ortools-clone/examples/tests/RoutingSolverTests.cs

// Copyright 2010-2021 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.

using System;
using Xunit;
using Google.OrTools.ConstraintSolver;

namespace Google.OrTools.Tests
{
    public class RoutingSolverTest
    {
        [Theory]
        [InlineData(false)]
        [InlineData(true)]
        public void SimpleLambdaCallback(bool callGC)
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            int transitCallbackIndex = routing.RegisterTransitCallback((long fromIndex, long toIndex) => {
                // Convert from routing variable Index to distance matrix NodeIndex.
                var fromNode = manager.IndexToNode(fromIndex);
                var toNode = manager.IndexToNode(toIndex);
                return Math.Abs(toNode - fromNode);
            });
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(transitCallbackIndex);
            if (callGC)
            {
                GC.Collect();
            }
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            // 0 --(+1)-> 1 --(+1)-> 2 --(+1)-> 3 --(+1)-> 4 --(+4)-> 0 := +8
            Assert.Equal(8, solution.ObjectiveValue());
        }

        [Fact]
        public void TestTransitMatrix()
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            long[][] matrix = new long[][] {
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
            };
            int transitCallbackIndex = routing.RegisterTransitMatrix(matrix);
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(transitCallbackIndex);
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            // 0 --(+1)-> 1 --(+1)-> 2 --(+1)-> 3 --(+1)-> 4 --(+1)-> 0 := +5
            Assert.Equal(5, solution.ObjectiveValue());
        }

        [Fact]
        public void TestTransitCallback()
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            int transitCallbackIndex = routing.RegisterTransitCallback(
                (long fromIndex, long toIndex) => {
                // Convert from routing variable Index to distance matrix NodeIndex.
                var fromNode = manager.IndexToNode(fromIndex);
                var toNode = manager.IndexToNode(toIndex);
                return Math.Abs(toNode - fromNode);
            });
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(transitCallbackIndex);
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            Assert.Equal(8, solution.ObjectiveValue());
        }

        [Fact]
        public void TestMatrixDimension()
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            long[][] matrix = new long[][] {
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
              new long[] {1, 1, 1, 1, 1},
            };
            IntBoolPair result = routing.AddMatrixDimension(
                matrix,
                /*capacity=*/10,
                /*fix_start_cumul_to_zero=*/true,
                "Dimension");
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(result.first);
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            // 0 --(+1)-> 1 --(+1)-> 2 --(+1)-> 3 --(+1)-> 4 --(+1)-> 0 := +5
            Assert.Equal(5, solution.ObjectiveValue());
        }

        [Fact]
        public void TestUnaryTransitVector()
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            long[] vector = { 1, 1, 1, 1, 1 };
            int transitCallbackIndex = routing.RegisterUnaryTransitVector(vector);
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(transitCallbackIndex);
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            // 0 --(+1)-> 1 --(+1)-> 2 --(+1)-> 3 --(+1)-> 4 --(+1)-> 0 := +5
            Assert.Equal(5, solution.ObjectiveValue());
        }

        [Fact]
        public void TestUnaryTransitCallback()
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            int transitCallbackIndex = routing.RegisterUnaryTransitCallback(
                (long fromIndex) => {
                // Convert from routing variable Index to distance matrix NodeIndex.
                var fromNode = manager.IndexToNode(fromIndex);
                return fromNode + 1;
            });
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(transitCallbackIndex);
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            // 0 --(+1)-> 1 --(+2)-> 2 --(+3)-> 3 --(+4)-> 4 --(+5)-> 0 := +15
            Assert.Equal(15, solution.ObjectiveValue());
        }

        [Fact]
        public void TestVectorDimension()
        {
            // Create Routing Index Manager
            RoutingIndexManager manager = new RoutingIndexManager(5 /*locations*/, 1 /*vehicle*/, 0 /*depot*/);
            // Create Routing Model.
            RoutingModel routing = new RoutingModel(manager);
            // Create a distance callback.
            long[] vector = new long[] {1, 1, 1, 1, 1};
            IntBoolPair result = routing.AddVectorDimension(
                vector,
                /*capacity=*/10,
                /*fix_start_cumul_to_zero=*/true,
                "Dimension");
            // Define cost of each arc.
            routing.SetArcCostEvaluatorOfAllVehicles(result.first);
            // Setting first solution heuristic.
            RoutingSearchParameters searchParameters =
                operations_research_constraint_solver.DefaultRoutingSearchParameters();
            searchParameters.FirstSolutionStrategy = FirstSolutionStrategy.Types.Value.PathCheapestArc;
            Assignment solution = routing.SolveWithParameters(searchParameters);
            // 0 --(+1)-> 1 --(+1)-> 2 --(+1)-> 3 --(+1)-> 4 --(+1)-> 0 := +5
            Assert.Equal(5, solution.ObjectiveValue());
        }
    }
} // namespace Google.OrTools.Tests