983-07-01" "1982-07-01" "1981-07-01" "1980-01-01" [16] "1979-01-01" "1978-01-01" "1977-01-01" "1976-01-01" "1975-01-01" [21] "1974-01-01" "1973-01-01" "1972-07-01" > class(pmin(x, y)) [1] "POSIXct" "POSIXt" > stopifnot(identical(pmin(x, y), pmin(y, x))) > format(pmin(x, y, na.rm=TRUE), tz="GMT") [1] "1972-07-01" NA "1997-07-01" "1975-01-01" "1976-01-01" [6] "1977-01-01" "1978-01-01" "1979-01-01" "1980-01-01" "1981-07-01" [11] "1982-07-01" "1983-07-01" "1982-07-01" "1981-07-01" "1980-01-01" [16] "1979-01-01" "1978-01-01" "1977-01-01" "1976-01-01" "1975-01-01" [21] "1974-01-01" "1973-01-01" "1972-07-01" > stopifnot(identical(pmin(x, y, na.rm=TRUE), pmin(y, x, na.rm=TRUE))) > format(pmax(x, y), tz="GMT") [1] "2006-01-01" NA NA NA "1994-07-01" [6] "1993-07-01" "1992-07-01" "1991-01-01" "1990-01-01" "1988-01-01" [11] "1985-07-01" "1983-07-01" "1985-07-01" "1988-01-01" "1990-01-01" [16] "1991-01-01" "1992-07-01" "1993-07-01" "1994-07-01" "1996-01-01" [21] "1997-07-01" "1999-01-01" "2006-01-01" > stopifnot(identical(pmax(x, y), pmax(y, x))) > format(pmax(x, y, na.rm=TRUE), tz="GMT") [1] "2006-01-01" NA "1997-07-01" "1975-01-01" "1994-07-01" [6] "1993-07-01" "1992-07-01" "1991-01-01" "1990-01-01" "1988-01-01" [11] "1985-07-01" "1983-07-01" "1985-07-01" "1988-01-01" "1990-01-01" [16] "1991-01-01" "1992-07-01" "1993-07-01" "1994-07-01" "1996-01-01" [21] "1997-07-01" "1999-01-01" "2006-01-01" > stopifnot(identical(pmax(x, y, na.rm=TRUE), pmax(y, x, na.rm=TRUE))) > > x <- as.POSIXlt(x, tz="GMT"); y <- as.POSIXlt(y, tz="GMT") > format(pmin(x, y), tz="GMT") [1] "1972-07-01" NA NA NA "1976-01-01" [6] "1977-01-01" "1978-01-01" "1979-01-01" "1980-01-01" "1981-07-01" [11] "1982-07-01" "1983-07-01" "1982-07-01" "1981-07-01" "1980-01-01" [16] "1979-01-01" "1978-01-01" "1977-01-01" "1976-01-01" "1975-01-01" [21] "1974-01-01" "1973-01-01" "1972-07-01" > class(pmin(x, y)) [1] "POSIXlt" "POSIXt" > stopifnot(identical(pmin(x, y), pmin(y, x))) > format(pmin(x, y, na.rm=TRUE), tz="GMT") [1] "1972-07-01" NA "1997-07-01" "1975-01-01" "1976-01-01" [6] "1977-01-01" "1978-01-01" "1979-01-01" "1980-01-01" "1981-07-01" [11] "1982-07-01" "1983-07-01" "1982-07-01" "1981-07-01" "1980-01-01" [16] "1979-01-01" "1978-01-01" "1977-01-01" "1976-01-01" "1975-01-01" [21] "1974-01-01" "1973-01-01" "1972-07-01" > stopifnot(identical(pmin(x, y, na.rm=TRUE), pmin(y, x, na.rm=TRUE))) > format(pmax(x, y), tz="GMT") [1] "2006-01-01" NA NA NA "1994-07-01" [6] "1993-07-01" "1992-07-01" "1991-01-01" "1990-01-01" "1988-01-01" [11] "1985-07-01" "1983-07-01" "1985-07-01" "1988-01-01" "1990-01-01" [16] "1991-01-01" "1992-07-01" "1993-07-01" "1994-07-01" "1996-01-01" [21] "1997-07-01" "1999-01-01" "2006-01-01" > stopifnot(identical(pmax(x, y), pmax(y, x))) > format(pmax(x, y, na.rm=TRUE), tz="GMT") [1] "2006-01-01" NA "1997-07-01" "1975-01-01" "1994-07-01" [6] "1993-07-01" "1992-07-01" "1991-01-01" "1990-01-01" "1988-01-01" [11] "1985-07-01" "1983-07-01" "1985-07-01" "1988-01-01" "1990-01-01" [16] "1991-01-01" "1992-07-01" "1993-07-01" "1994-07-01" "1996-01-01" [21] "1997-07-01" "1999-01-01" "2006-01-01" > stopifnot(identical(pmax(x, y, na.rm=TRUE), pmax(y, x, na.rm=TRUE))) > ## regresion tests > > > ## regression tests on names of 1D arrays > x <- as.array(1:3) > names(x) <- letters[x] # sets dimnames, really > names(x) [1] "a" "b" "c" > dimnames(x) [[1]] [1] "a" "b" "c" > attributes(x) $dim [1] 3 $dimnames $dimnames[[1]] [1] "a" "b" "c" > names(x) <- NULL > attr(x, "names") <- LETTERS[x] # sets dimnames, really > names(x) [1] "A" "B" "C" > dimnames(x) [[1]] [1] "A" "B" "C" > attributes(x) $dim [1] 3 $dimnames $dimnames[[1]] [1] "A" "B" "C" > ## regression tests > > > ## regression tests on NA attribute names > x <- 1:3 > attr(x, "NA") <- 4 > attributes(x) $`NA` [1] 4 > attr(x, "NA") [1] 4 > attr(x, NA_character_) NULL > try(attr(x, NA_character_) <- 5) Error in attr(x, NA_character_) <- 5 : 'name' must be non-null character string > ## prior to 2.5.0 NA was treated as "NA" > > > ## qr with pivoting (PR#9623) > A <- matrix(c(0,0,0, 1,1,1), nrow = 3, + dimnames = list(letters[1:3], c("zero","one"))) > y <- matrix(c(6,7,8), nrow = 3, dimnames = list(LETTERS[1:3], "y")) > qr.coef(qr(A), y) y zero NA one 7 > qr.fitted(qr(A), y) y A 7 B 7 C 7 > > qr.coef(qr(matrix(0:1, 1, dimnames=list(NULL, c("zero","one")))), 5) zero one NA 5 > ## coef names were returned unpivoted <= 2.5.0 > > ## readChar read extra items, terminated on zeros > x <- as.raw(65:74) > readChar(x, nchar=c(3,3,0,3,3,3)) [1] "ABC" "DEF" "" "GHI" "J" > f <- tempfile() > writeChar("ABCDEFGHIJ", con=f, eos=NULL) > readChar(f, nchar=c(3,3,0,3,3,3)) [1] "ABC" "DEF" "" "GHI" "J" > unlink(f) > ## > > > ## corner cases for cor > set.seed(1) > X <- cbind(NA, 1:3, rnorm(3)) > try(cor(X, use = "complete")) Error in cor(X, use = "complete") : no complete element pairs > try(cor(X, use = "complete", method="spearman")) Error in cor(X, use = "complete", method = "spearman") : no complete element pairs > try(cor(X, use = "complete", method="kendall")) Error in cor(X, use = "complete", method = "kendall") : no complete element pairs > cor(X, use = "pair") [,1] [,2] [,3] [1,] NA NA NA [2,] NA 1.0000000 -0.1942739 [3,] NA -0.1942739 1.0000000 > cor(X, use = "pair", method="spearman") [,1] [,2] [,3] [1,] NA NA NA [2,] NA 1.0 -0.5 [3,] NA -0.5 1.0 > cor(X, use = "pair", method="kendall") [,1] [,2] [,3] [1,] NA NA NA [2,] NA 1.0000000 -0.3333333 [3,] NA -0.3333333 1.0000000 > > X[1,1] <- 1 > cor(X, use = "complete") [,1] [,2] [,3] [1,] NA NA NA [2,] NA NA NA [3,] NA NA NA > cor(X, use = "complete", method="spearman") [,1] [,2] [,3] [1,] NA NA NA [2,] NA NA NA [3,] NA NA NA > cor(X, use = "complete", method="kendall") [,1] [,2] [,3] [1,] NA NA NA [2,] NA NA NA [3,] NA NA NA > cor(X, use = "pair") [,1] [,2] [,3] [1,] NA NA NA [2,] NA 1.0000000 -0.1942739 [3,] NA -0.1942739 1.0000000 > cor(X, use = "pair", method="spearman") [,1] [,2] [,3] [1,] NA NA NA [2,] NA 1.0 -0.5 [3,] NA -0.5 1.0 > cor(X, use = "pair", method="kendall") [,1] [,2] [,3] [1,] NA NA NA [2,] NA 1.0000000 -0.3333333 [3,] NA -0.3333333 1.0000000 > ## not consistent in 2.6.x > > > ## confint on rank-deficient models (in part, PR#10494) > junk <- data.frame(x = rep(1, 10L), + u = factor(sample(c("Y", "N"), 10, replace=TRUE)), + ans = rnorm(10)) > fit <- lm(ans ~ x + u, data = junk) > confint(fit) 2.5 % 97.5 % (Intercept) -0.4634457 1.6198116 x NA NA uY -2.3607073 0.5854635 > confint.default(fit) 2.5 % 97.5 % (Intercept) -0.3071384 1.4635043 x NA NA uY -2.1396554 0.3644116 > ## Mismatch gave NA for 'u' in 2.6.1 > > > ## corrupt data frame produced by subsetting (PR#10574) > x <- data.frame(a=1:3, b=2:4) > x[,3] <- x Warning message: In `[<-.data.frame`(`*tmp*`, , 3, value = list(a = 1:3, b = 2:4)) : provided 2 variables to replace 1 variables > x a b a.1 1 1 2 1 2 2 3 2 3 3 4 3 > ## warning during printing < 2.7.0 > > > ## format.factor used to lose dim[names] and names (PR#11512) > x <- factor(c("aa", letters[-1])) > dim(x) <- c(13,2) > format(x, justify="right") [,1] [,2] [1,] "aa" " n" [2,] " b" " o" [3,] " c" " p" [4,] " d" " q" [5,] " e" " r" [6,] " f" " s" [7,] " g" " t" [8,] " h" " u" [9,] " i" " v" [10,] " j" " w" [11,] " k" " x" [12,] " l" " y" [13,] " m" " z" > ## > > > ## removing columns in within (PR#1131) > abc <- data.frame(a=1:5, b=2:6, c=3:7) > within(abc, b<-NULL) a c 1 1 3 2 2 4 3 3 5 4 4 6 5 5 7 > within(abc,{d<-a+7;b<-NULL}) a c d 1 1 3 8 2 2 4 9 3 3 5 10 4 4 6 11 5 5 7 12 > within(abc,{a<-a+7;b<-NULL}) a c 1 8 3 2 9 4 3 10 5 4 11 6 5 12 7 > ## Second produced corrupt data frame in 2.7.1 > > > ## aggregate on an empty data frame (PR#13167) > z <- data.frame(a=integer(0), b=numeric(0)) > try(aggregate(z, by=z[1], FUN=sum)) Error in aggregate.data.frame(z, by = z[1], FUN = sum) : no rows to aggregate > ## failed in unlist in 2.8.0, now gives explicit message. > aggregate(data.frame(a=1:10)[F], list(rep(1:2, each=5)), sum) Group.1 1 1 2 2 > ## used to fail obscurely. > > > ## subsetting data frames with duplicate rows > z <- data.frame(a=1, a=2, b=3, check.names=FALSE) > z[] # OK a a b 1 1 2 3 > z[1, ] a a b 1 1 2 3 > ## had row names a, a.1, b in 2.8.0. > > > ## incorrect warning due to lack of fuzz. > TS <- ts(co2[1:192], freq=24) > tmp2 <- window(TS, start(TS), end(TS)) > ## warned in 2.8.0 > > ## failed to add tag > Call <- call("foo", 1) > Call[["bar"]] <- 2 > Call foo(1, bar = 2) > ## unnamed call in 2.8.1 > > options(keep.source = TRUE) > ## $<- on pairlists failed to duplicate (from Felix Andrews, > ## https://stat.ethz.ch/pipermail/r-devel/2009-January/051698.html) > foo <- function(given = NULL) { + callObj <- quote(callFunc()) + if(!is.null(given)) callObj$given <- given + if (is.null(given)) callObj$default <- TRUE + callObj + } > > foo() callFunc(default = TRUE) > foo(given = TRUE) callFunc(given = TRUE) > foo("blah blah") callFunc(given = "blah blah") > foo(given = TRUE) callFunc(given = TRUE) > foo() callFunc(default = TRUE) > ## altered foo() in 2.8.1. > > ## Using '#' flag in sprintf(): > forms <- c("%#7.5g","%#5.f", "%#7x", "%#5d", "%#9.0e") > nums <- list(-3.145, -31, 0xabc, -123L, 123456) > rbind(mapply(sprintf, forms, nums), + mapply(sprintf, sub("#", '', forms), nums)) %#7.5g %#5.f %#7x %#5d %#9.0e [1,] "-3.1450" " -31." " 0xabc" " -123" " 1.e+05" [2,] " -3.145" " -31" " abc" " -123" " 1e+05" > ## gave an error in pre-release versions of 2.9.0 > > ## (auto)printing of functions {with / without source attribute}, > ## including primitives > sink(con <- textConnection("of", "w")) ; c ; sink(NULL); close(con) > of2 <- capture.output(print(c)) > stopifnot(identical(of2, of), + identical(of2, "function (...) .Primitive(\"c\")")) > ## ^^ would have failed up to R 2.9.x > foo function(given = NULL) { callObj <- quote(callFunc()) if(!is.null(given)) callObj$given <- given if (is.null(given)) callObj$default <- TRUE callObj } > print(foo, useSource = FALSE) function (given = NULL) { callObj <- quote(callFunc()) if (!is.null(given)) callObj$given <- given if (is.null(given)) callObj$default <- TRUE callObj } > attr(foo, "srcref") <- NULL > foo function (given = NULL) { callObj <- quote(callFunc()) if (!is.null(given)) callObj$given <- given if (is.null(given)) callObj$default <- TRUE callObj } > (f <- structure(function(){}, note = "just a note", + yada = function() "not the same")) function(){} attr(,"note") [1] "just a note" attr(,"yada") function () "not the same" > print(f, useSource = FALSE) # must print attributes function () { } attr(,"note") [1] "just a note" attr(,"yada") function () "not the same" > print.function <- function(x, ...) { str(x,...); invisible(x) } > print.function function (x, ...) - attr(*, "srcref")= 'srcref' int [1:8] 1 19 1 63 19 63 1 1 ..- attr(*, "srcfile")=Classes 'srcfilecopy', 'srcfile' > f function () - attr(*, "srcref")= 'srcref' int [1:8] 1 17 1 28 17 28 1 1 ..- attr(*, "srcfile")=Classes 'srcfilecopy', 'srcfile' - attr(*, "note")= chr "just a note" - attr(*, "yada")=function () ..- attr(*, "srcref")= 'srcref' int [1:8] 2 24 2 48 24 48 2 2 .. ..- attr(*, "srcfile")=Classes 'srcfilecopy', 'srcfile' > rm(print.function) > ## auto-printing and printing differed up to R 2.9.x > > printCoefmat(cbind(0,1)) [,1] [,2] [1,] 0 1 > ## would print NaN up to R 2.9.0 > > > ## continuity correction for Kendall's tau. Improves this example. > cor.test(c(1, 2, 3, 4, 5), c(8, 6, 7, 5, 3), method = "kendall", + exact = TRUE) Kendall's rank correlation tau data: c(1, 2, 3, 4, 5) and c(8, 6, 7, 5, 3) T = 1, p-value = 0.08333 alternative hypothesis: true tau is not equal to 0 sample estimates: tau -0.8 > cor.test(c(1, 2, 3, 4, 5), c(8, 6, 7, 5, 3), method = "kendall", + exact = FALSE) Kendall's rank correlation tau data: c(1, 2, 3, 4, 5) and c(8, 6, 7, 5, 3) z = -1.9596, p-value = 0.05004 alternative hypothesis: true tau is not equal to 0 sample estimates: tau -0.8 > cor.test(c(1, 2, 3, 4, 5), c(8, 6, 7, 5, 3), method = "kendall", + exact = FALSE, continuity = TRUE) Kendall's rank correlation tau data: c(1, 2, 3, 4, 5) and c(8, 6, 7, 5, 3) z = -1.7146, p-value = 0.08641 alternative hypothesis: true tau is not equal to 0 sample estimates: tau -0.8 > # and a little for Spearman's > cor.test(c(1, 2, 3, 4, 5), c(8, 6, 7, 5, 3), method = "spearman", + exact = TRUE) Spearman's rank correlation rho data: c(1, 2, 3, 4, 5) and c(8, 6, 7, 5, 3) S = 38, p-value = 0.08333 alternative hypothesis: true rho is not equal to 0 sample estimates: rho -0.9 > cor.test(c(1, 2, 3, 4, 5), c(8, 6, 7, 5, 3), method = "spearman", + exact = FALSE) Spearman's rank correlation rho data: c(1, 2, 3, 4, 5) and c(8, 6, 7, 5, 3) S = 38, p-value = 0.03739 alternative hypothesis: true rho is not equal to 0 sample estimates: rho -0.9 > cor.test(c(1, 2, 3, 4, 5), c(8, 6, 7, 5, 3), method = "spearman", + exact = FALSE, continuity = TRUE) Spearman's rank correlation rho data: c(1, 2, 3, 4, 5) and c(8, 6, 7, 5, 3) S = 38, p-value = 0.09689 alternative hypothesis: true rho is not equal to 0 sample estimates: rho -0.9 > ## Kendall case is wish of PR#13691 > > > ## corrupt data frame, PR#13724 > foo <- matrix(1:12, nrow = 3) > bar <- as.data.frame(foo) > val <- integer(0) > try(bar$NewCol <- val) Error in `$<-.data.frame`(`*tmp*`, NewCol, value = integer(0)) : replacement has 0 rows, data has 3 > # similar, not in the report > try(bar[["NewCol"]] <- val) Error in `[[<-.data.frame`(`*tmp*`, "NewCol", value = integer(0)) : replacement has 0 rows, data has 3 > # [ ] is tricker, so just check the result is reasonable and prints > bar["NewCol"] <- val > bar[, "NewCol2"] <- val > bar[FALSE, "NewCol3"] <- val > bar V1 V2 V3 V4 NewCol NewCol2 NewCol3 1 1 4 7 10 NA NA NA 2 2 5 8 11 NA NA NA 3 3 6 9 12 NA NA NA > ## Succeeded but gave corrupt result in 2.9.0 > > > ## Printing NA_complex_ > m22 <- matrix(list(NA_complex_, 3, "A string", NA_complex_), 2,2) > print(m22) [,1] [,2] [1,] NA "A string" [2,] 3 NA > print(m22, na.print="") [,1] [,2] [1,] "A string" [2,] 3 > ## used uninitialized variable in C, noticably Windows, for R <= 2.9.0 > > > ## non-standard variable names in update etc > ## never guaranteed to work, requested by Sundar Dorai-Raj in > ## https://stat.ethz.ch/pipermail/r-devel/2009-July/054184.html > update(`a: b` ~ x, ~ . + y) `a: b` ~ x + y > ## 2.9.1 dropped backticks > > > ## print(ls.str(.)) did evaluate calls > E <- new.env(); E$cl <- call("print", "Boo !") > ls.str(E) cl : language print("Boo !") > ## 2.10.0 did print.. > > > ## complete.cases with no input > try(complete.cases()) Error in complete.cases() : no input has determined the number of cases > try(complete.cases(list(), list())) Error in complete.cases(list(), list()) : no input has determined the number of cases > ## gave unhelpful messages in 2.10.0, silly results in pre-2.10.1 > > > ## error messages from (C-level) evalList > tst <- function(y) { stopifnot(is.numeric(y)); y+ 1 } > try(tst()) # even nicer since R 3.5.0's change to sequential stopifnot() Error in is.numeric(y) : argument "y" is missing, with no default > try(c(1,,2)) Error in c(1, , 2) : argument 2 is empty > ## change in 2.8.0 made these less clear > > > ## empty levels from cut.Date (cosmetic, PR#14162) > x <- as.Date(c("2009-03-21","2009-03-31")) > cut(x, breaks= "quarter") # had two levels in 2.10.1 [1] 2009-01-01 2009-01-01 Levels: 2009-01-01 > cut(as.POSIXlt(x), breaks= "quarter") [1] 2009-01-01 2009-01-01 Levels: 2009-01-01 > ## remove empty final level > > > ## tests of error conditions in switch() > switch("a", a=, b=, c=, 4) [1] 4 > switch("a", a=, b=, c=, ) > .Last.value NULL > switch("a", a=, b=, c=, invisible(4)) > .Last.value [1] 4 > ## visiblilty changed in 2.11.0 > > > ## rounding error in aggregate.ts > ## https://stat.ethz.ch/pipermail/r-devel/2010-April/057225.html > x <- rep(6:10, 1:5) > aggregate(as.ts(x), FUN = mean, ndeltat = 5) Time Series: Start = 1 End = 11 Frequency = 0.2 [1] 7.2 8.8 10.0 > x <- rep(6:10, 1:5) > aggregate(as.ts(x), FUN = mean, nfrequency = 0.2) Time Series: Start = 1 End = 11 Frequency = 0.2 [1] 7.2 8.8 10.0 > ## platform-dependent in 2.10.1 > > > ## wish of PR#9574 > a <- c(0.1, 0.3, 0.4, 0.5, 0.3, 0.0001) > format.pval(a, eps=0.01) [1] "0.1" "0.3" "0.4" "0.5" "0.3" "<0.01" > format.pval(a, eps=0.01, nsmall =2) [1] "0.10" "0.30" "0.40" "0.50" "0.30" "<0.01" > ## granted in 2.12.0 > > > ## printing fractional dates > as.Date(0.5, origin="1969-12-31") [1] "1969-12-31" > ## changed to round down in 2.12.1 > > > ## printing data frames with "" colnames > dfr <- data.frame(x=1:6, CC=11:16, f = gl(3,2)); colnames(dfr)[2] <- "" > dfr x f 1 1 11 1 2 2 12 1 3 3 13 2 4 4 14 2 5 5 15 3 6 6 16 3 > ## now prints the same as data.matrix(dfr) does here > > > ## format(., zero.print) --> prettyNum() > set.seed(9); m <- matrix(local({x <- rnorm(40) + sign(x)*round(exp(2*x))/10}), 8,5) > noquote(format(m, zero.print= ".")) [,1] [,2] [,3] [,4] [,5] [1,] . -0.1 -0.1 . 0.8 [2,] . . . 21.4 0.1 [3,] -0.1 1.3 0.6 0.2 0.1 [4,] -0.1 . . . . [5,] 0.2 0.1 3.4 0.2 0.2 [6,] . -0.1 0.1 0.2 . [7,] 1.1 4.0 -0.1 . 0.2 [8,] -0.1 . 0.6 -0.1 0.1 > ## used to print ". 0" instead of ". " > > > ## tests of NA having precedence over NaN -- all must print "NA" > min(c(NaN, NA)) [1] NA > min(c(NA, NaN)) # NaN in 2.12.2 [1] NA > min(NaN, NA_real_) # NaN in 2.12.2 [1] NA > min(NA_real_, NaN) [1] NA > max(c(NaN, NA)) [1] NA > max(c(NA, NaN)) # NaN in 2.12.2 [1] NA > max(NaN, NA_real_) # NaN in 2.12.2 [1] NA > max(NA_real_, NaN) [1] NA > ## might depend on compiler < 2.13.0 > > > ## PR#14514 > # Data are from Conover, "Nonparametric Statistics", 3rd Ed, p. 197, > # re-arranged to make a lower-tail test the issue of relevance: we > # want to see if pregnant nurses exposed to nitrous oxide have higher > # rates of miscarriage, stratifying on the type of nurse. > Nitrous <- array(c(32,210,8,26,18,21,3,3,7,75,0,10), dim = c(2,2,3), + dimnames = list(c("Exposed","NotExposed"), + c("FullTerm","Miscarriage"), + c("DentalAsst","OperRoomNurse","OutpatientNurse"))) > mantelhaen.test(Nitrous, exact=TRUE, alternative="less") Exact conditional test of independence in 2 x 2 x k tables data: Nitrous S = 57, p-value = 0.1959 alternative hypothesis: true common odds ratio is less than 1 95 percent confidence interval: 0.000000 1.388197 sample estimates: common odds ratio 0.6652418 > mantelhaen.test(Nitrous, exact=FALSE, alternative="less") Mantel-Haenszel chi-squared test with continuity correction data: Nitrous Mantel-Haenszel X-squared = 0.71432, df = 1, p-value = 0.199 alternative hypothesis: true common odds ratio is less than 1 95 percent confidence interval: 0.000000 1.260053 sample estimates: common odds ratio 0.6645374 > ## exact = FALSE gave the wrong tail in 2.12.2. > > > ## scan(strip.white=TRUE) could strip trailing (but not leading) space > ## inside quoted strings. > writeLines(' " A "; "B" ;"C";" D ";"E "; F ;G ', "foo") > cat(readLines("foo"), sep = "\n") " A "; "B" ;"C";" D ";"E "; F ;G > scan('foo', list(""), sep=";")[[1]] Read 7 records [1] " A " " B " "C" " D " "E " " F " "G " > scan('foo', "", sep=";") Read 7 items [1] " A " " B " "C" " D " "E " " F " "G " > scan('foo', list(""), sep=";", strip.white = TRUE)[[1]] Read 7 records [1] " A " "B" "C" " D " "E " "F" "G" > scan('foo', "", sep=";", strip.white = TRUE) Read 7 items [1] " A " "B" "C" " D " "E " "F" "G" > unlink('foo') > > writeLines(' " A "\n "B" \n"C"\n" D "\n"E "\n F \nG ', "foo2") > scan('foo2', "") Read 7 items [1] " A " "B" "C" " D " "E " "F" "G" > scan('foo2', "", strip.white=TRUE) # documented to be ignored ... Read 7 items [1] " A " "B" "C" " D " "E " "F" "G" > unlink('foo2') > ## Changed for 2.13.0, found when investigating non-bug PR#14522. > > > ## PR#14488: missing values in rank correlations > set.seed(1) > x <- runif(10) > y <- runif(10) > x[3] <- NA; y[5] <- NA > xy <- cbind(x, y) > > cor(x, y, method = "spearman", use = "complete.obs") [1] 0.2380952 > cor(x, y, method = "spearman", use = "pairwise.complete.obs") [1] 0.2380952 > cor(na.omit(xy), method = "spearman", use = "complete.obs") x y x 1.0000000 0.2380952 y 0.2380952 1.0000000 > cor(xy, method = "spearman", use = "complete.obs") x y x 1.0000000 0.2380952 y 0.2380952 1.0000000 > cor(xy, method = "spearman", use = "pairwise.complete.obs") x y x 1.0000000 0.2380952 y 0.2380952 1.0000000 > ## inconsistent in R < 2.13.0 > > > ## integer overflow in rowsum() went undetected > # https://stat.ethz.ch/pipermail/r-devel/2011-March/060304.html > x <- 2e9L > rowsum(c(x, x), c("a", "a")) [,1] a NA > rowsum(data.frame(z = c(x, x)), c("a", "a")) z a NA > ## overflow in R < 2.13.0. > > > ## method dispatch in [[.data.frame: > ## https://stat.ethz.ch/pipermail/r-devel/2011-April/060409.html > d <- data.frame(num = 1:4, + fac = factor(letters[11:14], levels = letters[1:15]), + date = as.Date("2011-04-01") + (0:3), + pv = package_version(c("1.2-3", "4.5", "6.7", "8.9-10"))) > for (i in seq_along(d)) print(d[[1, i]]) [1] 1 [1] k Levels: a b c d e f g h i j k l m n o [1] "2011-04-01" [1] '1.2.3' > ## did not dispatch in R < 2.14.0 > > > ## some tests of 24:00 as midnight > as.POSIXlt("2011-05-16 24:00:00", tz = "GMT") [1] "2011-05-17 GMT" > as.POSIXlt("2010-01-31 24:00:00", tz = "GMT") [1] "2010-02-01 GMT" > as.POSIXlt("2011-02-28 24:00:00", tz = "GMT") [1] "2011-03-01 GMT" > as.POSIXlt("2008-02-28 24:00:00", tz = "GMT") [1] "2008-02-29 GMT" > as.POSIXlt("2008-02-29 24:00:00", tz = "GMT") [1] "2008-03-01 GMT" > as.POSIXlt("2010-12-31 24:00:00", tz = "GMT") [1] "2011-01-01 GMT" > ## new in 2.14.0 > > > ## Unwarranted conversion of logical values > try(double(FALSE)) Error in double(FALSE) : invalid 'length' argument > x <- 1:3 > try(length(x) <- TRUE) Error in length(x) <- TRUE : invalid value > ## coerced to integer in 2.13.x > > > ## filter(recursive = TRUE) on input with NAs > # https://stat.ethz.ch/pipermail/r-devel/2011-July/061547.html > x <- c(1:4, NA, 6:9) > cbind(x, "1"=filter(x, 0.5, method="recursive"), + "2"=filter(x, c(0.5, 0.0), method="recursive"), + "3"=filter(x, c(0.5, 0.0, 0.0), method="recursive")) Time Series: Start = 1 End = 9 Frequency = 1 x 1 2 3 1 1 1.000 1.000 1.000 2 2 2.500 2.500 2.500 3 3 4.250 4.250 4.250 4 4 6.125 6.125 6.125 5 NA NA NA NA 6 6 NA NA NA 7 7 NA NA NA 8 8 NA NA NA 9 9 NA NA NA > ## NAs in wrong place in R <= 2.13.1. > > > ## PR#14679. Format depends if TZ is set. > x <- as.POSIXlt(c("2010-02-27 22:30:33", "2009-08-09 06:01:03", + "2010-07-23 17:29:59")) > stopifnot(!is.na(trunc(x, units = "days")[1:3])) > ## gave NAs after the first in R < 2.13.2 > > > ## explicit error message for silly input (tol = 0) > aa <- c(1, 2, 3, 8, 8, 8, 8, 8, 8, 8, 8, 8, 12, 13, 14) > try(smooth.spline(aa, seq_along(aa))) Error in smooth.spline(aa, seq_along(aa)) : 'tol' must be strictly positive and finite > fit <- smooth.spline(aa, seq_along(aa), tol = 0.1) > # actual output is too unstable to diff. > ## Better message from R 2.14.2 > > > ## PR#14840 > d <- data.frame(x = 1:9, + y = 1:9 + 0.1*c(1, 2, -1, 0, 1, 1000, 0, 1, -1), + w = c(1, 0.5, 2, 1, 2, 0, 1, 2, 1)) > fit <- lm(y ~ x, data=d, weights=w) > summary(fit) Call: lm(formula = y ~ x, data = d, weights = w) Weighted Residuals: Min 1Q Median 3Q Max -0.1883 -0.0310 0.0000 0.1006 0.1165 Coefficients: Estimate Std. Error t value Pr(>|t|) (Intercept) 0.03949 0.08612 0.459 0.663 x 0.99788 0.01502 66.419 7.83e-10 *** --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 Residual standard error: 0.1232 on 6 degrees of freedom Multiple R-squared: 0.9986, Adjusted R-squared: 0.9984 F-statistic: 4412 on 1 and 6 DF, p-value: 7.834e-10 > ## issue is how the 5-number summary is labelled > ## (also seen in example(case.names)) > > > ## is.unsorted got it backwards for dataframes of more than one column > ## it is supposed to look for violations of x[2] > x[1], x[3] > x[2], etc. > is.unsorted(data.frame(x=2:1)) [1] FALSE > is.unsorted(data.frame(x=1:2, y=3:4)) [1] FALSE > is.unsorted(data.frame(x=3:4, y=1:2)) [1] TRUE > ## R < 2.15.1 got these as FALSE, TRUE, FALSE. > > > library("methods")# (not needed here) > assertError <- tools::assertError > assertError( getMethod(ls, "bar", fdef=ls), verbose=TRUE) Asserted error: no generic function found for 'ls' > assertError( getMethod(show, "bar"), verbose=TRUE) Asserted error: no method found for function 'show' and signature bar > ## R < 2.15.1 gave > ## cannot coerce type 'closure' to vector of type 'character' > > > ## corner cases for array > # allowed, gave non-array in 2.15.x > try(array(1, integer())) Error in array(1, integer()) : 'dims' cannot be of length 0 > # if no dims, an error to supply dimnames > try(array(1, integer(), list(1, 2))) Error in array(1, integer(), list(1, 2)) : 'dims' cannot be of length 0 > ## > > > ## is.na() on an empty dataframe (PR#14059) > DF <- data.frame(row.names=1:3) > is.na(DF); str(.Last.value) 1 2 3 logi[1:3, 0 ] - attr(*, "dimnames")=List of 2 ..$ : chr [1:3] "1" "2" "3" ..$ : NULL > is.na(DF[FALSE, ]); str(.Last.value) <0 x 0 matrix> logi[0 , 0 ] > ## first failed in R 2.15.1, second gave NULL > > > ## split() with dots in levels > df <- data.frame(x = rep(c("a", "a.b"), 3L), y = rep(c("b.c", "c"), 3L), + z = 1:6) > df x y z 1 a b.c 1 2 a.b c 2 3 a b.c 3 4 a.b c 4 5 a b.c 5 6 a.b c 6 > split(df, df[, 1:2]) # default is sep = "." $a.b.c x y z 1 a b.c 1 2 a.b c 2 3 a b.c 3 4 a.b c 4 5 a b.c 5 6 a.b c 6 $a.b.b.c [1] x y z <0 rows> (or 0-length row.names) $a.c [1] x y z <0 rows> (or 0-length row.names) > split(df, df[, 1:2], sep = ":") $`a:b.c` x y z 1 a b.c 1 3 a b.c 3 5 a b.c 5 $`a.b:b.c` [1] x y z <0 rows> (or 0-length row.names) $`a:c` [1] x y z <0 rows> (or 0-length row.names) $`a.b:c` x y z 2 a.b c 2 4 a.b c 4 6 a.b c 6 > ## > > > ## The difference between sort.list and order > z <- c(4L, NA, 2L, 3L, NA, 1L) > order(z, na.last = NA) [1] 6 3 4 1 > sort.list(z, na.last = NA) [1] 4 2 3 1 > sort.list(z, na.last = NA, method = "shell") [1] 4 2 3 1 > sort.list(z, na.last = NA, method = "quick") [1] 4 2 3 1 > sort.list(z, na.last = NA, method = "radix") [1] 4 2 3 1 > ## Differences first documented in R 2.15.2 > > > ## PR#15028: names longer than cutoff NB (= 1000) > NB <- 1000 > lns <- capture.output( + setNames(c(255, 1000, 30000), + c(paste(rep.int("a", NB+2), collapse=""), + paste(rep.int("b", NB+2), collapse=""), + paste(rep.int("c", NB+2), collapse="")))) > sub("^ +", '', lns[2* 1:3]) [1] "255 " "1000 " "30000 " > ## *values* were cutoff when printed > > > ## allows deparse limits to be set > form <- reallylongnamey ~ reallylongnamex0 + reallylongnamex1 + reallylongnamex2 + reallylongnamex3 > form reallylongnamey ~ reallylongnamex0 + reallylongnamex1 + reallylongnamex2 + reallylongnamex3 > op <- options(deparse.cutoff=80) > form reallylongnamey ~ reallylongnamex0 + reallylongnamex1 + reallylongnamex2 + reallylongnamex3 > options(deparse.cutoff=50) > form reallylongnamey ~ reallylongnamex0 + reallylongnamex1 + reallylongnamex2 + reallylongnamex3 > options(op) > ## fixed to 60 in R 2.15.x > > > ## PR#15179: user defined binary ops were not deparsed properly > quote( `%^%`(x, `%^%`(y,z)) ) x %^% (y %^% z) > quote( `%^%`(x) ) `%^%`(x) > ## > > > ## Anonymous function calls were not deparsed properly > substitute(f(x), list(f = function(x) x + 1)) (function (x) x + 1)(x) > substitute(f(x), list(f = quote(function(x) x + 1))) (function(x) x + 1)(x) > substitute(f(x), list(f = quote(f+g))) (f + g)(x) > substitute(f(x), list(f = quote(base::mean))) base::mean(x) > substitute(f(x), list(f = quote(a[n]))) a[n](x) > substitute(f(x), list(f = quote(g(y)))) g(y)(x) > ## The first three need parens, the last three don't. > > > ## PR#15247 : str() on invalid data frame names (where print() works): > d <- data.frame(1:3, "B", 4); names(d) <- c("A", "B\xba","C\xabcd") > str(d) 'data.frame': 3 obs. of 3 variables: $ A : int 1 2 3 $ Bº : Factor w/ 1 level "B": 1 1 1 $ C«cd: num 4 4 4 > ## gave an error in R <= 3.0.0 > > > ## PR#15299 : adding a simple vector to a classed object produced a bad result: > 1:2 + table(1:2) 1 2 2 3 > ## Printed the class attribute in R <= 3.0.0 > > > ## PR#15311 : regmatches<- mishandled regexpr results. > x <- c('1', 'B', '3') > m <- regexpr('\\d', x) > regmatches(x, m) <- c('A', 'C') > print(x) [1] "A" "B" "C" > ## Gave a warning and a wrong result up to 3.0.1 > > > ## Bad warning found by Radford Neal > saveopt <- options(warnPartialMatchDollar=TRUE) > pl <- pairlist(abc=1, def=2) > pl$ab [1] 1 Warning message: In pl$ab : partial match of 'ab' to 'abc' > if (!is.null(saveopt[["warnPartialMatchDollar"]])) options(saveopt) > ## 'abc' was just '' > > > ## seq() with NaN etc inputs now gives explicit error messages > try(seq(NaN)) Error in seq.default(NaN) : 'from' must be a finite number > try(seq(to = NaN)) Error in seq.default(to = NaN) : 'to' must be a finite number > try(seq(NaN, NaN)) Error in seq.default(NaN, NaN) : 'from' must be a finite number > try(seq.int(NaN)) Error in seq.int(NaN) : 'from' must be a finite number > try(seq.int(to = NaN)) Error in seq.int(to = NaN) : 'to' must be a finite number > try(seq.int(NaN, NaN)) Error in seq.int(NaN, NaN) : 'from' must be a finite number > ## R 3.0.1 gave messages from ':' or about negative-length vectors. > > > ## Some dimnames were lost from 1D arrays: PR#15301 > x <- array(0:2, dim=3, dimnames=list(d1=LETTERS[1:3])) > x d1 A B C 0 1 2 > x[] d1 A B C 0 1 2 > x[3:1] d1 C B A 2 1 0 > x <- array(0, dimnames=list(d1="A")) > x d1 A 0 > x[] d1 A 0 > x[drop = FALSE] d1 A 0 > ## lost dimnames in 3.0.1 > > > ## PR#15396 > load(file.path(Sys.getenv('SRCDIR'), 'arima.rda')) > (f1 <- arima(x, xreg = xreg, order = c(1,1,1), seasonal = c(1,0,1))) Call: arima(x = x, order = c(1, 1, 1), seasonal = c(1, 0, 1), xreg = xreg) Coefficients: ar1 ma1 sar1 sma1 xreg -0.4791 0.3525 0.9877 -0.8295 0.3574 s.e. 0.4162 0.4420 0.0329 0.2209 0.7440 sigma^2 estimated as 0.001499: log likelihood = 163.79, aic = -315.58 > (f2 <- arima(diff(x), xreg = diff(xreg), order = c(1,0,1), seasonal = c(1,0,1), + include.mean = FALSE)) Call: arima(x = diff(x), order = c(1, 0, 1), seasonal = c(1, 0, 1), xreg = diff(xreg), include.mean = FALSE) Coefficients: ar1 ma1 sar1 sma1 diff(xreg) -0.4791 0.3526 0.9877 -0.8295 0.3571 s.e. 0.4162 0.4420 0.0329 0.2210 0.7441 sigma^2 estimated as 0.001499: log likelihood = 163.79, aic = -315.58 > stopifnot(all.equal(coef(f1), coef(f2), tolerance = 1e-3, check.names = FALSE)) > ## first gave local optim in 3.0.1 > > ## all.equal always checked the names > x <- c(a=1, b=2) > y <- c(a=1, d=2) > all.equal(x, y, check.names = FALSE) [1] TRUE > ## failed on mismatched attributes > > > ## PR#15411, plus digits change > format(9992, digits = 3) [1] "9992" > format(9996, digits = 3) [1] "9996" > format(0.0002, digits = 0, nsmall = 2) [1] "0.00" > format(pi*10, digits = 0, nsmall = 1) [1] "31.4" > ## second added an extra space; 3rd and 4th were not allowed. > > ## and one branch of this was wrong: > xx <- c(-86870268, 107833358, 302536985, 481015309, 675718935, 854197259, + 1016450281, 1178703303, 1324731023, 1454533441) > xx [1] -86870268 107833358 302536985 481015309 675718935 854197259 [7] 1016450281 1178703303 1324731023 1454533441 > ## dropped spaces without long doubles > > ## and rounding was being detected improperly (PR#15583) > 1000* ((10^(1/4)) ^ c(0:4)) [1] 1000.000 1778.279 3162.278 5623.413 10000.000 > 7/0.07 [1] 100 > ## Spacing was incorrect > > > ## PR#15468 > M <- matrix(11:14, ncol=2, dimnames=list(paste0("Row", 1:2), paste0("Col", + 1:2))) > L <- list(elem1=1, elem2=2) > rbind(M, L) Col1 Col2 Row1 11 13 Row2 12 14 L 1 2 > rbind(L, M) elem1 elem2 L 1 2 Row1 11 13 Row2 12 14 > cbind(M, L) Col1 Col2 L Row1 11 13 1 Row2 12 14 2 > cbind(L, M) L Col1 Col2 elem1 1 11 13 elem2 2 12 14 > ## lost the dim of M, so returned NULL entries > > > ## NA_character_ was not handled properly in min and max (reported by Magnus Thor Torfason) > str(min(NA, "bla")) chr NA > str(min("bla", NA)) chr NA > str(min(NA_character_, "bla")) chr NA > str(max(NA, "bla")) chr NA > str(max("bla", NA)) chr NA > str(max(NA_character_, "bla")) chr NA > ## NA_character_ could be treated as "NA"; depending on the locale, it would not necessarily > ## be the min or max. > > > ## When two entries needed to be cut to width, str() mixed up > ## the values (reported by Gerrit Eichner) > oldopts <- options(width=70, stringsAsFactors=TRUE) > n <- 11 # number of rows of data frame > M <- 10000 # order of magnitude of numerical values > longer.char.string <- "zjtvorkmoydsepnxkabmeondrjaanutjmfxlgzmrbjp" > X <- data.frame( A = 1:n * M, + B = rep( longer.char.string, n)) > str( X, strict.width = "cut") 'data.frame': 11 obs. of 2 variables: $ A: num 1e+04 2e+04 3e+04 4e+04 5e+04 6e+04 7e+04 8e+04 9e+04 1e+.. $ B: Factor w/ 1 level "zjtvorkmoydsepnxkabmeondrjaanutjmfxlgzmrbj".. > options(oldopts) > ## The first row of the str() result was duplicated. > > > ## PR15624: rounding in extreme cases > dpois(2^52,1,1) [1] -1.578226e+17 > dpois(2^52+1,1,1) [1] -1.578226e+17 > ## second warned in R 3.0.2. > > > ## Example from PR15625 > f <- file.path(Sys.getenv('SRCDIR'), 'EmbeddedNuls.csv') > ## This is a file with a UTF-8 BOM and some fields which are a single nul. > ## The output does rely on this being run in a non-UTF-8 locale (C in tests). > read.csv(f) # warns X...ColA ColB ColC 1 a NA NA 2 b NA NA 3 c NA NA 4 d NA NA 5 e NA 1 6 f NA 1 Warning messages: 1: In read.table(file = file, header = header, sep = sep, quote = quote, : line 2 appears to contain embedded nulls 2: In read.table(file = file, header = header, sep = sep, quote = quote, : line 3 appears to contain embedded nulls 3: In read.table(file = file, header = header, sep = sep, quote = quote, : line 4 appears to contain embedded nulls 4: In read.table(file = file, header = header, sep = sep, quote = quote, : line 5 appears to contain embedded nulls 5: In scan(file = file, what = what, sep = sep, quote = quote, dec = dec, : embedded nul(s) found in input > read.csv(f, skipNul = TRUE, fileEncoding = "UTF-8-BOM") ColA ColB ColC 1 a NA 1 2 b NA 1 3 c NA 1 4 d NA 1 5 e NA 1 6 f NA 1 > ## 'skipNul' is new in 3.1.0. Should not warn on BOM, ignore in second. > > > ## all.equal datetime method > x <- Sys.time() > all.equal(x,x) [1] TRUE > all.equal(x, as.POSIXlt(x)) [1] TRUE > all.equal(x, as.POSIXlt(x, tz = "EST5EDT")) [1] TRUE > all.equal(x, x+1e-4) [1] TRUE > isTRUE(all.equal(x, x+0.002)) # message will depend on representation error [1] FALSE > ## as.POSIXt method is new in 3.1.0. > > > > ## Misuse of PR#15633 > try(bartlett.test(yield ~ block*N, data = npk)) Error in bartlett.test.formula(yield ~ block * N, data = npk) : 'formula' should be of the form response ~ group > try(fligner.test (yield ~ block*N, data = npk)) Error in fligner.test.formula(yield ~ block * N, data = npk) : 'formula' should be of the form response ~ group > ## used the first factor with an incorrect description in R < 3.0.3 > > > ## Misguided expectation of PR#15687 > xx <- window(AirPassengers, start = 1960) > cbind(xx, xx) xx xx Jan 1960 417 417 Feb 1960 391 391 Mar 1960 419 419 Apr 1960 461 461 May 1960 472 472 Jun 1960 535 535 Jul 1960 622 622 Aug 1960 606 606 Sep 1960 508 508 Oct 1960 461 461 Nov 1960 390 390 Dec 1960 432 432 > op <- options(digits = 2) > cbind(xx, xx) xx xx Jan 1960 417 417 Feb 1960 391 391 Mar 1960 419 419 Apr 1960 461 461 May 1960 472 472 Jun 1960 535 535 Jul 1960 622 622 Aug 1960 606 606 Sep 1960 508 508 Oct 1960 461 461 Nov 1960 390 390 Dec 1960 432 432 > options(op) > ## 'digits' was applied to the time. > > > ## Related to PR#15190 > difftime( + as.POSIXct(c("1970-01-01 00:00:00", "1970-01-01 12:00:00"), tz="EST5EDT"), + as.POSIXct(c("1970-01-01 00:00:00", "1970-01-01 00:00:00"), tz="UTC")) Time differences in hours [1] 5 17 > ## kept tzone from first arg. > > > ## PR#15706 > x1 <- as.dendrogram(hclust(dist(c(i=1,ii=2,iii=3,v=5,vi=6,vii=7)))) > attr(cophenetic(x1), "Labels") [1] "iii" "i" "ii" "vii" "v" "vi" > ## gave a matrix in 3.0.3 > > > ## PR#15708 > aa <- anova( lm(sr ~ ., data = LifeCycleSavings) ) > op <- options(width = 50) > aa Analysis of Variance Table Response: sr Df Sum Sq Mean Sq F value Pr(>F) pop15 1 204.12 204.118 14.1157 0.0004922 *** pop75 1 53.34 53.343 3.6889 0.0611255 . dpi 1 12.40 12.401 0.8576 0.3593551 ddpi 1 63.05 63.054 4.3605 0.0424711 * Residuals 45 650.71 14.460 --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 > options(width = 40) > aa ; options(op) Analysis of Variance Table Response: sr Df Sum Sq Mean Sq F value pop15 1 204.12 204.118 14.1157 pop75 1 53.34 53.343 3.6889 dpi 1 12.40 12.401 0.8576 ddpi 1 63.05 63.054 4.3605 Residuals 45 650.71 14.460 Pr(>F) pop15 0.0004922 *** pop75 0.0611255 . dpi 0.3593551 ddpi 0.0424711 * Residuals --- Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1 > ## did not line wrap "Signif. codes" previously > > > ## PR#15718 > d <- data.frame(a=1) > d[integer(), "a"] <- 2 > ## warned in 3.0.3. > > > ## PR#15781 > options(foo = 1) > print(options(foo = NULL)) $foo [1] 1 > ## printed wrong value in 3.1.0 > > > ## getParseData bug reported by Andrew Redd > raw <- " + function( a # parameter 1 + , b=2 # parameter 2 + ){a+b}" > p <- parse(text = raw) > getParseData(p) line1 col1 line2 col2 id parent token terminal text 31 2 1 4 15 31 0 expr FALSE 3 2 1 2 8 3 31 FUNCTION TRUE function 4 2 9 2 9 4 31 '(' TRUE ( 5 2 11 2 11 5 31 SYMBOL_FORMALS TRUE a 6 2 15 2 27 6 31 COMMENT TRUE # parameter 1 8 3 10 3 10 8 31 ',' TRUE , 10 3 12 3 12 10 31 SYMBOL_FORMALS TRUE b 11 3 13 3 13 11 31 EQ_FORMALS TRUE = 12 3 14 3 14 12 13 NUM_CONST TRUE 2 13 3 14 3 14 13 31 expr FALSE 14 3 16 3 28 14 31 COMMENT TRUE # parameter 2 16 4 10 4 10 16 31 ')' TRUE ) 28 4 11 4 15 28 31 expr FALSE 18 4 11 4 11 18 28 '{' TRUE { 25 4 12 4 14 25 28 expr FALSE 19 4 12 4 12 19 21 SYMBOL TRUE a 21 4 12 4 12 21 25 expr FALSE 20 4 13 4 13 20 25 '+' TRUE + 22 4 14 4 14 22 24 SYMBOL TRUE b 24 4 14 4 14 24 25 expr FALSE 23 4 15 4 15 23 28 '}' TRUE } > ## Got some parents wrong > > > ## wish of PR#15819 > set.seed(123); x <- runif(10); y <- rnorm(10) > op <- options(OutDec = ",") > fit <- lm(y ~ x) > summary(fit) Call: lm(formula = y ~ x) Residuals: Min 1Q Median 3Q Max -1,62155 -0,33471 0,05238 0,55227 1,19742 Coefficients: Estimate Std. Error t value Pr(>|t|) (Intercept) 0,8994 0,6282 1,432 0,190 x -1,3275 0,9780 -1,357 0,212 Residual standard error: 0,8648 on 8 degrees of freedom Multiple R-squared: 0,1872, Adjusted R-squared: 0,08557 F-statistic: 1,842 on 1 and 8 DF, p-value: 0,2117 > options(op) > ## those parts using formatC still used a decimal point. > > > ## Printing a list with "bad" component names > L <- list(`a\\b` = 1, `a\\c` = 2, `a\bc` = "backspace") > setClass("foo", representation(`\\C` = "numeric")) > ## the next three all print correctly: > names(L) [1] "a\\b" "a\\c" "a\bc" > unlist(L) a\\b a\\c a\bc "1" "2" "backspace" > as.pairlist(L) $`a\\b` [1] 1 $`a\\c` [1] 2 $`a\bc` [1] "backspace" > cat(names(L), "\n")# yes, backspace is backspace here a\b a\c ac > L $`a\\b` [1] 1 $`a\\c` [1] 2 $`a\bc` [1] "backspace" > new("foo") An object of class "foo" Slot "\\C": numeric(0) > ## the last two lines printed wrongly in R <= 3.1.1 > > > ## Printing of arrays where last dim(.) == 0 : > r <- matrix(,0,4, dimnames=list(Row=NULL, Col=paste0("c",1:4))) > r Col Row c1 c2 c3 c4 > t(r) # did not print "Row", "Col" Row Col c1 c2 c3 c4 > A <- array(dim=3:0, dimnames=list(D1=c("a","b","c"), D2=c("X","Y"), D3="I", D4=NULL)) > A ## did not print *anything* <3 x 2 x 1 x 0 array of logical> D2 D1 X Y a b c > A[,,"I",] # ditto <3 x 2 x 0 array of logical> D2 D1 X Y a b c > A[,,0,] # ditto <3 x 2 x 0 x 0 array of logical> D2 D1 X Y a b c > aperm(A, c(3:1,4)) # ditto <1 x 2 x 3 x 0 array of logical> D2 D3 X Y I > aperm(A, c(1:2, 4:3))# ditto <3 x 2 x 0 x 1 array of logical> D2 D1 X Y a b c > unname(A) # ditto <3 x 2 x 1 x 0 array of logical> [,1] [,2] [1,] [2,] [3,] > format(A[,,1,]) # ditto <3 x 2 x 0 array of character> D2 D1 X Y a b c > aperm(A, 4:1) # was ok, is unchanged , , D2 = X, D1 = a D3 D4 I , , D2 = Y, D1 = a D3 D4 I , , D2 = X, D1 = b D3 D4 I , , D2 = Y, D1 = b D3 D4 I , , D2 = X, D1 = c D3 D4 I , , D2 = Y, D1 = c D3 D4 I > ## sometimes not printing anything in R <= 3.1.1 > > > ## Printing objects with very long names cut off literal values (PR#15999) > make_long_name <- function(n) + { + paste0(rep("a", n), collapse = "") + } > setNames(TRUE, make_long_name(1000)) # value printed as TRU aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa TRUE > setNames(TRUE, make_long_name(1002)) # value printed as T aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa TRUE > setNames(TRUE, make_long_name(1003)) # value not printed aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa TRUE > ## > > > ## PR#16437 > dd <- data.frame(F = factor(rep(c("A","B","C"), each = 3)), num = 1:9) > cs <- list(F = contr.sum(3, contrasts = FALSE)) > a1 <- aov(num ~ F, data = dd, contrasts = cs) > model.tables(a1, "means") Tables of means Grand mean 5 F F A B C 2 5 8 > t1 <- TukeyHSD(a1) ## don't print to avoid precision issues. > a2 <- aov(num ~ 0+F, data = dd, contrasts = cs) > model.tables(a2, "means") Tables of means F F A B C 2 5 8 > t2 <- TukeyHSD(a2) > attr(t1, "orig.call") <- attr(t2, "orig.call") > stopifnot(all.equal(t1, t2)) > ## functions both failed on a2 in R <= 3.2.2. > > > ## deparse() did not add parens before [ > substitute(a[1], list(a = quote(x * y))) (x * y)[1] > ## should be (x * y)[1], was x * y[1] > # Check all levels of precedence > # (Comment out illegal ones) > quote(`$`(a :: b, c)) a::b$c > # quote(`::`(a $ b, c $ d)) > quote(`[`(a $ b, c $ d)) a$b[c$d] > quote(`$`(a[b], c)) a[b]$c > quote(`^`(a[b], c[d])) a[b]^c[d] > quote(`[`(a ^ b, c ^ d)) (a^b)[c^d] > quote(`-`(a ^ b)) -a^b > quote(`^`(-b, -d)) (-b)^-d > quote(`:`(-b, -d)) -b:-d > quote(`-`(a : b)) -(a:b) > quote(`%in%`(a : b, c : d)) a:b %in% c:d > quote(`:`(a %in% b, c %in% d)) (a %in% b):(c %in% d) > quote(`*`(a %in% b, c %in% d)) a %in% b * c %in% d > quote(`%in%`(a * b, c * d)) (a * b) %in% (c * d) > quote(`+`(a * b, c * d)) a * b + c * d > quote(`*`(a + b, c + d)) (a + b) * (c + d) > quote(`<`(a + b, c + d)) a + b < c + d > quote(`+`(a < b, c < d)) (a < b) + (c < d) > quote(`!`(a < b)) !a < b > quote(`<`(!b, !d)) (!b) < !d > quote(`&`(!b, !d)) !b & !d > quote(`!`(a & b)) !(a & b) > quote(`|`(a & b, c & d)) a & b | c & d > quote(`&`(a | b, c | d)) (a | b) & (c | d) > quote(`~`(a | b, c | d)) a | b ~ c | d > quote(`|`(a ~ b, c ~ d)) (a ~ b) | (c ~ d) > quote(`->`(a ~ b, d)) `->`(a ~ b, d) > quote(`~`(a -> b, c -> d)) (b <- a) ~ (d <- c) > quote(`<-`(a, c -> d)) a <- d <- c > quote(`->`(a <- b, c)) `->`(a <- b, c) > quote(`=`(a, c <- d)) a = c <- d > quote(`<-`(a, `=`(c, d))) a <- (c = d) > quote(`?`(`=`(a, b), `=`(c, d))) `?`((a = b), (c = d)) > quote(`=`(a, c ? d)) a = `?`(c, d) > quote(`?`(a = b)) `?`(a = b) > quote(`=`(b, ?d)) b = `?`(d) > > ## dput() quoted the empty symbol (PR#16686) > a <- alist(one = 1, two = ) > dput(a) list(one = 1, two = ) > ## deparsed two to quote() > > ## Deparsing of repeated unary operators; the first 3 were "always" ok: > quote(~~x) ~~x > quote(++x) ++x > quote(--x) --x > quote(!!x) # was `!(!x)` !!x > quote(??x) # Suboptimal `?`(`?`(x)) > quote(~+-!?x) # ditto: ....`?`(x) ~+-!`?`(x) > ## `!` no longer produces parentheses now > > > ## summary.data.frame() with NAs in columns of class "Date" -- PR#16709 > x <- c(18000000, 18810924, 19091227, 19027233, 19310526, 19691228, NA) > x.Date <- as.Date(as.character(x), format = "%Y%m%d") > summary(x.Date) Min. 1st Qu. Median Mean 3rd Qu. Max. "1881-09-24" "1902-12-04" "1920-09-10" "1923-04-12" "1941-01-17" "1969-12-28" NA's "3" > DF.Dates <- data.frame(c1 = x.Date) > summary(DF.Dates) ## NA's missing from output : c1 Min. :1881-09-24 1st Qu.:1902-12-04 Median :1920-09-10 Mean :1923-04-12 3rd Qu.:1941-01-17 Max. :1969-12-28 NA's :3 > DF.Dates$x1 <- 1:7 > summary(DF.Dates) ## NA's still missing c1 x1 Min. :1881-09-24 Min. :1.0 1st Qu.:1902-12-04 1st Qu.:2.5 Median :1920-09-10 Median :4.0 Mean :1923-04-12 Mean :4.0 3rd Qu.:1941-01-17 3rd Qu.:5.5 Max. :1969-12-28 Max. :7.0 NA's :3 > DF.Dates$x2 <- c(1:6, NA) > ## now, NA's show fine: > summary(DF.Dates) c1 x1 x2 Min. :1881-09-24 Min. :1.0 Min. :1.00 1st Qu.:1902-12-04 1st Qu.:2.5 1st Qu.:2.25 Median :1920-09-10 Median :4.0 Median :3.50 Mean :1923-04-12 Mean :4.0 Mean :3.50 3rd Qu.:1941-01-17 3rd Qu.:5.5 3rd Qu.:4.75 Max. :1969-12-28 Max. :7.0 Max. :6.00 NA's :3 NA's :1 > ## 2 of 4 summary(.) above did not show NA's in R <= 3.2.3 > > > ## Printing complex matrix > matrix(1i,2,13) [,1] [,2] [,3] [,4] [,5] [,6] [,7] [,8] [,9] [,10] [,11] [,12] [,13] [1,] 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i [2,] 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i 0+1i > ## Spacing was wrong in R <= 3.2.4 > > > E <- expression(poly = x^3 - 3 * x^2) > str(E) expression(poly = x^3 - 3 * x^2) > ## no longer shows "structure(...., .Names = ..)" > > > ## summary() working via table(): > logi <- c(NA, logical(3), NA, !logical(2), NA) > summary(logi) Mode FALSE TRUE NA's logical 3 2 3 > summary(logi[!is.na(logi)]) Mode FALSE TRUE logical 3 2 > summary(TRUE) Mode TRUE logical 1 > ## was always showing counts for NA's even when 0 in 2.8.0 <= R <= 3.3.1 > ii <- as.integer(logi) > summary(ii) Min. 1st Qu. Median Mean 3rd Qu. Max. NA's 0.0 0.0 0.0 0.4 1.0 1.0 3 > summary(ii[!is.na(ii)]) Min. 1st Qu. Median Mean 3rd Qu. Max. 0.0 0.0 0.0 0.4 1.0 1.0 > summary(1L) Min. 1st Qu. Median Mean 3rd Qu. Max. 1 1 1 1 1 1 > > > ## str.default() for "AsIs" arrays > str(I(m <- matrix(pi*1:4, 2))) 'AsIs' num [1:2, 1:2] 3.14 6.28 9.42 12.57 > ## did look ugly (because of toString() for numbers) in R <= 3.3.1 > > > ## check automatic coercions from double to integer > ## > ## these should work due to coercion > sprintf("%d", 1) [1] "1" > sprintf("%d", NA_real_) [1] "NA" > sprintf("%d", c(1,2)) [1] "1" "2" > sprintf("%d", c(1,NA)) [1] "1" "NA" > sprintf("%d", c(NA,1)) [1] "NA" "1" > ## > ## these should fail > sprintf("%d", 1.1) Error in sprintf("%d", 1.1) : invalid format '%d'; use format %f, %e, %g or %a for numeric objects > sprintf("%d", c(1.1,1)) Error in sprintf("%d", c(1.1, 1)) : invalid format '%d'; use format %f, %e, %g or %a for numeric objects > sprintf("%d", c(1,1.1)) Error in sprintf("%d", c(1, 1.1)) : invalid format '%d'; use format %f, %e, %g or %a for numeric objects > sprintf("%d", NaN) Error in sprintf("%d", NaN) : invalid format '%d'; use format %f, %e, %g or %a for numeric objects > sprintf("%d", c(1,NaN)) Error in sprintf("%d", c(1, NaN)) : invalid format '%d'; use format %f, %e, %g or %a for numeric objects > > > ## formatting of named raws: > setNames(as.raw(1:3), c("a", "bbbb", "c")) a bbbb c 01 02 03 > ## was quite ugly for R <= 3.4.2 > > > ## str(x) when is.vector(x) is false : > str(structure(c(a = 1, b = 2:7), color = "blue")) Named num [1:7] 1 2 3 4 5 6 7 - attr(*, "names")= chr [1:7] "a" "b1" "b2" "b3" ... - attr(*, "color")= chr "blue" > ## did print " atomic [1:7] ..." in R <= 3.4.x > > > ## check stopifnot(exprs = ....) > tryCatch(stopifnot(exprs = { + all.equal(pi, 3.1415927) + 2 < 2 + cat("Kilroy was here!\n") + all(1:10 < 12) + "a" < "b" + }), error = function(e) e$message) -> M ; cat("Error: ", M, "\n") Error: 2 < 2 is not TRUE > > tryCatch(stopifnot(exprs = { + all.equal(pi, 3.1415927) + { cat("Kilroy was here!\n"); TRUE } + pi < 3 + cat("whereas I won't be printed ...\n") + all(1:10 < 12) + "a" < "b" + }), error = function(e) e$message) -> M2 ; cat("Error: ", M2, "\n") Kilroy was here! Error: pi < 3 is not TRUE > > stopifnot(exprs = { + all.equal(pi, 3.1415927) + { cat("\nKilroy was here! ... "); TRUE } + pi > 3 + all(1:10 < 12) + "a" < "b" + { cat("and I'm printed as well ...\n"); TRUE} + }) Kilroy was here! ... and I'm printed as well ... > ## without "{ .. }" : > stopifnot(exprs = 2 == 2) > try(stopifnot(exprs = 1 > 2)) Error in try(stopifnot(exprs = 1 > 2)) : 1 > 2 is not TRUE > ## passing an expression object: > stopifnot(exprs = expression(2 == 2, pi < 4)) > tryCatch(stopifnot(exprs = expression( + 2 == 2, + { cat("\n Kilroy again .."); TRUE }, + pi < 4, + 0 == 1, + { cat("\n no way..\n"); TRUE })), + error = function(e) e$message) -> M3 Kilroy again ..> cat("Error: ", M3, "\n") Error: 0 == 1 is not TRUE > ## was partly not ok for many weeks in R-devel, early 2018 > >