এই বিভাগটি দেখায় কিভাবে MIP সল্ভার এবং CP-SAT সমাধানকারী উভয় ব্যবহার করে একাধিক ন্যাপস্যাকের জন্য ন্যাপস্যাক সমস্যা সমাধান করা যায়। এই ক্ষেত্রে, ন্যাপস্যাকের পরিবর্তে পাত্রগুলিকে বিন হিসাবে উল্লেখ করা সাধারণ।
পরবর্তী উদাহরণ দেখায় কিভাবে পাঁচটি বিনে আইটেম প্যাক করার সর্বোত্তম উপায় খুঁজে বের করা যায়।
উদাহরণ
আগের উদাহরণের মতো, আপনি বিভিন্ন ওজন এবং মানের আইটেমগুলির একটি সংগ্রহ দিয়ে শুরু করেন। সমস্যা হল আইটেমগুলির একটি উপসেটকে পাঁচটি বিনে প্যাক করা, যার প্রতিটির সর্বোচ্চ ক্ষমতা 100, যাতে মোট প্যাক করা মান সর্বাধিক হয়।
নিম্নলিখিত বিভাগগুলি এই সমস্যার সমাধান করে এমন প্রোগ্রামগুলির বিভাগগুলি উপস্থাপন করে। সম্পূর্ণ প্রোগ্রামের জন্য, সম্পূর্ণ প্রোগ্রাম দেখুন।
এমআইপি সমাধান
নিম্নলিখিত বিভাগগুলি বর্ণনা করে কিভাবে MPSolver র্যাপার ব্যবহার করে সমস্যার সমাধান করা যায়।
লাইব্রেরি আমদানি করুন
নিম্নলিখিত কোড প্রয়োজনীয় লাইব্রেরি আমদানি করে।
পাইথন
from ortools.linear_solver import pywraplp
সি++
#include <iostream> #include <memory> #include <numeric> #include <vector> #include "absl/strings/str_format.h" #include "ortools/linear_solver/linear_expr.h" #include "ortools/linear_solver/linear_solver.h"
জাভা
import com.google.ortools.Loader; import com.google.ortools.linearsolver.MPConstraint; import com.google.ortools.linearsolver.MPObjective; import com.google.ortools.linearsolver.MPSolver; import com.google.ortools.linearsolver.MPVariable; import java.util.stream.IntStream;
সি#
using System; using System.Collections.Generic; using System.Linq; using Google.OrTools.LinearSolver;
ডেটা তৈরি করুন
নিম্নলিখিত কোডটি সমস্যার জন্য ডেটা তৈরি করে।
পাইথন
data = {}
data["weights"] = [48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36]
data["values"] = [10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25]
assert len(data["weights"]) == len(data["values"])
data["num_items"] = len(data["weights"])
data["all_items"] = range(data["num_items"])
data["bin_capacities"] = [100, 100, 100, 100, 100]
data["num_bins"] = len(data["bin_capacities"])
data["all_bins"] = range(data["num_bins"])সি++
const std::vector<int> weights = {
{48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36}};
const std::vector<int> values = {
{10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25}};
const int num_items = weights.size();
std::vector<int> all_items(num_items);
std::iota(all_items.begin(), all_items.end(), 0);
const std::vector<int> bin_capacities = {{100, 100, 100, 100, 100}};
const int num_bins = bin_capacities.size();
std::vector<int> all_bins(num_bins);
std::iota(all_bins.begin(), all_bins.end(), 0);জাভা
final double[] weights = {48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36};
final double[] 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 double[] binCapacities = {100, 100, 100, 100, 100};
final int numBins = binCapacities.length;
final int[] allBins = IntStream.range(0, numBins).toArray();সি#
double[] Weights = { 48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36 };
double[] Values = { 10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25 };
int NumItems = Weights.Length;
int[] allItems = Enumerable.Range(0, NumItems).ToArray();
double[] BinCapacities = { 100, 100, 100, 100, 100 };
int NumBins = BinCapacities.Length;
int[] allBins = Enumerable.Range(0, NumBins).ToArray();তথ্য নিম্নলিখিত অন্তর্ভুক্ত:
-
weights: আইটেমগুলির ওজন ধারণকারী একটি ভেক্টর। -
values: আইটেমগুলির মান ধারণকারী একটি ভেক্টর। -
capacities: বিনের ক্যাপাসিটি সম্বলিত একটি ভেক্টর।
এই উদাহরণে, সমস্ত বিনের একই ক্ষমতা রয়েছে, তবে এটি সাধারণভাবে সত্য হওয়ার দরকার নেই।
এমআইপি সমাধানকারী ঘোষণা করুন
নিম্নলিখিত কোড MIP সমাধানকারী ঘোষণা করে।
পাইথন
solver = pywraplp.Solver.CreateSolver("SCIP")
if solver is None:
print("SCIP solver unavailable.")
returnসি++
std::unique_ptr<MPSolver> solver(MPSolver::CreateSolver("SCIP"));
if (!solver) {
LOG(WARNING) << "SCIP solver unavailable.";
return;
}জাভা
// Create the linear solver with the SCIP backend.
MPSolver solver = MPSolver.createSolver("SCIP");
if (solver == null) {
System.out.println("Could not create solver SCIP");
return;
}সি#
// Create the linear solver with the SCIP backend.
Solver solver = Solver.CreateSolver("SCIP");
if (solver is null)
{
return;
}ভেরিয়েবল তৈরি করুন
নিম্নলিখিত কোডটি সমস্যার জন্য ভেরিয়েবল তৈরি করে।
পাইথন
# x[i, b] = 1 if item i is packed in bin b.
x = {}
for i in data["all_items"]:
for b in data["all_bins"]:
x[i, b] = solver.BoolVar(f"x_{i}_{b}")সি++
// x[i][b] = 1 if item i is packed in bin b.
std::vector<std::vector<const MPVariable*>> x(
num_items, std::vector<const MPVariable*>(num_bins));
for (int i : all_items) {
for (int b : all_bins) {
x[i][b] = solver->MakeBoolVar(absl::StrFormat("x_%d_%d", i, b));
}
}জাভা
MPVariable[][] x = new MPVariable[numItems][numBins];
for (int i : allItems) {
for (int b : allBins) {
x[i][b] = solver.makeBoolVar("x_" + i + "_" + b);
}
}সি#
Variable[,] x = new Variable[NumItems, NumBins];
foreach (int i in allItems)
{
foreach (int b in allBins)
{
x[i, b] = solver.MakeBoolVar($"x_{i}_{b}");
}
} প্রতিটি x[(i, j)] একটি 0-1 ভেরিয়েবল, যেখানে i একটি আইটেম এবং j একটি বিন। দ্রবণে, x[(i, j)] হবে 1 যদি i বিন j এ স্থাপন করা হয় এবং অন্যথায় 0।
সীমাবদ্ধতা সংজ্ঞায়িত করুন
নিম্নলিখিত কোড সমস্যার জন্য সীমাবদ্ধতা সংজ্ঞায়িত করে:
পাইথন
# Each item is assigned to at most one bin.
for i in data["all_items"]:
solver.Add(sum(x[i, b] for b in data["all_bins"]) <= 1)
# The amount packed in each bin cannot exceed its capacity.
for b in data["all_bins"]:
solver.Add(
sum(x[i, b] * data["weights"][i] for i in data["all_items"])
<= data["bin_capacities"][b]
)সি++
// Each item is assigned to at most one bin.
for (int i : all_items) {
LinearExpr sum;
for (int b : all_bins) {
sum += x[i][b];
}
solver->MakeRowConstraint(sum <= 1.0);
}
// The amount packed in each bin cannot exceed its capacity.
for (int b : all_bins) {
LinearExpr bin_weight;
for (int i : all_items) {
bin_weight += LinearExpr(x[i][b]) * weights[i];
}
solver->MakeRowConstraint(bin_weight <= bin_capacities[b]);
}জাভা
// Each item is assigned to at most one bin.
for (int i : allItems) {
MPConstraint constraint = solver.makeConstraint(0, 1, "");
for (int b : allBins) {
constraint.setCoefficient(x[i][b], 1);
}
}
// The amount packed in each bin cannot exceed its capacity.
for (int b : allBins) {
MPConstraint constraint = solver.makeConstraint(0, binCapacities[b], "");
for (int i : allItems) {
constraint.setCoefficient(x[i][b], weights[i]);
}
}সি#
// Each item is assigned to at most one bin.
foreach (int i in allItems)
{
Constraint constraint = solver.MakeConstraint(0, 1, "");
foreach (int b in allBins)
{
constraint.SetCoefficient(x[i, b], 1);
}
}
// The amount packed in each bin cannot exceed its capacity.
foreach (int b in allBins)
{
Constraint constraint = solver.MakeConstraint(0, BinCapacities[b], "");
foreach (int i in allItems)
{
constraint.SetCoefficient(x[i, b], Weights[i]);
}
}সীমাবদ্ধতাগুলি নিম্নরূপ:
- প্রতিটি আইটেম সর্বাধিক একটি বিনে স্থাপন করা যেতে পারে. এই সীমাবদ্ধতাটি সেট করা হয়েছে
x[i, j]এর যোগফলকে 1 এর থেকে কম বা সমান হওয়া সমস্ত বিনjএর উপর। - প্রতিটি বিনে প্যাক করা মোট ওজন তার ক্ষমতা অতিক্রম করতে পারে না। এই সীমাবদ্ধতা বিন
jএ রাখা আইটেমগুলির ওজনের যোগফল বিনের ক্ষমতার চেয়ে কম বা সমান হওয়া প্রয়োজন দ্বারা সেট করা হয়।
উদ্দেশ্য সংজ্ঞায়িত করুন
নিম্নলিখিত কোডটি সমস্যার জন্য উদ্দেশ্য ফাংশন সংজ্ঞায়িত করে, যা প্যাক করা আইটেমগুলির মোট মান।
পাইথন
# Maximize total value of packed items.
objective = solver.Objective()
for i in data["all_items"]:
for b in data["all_bins"]:
objective.SetCoefficient(x[i, b], data["values"][i])
objective.SetMaximization()সি++
// Maximize total value of packed items.
MPObjective* const objective = solver->MutableObjective();
LinearExpr objective_value;
for (int i : all_items) {
for (int b : all_bins) {
objective_value += LinearExpr(x[i][b]) * values[i];
}
}
objective->MaximizeLinearExpr(objective_value);জাভা
// Maximize total value of packed items.
MPObjective objective = solver.objective();
for (int i : allItems) {
for (int b : allBins) {
objective.setCoefficient(x[i][b], values[i]);
}
}
objective.setMaximization();সি#
Objective objective = solver.Objective();
foreach (int i in allItems)
{
foreach (int b in allBins)
{
objective.SetCoefficient(x[i, b], Values[i]);
}
}
objective.SetMaximization(); মনে রাখবেন x[i, j] * data['values'][i] i মানকে উদ্দেশ্যের সাথে যোগ করে যদি আইটেমটি বিন j এ রাখা হয়। যদি i কোনো বিনের মধ্যে না রাখা হয়, তাহলে এর মান উদ্দেশ্যটিতে অবদান রাখে না।
সমাধানকারীকে আহ্বান করুন
নিম্নলিখিত কোডটি সমাধানকারীকে আহ্বান করে।
পাইথন
print(f"Solving with {solver.SolverVersion()}")
status = solver.Solve()সি++
const MPSolver::ResultStatus result_status = solver->Solve();
জাভা
final MPSolver.ResultStatus status = solver.solve();
সি#
Solver.ResultStatus resultStatus = solver.Solve();
সমাধান প্রিন্ট করুন
নিম্নলিখিত কোডটি সমস্যার সমাধান প্রিন্ট করে।
পাইথন
if status == pywraplp.Solver.OPTIMAL:
print(f"Total packed value: {objective.Value()}")
total_weight = 0
for b in data["all_bins"]:
print(f"Bin {b}")
bin_weight = 0
bin_value = 0
for i in data["all_items"]:
if x[i, b].solution_value() > 0:
print(
f"Item {i} weight: {data['weights'][i]} value:"
f" {data['values'][i]}"
)
bin_weight += data["weights"][i]
bin_value += data["values"][i]
print(f"Packed bin weight: {bin_weight}")
print(f"Packed bin value: {bin_value}\n")
total_weight += bin_weight
print(f"Total packed weight: {total_weight}")
else:
print("The problem does not have an optimal solution.")সি++
if (result_status == MPSolver::OPTIMAL) {
LOG(INFO) << "Total packed value: " << objective->Value();
double total_weight = 0.0;
for (int b : all_bins) {
LOG(INFO) << "Bin " << b;
double bin_weight = 0.0;
double bin_value = 0.0;
for (int i : all_items) {
if (x[i][b]->solution_value() > 0) {
LOG(INFO) << "Item " << i << " weight: " << weights[i]
<< " value: " << values[i];
bin_weight += weights[i];
bin_value += values[i];
}
}
LOG(INFO) << "Packed bin weight: " << bin_weight;
LOG(INFO) << "Packed bin value: " << bin_value;
total_weight += bin_weight;
}
LOG(INFO) << "Total packed weight: " << total_weight;
} else {
LOG(INFO) << "The problem does not have an optimal solution.";
}জাভা
// Check that the problem has an optimal solution.
if (status == MPSolver.ResultStatus.OPTIMAL) {
System.out.println("Total packed value: " + objective.value());
double totalWeight = 0;
for (int b : allBins) {
double binWeight = 0;
double binValue = 0;
System.out.println("Bin " + b);
for (int i : allItems) {
if (x[i][b].solutionValue() == 1) {
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.");
}সি#
// Check that the problem has an optimal solution.
if (resultStatus == Solver.ResultStatus.OPTIMAL)
{
Console.WriteLine($"Total packed value: {solver.Objective().Value()}");
double TotalWeight = 0.0;
foreach (int b in allBins)
{
double BinWeight = 0.0;
double BinValue = 0.0;
Console.WriteLine("Bin " + b);
foreach (int i in allItems)
{
if (x[i, b].SolutionValue() == 1)
{
Console.WriteLine($"Item {i} weight: {Weights[i]} values: {Values[i]}");
BinWeight += Weights[i];
BinValue += Values[i];
}
}
Console.WriteLine("Packed bin weight: " + BinWeight);
Console.WriteLine("Packed bin value: " + BinValue);
TotalWeight += BinWeight;
}
Console.WriteLine("Total packed weight: " + TotalWeight);
}
else
{
Console.WriteLine("The problem does not have an optimal solution!");
}প্রতিটি বিনের জন্য, কোডটি সেই বিনে রাখা আইটেমগুলি, সেইসাথে বিনের মোট মান এবং ওজন প্রদর্শন করে। কোডটি প্যাক করা আইটেমগুলির সামগ্রিক মোট মান এবং ওজনও প্রদর্শন করে।
আপনি যখন প্রোগ্রাম চালান, এটি নিম্নলিখিত আউটপুট প্রদর্শন করে।
Total packed value: 395.0 Bin 0 Item 3 - weight: 36 value: 50 Item 13 - weight: 36 value: 30 Packed bin weight: 72 Packed bin value: 80 Bin 1 Item 5 - weight: 48 value: 30 Item 7 - weight: 42 value: 40 Packed bin weight: 90 Packed bin value: 70 Bin 2 Item 1 - weight: 30 value: 30 Item 10 - weight: 30 value: 45 Item 14 - weight: 36 value: 25 Packed bin weight: 96 Packed bin value: 100 Bin 3 Item 2 - weight: 42 value: 25 Item 12 - weight: 42 value: 20 Packed bin weight: 84 Packed bin value: 45 Bin 4 Item 4 - weight: 36 value: 35 Item 8 - weight: 36 value: 30 Item 9 - weight: 24 value: 35 Packed bin weight: 96 Packed bin value: 100 Total packed weight: 438
সম্পূর্ণ প্রোগ্রাম
একাধিক ন্যাপস্যাকের জন্য সম্পূর্ণ প্রোগ্রামগুলি নীচে দেখানো হয়েছে৷
পাইথন
"""Solve a multiple knapsack problem using a MIP solver."""
from ortools.linear_solver import pywraplp
def main():
data = {}
data["weights"] = [48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36]
data["values"] = [10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25]
assert len(data["weights"]) == len(data["values"])
data["num_items"] = len(data["weights"])
data["all_items"] = range(data["num_items"])
data["bin_capacities"] = [100, 100, 100, 100, 100]
data["num_bins"] = len(data["bin_capacities"])
data["all_bins"] = range(data["num_bins"])
# Create the mip solver with the SCIP backend.
solver = pywraplp.Solver.CreateSolver("SCIP")
if solver is None:
print("SCIP solver unavailable.")
return
# Variables.
# x[i, b] = 1 if item i is packed in bin b.
x = {}
for i in data["all_items"]:
for b in data["all_bins"]:
x[i, b] = solver.BoolVar(f"x_{i}_{b}")
# Constraints.
# Each item is assigned to at most one bin.
for i in data["all_items"]:
solver.Add(sum(x[i, b] for b in data["all_bins"]) <= 1)
# The amount packed in each bin cannot exceed its capacity.
for b in data["all_bins"]:
solver.Add(
sum(x[i, b] * data["weights"][i] for i in data["all_items"])
<= data["bin_capacities"][b]
)
# Objective.
# Maximize total value of packed items.
objective = solver.Objective()
for i in data["all_items"]:
for b in data["all_bins"]:
objective.SetCoefficient(x[i, b], data["values"][i])
objective.SetMaximization()
print(f"Solving with {solver.SolverVersion()}")
status = solver.Solve()
if status == pywraplp.Solver.OPTIMAL:
print(f"Total packed value: {objective.Value()}")
total_weight = 0
for b in data["all_bins"]:
print(f"Bin {b}")
bin_weight = 0
bin_value = 0
for i in data["all_items"]:
if x[i, b].solution_value() > 0:
print(
f"Item {i} weight: {data['weights'][i]} value:"
f" {data['values'][i]}"
)
bin_weight += data["weights"][i]
bin_value += data["values"][i]
print(f"Packed bin weight: {bin_weight}")
print(f"Packed bin value: {bin_value}\n")
total_weight += bin_weight
print(f"Total packed weight: {total_weight}")
else:
print("The problem does not have an optimal solution.")
if __name__ == "__main__":
main()সি++
// Solve a multiple knapsack problem using a MIP solver.
#include <iostream>
#include <memory>
#include <numeric>
#include <vector>
#include "absl/strings/str_format.h"
#include "ortools/linear_solver/linear_expr.h"
#include "ortools/linear_solver/linear_solver.h"
namespace operations_research {
void MultipleKnapsackMip() {
const std::vector<int> weights = {
{48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36}};
const std::vector<int> values = {
{10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25}};
const int num_items = weights.size();
std::vector<int> all_items(num_items);
std::iota(all_items.begin(), all_items.end(), 0);
const std::vector<int> bin_capacities = {{100, 100, 100, 100, 100}};
const int num_bins = bin_capacities.size();
std::vector<int> all_bins(num_bins);
std::iota(all_bins.begin(), all_bins.end(), 0);
// Create the mip solver with the SCIP backend.
std::unique_ptr<MPSolver> solver(MPSolver::CreateSolver("SCIP"));
if (!solver) {
LOG(WARNING) << "SCIP solver unavailable.";
return;
}
// Variables.
// x[i][b] = 1 if item i is packed in bin b.
std::vector<std::vector<const MPVariable*>> x(
num_items, std::vector<const MPVariable*>(num_bins));
for (int i : all_items) {
for (int b : all_bins) {
x[i][b] = solver->MakeBoolVar(absl::StrFormat("x_%d_%d", i, b));
}
}
// Constraints.
// Each item is assigned to at most one bin.
for (int i : all_items) {
LinearExpr sum;
for (int b : all_bins) {
sum += x[i][b];
}
solver->MakeRowConstraint(sum <= 1.0);
}
// The amount packed in each bin cannot exceed its capacity.
for (int b : all_bins) {
LinearExpr bin_weight;
for (int i : all_items) {
bin_weight += LinearExpr(x[i][b]) * weights[i];
}
solver->MakeRowConstraint(bin_weight <= bin_capacities[b]);
}
// Objective.
// Maximize total value of packed items.
MPObjective* const objective = solver->MutableObjective();
LinearExpr objective_value;
for (int i : all_items) {
for (int b : all_bins) {
objective_value += LinearExpr(x[i][b]) * values[i];
}
}
objective->MaximizeLinearExpr(objective_value);
const MPSolver::ResultStatus result_status = solver->Solve();
if (result_status == MPSolver::OPTIMAL) {
LOG(INFO) << "Total packed value: " << objective->Value();
double total_weight = 0.0;
for (int b : all_bins) {
LOG(INFO) << "Bin " << b;
double bin_weight = 0.0;
double bin_value = 0.0;
for (int i : all_items) {
if (x[i][b]->solution_value() > 0) {
LOG(INFO) << "Item " << i << " weight: " << weights[i]
<< " value: " << values[i];
bin_weight += weights[i];
bin_value += values[i];
}
}
LOG(INFO) << "Packed bin weight: " << bin_weight;
LOG(INFO) << "Packed bin value: " << bin_value;
total_weight += bin_weight;
}
LOG(INFO) << "Total packed weight: " << total_weight;
} else {
LOG(INFO) << "The problem does not have an optimal solution.";
}
}
} // namespace operations_research
int main(int argc, char** argv) {
operations_research::MultipleKnapsackMip();
return EXIT_SUCCESS;
}জাভা
// Solve a multiple knapsack problem using a MIP solver.
package com.google.ortools.linearsolver.samples;
import com.google.ortools.Loader;
import com.google.ortools.linearsolver.MPConstraint;
import com.google.ortools.linearsolver.MPObjective;
import com.google.ortools.linearsolver.MPSolver;
import com.google.ortools.linearsolver.MPVariable;
import java.util.stream.IntStream;
/** Multiple knapsack problem. */
public class MultipleKnapsackMip {
public static void main(String[] args) {
Loader.loadNativeLibraries();
// Instantiate the data problem.
final double[] weights = {48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36};
final double[] 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 double[] binCapacities = {100, 100, 100, 100, 100};
final int numBins = binCapacities.length;
final int[] allBins = IntStream.range(0, numBins).toArray();
// Create the linear solver with the SCIP backend.
MPSolver solver = MPSolver.createSolver("SCIP");
if (solver == null) {
System.out.println("Could not create solver SCIP");
return;
}
// Variables.
MPVariable[][] x = new MPVariable[numItems][numBins];
for (int i : allItems) {
for (int b : allBins) {
x[i][b] = solver.makeBoolVar("x_" + i + "_" + b);
}
}
// Constraints.
// Each item is assigned to at most one bin.
for (int i : allItems) {
MPConstraint constraint = solver.makeConstraint(0, 1, "");
for (int b : allBins) {
constraint.setCoefficient(x[i][b], 1);
}
}
// The amount packed in each bin cannot exceed its capacity.
for (int b : allBins) {
MPConstraint constraint = solver.makeConstraint(0, binCapacities[b], "");
for (int i : allItems) {
constraint.setCoefficient(x[i][b], weights[i]);
}
}
// Objective.
// Maximize total value of packed items.
MPObjective objective = solver.objective();
for (int i : allItems) {
for (int b : allBins) {
objective.setCoefficient(x[i][b], values[i]);
}
}
objective.setMaximization();
final MPSolver.ResultStatus status = solver.solve();
// Check that the problem has an optimal solution.
if (status == MPSolver.ResultStatus.OPTIMAL) {
System.out.println("Total packed value: " + objective.value());
double totalWeight = 0;
for (int b : allBins) {
double binWeight = 0;
double binValue = 0;
System.out.println("Bin " + b);
for (int i : allItems) {
if (x[i][b].solutionValue() == 1) {
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.");
}
}
private MultipleKnapsackMip() {}
}সি#
// Solve a multiple knapsack problem using a MIP solver.
using System;
using System.Collections.Generic;
using System.Linq;
using Google.OrTools.LinearSolver;
public class MultipleKnapsackMip
{
public static void Main()
{
// Instantiate the data problem.
double[] Weights = { 48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36 };
double[] Values = { 10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25 };
int NumItems = Weights.Length;
int[] allItems = Enumerable.Range(0, NumItems).ToArray();
double[] BinCapacities = { 100, 100, 100, 100, 100 };
int NumBins = BinCapacities.Length;
int[] allBins = Enumerable.Range(0, NumBins).ToArray();
// Create the linear solver with the SCIP backend.
Solver solver = Solver.CreateSolver("SCIP");
if (solver is null)
{
return;
}
// Variables.
Variable[,] x = new Variable[NumItems, NumBins];
foreach (int i in allItems)
{
foreach (int b in allBins)
{
x[i, b] = solver.MakeBoolVar($"x_{i}_{b}");
}
}
// Constraints.
// Each item is assigned to at most one bin.
foreach (int i in allItems)
{
Constraint constraint = solver.MakeConstraint(0, 1, "");
foreach (int b in allBins)
{
constraint.SetCoefficient(x[i, b], 1);
}
}
// The amount packed in each bin cannot exceed its capacity.
foreach (int b in allBins)
{
Constraint constraint = solver.MakeConstraint(0, BinCapacities[b], "");
foreach (int i in allItems)
{
constraint.SetCoefficient(x[i, b], Weights[i]);
}
}
// Objective.
Objective objective = solver.Objective();
foreach (int i in allItems)
{
foreach (int b in allBins)
{
objective.SetCoefficient(x[i, b], Values[i]);
}
}
objective.SetMaximization();
Solver.ResultStatus resultStatus = solver.Solve();
// Check that the problem has an optimal solution.
if (resultStatus == Solver.ResultStatus.OPTIMAL)
{
Console.WriteLine($"Total packed value: {solver.Objective().Value()}");
double TotalWeight = 0.0;
foreach (int b in allBins)
{
double BinWeight = 0.0;
double BinValue = 0.0;
Console.WriteLine("Bin " + b);
foreach (int i in allItems)
{
if (x[i, b].SolutionValue() == 1)
{
Console.WriteLine($"Item {i} weight: {Weights[i]} values: {Values[i]}");
BinWeight += Weights[i];
BinValue += Values[i];
}
}
Console.WriteLine("Packed bin weight: " + BinWeight);
Console.WriteLine("Packed bin value: " + BinValue);
TotalWeight += BinWeight;
}
Console.WriteLine("Total packed weight: " + TotalWeight);
}
else
{
Console.WriteLine("The problem does not have an optimal solution!");
}
}
}CP SAT সমাধান
নিম্নলিখিত বিভাগগুলি CP-SAT সমাধানকারী ব্যবহার করে কীভাবে সমস্যার সমাধান করতে হয় তা বর্ণনা করে।
লাইব্রেরি আমদানি করুন
নিম্নলিখিত কোড প্রয়োজনীয় লাইব্রেরি আমদানি করে।
পাইথন
from ortools.sat.python import cp_model
সি++
#include <stdlib.h> #include <map> #include <numeric> #include <tuple> #include <vector> #include "absl/strings/str_format.h" #include "ortools/base/logging.h" #include "ortools/sat/cp_model.h" #include "ortools/sat/cp_model.pb.h" #include "ortools/sat/cp_model_solver.h"
জাভা
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;
সি#
using System;
using System.Collections.Generic;
using System.Linq;
using Google.OrTools.Sat;
public class MultipleKnapsackSat
{
public static void Main(String[] args)
{
// Instantiate the data problem.
int[] Weights = { 48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36 };
int[] Values = { 10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25 };
int NumItems = Weights.Length;
int[] allItems = Enumerable.Range(0, NumItems).ToArray();
int[] BinCapacities = { 100, 100, 100, 100, 100 };
int NumBins = BinCapacities.Length;
int[] allBins = Enumerable.Range(0, NumBins).ToArray();
// Model.
CpModel model = new CpModel();
// Variables.
ILiteral[,] x = new ILiteral[NumItems, NumBins];
foreach (int i in allItems)
{
foreach (int b in allBins)
{
x[i, b] = model.NewBoolVar($"x_{i}_{b}");
}
}
// Constraints.
// Each item is assigned to at most one bin.
foreach (int i in allItems)
{
List<ILiteral> literals = new List<ILiteral>();
foreach (int b in allBins)
{
literals.Add(x[i, b]);
}
model.AddAtMostOne(literals);
}
// The amount packed in each bin cannot exceed its capacity.
foreach (int b in allBins)
{
List<ILiteral> items = new List<ILiteral>();
foreach (int i in allItems)
{
items.Add(x[i, b]);
}
model.Add(LinearExpr.WeightedSum(items, Weights) <= BinCapacities[b]);
}
// Objective.
LinearExprBuilder obj = LinearExpr.NewBuilder();
foreach (int i in allItems)
{
foreach (int b in allBins)
{
obj.AddTerm(x[i, b], Values[i]);
}
}
model.Maximize(obj);
// Solve
CpSolver solver = new CpSolver();
CpSolverStatus status = solver.Solve(model);
// Print solution.
// Check that the problem has a feasible solution.
if (status == CpSolverStatus.Optimal || status == CpSolverStatus.Feasible)
{
Console.WriteLine($"Total packed value: {solver.ObjectiveValue}");
double TotalWeight = 0.0;
foreach (int b in allBins)
{
double BinWeight = 0.0;
double BinValue = 0.0;
Console.WriteLine($"Bin {b}");
foreach (int i in allItems)
{
if (solver.BooleanValue(x[i, b]))
{
Console.WriteLine($"Item {i} weight: {Weights[i]} values: {Values[i]}");
BinWeight += Weights[i];
BinValue += Values[i];
}
}
Console.WriteLine("Packed bin weight: " + BinWeight);
Console.WriteLine("Packed bin value: " + BinValue);
TotalWeight += BinWeight;
}
Console.WriteLine("Total packed weight: " + TotalWeight);
}
else
{
Console.WriteLine("No solution found.");
}
Console.WriteLine("Statistics");
Console.WriteLine($" conflicts: {solver.NumConflicts()}");
Console.WriteLine($" branches : {solver.NumBranches()}");
Console.WriteLine($" wall time: {solver.WallTime()}s");
}
}
মডেল ঘোষণা করুন
নিম্নলিখিত কোডটি CP-SAT মডেল ঘোষণা করে।
পাইথন
model = cp_model.CpModel()
সি++
CpModelBuilder cp_model;
জাভা
CpModel model = new CpModel();
সি#
CpModel model = new CpModel();
ডেটা তৈরি করুন
নিম্নলিখিত কোডটি সমস্যার জন্য ডেটা সেট আপ করে।
পাইথন
data = {}
data["weights"] = [48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36]
data["values"] = [10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25]
assert len(data["weights"]) == len(data["values"])
num_items = len(data["weights"])
all_items = range(num_items)
data["bin_capacities"] = [100, 100, 100, 100, 100]
num_bins = len(data["bin_capacities"])
all_bins = range(num_bins)সি++
const std::vector<int> weights = {
{48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36}};
const std::vector<int> values = {
{10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25}};
const int num_items = static_cast<int>(weights.size());
std::vector<int> all_items(num_items);
std::iota(all_items.begin(), all_items.end(), 0);
const std::vector<int> bin_capacities = {{100, 100, 100, 100, 100}};
const int num_bins = static_cast<int>(bin_capacities.size());
std::vector<int> all_bins(num_bins);
std::iota(all_bins.begin(), all_bins.end(), 0);জাভা
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();সি#
int[] Weights = { 48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36 };
int[] Values = { 10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25 };
int NumItems = Weights.Length;
int[] allItems = Enumerable.Range(0, NumItems).ToArray();
int[] BinCapacities = { 100, 100, 100, 100, 100 };
int NumBins = BinCapacities.Length;
int[] allBins = Enumerable.Range(0, NumBins).ToArray(); costs অ্যারেটি উপরে দেখানো কাজের জন্য কর্মীদের নিয়োগের জন্য খরচের টেবিলের সাথে মিলে যায়।
ভেরিয়েবল তৈরি করুন
নিম্নলিখিত কোডটি সমস্যার জন্য বাইনারি পূর্ণসংখ্যা ভেরিয়েবল তৈরি করে।
পাইথন
# x[i, b] = 1 if item i is packed in bin b.
x = {}
for i in all_items:
for b in all_bins:
x[i, b] = model.new_bool_var(f"x_{i}_{b}")সি++
// x[i, b] = 1 if item i is packed in bin b.
std::map<std::tuple<int, int>, BoolVar> x;
for (int i : all_items) {
for (int b : all_bins) {
auto key = std::make_tuple(i, b);
x[key] = cp_model.NewBoolVar().WithName(absl::StrFormat("x_%d_%d", i, b));
}
}জাভা
Literal[][] x = new Literal[numItems][numBins];
for (int i : allItems) {
for (int b : allBins) {
x[i][b] = model.newBoolVar("x_" + i + "_" + b);
}
}সি#
ILiteral[,] x = new ILiteral[NumItems, NumBins];
foreach (int i in allItems)
{
foreach (int b in allBins)
{
x[i, b] = model.NewBoolVar($"x_{i}_{b}");
}
}সীমাবদ্ধতা তৈরি করুন
নিম্নলিখিত কোডটি সমস্যার জন্য সীমাবদ্ধতা তৈরি করে।
পাইথন
# Each item is assigned to at most one bin.
for i in all_items:
model.add_at_most_one(x[i, b] for b in all_bins)
# The amount packed in each bin cannot exceed its capacity.
for b in all_bins:
model.add(
sum(x[i, b] * data["weights"][i] for i in all_items)
<= data["bin_capacities"][b]
)সি++
// Each item is assigned to at most one bin.
for (int i : all_items) {
std::vector<BoolVar> copies;
for (int b : all_bins) {
copies.push_back(x[std::make_tuple(i, b)]);
}
cp_model.AddAtMostOne(copies);
}
// The amount packed in each bin cannot exceed its capacity.
for (int b : all_bins) {
LinearExpr bin_weight;
for (int i : all_items) {
bin_weight += x[std::make_tuple(i, b)] * weights[i];
}
cp_model.AddLessOrEqual(bin_weight, bin_capacities[b]);
}জাভা
// Each item is assigned to at most one bin.
for (int i : allItems) {
List<Literal> 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]);
}সি#
// Each item is assigned to at most one bin.
foreach (int i in allItems)
{
List<ILiteral> literals = new List<ILiteral>();
foreach (int b in allBins)
{
literals.Add(x[i, b]);
}
model.AddAtMostOne(literals);
}
// The amount packed in each bin cannot exceed its capacity.
foreach (int b in allBins)
{
List<ILiteral> items = new List<ILiteral>();
foreach (int i in allItems)
{
items.Add(x[i, b]);
}
model.Add(LinearExpr.WeightedSum(items, Weights) <= BinCapacities[b]);
}উদ্দেশ্য ফাংশন তৈরি করুন
নিম্নলিখিত কোডটি সমস্যার জন্য উদ্দেশ্য ফাংশন তৈরি করে।
পাইথন
# maximize total value of packed items.
objective = []
for i in all_items:
for b in all_bins:
objective.append(cp_model.LinearExpr.term(x[i, b], data["values"][i]))
model.maximize(cp_model.LinearExpr.sum(objective))সি++
// Maximize total value of packed items.
LinearExpr objective;
for (int i : all_items) {
for (int b : all_bins) {
objective += x[std::make_tuple(i, b)] * values[i];
}
}
cp_model.Maximize(objective);জাভা
// 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);সি#
LinearExprBuilder obj = LinearExpr.NewBuilder();
foreach (int i in allItems)
{
foreach (int b in allBins)
{
obj.AddTerm(x[i, b], Values[i]);
}
}
model.Maximize(obj);উদ্দেশ্য ফাংশনের মান হল সমস্ত ভেরিয়েবলের মোট খরচ যা সমাধানকারী দ্বারা 1 মান নির্ধারণ করা হয়েছে।
সমাধানকারীকে আহ্বান করুন
নিম্নলিখিত কোডটি সমাধানকারীকে আহ্বান করে।
পাইথন
solver = cp_model.CpSolver() status = solver.solve(model)
সি++
const CpSolverResponse response = Solve(cp_model.Build());
জাভা
CpSolver solver = new CpSolver(); final CpSolverStatus status = solver.solve(model);
সি#
CpSolver solver = new CpSolver(); CpSolverStatus status = solver.Solve(model);
সমাধান প্রিন্ট করুন
নিম্নলিখিত কোডটি সমস্যার সমাধান প্রিন্ট করে।
পাইথন
if status == cp_model.OPTIMAL:
print(f"Total packed value: {solver.objective_value}")
total_weight = 0
for b in all_bins:
print(f"Bin {b}")
bin_weight = 0
bin_value = 0
for i in all_items:
if solver.value(x[i, b]) > 0:
print(
f'Item:{i} weight:{data["weights"][i]} value:{data["values"][i]}'
)
bin_weight += data["weights"][i]
bin_value += data["values"][i]
print(f"Packed bin weight: {bin_weight}")
print(f"Packed bin value: {bin_value}\n")
total_weight += bin_weight
print(f"Total packed weight: {total_weight}")
else:
print("The problem does not have an optimal solution.")সি++
if (response.status() == CpSolverStatus::OPTIMAL ||
response.status() == CpSolverStatus::FEASIBLE) {
LOG(INFO) << "Total packed value: " << response.objective_value();
double total_weight = 0.0;
for (int b : all_bins) {
LOG(INFO) << "Bin " << b;
double bin_weight = 0.0;
double bin_value = 0.0;
for (int i : all_items) {
auto key = std::make_tuple(i, b);
if (SolutionIntegerValue(response, x[key]) > 0) {
LOG(INFO) << "Item " << i << " weight: " << weights[i]
<< " value: " << values[i];
bin_weight += weights[i];
bin_value += values[i];
}
}
LOG(INFO) << "Packed bin weight: " << bin_weight;
LOG(INFO) << "Packed bin value: " << bin_value;
total_weight += bin_weight;
}
LOG(INFO) << "Total packed weight: " << total_weight;
} else {
LOG(INFO) << "The problem does not have an optimal solution.";
}জাভা
// 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.");
}সি#
// Check that the problem has a feasible solution.
if (status == CpSolverStatus.Optimal || status == CpSolverStatus.Feasible)
{
Console.WriteLine($"Total packed value: {solver.ObjectiveValue}");
double TotalWeight = 0.0;
foreach (int b in allBins)
{
double BinWeight = 0.0;
double BinValue = 0.0;
Console.WriteLine($"Bin {b}");
foreach (int i in allItems)
{
if (solver.BooleanValue(x[i, b]))
{
Console.WriteLine($"Item {i} weight: {Weights[i]} values: {Values[i]}");
BinWeight += Weights[i];
BinValue += Values[i];
}
}
Console.WriteLine("Packed bin weight: " + BinWeight);
Console.WriteLine("Packed bin value: " + BinValue);
TotalWeight += BinWeight;
}
Console.WriteLine("Total packed weight: " + TotalWeight);
}
else
{
Console.WriteLine("No solution found.");
}এখানে প্রোগ্রামের আউটপুট আছে।
Total packed value: 395.0 Bin 0 Item 3 - weight: 36 value: 50 Item 13 - weight: 36 value: 30 Packed bin weight: 72 Packed bin value: 80 Bin 1 Item 5 - weight: 48 value: 30 Item 7 - weight: 42 value: 40 Packed bin weight: 90 Packed bin value: 70 Bin 2 Item 1 - weight: 30 value: 30 Item 10 - weight: 30 value: 45 Item 14 - weight: 36 value: 25 Packed bin weight: 96 Packed bin value: 100 Bin 3 Item 2 - weight: 42 value: 25 Item 12 - weight: 42 value: 20 Packed bin weight: 84 Packed bin value: 45 Bin 4 Item 4 - weight: 36 value: 35 Item 8 - weight: 36 value: 30 Item 9 - weight: 24 value: 35 Packed bin weight: 96 Packed bin value: 100 Total packed weight: 438
সম্পূর্ণ প্রোগ্রাম
এখানে CP-SAT সমাধানের জন্য সম্পূর্ণ প্রোগ্রাম রয়েছে।
পাইথন
"""Solves a multiple knapsack problem using the CP-SAT solver."""
from ortools.sat.python import cp_model
def main() -> None:
data = {}
data["weights"] = [48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36]
data["values"] = [10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25]
assert len(data["weights"]) == len(data["values"])
num_items = len(data["weights"])
all_items = range(num_items)
data["bin_capacities"] = [100, 100, 100, 100, 100]
num_bins = len(data["bin_capacities"])
all_bins = range(num_bins)
model = cp_model.CpModel()
# Variables.
# x[i, b] = 1 if item i is packed in bin b.
x = {}
for i in all_items:
for b in all_bins:
x[i, b] = model.new_bool_var(f"x_{i}_{b}")
# Constraints.
# Each item is assigned to at most one bin.
for i in all_items:
model.add_at_most_one(x[i, b] for b in all_bins)
# The amount packed in each bin cannot exceed its capacity.
for b in all_bins:
model.add(
sum(x[i, b] * data["weights"][i] for i in all_items)
<= data["bin_capacities"][b]
)
# Objective.
# maximize total value of packed items.
objective = []
for i in all_items:
for b in all_bins:
objective.append(cp_model.LinearExpr.term(x[i, b], data["values"][i]))
model.maximize(cp_model.LinearExpr.sum(objective))
solver = cp_model.CpSolver()
status = solver.solve(model)
if status == cp_model.OPTIMAL:
print(f"Total packed value: {solver.objective_value}")
total_weight = 0
for b in all_bins:
print(f"Bin {b}")
bin_weight = 0
bin_value = 0
for i in all_items:
if solver.value(x[i, b]) > 0:
print(
f'Item:{i} weight:{data["weights"][i]} value:{data["values"][i]}'
)
bin_weight += data["weights"][i]
bin_value += data["values"][i]
print(f"Packed bin weight: {bin_weight}")
print(f"Packed bin value: {bin_value}\n")
total_weight += bin_weight
print(f"Total packed weight: {total_weight}")
else:
print("The problem does not have an optimal solution.")
if __name__ == "__main__":
main()সি++
// Solves a multiple knapsack problem using the CP-SAT solver.
#include <stdlib.h>
#include <map>
#include <numeric>
#include <tuple>
#include <vector>
#include "absl/strings/str_format.h"
#include "ortools/base/logging.h"
#include "ortools/sat/cp_model.h"
#include "ortools/sat/cp_model.pb.h"
#include "ortools/sat/cp_model_solver.h"
namespace operations_research {
namespace sat {
void MultipleKnapsackSat() {
const std::vector<int> weights = {
{48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36}};
const std::vector<int> values = {
{10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25}};
const int num_items = static_cast<int>(weights.size());
std::vector<int> all_items(num_items);
std::iota(all_items.begin(), all_items.end(), 0);
const std::vector<int> bin_capacities = {{100, 100, 100, 100, 100}};
const int num_bins = static_cast<int>(bin_capacities.size());
std::vector<int> all_bins(num_bins);
std::iota(all_bins.begin(), all_bins.end(), 0);
CpModelBuilder cp_model;
// Variables.
// x[i, b] = 1 if item i is packed in bin b.
std::map<std::tuple<int, int>, BoolVar> x;
for (int i : all_items) {
for (int b : all_bins) {
auto key = std::make_tuple(i, b);
x[key] = cp_model.NewBoolVar().WithName(absl::StrFormat("x_%d_%d", i, b));
}
}
// Constraints.
// Each item is assigned to at most one bin.
for (int i : all_items) {
std::vector<BoolVar> copies;
for (int b : all_bins) {
copies.push_back(x[std::make_tuple(i, b)]);
}
cp_model.AddAtMostOne(copies);
}
// The amount packed in each bin cannot exceed its capacity.
for (int b : all_bins) {
LinearExpr bin_weight;
for (int i : all_items) {
bin_weight += x[std::make_tuple(i, b)] * weights[i];
}
cp_model.AddLessOrEqual(bin_weight, bin_capacities[b]);
}
// Objective.
// Maximize total value of packed items.
LinearExpr objective;
for (int i : all_items) {
for (int b : all_bins) {
objective += x[std::make_tuple(i, b)] * values[i];
}
}
cp_model.Maximize(objective);
const CpSolverResponse response = Solve(cp_model.Build());
if (response.status() == CpSolverStatus::OPTIMAL ||
response.status() == CpSolverStatus::FEASIBLE) {
LOG(INFO) << "Total packed value: " << response.objective_value();
double total_weight = 0.0;
for (int b : all_bins) {
LOG(INFO) << "Bin " << b;
double bin_weight = 0.0;
double bin_value = 0.0;
for (int i : all_items) {
auto key = std::make_tuple(i, b);
if (SolutionIntegerValue(response, x[key]) > 0) {
LOG(INFO) << "Item " << i << " weight: " << weights[i]
<< " value: " << values[i];
bin_weight += weights[i];
bin_value += values[i];
}
}
LOG(INFO) << "Packed bin weight: " << bin_weight;
LOG(INFO) << "Packed bin value: " << bin_value;
total_weight += bin_weight;
}
LOG(INFO) << "Total packed weight: " << total_weight;
} else {
LOG(INFO) << "The problem does not have an optimal solution.";
}
// Statistics.
LOG(INFO) << "Statistics";
LOG(INFO) << CpSolverResponseStats(response);
}
} // namespace sat
} // namespace operations_research
int main() {
operations_research::sat::MultipleKnapsackSat();
return EXIT_SUCCESS;
}জাভা
// Solves a multiple knapsack problem using the CP-SAT solver.
package com.google.ortools.sat.samples;
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;
/** Sample showing how to solve a multiple knapsack problem. */
public class MultipleKnapsackSat {
public static void main(String[] args) {
Loader.loadNativeLibraries();
// Instantiate the data problem.
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();
CpModel model = new CpModel();
// Variables.
Literal[][] x = new Literal[numItems][numBins];
for (int i : allItems) {
for (int b : allBins) {
x[i][b] = model.newBoolVar("x_" + i + "_" + b);
}
}
// Constraints.
// Each item is assigned to at most one bin.
for (int i : allItems) {
List<Literal> 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]);
}
// 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);
CpSolver solver = new CpSolver();
final CpSolverStatus status = solver.solve(model);
// 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.");
}
}
private MultipleKnapsackSat() {}
}সি#
// Solves a multiple knapsack problem using the CP-SAT solver.
using System;
using System.Collections.Generic;
using System.Linq;
using Google.OrTools.Sat;
public class MultipleKnapsackSat
{
public static void Main(String[] args)
{
// Instantiate the data problem.
int[] Weights = { 48, 30, 42, 36, 36, 48, 42, 42, 36, 24, 30, 30, 42, 36, 36 };
int[] Values = { 10, 30, 25, 50, 35, 30, 15, 40, 30, 35, 45, 10, 20, 30, 25 };
int NumItems = Weights.Length;
int[] allItems = Enumerable.Range(0, NumItems).ToArray();
int[] BinCapacities = { 100, 100, 100, 100, 100 };
int NumBins = BinCapacities.Length;
int[] allBins = Enumerable.Range(0, NumBins).ToArray();
// Model.
CpModel model = new CpModel();
// Variables.
ILiteral[,] x = new ILiteral[NumItems, NumBins];
foreach (int i in allItems)
{
foreach (int b in allBins)
{
x[i, b] = model.NewBoolVar($"x_{i}_{b}");
}
}
// Constraints.
// Each item is assigned to at most one bin.
foreach (int i in allItems)
{
List<ILiteral> literals = new List<ILiteral>();
foreach (int b in allBins)
{
literals.Add(x[i, b]);
}
model.AddAtMostOne(literals);
}
// The amount packed in each bin cannot exceed its capacity.
foreach (int b in allBins)
{
List<ILiteral> items = new List<ILiteral>();
foreach (int i in allItems)
{
items.Add(x[i, b]);
}
model.Add(LinearExpr.WeightedSum(items, Weights) <= BinCapacities[b]);
}
// Objective.
LinearExprBuilder obj = LinearExpr.NewBuilder();
foreach (int i in allItems)
{
foreach (int b in allBins)
{
obj.AddTerm(x[i, b], Values[i]);
}
}
model.Maximize(obj);
// Solve
CpSolver solver = new CpSolver();
CpSolverStatus status = solver.Solve(model);
// Print solution.
// Check that the problem has a feasible solution.
if (status == CpSolverStatus.Optimal || status == CpSolverStatus.Feasible)
{
Console.WriteLine($"Total packed value: {solver.ObjectiveValue}");
double TotalWeight = 0.0;
foreach (int b in allBins)
{
double BinWeight = 0.0;
double BinValue = 0.0;
Console.WriteLine($"Bin {b}");
foreach (int i in allItems)
{
if (solver.BooleanValue(x[i, b]))
{
Console.WriteLine($"Item {i} weight: {Weights[i]} values: {Values[i]}");
BinWeight += Weights[i];
BinValue += Values[i];
}
}
Console.WriteLine("Packed bin weight: " + BinWeight);
Console.WriteLine("Packed bin value: " + BinValue);
TotalWeight += BinWeight;
}
Console.WriteLine("Total packed weight: " + TotalWeight);
}
else
{
Console.WriteLine("No solution found.");
}
Console.WriteLine("Statistics");
Console.WriteLine($" conflicts: {solver.NumConflicts()}");
Console.WriteLine($" branches : {solver.NumBranches()}");
Console.WriteLine($" wall time: {solver.WallTime()}s");
}
}