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I would like to build a Bayesian Network in clojure, since I haven't found any similar project. I have studied a lot of theory of BN but still I can't see how implement the network (I am not what people call "guru" for anything, but especially not for functional programming).

I do know that a BN is nothing more than a DAG and a lot probability table (one for each node) but now I have no glue how to implement the DAG.

My first idea was a huge set (the DAG) with some little maps (the node of the DAG), every map should have a name (probably a :key) a probability table (another map ?) a vector of parents and finally a vector of non-descendant. Now I don't know how to implement the reference of the parents and non-descendants (what I should put in the two vector). I guess that a pointer should be perfect, but clojure lack of it; I could put in the vector the :name of the other node but it is gonna be slow, doesn't it ?

I was thinking that instead of a vector I could use more set, in this way would be faster find the descendants of a node.

Similar problem for the probability table where I still need some reference at the other nodes.

Finally I also would like to learn the BN (build the network starting by the data) this means that I will change a lot both probability tables, edge, and nodes. Should I use mutable types or they would only increment the complexity ?

Does anybody have any suggestion ?

Thanks a lot anyway.

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This [SO question][1] can help you. [1]:… – Ankur Jul 14 '12 at 12:39
Chas Emerick has a talk on Bayesian networks that he gave a ClojureConj. It had some useful information in there that may answer some of the questions you have. – jszakmeister Jul 27 '12 at 8:38 at – Thumbnail Feb 24 '14 at 11:01
have you seen loom lib? – xando Jun 22 '15 at 15:13
Might not be completely related, but have you looked at (a Church derivative in Clojure) also see – JoelKuiper Jan 6 at 11:42

You may try to go even flatter and have several maps indexed by node ids: one map for probabilities tables, one for parents and one for non-descendants (I'm no BN expert: what's this, how is it used etc. ? It feels like something that could be recomputed from the parents table^W relation^W map).

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This is not a complete answer, but here is a possible encoding for the example network from the wikipedia article. Each node has a name, a list of successors (children) and a probability table:

(defn node [name children fn]
  {:name name :children children :table fn})

Also, here are little helper functions for building true/false probabilities:

;; builds a true/false probability map
(defn tf [true-prob] #(if % true-prob (- 1.0 true-prob)))

The above function returns a closure, which, when given a true value (resp. false value), returns the probability of the event X=true (for the X probability variable we are encoding).

Since the network is a DAG, we can references directly nodes to each other (exactly like the pointers you mentioned) without having to care about circular references. We just build the graph in topological order:

(let [gw (node "grass wet" [] (fn [& {:keys [sprinkler rain]}]
                            (tf (cond (and sprinkler rain) 0.99
                                      sprinkler 0.9
                                      rain 0.8
                                      :else 0.0))))

  sk (node "sprinkler" [gw]
           (fn [& {:keys [rain]}] (tf (if rain 0.01 0.4))))

  rn (node "rain" [sk gw]
           (constantly (tf 0.2)))]

  (def dag {:nodes {:grass-wet gw :sprinkler sk :rain rn}
        :joint (fn [g s r]
                  (((:table gw) :sprinkler s :rain r) g)
                  (((:table sk) :rain r) s)
                  (((:table rn)) r)))}))

The probability table of each node is given as a function of the states of the parent nodes and returns the probability for true and false values. For example,

((:table (:grass-wet dag)) :sprinkler true :rain false)

... returns {:true 0.9, :false 0.09999999999999998}.

The resulting joint function combines probabilities according the this formula:

P(G,S,R) = P(G|S,R).P(S|R).P(R)

And ((:joint dag) true true true) returns 0.0019800000000000004. Indeed, each value returned by ((:table <x>) <args>) is a closure around an if, which returns probability knowing the state of the probability variable. We call each closure with the respective true/false value to extract the appropriate probability, and multiply them.

Here, I am cheating a little because I suppose that the joint function should be computed by traversing the graph (a macro could help, in the general case). This also feels a little messy, notably regarding nodes's states, which are not necessarly only true and false: you would most likely use a map in the general case.

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