This repository contains a simple implementation of a linear programming solver, in particular for the primal and dual simplex method in tableau form and the application of Gomory's cut in case of integer linear problems. It can be useful for hand written exercises, in order to see intermediate tableau and check the solution step by step.
The code in this repository can perform the following actions:
- Primal Simplex method in tableau form
- Dual Simplex method in tableau form
- Two-Phase method (to be implemented)
- Gomory's cut for integer linear problem (ILP)
IMPORTANT: Numpy package required in order to use the code.
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Starting from a linear programming problem (LP) like:
$$ \begin{cases} min -x_1 -x_2 \\ \\ \quad \quad 6x_1 + 4x_2 + x_3 = 24 \\ \\ \quad \quad 3x_1 - 2x_2 + x_4 = 6 \\ \\ x_1, x_2, x_3, x_4 \geq 0 \end{cases} $$ -
Convert the problem into the correspondent tableau as the following, making sure it contains the initial basis:
// // x1 x2 x3 x4 z= 0 -1 -1 0 0 x3 24 6 4 1 0 x4 6 3 -2 0 1 -
Create a txt file containing only the values in the tableau, for example 'tableau.txt' in the same folder of the directory solver and the file solver.py:
0 -1 -1 0 0 24 6 4 1 0 6 3 -2 0 1 -
Run the script solver.py, passing as parameter the tableau file and 1 if the solution has to be integer, 0 otherwise:
py solver.py tableau.txt 0 -
Then the resulting output will looks like, showing all the intermediate steps and informations about the pivot operations made:
START TABLEAU: [[ 0. -1. -1. 0. 0.] [24. 6. 4. 1. 0.] [ 6. 3. -2. 0. 1.]] TABLEAU: [[ 2. 0. -1.66666667 0. 0.33333333] [12. 0. 8. 1. -2. ] [ 2. 1. -0.66666667 0. 0.33333333]] TABLEAU: [[ 4.5 0. 0. 0.20833333 -0.08333333] [ 1.5 0. 1. 0.125 -0.25 ] [ 3. 1. 0. 0.08333333 0.16666667]] TABLEAU: [[ 6. 0.5 0. 0.25 0. ] [ 6. 1.5 1. 0.25 0. ] [18. 6. 0. 0.5 1. ]] The tableau has an optimal solution x = [0, 6.0, 0, 18.0]
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First import the numpy package and the Model object from the file 'model.py' in the directory solver:
import numpy as np from solver.model import Model
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Using the above notation on how representing in tableau form an LP or ILP problem, create a numpy array for the tableau and pass it into the Model object. Moreover indicate the initial basic variables indexes in another numpy array (in the example x3 and x4 so [3, 4]).
tableau = np.array([[0., -1., -1., 0., 0.], [24., 6., 4., 1., 0.], [6., 3., -2., 0., 1.]]) basic_var = np.array([3, 4]) model = Model(tableau, basic_var)
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Use the primal_simplex_method() to solve the problem by the primal simplex method. Otherwise the dual_simplex_method() for the dual simplex method. To visualize the intermediate tableau and other useful information set the parameter verbose to the correspondent integer value.
model.primal_simplex_method(verbose=2)
model.dual_simplex_method(verbose=2)
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To print the solution use the function print_solution(), that will display all the informations as below:
model.print_solution()
The tableau has an optimal solution x = [0, 6.0, 0, 18.0] The optimal value is z = -6.0
Further informations about all the functionalities available in the Wiki.