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#' Simulate Z given fixed rank nomination data
#'
#' Simulates a random latent matrix Z given its expectation, dyadic correlation
#' and censored binary nomination data
#'
#' simulates Z under the constraints (1) Y[i,j]=1, Y[i,k]=0 => Z[i,j]>Z[i,k] ,
#' (2) Y[i,j]=1 => Z[i,j]>0 , (3) Y[i,j]=0 & odobs[i]<odmax[i] => Z[i,j]<0
#'
#' @usage rZ_cbin_fc(Z, EZ, rho, Y, odmax, odobs)
#' @param Z a square matrix, the current value of Z
#' @param EZ expected value of Z
#' @param rho dyadic correlation
#' @param Y square matrix of ranked nomination data
#' @param odmax a scalar or vector giving the maximum number of nominations for
#' each individual
#' @param odobs observed outdegree
#' @return a square matrix, the new value of Z
#' @author Peter Hoff
#' @export rZ_cbin_fc
rZ_cbin_fc <-
function(Z,EZ,rho,Y,odmax,odobs)
{
# simulates Z under the contraints
# (1) Y[i,j] > Y[i,k] => Z[i,j]>Z[i,k]
# (2) Y[i,j]>0 => Z[i,j]>0
# (3) Y[i,j]=0 & odobs[i]<odmax[i] => Z[i,j]<0
sz<-sqrt(1-rho^2)
ut<-upper.tri(EZ)
lt<-lower.tri(EZ)
for(y in sample(0:1))
{
if(y==1)
{
ub<- Inf
lbm<-matrix(pmax(apply(Z-(Y!=0)*(Inf^(Y!=0)),1,max,na.rm=TRUE),0),
nrow(Z),nrow(Z))
}
if(y==0)
{
lb<- -Inf
ubm<-matrix(apply(Z+(Y!=1)*(Inf^(Y!=1)),1,min,na.rm=TRUE),nrow(Z),
nrow(Z))
ubm[ odobs<odmax ] <- 0
}
up<- ut & Y==y
if(y==0) { ub<-ubm[up] }
if(y==1) { lb<-lbm[up] }
ez<- EZ[up] + rho*( t(Z)[up] - t(EZ)[up] )
Z[up]<-ez+sz*qnorm(runif(sum(up),pnorm((lb-ez)/sz),pnorm((ub-ez)/sz)))
up<- lt & Y==y
if(y==0) { ub<-ubm[up] }
if(y==1) { lb<-lbm[up] }
ez<- EZ[up] + rho*( t(Z)[up] - t(EZ)[up] )
Z[up]<-ez+sz*qnorm(runif(sum(up),pnorm((lb-ez)/sz),pnorm((ub-ez)/sz)))
}
diag(Z)<-rnorm(nrow(Z),diag(EZ),sqrt(1+rho))
Z[is.na(Y)]<- rnorm(sum(is.na(Y)),EZ[is.na(Y)],1) # not right - doesn't use rho
Z
}
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