## Copyright (C) 2009--2011 Marius Hofert and Martin Maechler ## ## This program is free software; you can redistribute it and/or modify it under ## the terms of the GNU General Public License as published by the Free Software ## Foundation; either version 3 of the License, or (at your option) any later ## version. ## ## This program is distributed in the hope that it will be useful, but WITHOUT ## ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS ## FOR A PARTICULAR PURPOSE. See the GNU General Public License for more ## details. ## ## You should have received a copy of the GNU General Public License along with ## this program; if not, see . require(nacopula) if(!dev.interactive(orNone=TRUE)) pdf("copula-play.pdf") ### testing psi myCop <- setTheta(copAMH, value = 0.5) # is maybe more natural setGeneric("psi", function(cop) standardGeneric("psi")) setMethod(psi, "acopula", function(cop) { function(t) cop@psi(t, theta = cop@theta) }) psi(myCop) # is a function psi(myCop)(0:4) curve(psi(myCop)(x), 0, 4) ##' but this can also be done directly [ => same curve "on top" :] curve(myCop@psi(x, theta = myCop@theta), 0, 4, col = 2, add = TRUE) ### testing Kendall's tau p.Tau <- function(cop, n = 201, xlim = pmin(paraI, 50), ...) { stopifnot(is(cop, "acopula")) paraI <- cop@paraInterval theta <- seq(xlim[1], xlim[2], length.out = n) tit <- substitute(tau[NAME](theta), list(NAME = cop@name)) plot(theta, cop@tau(theta), type = "l", main = tit, ...) abline(h = c(0,1), lty = 3, col = "gray20") } p.Tau(copAMH) p.Tau(copClayton) p.Tau(copFrank, xlim = c(0, 80), ylim= 0:1) # fast via debye_1() p.Tau(copGumbel) p.Tau(copJoe, ylim = 0:1, yaxs="i") ### test function ############################################################## ##' @title stopifnot() plus output ##' @param expr ##' @param prefix ##' @param true ##' @return ##' @author Martin Maechler checkifnot <- function(expr, prefix = "check if", true = "[Ok]") { c0 <- function(...) cat(..., sep = "") ## match.call(): not "calling" expr too early: c0(prefix, deparse(match.call()[[2]])[1],": ") stopifnot(expr) c0(true,"\n") } ##' @title Perform a set of checks on a copula object (with theta set) ##' @param cop acopula ##' @param theta1 parameter theta1 ##' @param thetavec vector of parameters ##' @param i10 values where psi is evaluated ##' @param nRnd number of generated V0's and V01's ##' @param u01 values where psiinv is evaluated ##' @param lambdaLvec vector of lower tail-dependence coefficients ##' @param lambdaUvec vector of upper tail-dependence coefficients ##' @return list of measurements ##' @author Marius Hofert, Martin Maechler tstCop <- function(cop, theta1 = cop@theta, thetavec = cop@theta, i10 = 1:10, nRnd = 50, u01 = (1:63)/64, # exact binary fractions lambdaLvec = NA_real_, lambdaUvec = NA_real_) { stopifnot(is(cop, "acopula")) cat0 <- function(...) cat(..., "\n", sep = "") theta0 <- cop@theta CT <- list() ### (1) cop name cat0(sprintf("(1) copula family: %10s, theta0 = %g", cop@name, theta0)) ### (2) generator ### (2.1) psi and psiInv cat("\n(2) values of psi at i10:\n") CT <- c(CT, list(psi = system.time(p.i <- cop@psi(i10,theta = theta0)))) print(p.i) checkifnot(identical(numeric(0), cop@psiInv(numeric(0), theta = theta0))) checkifnot(cop@psiInv(0, theta = theta0) == Inf) cat0("\nvalues of psiInv at u01:") CT <- c(CT, list(psiI = system.time(pi.t <- cop@psiInv(u01, theta = theta0)))) print(pi.t) CT[["psiI"]] <- CT[["psiI"]] + system.time(pi.pi <- cop@psiInv(p.i,theta = theta0)) CT[["psi" ]] <- CT[["psi" ]] + system.time(p.pit <- cop@psi(pi.t, theta = theta0)) cat0("check if psiInv(psi(i10))==i10: ", all.equal(pi.pi, i10)) cat0("check if psi(psiInv(u01))==u01: ", all.equal(p.pit, u01)) ### (2.2) psiDabs ## psiDabs with degree = 10 cat0("\nvalues of psiDabs with degree=10 at i10:") CT <- c(CT, list(psiDabs = system.time(p.D <- cop@psiDabs(i10,theta = theta0, degree = 10)))) print(p.D) cat0("check if all values are nonnegative") stopifnot(is.vector(p.D), all(p.D >= 0)) cat("check psiDabs(Inf,theta,degree=10) = 0 and the class of psiDabs(0,theta,degree=10): ") at.0 <- cop@psiDabs(0, theta = theta0, degree = 10) stopifnot(cop@psiDabs(Inf, theta = theta0, degree = 10) == 0, is.numeric(at.0), !is.nan(at.0)) cat0("[Ok]") ## psiDabs with degree = 10 and MC cat("\nvalues of psiDabs with degree=10 and MC at i10:\n") CT <- c(CT, list(psiDabs = system.time(p.D <- cop@psiDabs(i10,theta = theta0, degree = 10, n.MC = 1000)))) print(p.D) cat0("check if all values are nonnegative") stopifnot(all(p.D >= 0)) cat("check psiDabs(Inf,theta,degree=10,n.MC=1000) = 0 and the class of psiDabs(0,theta,degree=10,n.MC=1000): ") at.0 <- cop@psiDabs(0, theta = theta0, degree = 10, n.MC = 1000) stopifnot(cop@psiDabs(Inf, theta = theta0, degree = 10, n.MC = 1000)==0, is.numeric(at.0), !is.nan(at.0)) cat0("[Ok]") ### (2.3) psiInvD1abs cat0("\nvalues of psiInvD1abs at u01:") CT <- c(CT, list(psiInvD1abs. = system.time(psiInvD1abs. <- cop@psiInvD1abs(u01, theta = theta0)))) print(psiInvD1abs.) stopifnot(all(psiInvD1abs. >= 0, is.numeric(psiInvD1abs.), !is.nan(psiInvD1abs.))) cat("check the class of psiInvD1abs(0,theta): ") at.0 <- cop@psiInvD1abs(0, theta = theta0) stopifnot(is.numeric(at.0),!is.nan(at.0)) cat0("[Ok]") ### (3) parameter interval cat("\n(3) parameter interval:\n") print(cop@paraInterval) cat0("theta1=",theta1) cat0("nesting condition for theta0 and theta1 fulfilled: ", cop@nestConstr(theta0,theta1)) ### (4) V0, dV0, V01, dV01 ## V0 CT <- c(CT, list(V0 = system.time(V0 <- cop@V0(nRnd,theta0)))) cat0("\n(4) ",nRnd," generated V0's:") print(summary(V0)) ## dV0 cat("\nvalues of dV0 at i10:\n") CT <- c(CT, list(dV0 = system.time(dV0.i <- cop@dV0(i10,theta0)))) print(dV0.i) ## V01 CT <- c(CT, list(V01 = system.time(V01 <- cop@V01(V0,theta0,theta1)))) cat0("\n",nRnd," generated V01's:") print(summary(V01)) nt <- length(thetavec) ## dV01 cat("\nvalues of dV01 at i10:\n") CT <- c(CT, list(dV01 = system.time(dV01.i <- cop@dV01(i10,V0=1,theta0=theta0, theta1=theta1)))) print(dV01.i) ### (5) cacopula cat("\n(5) values of cacopula(cbind(v,rev(v)), cop) for v=u01:\n") cop. <- onacopulaL(cop@name, list(theta0, 1:2)) CT <- c(CT, list(cacopula. = system.time(cac <- cacopula(cbind(u01,rev(u01)), cop=cop.)))) stopifnot(is.vector(cac), length(cac) == length(u01), 0 <= cac, cac <= 1) print(cac) ### (6) dnacopula (log = TRUE) u <- matrix(runif(400),ncol=20) ocop.2d <- onacopulaL(cop@name,list(theta0,1:2)) ocop.20d <- onacopulaL(cop@name,list(theta0,1:20)) ## d = 2 cat("\n(6) check dnacopula with log = TRUE for u being a random (20x2)-matrix:\n") CT <- c(CT, list(dnacopula. = system.time(lD <- dnacopula(ocop.2d, u[,1:2], log = TRUE)))) print(lD); stopifnot(is.numeric(lD), is.finite(lD)); cat0("[Ok]") cat("check at (0,0.5) and (1,0.5):\n") stopifnot(is.nan(dnacopula(ocop.2d, c(0,0.5), log = FALSE)), is.nan(dnacopula(ocop.2d, c(0,0.5), log = TRUE)), is.nan(dnacopula(ocop.2d, c(1,0.5), log = FALSE)), is.nan(dnacopula(ocop.2d, c(1,0.5), log = TRUE))) cat0("[Ok]") ## d = 20, n.MC = 0 cat("\n check dnacopula with log = TRUE for u being a random (20x20)-matrix:\n") CT <- c(CT, list(dnacopula. = system.time(lD. <- dnacopula(ocop.20d, u, log = TRUE)))) print(lD.); stopifnot(is.numeric(lD.), is.finite(lD.)); cat0("[Ok]") ## d = 20, n.MC > 0 cat("\n check dnacopula with log = TRUE and MC for u being a random (20x20)-matrix:\n") CT <- c(CT, list(dnacopula. = system.time(lD.. <- dnacopula(ocop.20d, u, n.MC = 1000, log = TRUE)))) print(lD..); stopifnot(is.numeric(lD..), is.finite(lD..)); cat0("[Ok]") ## d = 20, check if n.MC > 0 is close to n.MC = 0 stopifnot(all.equal(lD., lD.., tolerance=0.5)) ### (7) K check.K.u01 <- function(K){ d.K <- diff(K) if(any(neg <- d.K < 0)){ # happens for AMH, Clayton, and Frank (near 1) if(any(Neg <- abs(d.K[neg]) > 1e-15* abs(K[-1][neg]))) { warning("K(.) is 'substantially' non-monotone for K() / diff(K) =", immediate.=TRUE) print(cbind(K = K[-1][Neg], diff.K = d.K[Neg])) } } stopifnot(is.numeric(K), length(K) == length(u01), 0 <= K, K <= 1) } ## K for d = 2 cat("\n(7) values of K for d = 2 at u01:\n") CT <- c(CT, list(K = system.time(K. <- K(u01, cop, d = 2)))) check.K.u01( print(K.) ) cat("check if K(0) = 0 and K(1) = 1: ") stopifnot(K(0, cop, d = 2)==0, K(1, cop, d = 2)==1) cat0("[Ok]") ## K for d = 10 cat("\nvalues of K for d = 10 at u01:\n") CT <- c(CT, list(K = system.time(K. <- K(u01, cop, d = 10)))) check.K.u01( print(K.) ) cat("check if K(0) = 0 and K(1) = 1: ") stopifnot(K(0, cop, d = 10)==0, K(1, cop, d = 10)==1) cat0("[Ok]") ## K for d = 10 and MC cat("\nvalues of K for d = 10 and MC at u01:\n") CT <- c(CT, list(K = system.time(K. <- K(u01, cop, d = 10, n.MC = 1000)))) check.K.u01( print(K.) ) cat("check if K(0)=0 and K(1)=1: ") stopifnot(K(0, cop, d = 10, n.MC = 1000)==0, K(1, cop, d = 10, n.MC = 1000)==1) cat0("[Ok]") ### (8) tau, tauInv cat("\n(8) tau at thetavec:\n") CT <- c(CT, list(tau = system.time(ta <- cop@tau(thetavec)))) print(ta) CT <- c(CT, list(tauI = system.time(ta.I <- cop@tauInv(ta)))) cat0("check if tauInv(tau(thetavec))==thetavec: ", all.equal(ta.I, thetavec)) lambdaLvec <- rep(as.double(lambdaLvec), length.out= nt) lambdaUvec <- rep(as.double(lambdaUvec), length.out= nt) ### (9) lambdaL, lambdaLInv cat("\n(9) lambdaL at thetavec:\n") CT <- c(CT, list(lambdaL = system.time(lT <- cop@lambdaL(thetavec)))) CT <- c(CT, list(lT.I = system.time(lT.I <- cop@lambdaLInv(lT)))) print(lT) cat0("check if lambdaLInv(lambdaL(thetavec))==lambdaLvec: ", all.equal(lT.I, lambdaLvec)) ### (10) lambdaU, lambdaUInv cat("\n(10) lambdaU at thetavec:\n") CT <- c(CT, list(lambdaU = system.time(uT <- cop@lambdaU(thetavec)))) CT <- c(CT, list(uT.I = system.time(uT.I <- cop@lambdaUInv(uT)))) print(uT) cat0("check if lambdaUInv(lambdaU(thetavec))==lambdaUvec: ", all.equal(uT.I, lambdaUvec)) class(CT) <- "proc_time_list" CT ### (11) dDiag cat("\n(11) dDiag at u01 for d=10:\n") CT <- c(CT, list(dDiag = system.time(dDiag. <- cop@dDiag(u01, theta=theta0, d=10)))) print(dDiag.) stopifnot(is.numeric(dDiag.), all(dDiag. > 0)) cat0("[Ok]") } ##' print() method for the tstCop() results print.proc_time_list <- function (x, ...) { stopifnot(is.list(x), !is.null(nx <- names(x))) cat("proc.time()s: user system elapsed\n") ## 2 4 6 8 0 2 4 6 8 0 2 4 6 89|1 3 |1 3 56|1 3 5 7 ## 1 2 2 for(nm in nx) if(!all(x[[nm]] == 0, na.rm=TRUE)) { ## use 'Time ..' as that works with 'R CMD Rdiff' m <- 1000*x[[nm]] cat(sprintf("Time [ms] for %13s :%5.0f %6.0f %7.0f\n", ## 2 4 6 8 0 2 4 6 8 0| (20 + (13-4)) = 29 nm, m[1], m[2], m[3])) ## cat(nm,":\n"); print(x[[nm]], ...) } invisible(x) } ### copAMH ##################################################################### myAMH <- setTheta(copAMH, 0.7135001) thetavec <- c(0.1,0.3,0.5,0.7,0.9) set.seed(1) tstCop(myAMH, 0.9429679, thetavec = thetavec) ### copClayton ################################################################# myClayton <- setTheta(copClayton, 0.5) thetavec <- c(0.5,1,2,5,10) tstCop(myClayton, 2, thetavec, lambdaL = thetavec, lambdaU = NA) ### copFrank ################################################################### myFrank <- setTheta(copFrank, 1.860884) thetavec <- c(0.5,1,2,5,10) set.seed(11) tstCop(myFrank, 5.736283, thetavec) ## with a slightly more extensive test: tau.th <- c(0.055417, 0.11002, 0.21389, 0.4567, 0.66578) tau.F <- myFrank@tau(thetavec) stopifnot(all.equal(tau.th, tau.F, tol = 0.0001), all.equal(.9999, copFrank@tau(copFrank@tauInv(0.9999))), all.equal(myFrank@tauInv(tau.F, tol = 1e-14), thetavec, tol=1e-11)) ### copGumbel myGumbel <- setTheta(copGumbel, 1.25) thetavec <- c(1,2,4,6,10) tstCop(myGumbel,2, thetavec, lambdaL = NA, lambdaU = thetavec) ### copJoe ##################################################################### myJoe <- setTheta(copJoe, 1.25) thetavec <- c(1.1,2,4,6,10) set.seed(111) tstCop(myJoe, 2, thetavec, lambdaL = NA, lambdaU = thetavec)