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Toy

Principles learned

  • Create a basic model
  • Add boolean decision variables
  • Create expressions
  • Add an objective
  • Add a constraint

Problem

../_images/toy.svg

A toy instance of the knapsack problem: given 8 items with weights 10, 60, 30, 40, 30, 20, 20, 2 and values 1, 10, 15, 40, 60, 90, 100, 15 respectively, determine a subset of those items in such a way that their total weight is less than 102 and their total value is as large as possible.

Download the example


Program

The way to model is exactly the same as in integer programming: for each item, a 0-1 decision variable is defined which is equal to 1 if the item belongs to the knapsack and 0 otherwise.

Execution:
localsolver toy.lsp
/* Declare the optimization model */
function model() {

    // 0-1 decisions
    x_0 <- bool(); x_1 <- bool(); x_2 <- bool(); x_3 <- bool();
    x_4 <- bool(); x_5 <- bool(); x_6 <- bool(); x_7 <- bool();

    // Weight constraint
    knapsackWeight <- 10 * x_0 + 60 * x_1 + 30 * x_2 + 40 * x_3 + 30 * x_4 + 20 * x_5 + 20 * x_6 + 2 * x_7;
    constraint knapsackWeight <= 102;

    // Maximize value
    knapsackValue <- 1 * x_0 + 10 * x_1 + 15 * x_2 + 40 * x_3 + 60 * x_4 + 90 * x_5 + 100 * x_6 + 15 * x_7;
    maximize knapsackValue;
}

/* Parametrize the solver */
function param() {
    lsTimeLimit = 10;
}
Execution (Windows)
set PYTHONPATH=%LS_HOME%\bin\python
python toy.py
Execution (Linux)
export PYTHONPATH=/opt/localsolver_12_5/bin/python
python toy.py
import localsolver

with localsolver.LocalSolver() as ls:
    weights = [10, 60, 30, 40, 30, 20, 20, 2]
    values = [1, 10, 15, 40, 60, 90, 100, 15]
    knapsack_bound = 102

    #
    # Declare the optimization model
    #
    model = ls.model

    # 0-1 decisions
    x = [model.bool() for _ in range(8)]

    # Weight constraint
    knapsack_weight = model.sum(weights[i] * x[i] for i in range(8))
    model.constraint(knapsack_weight <= knapsack_bound)

    # Maximize value
    knapsack_value = model.sum(values[i] * x[i] for i in range(8))
    model.maximize(knapsack_value)

    model.close()

    # Parameterize the solver
    ls.param.time_limit = 10

    ls.solve()
Compilation / Execution (Windows)
cl /EHsc toy.cpp -I%LS_HOME%\include /link %LS_HOME%\bin\localsolver125.lib
toy
Compilation / Execution (Linux)
g++ toy.cpp -I/opt/localsolver_12_5/include -llocalsolver125 -lpthread -o toy
toy
#include "localsolver.h"
#include <iostream>

using namespace localsolver;
using namespace std;

int main() {
    try {
        lsint weights[] = {10, 60, 30, 40, 30, 20, 20, 2};
        lsint values[] = {1, 10, 15, 40, 60, 90, 100, 15};
        lsint knapsackBound = 102;

        // Declare the optimization model
        LocalSolver localsolver;
        LSModel model = localsolver.getModel();

        // 0-1 decisions
        LSExpression x[8];
        for (int i = 0; i < 8; ++i)
            x[i] = model.boolVar();

        // knapsackWeight <- 10*x0 + 60*x1 + 30*x2 + 40*x3 + 30*x4 + 20*x5 + 20*x6 + 2*x7;
        LSExpression knapsackWeight = model.sum();
        for (int i = 0; i < 8; ++i)
            knapsackWeight.addOperand(weights[i] * x[i]);

        // knapsackWeight <= 102;
        model.constraint(knapsackWeight <= knapsackBound);

        // knapsackValue <- 1*x0 + 10*x1 + 15*x2 + 40*x3 + 60*x4 + 90*x5 + 100*x6 + 15*x7;
        LSExpression knapsackValue = model.sum();
        for (int i = 0; i < 8; ++i)
            knapsackValue.addOperand(values[i] * x[i]);

        // maximize knapsackValue;
        model.maximize(knapsackValue);

        // Close model before solving it
        model.close();

        // Parametrize the solver
        localsolver.getParam().setTimeLimit(10);
        localsolver.solve();

    } catch (const exception& e) {
        cerr << "An error occurred:" << e.what() << endl;
        return 1;
    }

    return 0;
}
Compilation / Execution (Windows)
copy %LS_HOME%\bin\localsolvernet.dll .
csc Toy.cs /reference:localsolvernet.dll
Toy
using localsolver;

public class Toy
{
    public static void Main()
    {
        int[] weights = { 10, 60, 30, 40, 30, 20, 20, 2 };
        int[] values = { 1, 10, 15, 40, 60, 90, 100, 15 };

        using (LocalSolver localsolver = new LocalSolver())
        {
            // Declare the optimization model
            LSModel model = localsolver.GetModel();

            // 0-1 decisions
            LSExpression[] x = new LSExpression[8];
            for (int i = 0; i < 8; ++i)
                x[i] = model.Bool();

            // knapsackWeight <- 10*x0 + 60*x1 + 30*x2 + 40*x3 + 30*x4 + 20*x5 + 20*x6 + 2*x7;
            LSExpression knapsackWeight = model.Sum();
            for (int i = 0; i < 8; ++i)
                knapsackWeight.AddOperand(weights[i] * x[i]);

            // knapsackWeight <= 102;
            model.Constraint(knapsackWeight <= 102);

            // knapsackValue <- 1*x0 + 10*x1 + 15*x2 + 40*x3 + 60*x4 + 90*x5 + 100*x6 + 15*x7;
            LSExpression knapsackValue = model.Sum();
            for (int i = 0; i < 8; ++i)
                knapsackValue.AddOperand(values[i] * x[i]);

            // maximize knapsackValue;
            model.Maximize(knapsackValue);

            // Close the model before solving it
            model.Close();

            // Parametrize the solver
            localsolver.GetParam().SetTimeLimit(10);
            localsolver.Solve();
        }
    }
}
Compilation / Execution (Windows)
javac Toy.java -cp %LS_HOME%\bin\localsolver.jar
java -cp %LS_HOME%\bin\localsolver.jar;. Toy
Compilation / Execution (Linux)
javac Toy.java -cp /opt/localsolver_12_5/bin/localsolver.jar
java -cp /opt/localsolver_12_5/bin/localsolver.jar:. Toy
import localsolver.*;

public class Toy {

    public static void main(String[] args) {
        int[] weights = { 10, 60, 30, 40, 30, 20, 20, 2 };
        int[] values = { 1, 10, 15, 40, 60, 90, 100, 15 };

        // Declare the optimization model
        try (LocalSolver localsolver = new LocalSolver()) {
            LSModel model = localsolver.getModel();

            // 0-1 decisions
            LSExpression[] x = new LSExpression[8];
            for (int i = 0; i < 8; ++i) {
                x[i] = model.boolVar();
            }

            // knapsackWeight <- 10*x0 + 60*x1 + 30*x2 + 40*x3 + 30*x4 + 20*x5 + 20*x6 + 2*x7;
            LSExpression knapsackWeight = model.sum();
            for (int i = 0; i < 8; ++i) {
                knapsackWeight.addOperand(model.prod(weights[i], x[i]));
            }

            // knapsackWeight <= 102;
            model.constraint(model.leq(knapsackWeight, 102));

            // knapsackValue <- 1*x0 + 10*x1 + 15*x2 + 40*x3 + 60*x4 + 90*x5 + 100*x6 + 15*x7;
            LSExpression knapsackValue = model.sum();
            for (int i = 0; i < 8; ++i) {
                knapsackValue.addOperand(model.prod(values[i], x[i]));
            }

            // maximize knapsackValue;
            model.maximize(knapsackValue);

            // Close model before solving it
            model.close();

            // Parametrize the solver
            localsolver.getParam().setTimeLimit(10);
            localsolver.solve();
        } catch (Exception ex) {
            System.err.println(ex);
            ex.printStackTrace();
            System.exit(1);
        }
    }
}