我试图从这个问题的答案中重现结果“估计随机效应并将用户定义的相关/协方差结构应用于R lme4或nlme包”https://stats.stackexchange.com/questions/18563/estimating-random-effects-and-applying-user-defined-correlation-covariance-struc
Aaron Rendahl的密码 library(pedigreemm)
relmatmm <- function (formula, data, family = NULL, REML = TRUE, relmat = list(),
control = list(), start = NULL, verbose = FALSE, subset,
weights, na.action, offset, contrasts = NULL, model = TRUE,
x = TRUE, ...)
{
mc <- match.call()
lmerc <- mc
lmerc[[1]] <- as.name("lmer")
lmerc$relmat <- NULL
if (!length(relmat))
return(eval.parent(lmerc))
stopifnot(is.list(relmat), length(names(relmat)) == length(relmat))
lmerc$doFit <- FALSE
lmf <- eval(lmerc, parent.frame())
relfac <- relmat
relnms <- names(relmat)
stopifnot(all(relnms %in% names(lmf$FL$fl)))
asgn <- attr(lmf$FL$fl, "assign")
for (i in seq_along(relmat)) {
tn <- which(match(relnms[i], names(lmf$FL$fl)) == asgn)
if (length(tn) > 1)
stop("a relationship matrix must be associated with only one random effects term")
Zt <- lmf$FL$trms[[tn]]$Zt
relmat[[i]] <- Matrix(relmat[[i]][rownames(Zt), rownames(Zt)],
sparse = TRUE)
relfac[[i]] <- chol(relmat[[i]])
lmf$FL$trms[[tn]]$Zt <- lmf$FL$trms[[tn]]$A <- relfac[[i]] %*% Zt
}
ans <- do.call(if (!is.null(lmf$glmFit))
lme4:::glmer_finalize
else lme4:::lmer_finalize, lmf)
ans <- new("pedigreemm", relfac = relfac, ans)
ans@call <- match.call()
ans
}
set.seed(1234)
mydata <- data.frame (gen = factor(rep(1:10, each = 10)),
repl = factor(rep(1:10, 10)),
yld = rnorm(10, 5, 0.5))
library(lme4)
covmat <- round(nearPD(matrix(runif(100, 0, 0.2), nrow = 10))$mat, 2)
diag(covmat) <- diag(covmat)/10+1
rownames(covmat) <- colnames(covmat) <- levels(mydata$gen)
m <- relmatmm(yld ~ (1|gen) + (1|repl), relmat=list(gen=covmat), data=mydata)
Error in lmf$FL : $ operator not defined for this S4 class
In addition: Warning message:
In checkArgs("lmer", doFit = FALSE) : extra argument(s) ‘doFit’ disregarded
我会感激任何帮助吗? 感谢
答案 0 :(得分:1)
这是以前代码的重新实现 - 我做了一些细微的修改,我没有以任何方式对其进行测试 - 自行测试和/或使用,风险自负
首先创建一个稍微模块化的函数,构造偏差函数并拟合模型:
doFit <- function(lmod,lmm=TRUE) {
## see ?modular
if (lmm) {
devfun <- do.call(mkLmerDevfun, lmod)
opt <- optimizeLmer(devfun)
mkMerMod(environment(devfun), opt, lmod$reTrms, fr = lmod$fr)
} else {
devfun <- do.call(mkGlmerDevfun, lmod)
opt <- optimizeGlmer(devfun)
devfun <- updateGlmerDevfun(devfun, lmod$reTrms)
opt <- optimizeGlmer(devfun, stage=2)
mkMerMod(environment(devfun), opt, lmod$reTrms, fr = lmod$fr)
}
}
现在创建一个函数来构造doFit需要并修改它的对象:
relmatmm <- function (formula, ..., lmm=TRUE, relmat = list()) {
ff <- if (lmm) lFormula(formula, ...) else glFormula(formula, ...)
stopifnot(is.list(relmat), length(names(relmat)) == length(relmat))
relnms <- names(relmat)
relfac <- relmat
flist <- ff$reTrms[["flist"]] ## list of factors
## random-effects design matrix components
Ztlist <- ff$reTrms[["Ztlist"]]
stopifnot(all(relnms %in% names(flist)))
asgn <- attr(flist, "assign")
for (i in seq_along(relmat)) {
tn <- which(match(relnms[i], names(flist)) == asgn)
if (length(tn) > 1)
stop("a relationship matrix must be",
" associated with only one random effects term")
zn <- rownames(Ztlist[[i]])
relmat[[i]] <- Matrix(relmat[[i]][zn,zn],sparse = TRUE)
relfac[[i]] <- chol(relmat[[i]])
Ztlist[[i]] <- relfac[[i]] %*% Ztlist[[i]]
}
ff$reTrms[["Ztlist"]] <- Ztlist
ff$reTrms[["Zt"]] <- do.call(rBind,Ztlist)
fit <- doFit(ff,lmm)
}
实施例
set.seed(1234)
mydata <- data.frame (gen = factor(rep(1:10, each = 10)),
repl = factor(rep(1:10, 10)),
yld = rnorm(10, 5, 0.5))
library(lme4)
covmat <- round(nearPD(matrix(runif(100, 0, 0.2), nrow = 10))$mat, 2)
diag(covmat) <- diag(covmat)/10+1
rownames(covmat) <- colnames(covmat) <- levels(mydata$gen)
m <- relmatmm(yld ~ (1|gen) + (1|repl), relmat=list(gen=covmat),
data=mydata)
这样运行 - 我不知道输出是否正确。它也不会将生成的对象变成pedigreemm对象......