require(valse)
params = valse:::basic_Init_Parameters(n, p, m, k)
io = generateIOdefault(n, p, m, k)
- write.table(paste(testFolder,"phiInit",sep=""), params$phiInit, sep=delimiter);
- write.table(paste(testFolder,"rhoInit",sep=""), params$rhoInit, sep=delimiter);
- write.table(paste(testFolder,"piInit",sep=""), params$piInit, sep=delimiter);
- write.table(paste(testFolder,"gamInit",sep=""), params$gamInit, sep=delimiter);
- write.table(paste(testFolder,"mini",sep=""), mini, sep=delimiter);
- write.table(paste(testFolder,"maxi",sep=""), maxi, sep=delimiter);
- write.table(paste(testFolder,"gamma",sep=""), gamma, sep=delimiter);
- write.table(paste(testFolder,"lambda",sep=""), lambda, sep=delimiter);
- write.table(paste(testFolder,"X",sep=""), io$X, sep=delimiter);
- write.table(paste(testFolder,"Y",sep=""), io$Y, sep=delimiter);
- write.table(paste(testFolder,"tau",sep=""), tau, sep=delimiter);
- write.table(paste(testFolder,"dimensions",sep=""), c(n,p,m,k), sep=delimiter);
+ write.table(as.double(params$phiInit), paste(testFolder,"phiInit",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(params$rhoInit), paste(testFolder,"rhoInit",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(params$piInit), paste(testFolder,"piInit",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(params$gamInit), paste(testFolder,"gamInit",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.integer(mini), paste(testFolder,"mini",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.integer(maxi), paste(testFolder,"maxi",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(gamma), paste(testFolder,"gamma",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(lambda), paste(testFolder,"lambda",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(io$X), paste(testFolder,"X",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(io$Y), paste(testFolder,"Y",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.double(tau), paste(testFolder,"tau",sep=""),
+ row.names=F, col.names=F)
+ write.table(as.integer(c(n,p,m,k)), paste(testFolder,"dimensions",sep=""),
+ row.names=F, col.names=F)
res = EMGLLF(params$phiInit,params$rhoInit,params$piInit,params$gamInit,mini,maxi,
- gamma,lambda,io$X,io$Y,tau);
+ gamma,lambda,io$X,io$Y,tau)
#save outputs
- write.table(paste(testFolder,"phi",sep=""), res$phi, sep=delimiter);
- write.table(paste(testFolder,"rho",sep=""), res$rho, sep=delimiter);
- write.table(paste(testFolder,"pi",sep=""), res$pi, sep=delimiter);
- write.table(paste(testFolder,"LLF",sep=""), res$LLF, sep=delimiter);
- write.table(paste(testFolder,"S",sep=""), res$S, sep=delimiter);
+ write.table(as.double(res$phi), paste(testFolder,"phi",sep=""), row.names=F, col.names=F)
+ write.table(as.double(res$rho), paste(testFolder,"rho",sep=""), row.names=F, col.names=F)
+ write.table(as.double(res$pi), paste(testFolder,"pi",sep=""), row.names=F, col.names=F)
+ write.table(as.double(res$LLF), paste(testFolder,"LLF",sep=""), row.names=F, col.names=F)
+ write.table(as.double(res$S), paste(testFolder,"S",sep=""), row.names=F, col.names=F)
}