options(na.action=na.exclude) # preserve missings options(contrasts=c('contr.treatment', 'contr.poly')) #ensure constrast type library(survival) # # Tests from the appendix of Therneau and Grambsch # d. Data set 2 and Efron estimate # test2 <- data.frame(start=c(1, 2, 5, 2, 1, 7, 3, 4, 8, 8), stop =c(2, 3, 6, 7, 8, 9, 9, 9,14,17), event=c(1, 1, 1, 1, 1, 1, 1, 0, 0, 0), x =c(1, 0, 0, 1, 0, 1, 1, 1, 0, 0)) byhand <- function(beta, newx=0) { r <- exp(beta) loglik <- 4*beta - (log(r+1) + log(r+2) + 2*log(3*r+2) + 2*log(3*r+1) + log(2*r +2)) u <- 1/(r+1) + 1/(3*r+1) + 2*(1/(3*r+2) + 1/(2*r+2)) - ( r/(r+2) +3*r/(3*r+2) + 3*r/(3*r+1)) imat <- r*(1/(r+1)^2 + 2/(r+2)^2 + 6/(3*r+2)^2 + 6/(3*r+1)^2 + 6/(3*r+2)^2 + 4/(2*r +2)^2) hazard <-c( 1/(r+1), 1/(r+2), 1/(3*r+2), 1/(3*r+1), 1/(3*r+1), 1/(3*r+2), 1/(2*r +2) ) # The matrix of weights, one row per obs, one col per time # deaths at 2,3,6,7,8,9 wtmat <- matrix(c(1,0,0,0,1, 0, 0,0,0,0, 0,1,0,1,1, 0, 0,0,0,0, 0,0,1,1,1, 0, 1,1,0,0, 0,0,0,1,1, 0, 1,1,0,0, 0,0,0,0,1, 1, 1,1,0,0, 0,0,0,0,0, 1, 1,1,1,1, 0,0,0,0,0,.5,.5,1,1,1), ncol=7) wtmat <- diag(c(r,1,1,r,1,r,r,r,1,1)) %*% wtmat x <- c(1,0,0,1,0,1,1,1,0,0) status <- c(1,1,1,1,1,1,1,0,0,0) xbar <- colSums(wtmat*x)/ colSums(wtmat) n <- length(x) # Table of sums for score and Schoenfeld resids hazmat <- wtmat %*% diag(hazard) #each subject's hazard over time dM <- -hazmat #Expected part for (i in 1:5) dM[i,i] <- dM[i,i] +1 #observed dM[6:7,6:7] <- dM[6:7,6:7] +.5 # observed mart <- rowSums(dM) # Table of sums for score and Schoenfeld resids # Looks like the last table of appendix E.2.1 of the book resid <- dM * outer(x, xbar, '-') score <- rowSums(resid) scho <- colSums(resid) # We need to add the ties back up (they are symmetric) scho[6:7] <- rep(mean(scho[6:7]), 2) list(loglik=loglik, u=u, imat=imat, xbar=xbar, haz=hazard, mart=mart, score=score, rmat=resid, scho=scho) } aeq <- function(x,y) all.equal(as.vector(x), as.vector(y)) fit0 <-coxph(Surv(start, stop, event) ~x, test2, iter=0) truth0 <- byhand(0,0) aeq(truth0$loglik, fit0$loglik[1]) aeq(1/truth0$imat, fit0$var) aeq(truth0$mart, fit0$residuals) aeq(truth0$scho, resid(fit0, 'schoen')) aeq(truth0$score, resid(fit0, 'score')) fit <- coxph(Surv(start, stop, event) ~x, test2, eps=1e-8, nocenter=NULL) truth <- byhand(fit$coefficients, 0) aeq(truth$loglik, fit$loglik[2]) aeq(1/truth$imat, fit$var) aeq(truth$mart, fit$residuals) aeq(truth$scho, resid(fit, 'schoen')) aeq(truth$score, resid(fit, 'score')) # Reprise the test, with strata # offseting the times ensures that we will get the wrong risk sets # if strata were not kept separate test2b <- rbind(test2, test2, test2) test2b$group <- rep(1:3, each= nrow(test2)) test2b$start <- test2b$start + test2b$group test2b$stop <- test2b$stop + test2b$group fit0 <- coxph(Surv(start, stop, event) ~ x + strata(group), test2b, iter=0) aeq(3*truth0$loglik, fit0$loglik[1]) aeq(3*truth0$imat, 1/fit0$var) aeq(rep(truth0$mart,3), fit0$residuals) aeq(rep(truth0$scho,3), resid(fit0, 'schoen')) aeq(rep(truth0$score,3), resid(fit0, 'score')) fit3 <- coxph(Surv(start, stop, event) ~x + strata(group), test2b, eps=1e-8) aeq(3*truth$loglik, fit3$loglik[2]) aeq(3*truth$imat, 1/fit3$var) aeq(rep(truth$mart,3), fit3$residuals) aeq(rep(truth$scho,3), resid(fit3, 'schoen')) aeq(rep(truth$score,3), resid(fit3, 'score')) # # Done with the formal test, now print out lots of bits # resid(fit) resid(fit, 'scor') resid(fit, 'scho') predict(fit, type='lp') predict(fit, type='risk') predict(fit, type='expected') predict(fit, type='terms') predict(fit, type='lp', se.fit=T) predict(fit, type='risk', se.fit=T) predict(fit, type='expected', se.fit=T) predict(fit, type='terms', se.fit=T) summary(survfit(fit)) summary(survfit(fit, list(x=2)))