예제 #1
0
파일: sample.go 프로젝트: shazow/stat
// Rejection generates len(x) samples using the rejection sampling algorithm and
// stores them in place into samples.
// Sampling continues until x is filled. Rejection the total number of proposed
// locations and a boolean indicating if the rejection sampling assumption is
// violated (see details below). If the returned boolean is false, all elements
// of samples are set to NaN. If src != nil, it will be used to generate random
// numbers, otherwise rand.Float64 will be used.
//
// Rejection sampling generates points from the target distribution by using
// the proposal distribution. At each step of the algorithm, the proposaed point
// is accepted with probability
//  p = target(x) / (proposal(x) * c)
// where target(x) is the probability of the point according to the target distribution
// and proposal(x) is the probability according to the proposal distribution.
// The constant c must be chosen such that target(x) < proposal(x) * c for all x.
// The expected number of proposed samples is len(samples) * c.
//
// Target may return the true (log of) the probablity of the location, or it may return
// a value that is proportional to the probability (logprob + constant). This is
// useful for cases where the probability distribution is only known up to a normalization
// constant.
func Rejection(samples []float64, target dist.LogProber, proposal dist.RandLogProber, c float64, src *rand.Rand) (nProposed int, ok bool) {
	if c < 1 {
		panic("rejection: acceptance constant must be greater than 1")
	}
	f64 := rand.Float64
	if src != nil {
		f64 = src.Float64
	}
	var idx int
	for {
		nProposed++
		v := proposal.Rand()
		qx := proposal.LogProb(v)
		px := target.LogProb(v)
		accept := math.Exp(px-qx) / c
		if accept > 1 {
			// Invalidate the whole result and return a failure.
			for i := range samples {
				samples[i] = math.NaN()
			}
			return nProposed, false
		}
		if accept > f64() {
			samples[idx] = v
			idx++
			if idx == len(samples) {
				break
			}
		}
	}
	return nProposed, true
}
예제 #2
0
파일: sample.go 프로젝트: shazow/stat
// Importance sampling generates len(x) samples from the proposal distribution,
// and stores the locations and importance sampling weights in place.
//
// Importance sampling is a variance reduction technique where samples are
// generated from a proposal distribution, q(x), instead of the target distribution
// p(x). This allows relatively unlikely samples in p(x) to be generated more frequently
//
// The importance sampling weight at x is given by p(x)/q(x). To reduce variance,
// a good proposal distribution will bound this sampling weight. This implies the
// support of q(x) should be at least as broad as p(x), and q(x) should be "fatter tailed"
// than p(x).
func Importance(samples, weights []float64, target dist.LogProber, proposal dist.RandLogProber) {
	if len(samples) != len(weights) {
		panic(badLengthMismatch)
	}
	for i := range samples {
		v := proposal.Rand()
		samples[i] = v
		weights[i] = math.Exp(target.LogProb(v) - proposal.LogProb(v))
	}
}