CRAN Package Check Results for Package cobs

Last updated on 2024-12-22 11:49:15 CET.

Flavor Version Tinstall Tcheck Ttotal Status Flags
r-devel-linux-x86_64-debian-clang 1.3-8 11.36 120.55 131.91 ERROR
r-devel-linux-x86_64-debian-gcc 1.3-9 7.21 87.89 95.10 OK
r-devel-linux-x86_64-fedora-clang 1.3-9 214.30 OK
r-devel-linux-x86_64-fedora-gcc 1.3-9 205.73 OK
r-devel-windows-x86_64 1.3-9 13.00 134.00 147.00 OK
r-patched-linux-x86_64 1.3-9 10.82 116.60 127.42 OK
r-release-linux-x86_64 1.3-9 10.15 115.28 125.43 OK
r-release-macos-arm64 1.3-9 65.00 OK
r-release-macos-x86_64 1.3-9 180.00 OK
r-release-windows-x86_64 1.3-9 14.00 130.00 144.00 OK
r-oldrel-macos-arm64 1.3-9 62.00 OK
r-oldrel-macos-x86_64 1.3-9 164.00 OK
r-oldrel-windows-x86_64 1.3-9 16.00 174.00 190.00 OK

Additional issues

M1mac

Check Details

Version: 1.3-8
Check: tests
Result: ERROR Running ‘0_pt-ex.R’ [3s/3s] Running ‘ex1.R’ [7s/9s] Running ‘ex2-long.R’ [7s/9s] Running ‘ex3.R’ [2s/3s] Comparing ‘ex3.Rout’ to ‘ex3.Rout.save’ ...15,16c15,16 < Warning messages: < 1: In cobs(weight, height, knots = weight, nknots = length(weight)) : --- > Warning message: > In cobs(weight, height, knots = weight, nknots = length(weight)) : 19,20d18 < 2: In cobs(weight, height, knots = weight, nknots = length(weight)) : < drqssbc2(): Not all flags are normal (== 1), ifl : 18 Running ‘multi-constr.R’ [4s/5s] Running ‘roof.R’ [4s/5s] Comparing ‘roof.Rout’ to ‘roof.Rout.save’ ... OK Running ‘small-ex.R’ [3s/3s] Comparing ‘small-ex.Rout’ to ‘small-ex.Rout.save’ ...24,25d23 < Warning message: < In cobs(x, y) : drqssbc2(): Not all flags are normal (== 1), ifl : 18 Running ‘spline-ex.R’ [2s/3s] Comparing ‘spline-ex.Rout’ to ‘spline-ex.Rout.save’ ... OK Running ‘temp.R’ [3s/4s] Comparing ‘temp.Rout’ to ‘temp.Rout.save’ ...445,446d444 < Warning in cobs(year, temp, knots.add = TRUE, degree = 1, constraint = "none", : < The algorithm has not converged after 100 iterations 456,457d453 < Warning in cobs(year, temp, nknots = 9, knots.add = TRUE, degree = 1, constraint = "none", : < The algorithm has not converged after 100 iterations 463,464c459,460 < coef[1:5]: -0.39324840, -0.28115087, 0.05916295, -0.07465159, 0.31227753 < R^2 = 73.22% ; empirical tau (over all): 63/113 = 0.5575221 (target tau= 0.5) --- > coef[1:5]: -0.40655906, -0.31473700, 0.05651823, -0.05681818, 0.28681956 > R^2 = 72.56% ; empirical tau (over all): 54/113 = 0.4778761 (target tau= 0.5) 470,473d465 < < **** ERROR in algorithm: ifl = 18 < < 476,478d467 < Warning message: < In cobs(year, temp, nknots = length(a50$knots), knots = a50$knot, : < drqssbc2(): Not all flags are normal (== 1), ifl : 18 481,482d469 < Warning in cobs(year, temp, nknots = length(a50$knots), knots = a50$knot, : < The algorithm has not converged after 100 iterations 488,490c475 < [1] 1 2 9 10 17 18 20 21 22 23 26 27 35 36 42 47 48 49 52 < [20] 53 58 59 61 62 63 64 65 68 73 74 78 79 80 81 82 83 84 88 < [39] 90 91 94 98 100 101 102 104 108 109 111 112 --- > [1] 10 18 21 22 47 61 68 74 78 79 102 111 492,495c477 < [1] 3 4 5 6 7 8 11 12 13 14 15 16 19 24 25 28 29 30 31 < [20] 32 33 34 37 38 39 40 41 43 44 45 46 50 51 54 55 56 57 60 < [39] 66 67 69 70 71 72 75 76 77 85 86 87 89 92 93 95 96 97 99 < [58] 103 105 106 107 110 113 --- > [1] 5 8 25 38 39 50 54 77 85 97 113 Running ‘wind.R’ [8s/10s] Running the tests in ‘tests/multi-constr.R’ failed. Complete output: > #### Examples which use the new feature of more than one 'constraint'. > > suppressMessages(library(cobs)) > > ## do *not* show platform info here (as have *.Rout.save), but in 0_pt-ex.R > options(digits = 6) > > if(!dev.interactive(orNone=TRUE)) pdf("multi-constr.pdf") > > source(system.file("util.R", package = "cobs")) > source(system.file(package="Matrix", "test-tools-1.R", mustWork=TRUE)) Loading required package: tools > ##--> tryCatch.W.E(), showProc.time(), assertError(), relErrV(), ... > Lnx <- Sys.info()[["sysname"]] == "Linux" > isMac <- Sys.info()[["sysname"]] == "Darwin" > x86 <- (arch <- Sys.info()[["machine"]]) == "x86_64" > noLdbl <- (.Machine$sizeof.longdouble <= 8) ## TRUE when --disable-long-double > ## IGNORE_RDIFF_BEGIN > Sys.info() sysname "Linux" release "6.11.10-amd64" version "#1 SMP PREEMPT_DYNAMIC Debian 6.11.10-1 (2024-11-23)" nodename "gimli2" machine "x86_64" login "hornik" user "hornik" effective_user "hornik" > noLdbl [1] FALSE > ## IGNORE_RDIFF_END > > > Rsq <- function(obj) { + stopifnot(inherits(obj, "cobs"), is.numeric(res <- obj$resid)) + 1 - sum(res^2)/obj$SSy + } > list_ <- function (...) `names<-`(list(...), vapply(sys.call()[-1L], as.character, "")) > is.cobs <- function(x) inherits(x, "cobs") > > set.seed(908) > x <- seq(-1,2, len = 50) > f.true <- pnorm(2*x) > y <- f.true + rnorm(50)/10 > plot(x,y); lines(x, f.true, col="gray", lwd=2, lty=3) > > ## constraint on derivative at right end: > (con <- rbind(c(2 , max(x), 0))) # f'(x_n) == 0 [,1] [,2] [,3] [1,] 2 2 0 > > ## Using 'trace = 3' --> 'trace = 2' inside drqssbc2() > > ## Regression splines (lambda = 0) > c2 <- cobs(x,y, trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Warning message: In cobs(x, y, trace = 3) : drqssbc2(): Not all flags are normal (== 1), ifl : 18 > c2i <- cobs(x,y, constraint = c("increase"), trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 2 x 3 (nz = 6 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 3 x 4 (nz = 9 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 4 x 5 (nz = 12 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) Xieq 5 x 6 (nz = 15 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Xieq 6 x 7 (nz = 18 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 4 x 5 (nz = 12 =^= 0.6%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 4 x 5 (nz = 12 =^= 0.6%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 4 x 5 (nz = 12 =^= 0.6%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 3 x 4 (nz = 9 =^= 0.75%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 3 x 4 (nz = 9 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 4 x 5 (nz = 12 =^= 0.6%) > c2c <- cobs(x,y, constraint = c("concave"), trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 1 x 3 (nz = 3 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 2 x 4 (nz = 6 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 3 x 5 (nz = 9 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) Xieq 4 x 6 (nz = 12 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Xieq 5 x 7 (nz = 15 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 1 x 3 (nz = 3 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 2 x 4 (nz = 6 =^= 0.75%) > > c2IC <- cobs(x,y, constraint = c("inc", "concave"), trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 3 x 3 (nz = 9 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 5 x 4 (nz = 15 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 7 x 5 (nz = 21 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) Xieq 9 x 6 (nz = 27 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Xieq 11 x 7 (nz = 33 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 3 x 3 (nz = 9 =^= 1%) > ## here, it's the same as just "i": > all.equal(fitted(c2i), fitted(c2IC)) [1] "Mean relative difference: 0.0808156" > > c1 <- cobs(x,y, degree = 1, trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Warning in cobs(x, y, degree = 1, trace = 3) : The algorithm has not converged after 100 iterations > c1i <- cobs(x,y, degree = 1, constraint = c("increase"), trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 1 x 2 (nz = 2 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 2 x 3 (nz = 4 =^= 0.67%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 3 x 4 (nz = 6 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 4 x 5 (nz = 8 =^= 0.4%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 5 x 6 (nz = 10 =^= 0.33%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 3 x 4 (nz = 6 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 3 x 4 (nz = 6 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 3 x 4 (nz = 6 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 4 x 5 (nz = 8 =^= 0.4%) > c1c <- cobs(x,y, degree = 1, constraint = c("concave"), trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 1 x 3 (nz = 3 =^= 1%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 2 x 4 (nz = 6 =^= 0.75%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 3 x 5 (nz = 9 =^= 0.6%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 4 x 6 (nz = 12 =^= 0.5%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 1 x 3 (nz = 3 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 1 x 3 (nz = 3 =^= 1%) l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 1 x 3 (nz = 3 =^= 1%) > > plot(c1) > lines(predict(c1i), col="forest green") > all.equal(fitted(c1), fitted(c1i), tol = 1e-9)# but not 1e-10 [1] "Mean relative difference: 0.0215671" > > ## now gives warning (not error): > c1IC <- cobs(x,y, degree = 1, constraint = c("inc", "concave"), trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 1 x 2 (nz = 2 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 5 x 4 (nz = 12 =^= 0.6%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 7 x 5 (nz = 17 =^= 0.49%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 9 x 6 (nz = 22 =^= 0.41%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 1 x 2 (nz = 2 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) Warning messages: 1: In l1.design2(x, w, constraint, ptConstr, knots, pw, nrq = n, nl1, : too few knots ==> nk <= 4; could not add constraint 'concave' 2: In l1.design2(x, w, constraint, ptConstr, knots, pw, nrq = n, nl1, : too few knots ==> nk <= 4; could not add constraint 'concave' > > cp2 <- cobs(x,y, pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 2 x 3 (nz = 6 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 2 x 4 (nz = 6 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 2 x 5 (nz = 6 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) Xieq 2 x 6 (nz = 6 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Xieq 2 x 7 (nz = 6 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 2 x 4 (nz = 6 =^= 0.75%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 2 x 4 (nz = 6 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 2 x 5 (nz = 6 =^= 0.6%) > > ## Here, warning ".. 'ifl'.. " on *some* platforms (e.g. Windows 32bit) : > r2i <- tryCatch.W.E( cobs(x,y, constraint = "increase", pointwise = con) ) qbsks2(): Performing general knot selection ... Deleting unnecessary knots ... > cp2i <- r2i$value > ## IGNORE_RDIFF_BEGIN > r2i$warning NULL > ## IGNORE_RDIFF_END > ## when plotting it, we see that it gave a trivial constant!! > cp2c <- cobs(x,y, constraint = "concave", pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 3 x 3 (nz = 9 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 4 x 4 (nz = 12 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 5 x 5 (nz = 15 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) Xieq 6 x 6 (nz = 18 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Xieq 7 x 7 (nz = 21 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 3 x 3 (nz = 9 =^= 1%) > > ## now gives warning (not error): but no warning on M1 mac -> IGNORE > ## IGNORE_RDIFF_BEGIN > cp2IC <- cobs(x,y, constraint = c("inc", "concave"), pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 5 x 3 (nz = 15 =^= 1%) loo.design2(): -> Xeq 50 x 4 (nz = 150 =^= 0.75%) Xieq 7 x 4 (nz = 21 =^= 0.75%) loo.design2(): -> Xeq 50 x 5 (nz = 150 =^= 0.6%) Xieq 9 x 5 (nz = 27 =^= 0.6%) loo.design2(): -> Xeq 50 x 6 (nz = 150 =^= 0.5%) Xieq 11 x 6 (nz = 33 =^= 0.5%) loo.design2(): -> Xeq 50 x 7 (nz = 150 =^= 0.43%) Xieq 13 x 7 (nz = 39 =^= 0.43%) Deleting unnecessary knots ... loo.design2(): -> Xeq 50 x 3 (nz = 150 =^= 1%) Xieq 5 x 3 (nz = 15 =^= 1%) Warning message: In cobs(x, y, constraint = c("inc", "concave"), pointwise = con, : drqssbc2(): Not all flags are normal (== 1), ifl : 18 > ## IGNORE_RDIFF_END > cp1 <- cobs(x,y, degree = 1, pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 2 x 2 (nz = 4 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 2 x 3 (nz = 4 =^= 0.67%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 2 x 4 (nz = 4 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 2 x 5 (nz = 4 =^= 0.4%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 2 x 6 (nz = 4 =^= 0.33%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 2 x 4 (nz = 4 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 2 x 4 (nz = 4 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 2 x 4 (nz = 4 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 2 x 5 (nz = 4 =^= 0.4%) > cp1i <- cobs(x,y, degree = 1, constraint = "increase", pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 3 x 2 (nz = 6 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 4 x 3 (nz = 8 =^= 0.67%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 5 x 4 (nz = 10 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 6 x 5 (nz = 12 =^= 0.4%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 7 x 6 (nz = 14 =^= 0.33%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 5 x 4 (nz = 10 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 5 x 4 (nz = 10 =^= 0.5%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 5 x 4 (nz = 10 =^= 0.5%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 6 x 5 (nz = 12 =^= 0.4%) > cp1c <- cobs(x,y, degree = 1, constraint = "concave", pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 2 x 2 (nz = 4 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 4 x 4 (nz = 10 =^= 0.62%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 5 x 5 (nz = 13 =^= 0.52%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 6 x 6 (nz = 16 =^= 0.44%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 2 x 2 (nz = 4 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 3 x 3 (nz = 7 =^= 0.78%) > > cp1IC <- cobs(x,y, degree = 1, constraint = c("inc", "concave"), pointwise = con, trace = 3) qbsks2(): Performing general knot selection ... l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 3 x 2 (nz = 6 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 5 x 3 (nz = 11 =^= 0.73%) l1.design2(): -> Xeq 50 x 4 (nz = 100 =^= 0.5%) Xieq 7 x 4 (nz = 16 =^= 0.57%) l1.design2(): -> Xeq 50 x 5 (nz = 100 =^= 0.4%) Xieq 9 x 5 (nz = 21 =^= 0.47%) l1.design2(): -> Xeq 50 x 6 (nz = 100 =^= 0.33%) Xieq 11 x 6 (nz = 26 =^= 0.39%) Deleting unnecessary knots ... l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 5 x 3 (nz = 11 =^= 0.73%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 5 x 3 (nz = 11 =^= 0.73%) l1.design2(): -> Xeq 50 x 2 (nz = 100 =^= 1%) Xieq 3 x 2 (nz = 6 =^= 1%) l1.design2(): -> Xeq 50 x 3 (nz = 100 =^= 0.67%) Xieq 5 x 3 (nz = 11 =^= 0.73%) Warning messages: 1: In l1.design2(x, w, constraint, ptConstr, knots, pw, nrq = n, nl1, : too few knots ==> nk <= 4; could not add constraint 'concave' 2: In l1.design2(x, w, constraint, ptConstr, knots, pw, nrq = n, nl1, : too few knots ==> nk <= 4; could not add constraint 'concave' > > ## Named list of all cobs() results above -- sort() collation order matters for ls() ! > (curLC <- Sys.getlocale("LC_COLLATE")) [1] "C" > Sys.setlocale("LC_COLLATE", "C") [1] "C" > cobsL <- mget(Filter(\(nm) is.cobs(.GlobalEnv[[nm]]), ls(patt="c[12p]")), + envir = .GlobalEnv) > Sys.setlocale("LC_COLLATE", curLC) # reverting [1] "C" > > knL <- lapply(cobsL, `[[`, "knots") > str(knL[order(lengths(knL))]) List of 16 $ c2IC : num [1:2] -1 2 $ cp2IC: num [1:2] -1 2 $ cp2c : num [1:2] -1 2 $ c1IC : num [1:3] -1 0.776 2 $ c1c : num [1:3] -1 0.776 2 $ c2 : num [1:3] -1 -0.449 2 $ c2c : num [1:3] -1 0.163 2 $ cp1IC: num [1:3] -1 0.776 2 $ cp1c : num [1:3] -1 0.776 2 $ c2i : num [1:4] -1 0.163 0.776 2 $ cp2 : num [1:4] -1 -0.449 0.776 2 $ cp2i : num [1:4] -1 0.163 0.776 2 $ c1 : num [1:5] -1 -0.449 0.163 0.776 2 $ c1i : num [1:5] -1 -0.449 0.163 0.776 2 $ cp1 : num [1:5] -1 -0.449 0.163 0.776 2 $ cp1i : num [1:5] -1 -0.449 0.163 0.776 2 > > gotRsqrs <- sapply(cobsL, Rsq) > Rsqrs <- c(c1 = 0.95079126, c1IC = 0.92974549, c1c = 0.92974549, c1i = 0.95079126, + c2 = 0.94637437, c2IC = 0.91375404, c2c = 0.92505977, c2i = 0.95022829, + cp1 = 0.9426453, cp1IC = 0.92223149, cp1c = 0.92223149, cp1i = 0.9426453, + cp2 = 0.94988863, cp2IC= 0.90051964, cp2c = 0.91375409, cp2i = 0.93611487) > ## M1 mac " = " , cp2IC= 0.91704726, " = " , cp2i = 0.94620178 > ## noLD " = " , cp2IC=-0.08244284, " = " , cp2i = 0.94636815 > ## ATLAS " = " , cp2IC= 0.91471729, " = " , cp2i = 0.94506339 > ## openBLAS " = " , cp2IC= 0.91738019, " = " , cp2i = 0.93589404 > ## MKL " = " , cp2IC= 0.91765403, " = " , cp2i = 0.94501205 > ## Intel " = " , cp2IC= 0.91765403, " = " , cp2i = 0.94501205 > ## ^^^^^^^^^^ ^^^^^^^^^^ > ## remove these two from testing, notably for the M1 Mac & noLD .. : > ##iR2 <- if(!x86 || noLdbl) setdiff(names(cobsL), c("cp2IC", "cp2i")) else TRUE > ## actually everywhere, because of ATLAS, openBLAS, MKL, Intel... : > iR2 <- setdiff(names(cobsL), nR2 <- c("cp2IC", "cp2i")) > ## IGNORE_RDIFF_BEGIN > dput(signif(gotRsqrs, digits=8)) c(c1 = 0.95341697, c1IC = 0.92974549, c1c = 0.92974549, c1i = 0.95079126, c2 = 0.94864721, c2IC = 0.91375404, c2c = 0.92505977, c2i = 0.95022829, cp1 = 0.9426453, cp1IC = 0.92223149, cp1c = 0.92223149, cp1i = 0.9426453, cp2 = 0.94988863, cp2IC = 0.90051964, cp2c = 0.91375409, cp2i = 0.93611487 ) > all.equal(Rsqrs[iR2], gotRsqrs[iR2], tolerance=0)# 2.6277e-9 (Lnx F 38); 2.6898e-9 (M1 mac) [1] "Mean relative difference: 0.000374227" > all.equal(Rsqrs[nR2], gotRsqrs[nR2], tolerance=0)# differ; drastically only for 'noLD' [1] "Mean relative difference: 2.18514e-09" > ## IGNORE_RDIFF_END > stopifnot(exprs = { + all.equal(Rsqrs[iR2], gotRsqrs[iR2]) + identical(c(5L, 3L, 3L, 5L, + 3L, 2L, 3L, 4L, + 5L, 3L, 3L, 5L, + 4L, 2L, 2L, 4L), unname(lengths(knL))) + }) Error: Rsqrs[iR2] and gotRsqrs[iR2] are not equal: Mean relative difference: 0.000374227 Execution halted Flavor: r-devel-linux-x86_64-debian-clang

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