# Python Pulp using with Matrices

I am still very new to Python, after years and years of Matlab. I am trying to use Pulp to set up an integer linear program.

Given an array of numbers:

``````{P[i]:i=1...N}
``````

I want to maximize:

``````sum( x_i P_i )
``````

subject to the constraints

``````A x <= b
A_eq x = b_eq
``````

and with bounds (vector based bounds)

``````LB <= x <= UB
``````

In pulp however, I don't see how to do vector declarations properly. I was using:

``````RANGE = range(numpy.size(P))
x = pulp.LpVariable.dicts("x", LB_ind, UB_ind, "Integer")
``````

where I can only enter individual bounds (so only 1 number).

``````prob = pulp.LpProblem("Test", pulp.LpMaximize)
prob += pulp.lpSum([Prices[i]*Dispatch[i] for i in RANGE])
``````

and for the constraints, do I really have to do this line per line? It seems that I am missing something. I would appreciate some help. The documentation discusses a short example. The number of variables in my case is a few thousand.

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As I recall in PuLP, you do have to add each constraint individually (line-by-line). –  arboc7 Apr 6 '12 at 1:54

You can set the lowBound and upBound on variables after the initialization. You can create an array of variables with

``````LB[i] <= x[i] <= UB[i]
``````

with the following code.

``````x = pulp.LpVariable.dicts("x", RANGE,  cat="Integer")
for i in x.viewkeys():
x[i].lowBound = LB_ind[i]
x[i].upBound = UB_ind[i]
``````

The second parameter to LpVariable.dict is the index set of the decision variables, not their lower bounds.

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