// GaussianGreaterThan calculates the greater than margin for the factor graph.
func (gf GaussianFactors) GaussianGreaterThan(epsilon float64, varIdx int, varBag *collection.DistributionBag) Factor {
msgIdx := gf.msgBag.NextIndex()
updateMessage := func(i int) float64 {
if i != 0 {
panic("Index out of range.")
}
return gaussianGreaterThanOrWithinUpdateMessage(epsilon, msgIdx, varIdx, gf.msgBag, varBag,
VGreaterThan, WGreaterThan)
}
logNormalization := func() float64 {
marginal := varBag.Get(varIdx)
msg := gf.msgBag.Get(msgIdx)
msgFromVar := marginal.Div(msg)
logProdNorm := gaussian.LogProdNorm(msgFromVar, msg)
return -logProdNorm + math.Log(gaussian.NormCdf((msgFromVar.Mean()-epsilon)/msgFromVar.StdDev()))
}
sendMessage := func(i int) float64 {
if i != 0 {
panic("Index out of range")
}
return sendMessageHelper(msgIdx, varIdx, gf.msgBag, varBag)
}
return Factor{
UpdateMessage: updateMessage,
LogNormalization: logNormalization,
NumMessages: 1,
ResetMarginals: func() { varBag.PutPriorAt(varIdx) },
SendMessage: sendMessage,
}
}
// GaussianPrior calculates the prior for the factor graph.
func (gf GaussianFactors) GaussianPrior(mu, sigmaSquared float64, varIdx int,
varBag *collection.DistributionBag) Factor {
msgIdx := gf.msgBag.NextIndex()
newMsg := gaussian.NewFromMeanAndVariance(mu, sigmaSquared)
updateMessage := func(i int) float64 {
if i != 0 {
panic("Index out of range")
}
oldMarginal := varBag.Get(varIdx)
oldMsg := gf.msgBag.Get(msgIdx)
newMarginal := gaussian.NewFromPrecision(oldMarginal.PrecisionMean+newMsg.PrecisionMean-oldMsg.PrecisionMean,
oldMarginal.Precision+newMsg.Precision-oldMsg.Precision)
varBag.Put(varIdx, newMarginal)
gf.msgBag.Put(msgIdx, newMsg)
delta := oldMarginal.Sub(newMarginal)
return delta
}
sendMessage := func(i int) float64 {
if i != 0 {
panic("Index out of range")
}
return sendMessageHelper(msgIdx, varIdx, gf.msgBag, varBag)
}
return Factor{
UpdateMessage: updateMessage,
LogNormalization: func() float64 { return 0 },
NumMessages: 1,
ResetMarginals: func() { varBag.PutPriorAt(varIdx) },
SendMessage: sendMessage,
}
}
// GaussianLikeliehood calculates the likeliehood for the factor graph.
func (gf GaussianFactors) GaussianLikeliehood(betaSquared float64, varIdx1, varIdx2 int, varBag1, varBag2 *collection.DistributionBag) Factor {
msgIdx1 := gf.msgBag.NextIndex()
msgIdx2 := gf.msgBag.NextIndex()
prec := 1.0 / betaSquared
updateHelper := func(m1, m2, v1, v2 int, bag1, bag2 *collection.DistributionBag) float64 {
msg1 := gf.msgBag.Get(m1)
msg2 := gf.msgBag.Get(m2)
mar1 := bag1.Get(v1)
mar2 := bag2.Get(v2)
a := prec / (prec + mar2.Precision - msg2.Precision)
newMsg := gaussian.NewFromPrecision(a*(mar2.PrecisionMean-msg2.PrecisionMean),
a*(mar2.Precision-msg2.Precision))
oldMarginalWithoutMsg := mar1.Div(msg1)
newMarginal := oldMarginalWithoutMsg.Mul(newMsg)
gf.msgBag.Put(m1, newMsg)
bag1.Put(v1, newMarginal)
delta := newMarginal.Sub(mar1)
return delta
}
updateMessage := func(i int) float64 {
switch i {
case 0:
return updateHelper(msgIdx1, msgIdx2, varIdx1, varIdx2, varBag1, varBag2)
case 1:
return updateHelper(msgIdx2, msgIdx1, varIdx2, varIdx1, varBag2, varBag1)
default:
panic("Index out of range")
}
}
logNormalization := func() float64 {
logNorm := gaussian.LogRatioNorm(varBag1.Get(varIdx1), gf.msgBag.Get(msgIdx1))
return logNorm
}
resetMarginals := func() {
varBag1.PutPriorAt(varIdx1)
varBag2.PutPriorAt(varIdx2)
}
sendMessage := func(i int) float64 {
switch i {
case 0:
return sendMessageHelper(msgIdx1, varIdx1, gf.msgBag, varBag1)
case 1:
return sendMessageHelper(msgIdx2, varIdx2, gf.msgBag, varBag2)
default:
panic("Index out of range")
}
}
return Factor{
UpdateMessage: updateMessage,
LogNormalization: logNormalization,
NumMessages: 2,
ResetMarginals: resetMarginals,
SendMessage: sendMessage,
}
}
// GaussianWeightedSum calculates the weighted sum for the facor graph.
func (gf GaussianFactors) GaussianWeightedSum(a1, a2 float64, varIdx0, varIdx1, varIdx2 int,
varBag0, varBag1, varBag2 *collection.DistributionBag) Factor {
msgIdx0 := gf.msgBag.NextIndex()
msgIdx1 := gf.msgBag.NextIndex()
msgIdx2 := gf.msgBag.NextIndex()
weights0 := []float64{a1, a2}
weights0Squared := []float64{weights0[0] * weights0[0], weights0[1] * weights0[1]}
weights1 := []float64{-a2 / a1, 1.0 / a1}
weights1Squared := []float64{weights1[0] * weights1[0], weights1[1] * weights1[1]}
weights2 := []float64{-a1 / a2, 1.0 / a2}
weights2Squared := []float64{weights2[0] * weights2[0], weights2[1] * weights2[1]}
updateHelper := func(w, wS []float64, m1, m2, m3, v1, v2, v3 int, bag1, bag2, bag3 *collection.DistributionBag) float64 {
d0 := bag2.Get(v2).Div(gf.msgBag.Get(m2))
d1 := bag3.Get(v3).Div(gf.msgBag.Get(m3))
msg1 := gf.msgBag.Get(m1)
mar1 := bag1.Get(v1)
denom := wS[0]*d1.Precision + wS[1]*d0.Precision
newPrecisionMean := (w[0]*d1.Precision*d0.PrecisionMean + w[1]*d0.Precision*d1.PrecisionMean) / denom
newPrecision := d0.Precision * d1.Precision / denom
newMsg := gaussian.NewFromPrecision(newPrecisionMean, newPrecision)
oldMarginalWithoutMsg := mar1.Div(msg1)
newMarginal := oldMarginalWithoutMsg.Mul(newMsg)
gf.msgBag.Put(m1, newMsg)
bag1.Put(v1, newMarginal)
return newMarginal.Sub(mar1)
}
updateMessage := func(i int) float64 {
switch i {
case 0:
return updateHelper(weights0, weights0Squared, msgIdx0, msgIdx1, msgIdx2, varIdx0, varIdx1, varIdx2,
varBag0, varBag1, varBag2)
case 1:
return updateHelper(weights1, weights1Squared, msgIdx1, msgIdx2, msgIdx0, varIdx1, varIdx2, varIdx0,
varBag1, varBag2, varBag0)
case 2:
return updateHelper(weights2, weights2Squared, msgIdx2, msgIdx1, msgIdx0, varIdx2, varIdx1, varIdx0,
varBag2, varBag1, varBag0)
default:
panic("Index out of range.")
}
}
logNormalization := func() float64 {
ratio1 := gaussian.LogRatioNorm(varBag1.Get(varIdx1), gf.msgBag.Get(msgIdx1))
ratio2 := gaussian.LogRatioNorm(varBag2.Get(varIdx2), gf.msgBag.Get(msgIdx2))
return ratio1 + ratio2
}
resetMarginals := func() {
varBag0.PutPriorAt(varIdx0)
varBag1.PutPriorAt(varIdx1)
varBag2.PutPriorAt(varIdx2)
}
sendMessage := func(i int) float64 {
switch i {
case 0:
return sendMessageHelper(msgIdx0, varIdx0, gf.msgBag, varBag0)
case 1:
return sendMessageHelper(msgIdx1, varIdx1, gf.msgBag, varBag1)
case 2:
return sendMessageHelper(msgIdx2, varIdx2, gf.msgBag, varBag2)
default:
panic("Index out of range")
}
}
return Factor{
UpdateMessage: updateMessage,
LogNormalization: logNormalization,
NumMessages: 3,
ResetMarginals: resetMarginals,
SendMessage: sendMessage,
}
}