# mathprog recursive function

I'm facing trouble in counting linked nodes in Mathprog while trying to solve a quite-big TSP problem: let's say I have

``````set C  := 0..645;  #  a set of nodes
set A  := {i in  C, j in  C: i!=j};  # a set of edges
``````

a distance function d(c1,c2)

``````var a{(i,j) in A}, binary;  # binary variables that mean "go through edge i-j"
minimize walk: sum{(i,j) in A} d[i,j] * a[i,j];  # an objective function
``````

and some other conditions

``````subject to get_out {i in C}: sum{(i,j) in A} a[i,j] = 1;
subject to get_in  {j in C}: sum{(i,j) in A} a[i,j] = 1;
``````

Making all possible cuts to solve the circuit requires the powerset and some other stuff but on more than 20 nodes the problem is too greedy and I can't get a solution.

So I thought I would constrain the solver to concatenate all a[i,j] imposing

`````` a[i,j], a[j,k], a[k,w], ..., a[z,i] =1 with i!= {j,k,w,...,z} and j!={k,w,...,z} and ...
``````

which is the same as

`````` check(a[i,C]) {
while C is empty
take j: a[i,j]=1;
check( a[j,{C diff {i}}] )
}
``````

which may not lead to a solution but is quite frustrating not to be able to implement such a simple thing... is there a way to implement such pseudo-code in mathprog (gmpl)?

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