// Copyright 2010-2025 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] // Solves a multiple knapsack problem using the CP-SAT solver. package com.google.ortools.sat.samples; // [START import] import com.google.ortools.Loader; import com.google.ortools.sat.CpModel; import com.google.ortools.sat.CpSolver; import com.google.ortools.sat.CpSolverStatus; import com.google.ortools.sat.LinearExpr; import com.google.ortools.sat.LinearExprBuilder; import com.google.ortools.sat.Literal; import java.util.ArrayList; import java.util.List; import java.util.stream.IntStream; // [END import] /** Sample showing how to solve a multiple knapsack problem. */ public class MultipleKnapsackSat { public static void main(String[] args) { Loader.loadNativeLibraries(); // Instantiate the data problem. // [START data] final int[] weights = {48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36}; final int[] values = {10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25}; final int numItems = weights.length; final int[] allItems = IntStream.range(0, numItems).toArray(); final int[] binCapacities = {100, 100, 100, 100, 100}; final int numBins = binCapacities.length; final int[] allBins = IntStream.range(0, numBins).toArray(); // [END data] // [START model] CpModel model = new CpModel(); // [END model] // Variables. // [START variables] Literal[][] x = new Literal[numItems][numBins]; for (int i : allItems) { for (int b : allBins) { x[i][b] = model.newBoolVar("x_" + i + "_" + b); } } // [END variables] // Constraints. // [START constraints] // Each item is assigned to at most one bin. for (int i : allItems) { List bins = new ArrayList<>(); for (int b : allBins) { bins.add(x[i][b]); } model.addAtMostOne(bins); } // The amount packed in each bin cannot exceed its capacity. for (int b : allBins) { LinearExprBuilder load = LinearExpr.newBuilder(); for (int i : allItems) { load.addTerm(x[i][b], weights[i]); } model.addLessOrEqual(load, binCapacities[b]); } // [END constraints] // Objective. // [START objective] // Maximize total value of packed items. LinearExprBuilder obj = LinearExpr.newBuilder(); for (int i : allItems) { for (int b : allBins) { obj.addTerm(x[i][b], values[i]); } } model.maximize(obj); // [END objective] // [START solve] CpSolver solver = new CpSolver(); final CpSolverStatus status = solver.solve(model); // [END solve] // [START print_solution] // Check that the problem has an optimal solution. if (status == CpSolverStatus.OPTIMAL) { System.out.println("Total packed value: " + solver.objectiveValue()); long totalWeight = 0; for (int b : allBins) { long binWeight = 0; long binValue = 0; System.out.println("Bin " + b); for (int i : allItems) { if (solver.booleanValue(x[i][b])) { System.out.println("Item " + i + " weight: " + weights[i] + " value: " + values[i]); binWeight += weights[i]; binValue += values[i]; } } System.out.println("Packed bin weight: " + binWeight); System.out.println("Packed bin value: " + binValue); totalWeight += binWeight; } System.out.println("Total packed weight: " + totalWeight); } else { System.err.println("The problem does not have an optimal solution."); } // [END print_solution] } private MultipleKnapsackSat() {} } // [END program]