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wave.multiple.regression <- #3.0.0
function(xx, N=length(xx[[1]][[1]]), p=.975, ymaxr=NULL) {
sum.of.squares <- function(x) { sum(x^2, na.rm=TRUE) / sum(!is.na(x)) }
sum.of.not.squares <- function(x) { sum(x, na.rm=TRUE) / sum(!is.na(x)) }
d <- length(xx) #number of series
dd <- d*(d-1)/2 #number of correlations
l <- length(xx[[1]]) #number of scales J+1 (wavelet coefficients at levels 1 to J plus the scaling coeffs at level J+1)
# N <- length(xx[[1]][[1]]) #number of observations
x.var <- vector("list", d)
for(j in 1:d) {
x.var[[j]] <- unlist(lapply(xx[[j]], sum.of.squares))
}
xy.cor <- vector("list", dd)
xy <- vector("list", l)
jk <- 0
for(k in 1:(d-1)) {
for(j in (k+1):d) {
jk <- jk+1
for(i in 1:l) {
xy[[i]] <- as.vector(xx[[j]][[i]] * xx[[k]][[i]])
}
xy.cov <- unlist(lapply(xy, sum.of.not.squares))
xy.cor[[jk]] <- xy.cov / sqrt(x.var[[j]] * x.var[[k]])
}}
xy.cor.vec <- matrix(unlist(xy.cor),l,dd)
xy.mulcor <- vector("numeric", l) ##xy.mulcor <- matrix(NA,l,1,dimnames=list(names(xy.cor[[1]])))
xy.mulreg <- vector("list", l)
YmaxR <- vector("numeric",l)
for(i in 1:l) {
r <- xy.cor.vec[i,]
P <- diag(d)/2
P[lower.tri(P)] <- r
P <- P+t(P)
Pidiag <- diag(solve(P))
if(is.null(ymaxr)) {
YmaxR[i] <- Pimax <- which.max(Pidiag) ## detect i | x[i] on rest x gives max R2
} else {YmaxR[i] <- Pimax <- ymaxr}
sgnr <- 1
if (dd==1) sgnr <- sign(r)
xy.mulcor[[i]] <- sgnr*sqrt(1-1/Pidiag[Pimax]) ## max(sqrt(1-1/diag(solve(P))))
x <- sapply(xx[-Pimax],'[[',i)
y <- sapply(xx[Pimax],'[[',i)
depvar <- matrix(c(-1,0,Inf,0),1,4)
if (is.null(names(xx))) row.names(depvar) <- "Y"
else row.names(depvar) <- names(xx[Pimax])
z <- summary(lm(formula = y ~ x))$coefficients
if(Pimax<nrow(z)) zr <- z[(Pimax+1):nrow(z),,drop=FALSE]
else zr<-NULL
z <- rbind(z[1:Pimax,,drop=FALSE], depvar, zr)
if (is.null(names(xx))) row.names(z)[1] <- "b0"
else row.names(z) <- c("b0",names(xx))
xy.mulreg[[i]] <- z
# xy.mulreg[[i]] <- z[order(z[,4]),1:2] #coefficients (and their stdvs) ordered from most to least significant
}
n <- trunc(N/2^(1:l))
sqrtn <- sapply(n,function(x){if (x>=3) sqrt(x-3) else NaN})
alow <- atanh(xy.mulcor)-qnorm(p)/sqrtn
if (dd>1) alow <- pmax(alow,0)
aupp <- atanh(xy.mulcor)+qnorm(p)/sqrtn
outcor <- data.frame( wavemulcor=xy.mulcor, lower=tanh(alow), upper=tanh(aupp) )
rval <- lapply(xy.mulreg, function(x){x[,'Estimate']})
rstd <- lapply(xy.mulreg, function(x){x[,'Std. Error']})
rlow <- lapply(xy.mulreg, function(x){x[,'Estimate']-qt(p,N-d)*x[,'Std. Error']})
rupp <- lapply(xy.mulreg, function(x){x[,'Estimate']+qt(p,N-d)*x[,'Std. Error']})
rtst <- lapply(xy.mulreg, function(x){x[,'t value']})
rpva <- lapply(xy.mulreg, function(x){x[,'Pr(>|t|)']})
rord <- lapply(xy.mulreg, function(x){match(abs(x[,'t value']),sort(abs(x[,'t value']),decreasing=TRUE))})
asnum <- function(x){setNames(as.numeric(x),names(x))}
outreg <- list( rval=t(sapply(rval,asnum)), rstd=t(sapply(rstd,asnum)),
rlow=t(sapply(rlow,asnum)), rupp=t(sapply(rupp,asnum)),
rtst=t(sapply(rtst,asnum)), rord=t(sapply(rord,asnum)), rpva=t(sapply(rpva,asnum)) )
#) #vars=t(sapply(rval,names)) --> names of variables: useful if somehow reordered
Lst <- list(xy.mulcor=as.matrix(outcor),xy.mulreg=outreg,YmaxR=YmaxR,data=xx)
return(Lst)
}
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