# Java code for Polynomials, It works can someone give me pointers on how to improve it?

I know this code works I just feel it is a bit more cumbersome than need be. This is a big ask, and it will probably get shot down but please just bear with me. Mainly, I feel like there is a better way to implement my static class Term, but have no clue how to do it. I don't expect anyone to re-write this but if you have a "hey try this instead" then please share!

``````import java.util.*;
public class Polynomial implements Iterable<Object>, Comparable<Polynomial> {
Comparator<Polynomial> compare;
private Term head = null;
public Polynomial(String file) {
Scanner scan = new Scanner(file);
try{
while(scan.hasNext()){
addTerm(scan.nextDouble(), scan.nextInt());
}
}
catch (Exception ex){
System.out.println(ex.getLocalizedMessage());
throw new InvalidPolynomialSyntax("Error: Invalid Polynomial Syntax, check input");
}
}
public void addTerm(double coefficient, int exponent ){
if (exponent < 0){
throw new InvalidPolynomialSyntax("Error: Invalid Polynomial Syntax, Negative exponents, check input");
}
Term current = head;
if(current == null){
head = new Term(coefficient, exponent);
head.next = null;
}
else {
while(current.next != null){
current = current.next;
}
current.next = new Term(coefficient, exponent);
}
}
@Override
public int compareTo(Polynomial otherPoly) {
Term thisCurrent = this.head;
Term otherCurrent = otherPoly.head;
while (thisCurrent != null && otherCurrent != null){
if (thisCurrent.getExponent() != otherCurrent.getExponent()){
return thisCurrent.getExponent() - otherCurrent.getExponent();
}
else if(thisCurrent.getCoefficient() != otherCurrent.getCoefficient()) {
if(otherCurrent.getCoefficient()> thisCurrent.getCoefficient()){
return -1;
}
else if(otherCurrent.getCoefficient()< thisCurrent.getCoefficient()){
return +1;
}
}
thisCurrent = thisCurrent.getNext();
otherCurrent = otherCurrent.getNext();
}
if (thisCurrent == null && otherCurrent == null){
return 0;
}
if (thisCurrent == null){
return -1;
}else {
return +1;
}
}
public int compareExponents(Polynomial poly2) {
Term thisPolyTerm = this.head;
Term otherPolyTerm = poly2.head;
while(thisPolyTerm != null && otherPolyTerm != null) {
if (thisPolyTerm.getExponent() != otherPolyTerm.getExponent()) {
return thisPolyTerm.getExponent() - otherPolyTerm.getExponent();
}
else {
thisPolyTerm = thisPolyTerm.getNext();
otherPolyTerm = otherPolyTerm.getNext();
}
}
if(thisPolyTerm == null && otherPolyTerm == null){
return 0;
}
if (otherPolyTerm == null){
return +1;
}
else {
return -1;
}
}
public Polynomial() {
compare = (Polynomial poly1, Polynomial poly2) -> poly1.compareExponents(poly2);
}
public Polynomial(Comparator<Polynomial> compare){
this.compare = compare;
}
@Override
public Iterator<Object> iterator() {
return new Iterator() {
private Term current = getHead();
@Override
public boolean hasNext() {
return current != null && current.getNext() != null;
}
@Override
public Term next() {
Term data = current;
current = current.next;
return data;
}
};
}
@Override
public String toString() {
StringBuilder expressionBuilder = new StringBuilder();
//first check head to avoid +1x^3 +3x^2
if (head.coefficient > 0){
expressionBuilder.append(head.toString());
}
else {
expressionBuilder.append(" - ").append(head.toString());
}
for(Term tmp = head.next; tmp != null; tmp = tmp.next) {
if (tmp.coefficient < 0) {
expressionBuilder.append(" - ").append(tmp.toString());
}
else {
expressionBuilder.append(" + ").append(tmp.toString());
}
}
return expressionBuilder.toString();
}
static class Term{
private double coefficient;
private int exponent;
private Term next;

private Term(double c, int e) {
coefficient = c;
exponent = e;
next = null;
}
private int getExponent(){
return this.exponent;
}
private double getCoefficient(){
return this.coefficient;
}
private Term getNext(){
return next;
}
@Override
public String toString(){
String termString = String.format("%.1f", Math.abs(coefficient));
if (exponent == 0) {
return termString;
}
else if(exponent == 1){
return termString + "x";
}
else{
return termString + "x^" + exponent;
}
}
}
private Term getHead() {
return head;
}
}
``````

All the supporting code below OrderedList.java

``````import java.util.*;
public class OrderedList {
boolean checkSorted(List<T> list){
boolean isSorted = true;
for(int i = list.size()-1; i > 0 ; i--){
T current = list.get(i);
if(!checkSorted(list, current)){
isSorted = false;
}
}
return isSorted;
}
private static <T extends Comparable<? super T>>
boolean checkSorted(List<T> list, T current) {
T currentValue = list.get(list.indexOf(current));
T nextValue = list.get(list.indexOf(current) - 1);
if (nextValue != null) {
return currentValue.compareTo(nextValue) >= 0;
}
return true;
}
}
``````

Main.java

``````import javax.swing.*;
import java.io.*;
import java.util.*;

public class Main {

private static List<Polynomial> polyList = new ArrayList<>();

public static void main(String[] args) {
processPolyList();
}

public static ArrayList<String> fromFile() {
//Create ArrayList and JFileChooser
ArrayList<String> expressionList = new ArrayList<>();
JFileChooser chooser = new JFileChooser();
//Show directories and files
chooser.setFileSelectionMode(JFileChooser.FILES_AND_DIRECTORIES);
//user's current directory
chooser.setCurrentDirectory(new File(System.getProperty("user.dir")));
int response = chooser.showOpenDialog(null);
if (response == JFileChooser.APPROVE_OPTION){
File file = chooser.getSelectedFile();
try {
Scanner scan = new Scanner(file);
if (file.isFile()){
while (scan.hasNextLine()){
String expression = scan.nextLine();
expressionList.add(expression);
}
}
}
catch (NoSuchElementException a){
JOptionPane.showMessageDialog(JOptionPane.getRootFrame(),"File is empty!");
}
catch(FileNotFoundException b){
JOptionPane.showMessageDialog(JOptionPane.getRootFrame(),"404 File Not Found!");
}
}
return expressionList;
}

public static boolean checkWeakOrder(List<Polynomial> polyList){
boolean isWeakOrder = true;
Polynomial previous = polyList.get(polyList.size()-1);
for(int i = polyList.size()-2; i > 0; i--){

if (previous.compareExponents(polyList.get(i)) < 0){
isWeakOrder = false;
}
}
return isWeakOrder;
}

public static void processPolyList(){
try {
ArrayList<String> a = fromFile();
for (String element : a) {
Polynomial p = new Polynomial(element);
System.out.println(p);
polyList.add(p);
}
}
catch (InvalidPolynomialSyntax ex){
JOptionPane.showMessageDialog(JOptionPane.getRootFrame(),ex.getMessage());
}

System.out.println("Strong Ordered: " + OrderedList.checkSorted(polyList));
System.out.println("Weak Ordered: " + checkWeakOrder(polyList));
}
}
``````

InvalidPolynomialSyntax.java

``````public class InvalidPolynomialSyntax extends RuntimeException {

InvalidPolynomialSyntax(String message){
super(message);
}
}
``````
• You would probably best be served by asking this on codereview.stackexchange.com
– WJS
Jun 14 at 13:13
• Unless you are specifically writing for sparse polynomials, it would be a lot more normal to represent a polynomial as a simple list of coefficients, so that `poly.get(i)` gives you the coefficient for x^i. That's a `List<Double>` in your case. Most algorithms for manipulating them (add, subtract, multiply,divide, modulus, etc.) will be a lot simpler. Jun 14 at 14:16
• @WJS Hey thanks for the suggestion! Jun 15 at 3:02
• @MattTimmermans, can you expand on that a touch more? Jun 15 at 3:02