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ortools-clone/ortools/linear_solver/samples/AssignmentTaskSizesMip.cs
Mizux Seiha a76bf1c5dd bump license boilerplate
2024-01-04 13:43:15 +01:00

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// Copyright 2010-2024 Google LLC
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// [START program]
// [START import]
using System;
using System.Collections.Generic;
using System.Linq;
using Google.OrTools.LinearSolver;
// [END import]
public class AssignmentTaskSizesMip
{
static void Main()
{
// Data.
// [START data]
int[,] costs = {
{ 90, 76, 75, 70, 50, 74, 12, 68 }, { 35, 85, 55, 65, 48, 101, 70, 83 },
{ 125, 95, 90, 105, 59, 120, 36, 73 }, { 45, 110, 95, 115, 104, 83, 37, 71 },
{ 60, 105, 80, 75, 59, 62, 93, 88 }, { 45, 65, 110, 95, 47, 31, 81, 34 },
{ 38, 51, 107, 41, 69, 99, 115, 48 }, { 47, 85, 57, 71, 92, 77, 109, 36 },
{ 39, 63, 97, 49, 118, 56, 92, 61 }, { 47, 101, 71, 60, 88, 109, 52, 90 },
};
int numWorkers = costs.GetLength(0);
int numTasks = costs.GetLength(1);
int[] allWorkers = Enumerable.Range(0, numWorkers).ToArray();
int[] allTasks = Enumerable.Range(0, numTasks).ToArray();
int[] taskSizes = { 10, 7, 3, 12, 15, 4, 11, 5 };
// Maximum total of task sizes for any worker
int totalSizeMax = 15;
// [END data]
// Solver.
// [START solver]
Solver solver = Solver.CreateSolver("SCIP");
if (solver is null)
{
return;
}
// [END solver]
// Variables.
// [START variables]
// x[i, j] is an array of 0-1 variables, which will be 1
// if worker i is assigned to task j.
Variable[,] x = new Variable[numWorkers, numTasks];
foreach (int worker in allWorkers)
{
foreach (int task in allTasks)
{
x[worker, task] = solver.MakeBoolVar($"x[{worker},{task}]");
}
}
// [END variables]
// Constraints
// [START constraints]
// Each worker is assigned to at most max task size.
foreach (int worker in allWorkers)
{
Constraint constraint = solver.MakeConstraint(0, totalSizeMax, "");
foreach (int task in allTasks)
{
constraint.SetCoefficient(x[worker, task], taskSizes[task]);
}
}
// Each task is assigned to exactly one worker.
foreach (int task in allTasks)
{
Constraint constraint = solver.MakeConstraint(1, 1, "");
foreach (int worker in allWorkers)
{
constraint.SetCoefficient(x[worker, task], 1);
}
}
// [END constraints]
// Objective
// [START objective]
Objective objective = solver.Objective();
foreach (int worker in allWorkers)
{
foreach (int task in allTasks)
{
objective.SetCoefficient(x[worker, task], costs[worker, task]);
}
}
objective.SetMinimization();
// [END objective]
// Solve
// [START solve]
Solver.ResultStatus resultStatus = solver.Solve();
// [END solve]
// Print solution.
// [START print_solution]
// Check that the problem has a feasible solution.
if (resultStatus == Solver.ResultStatus.OPTIMAL || resultStatus == Solver.ResultStatus.FEASIBLE)
{
Console.WriteLine($"Total cost: {solver.Objective().Value()}\n");
foreach (int worker in allWorkers)
{
foreach (int task in allTasks)
{
// Test if x[i, j] is 0 or 1 (with tolerance for floating point
// arithmetic).
if (x[worker, task].SolutionValue() > 0.5)
{
Console.WriteLine($"Worker {worker} assigned to task {task}. Cost: {costs[worker, task]}");
}
}
}
}
else
{
Console.WriteLine("No solution found.");
}
// [END print_solution]
}
}
// [END program]
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