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This may be a ridiculous question but I'm very new to R (started 3 weeks ago) but I'm running a Gibbs Sampler and I'm drawing from a non-conjugate distribution. It's set up as Yi|mu ~ N(1,4^2), mu~N(0,1) and sig^2~IG(2,1). I have the sampling part coded but I'm having trouble coding the posterior distribution to create the data to sample from. What I have so far is: #####Posterior predictive density ( ppd[1:lx] )for data on the grid x (new line)
lx = 200 (new line)
x = seq( min(yy) - .1*(max(yy) - min(yy)), 
     max(yy) + .1*(max(yy) - min(yy)), len = lx )
hist( yy, prob=T )

ppd = rep( 0, lx )

for( ii in 1:lx )
    ##### enter the code here, 
    ### ppd[ ii ] = mean( dnorm( .....

 lines( x, ppd, col=2, lwd=2 )
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closed as off-topic by csgillespie, Blue Magister, C4 - Travis, Bull, SpringLearner Nov 23 '13 at 4:03

This question appears to be off-topic. The users who voted to close gave this specific reason:

  • "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results. See also: Stack Overflow question checklist" – csgillespie, Blue Magister, C4 - Travis, Bull, SpringLearner
If this question can be reworded to fit the rules in the help center, please edit the question.

I don't know what the Gibbs Sampler is but just searching google:
It seems that the code for the distribution might be that:

gibbs<-function (n, rho) 
        mat <- matrix(ncol = 2, nrow = n)
        x <- 0
        y <- 0
        mat[1, ] <- c(x, y)
        for (i in 2:n) {
                x <- rnorm(1, rho * y, sqrt(1 - rho^2))
                y <- rnorm(1, rho * x, sqrt(1 - rho^2))
                mat[i, ] <- c(x, y)

I think that here from the same page will find the complete code you want R. In this other page you might find some more explanations and examples

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