Zadanie 02
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02-Wielomiany/src/DivisionErrorException.java
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02-Wielomiany/src/DivisionErrorException.java
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public class DivisionErrorException extends Throwable {
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public DivisionErrorException() {
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System.out.println("Division error!");
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}
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}
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02-Wielomiany/src/Main.java
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02-Wielomiany/src/Main.java
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import java.util.ArrayList;
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import java.util.Arrays;
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import java.util.List;
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public class Main {
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public static void main(String[] args) throws DivisionErrorException, MultiplierNotFoundException {
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//ex input in run console : 2 "1 1 1 0 1" "0 1 1"
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int n = Integer.parseInt(args[0]);
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List<Integer> firstPolynomial = new ArrayList<>();
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Arrays.asList(args[1].split("\\s* \\s*")).forEach(factor -> firstPolynomial.add(Integer.valueOf(factor)));
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List<Integer> secondPolynomial = new ArrayList<>();
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Arrays.asList(args[2].split("\\s* \\s*")).forEach(factor -> secondPolynomial.add(Integer.valueOf(factor)));
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PolynomialTask polynomialTask = new PolynomialTask(n, firstPolynomial, secondPolynomial);
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polynomialTask.printAllValuesToStandardOutput();
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}
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}
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02-Wielomiany/src/MultiplierNotFoundException.java
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02-Wielomiany/src/MultiplierNotFoundException.java
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public class MultiplierNotFoundException extends Throwable {
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public MultiplierNotFoundException() {
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System.out.println("DivisionError");
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}
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}
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02-Wielomiany/src/PolynomialTask.java
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02-Wielomiany/src/PolynomialTask.java
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import java.util.ArrayList;
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import java.util.Arrays;
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import java.util.Collections;
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import java.util.List;
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import java.util.stream.Collectors;
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public class PolynomialTask {
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private int n;
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private List<Integer> firstPolynomial;
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private List<Integer> secondPolynomial;
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public PolynomialTask(int n, List<Integer> firstPoly, List<Integer> secondPoly) {
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this.n = n;
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this.firstPolynomial = firstPoly;
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this.secondPolynomial = secondPoly;
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}
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public Integer[] multiplyPolynomials(List<Integer> firstPolynomial, List<Integer> secondPolynomial) {
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int[] multiplied = new int[firstPolynomial.size() + secondPolynomial.size() - 1];
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int sizeOfFirstPoly = firstPolynomial.size();
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int sizeOfSecondPoly = secondPolynomial.size();
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for (int i = 0; i < sizeOfFirstPoly; i++) {
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for (int j = 0; j < sizeOfSecondPoly; j++)
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multiplied[i + j] = (multiplied[i + j] + (firstPolynomial.get(i) * secondPolynomial.get(j))) % n;
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}
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return Arrays.stream(multiplied).boxed().toArray(Integer[]::new);
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}
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public int[] moduloDividePolynomialsReturnQuotient(List<Integer> firstPoly, List<Integer> secondPoly) throws MultiplierNotFoundException, DivisionErrorException {
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int[] quotient = new int[firstPoly.size() + secondPoly.size()];
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int firstPolyDegree = firstPoly.size() - 1;
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int secondPolyDegree = secondPoly.size() - 1;
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List<Integer> polynomialAfterSubtract = firstPoly;
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while (firstPolyDegree >= secondPolyDegree) {
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polynomialAfterSubtract = calcQuotient(polynomialAfterSubtract, secondPoly, quotient);
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firstPolyDegree = polynomialAfterSubtract.size() - 1;
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}
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int[] remainder = new int[polynomialAfterSubtract.size()];
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for (int i = 0; i < polynomialAfterSubtract.size(); i++) {
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remainder[i] = polynomialAfterSubtract.get(i);
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}
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return remainder;
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}
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private List<Integer> calcQuotient(List<Integer> firstPoly, List<Integer> secondPoly, int[] quotient) throws MultiplierNotFoundException, DivisionErrorException {
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int firstPolyDegree = firstPoly.size() - 1;
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int secondPolyDegree = secondPoly.size() - 1;
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if (firstPolyDegree < secondPolyDegree) {
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throw new DivisionErrorException();
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}
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int quotientCoefficient;
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if ((((float) firstPoly.get(firstPolyDegree) / (float) secondPoly.get(secondPolyDegree))) == Math.round(firstPoly.get(firstPolyDegree) / secondPoly.get(secondPolyDegree))) {
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quotientCoefficient = firstPoly.get(firstPolyDegree) / secondPoly.get(secondPolyDegree);
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} else {
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quotientCoefficient = invElem(firstPoly.get(firstPolyDegree), secondPoly.get(secondPolyDegree));
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}
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quotient[firstPolyDegree - secondPolyDegree] += quotientCoefficient;
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List<Integer> newPoly = generatePolyFromIndexAndValue(firstPolyDegree - secondPolyDegree, quotientCoefficient);
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Integer[] multipliedPolynomials = multiplyPolynomials(newPoly, secondPoly);
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List<Integer> polynomialAfterFirstDivide = new ArrayList<>(Arrays.asList(multipliedPolynomials));
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return removeUnnecessaryZeros(subtractTwoPolynomials(firstPoly, polynomialAfterFirstDivide));
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}
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private List<Integer> removeUnnecessaryZeros(List<Integer> polynomialAfterSubtract) {
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int amountOfZeros = 0;
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for (int i = polynomialAfterSubtract.size() - 1; i >= 0; i--) {
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if (polynomialAfterSubtract.get(i) == 0) {
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amountOfZeros++;
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} else {
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break;
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}
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}
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polynomialAfterSubtract = polynomialAfterSubtract.subList(0, polynomialAfterSubtract.size() - amountOfZeros);
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return polynomialAfterSubtract;
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}
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private List<Integer> subtractTwoPolynomials(List<Integer> firstPoly, List<Integer> secondPoly) {
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List<Integer> subtractedPolynomial = new ArrayList<>(Collections.nCopies(firstPoly.size() + secondPoly.size(), 0));
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for (int index = firstPoly.size(); index >= 0; index--) {
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if (index < secondPoly.size()) {
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subtractedPolynomial.set(index, firstPoly.get(index) - secondPoly.get(index));
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parseNegativeElement(subtractedPolynomial, index);
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}
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}
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return subtractedPolynomial;
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}
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private void parseNegativeElement(List<Integer> subtractedPolynomial, int index) {
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while (subtractedPolynomial.get(index) < 0)
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subtractedPolynomial.set(index, (subtractedPolynomial.get(index) * subtractedPolynomial.get(index)) % n);
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}
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private List<Integer> generatePolyFromIndexAndValue(int size, int quotientCoefficient) {
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List<Integer> poly = new ArrayList<>(Collections.nCopies(size + 1, 0));
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poly.set(size, quotientCoefficient);
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return poly;
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}
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private int invElem(int a, int b) throws MultiplierNotFoundException {
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for (int i = 0; i < n; i++) {
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if (a == (b * i) % n) {
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return i;
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}
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}
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throw new MultiplierNotFoundException();
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}
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public void printAllValuesToStandardOutput() throws DivisionErrorException, MultiplierNotFoundException {
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List<List<Integer>> values = new ArrayList<>();
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values.add(Arrays.asList(multiplyPolynomials(firstPolynomial, secondPolynomial)));
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values.add(Arrays.stream(moduloDividePolynomialsReturnQuotient(firstPolynomial, secondPolynomial)).boxed().collect(Collectors.toList()));
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try {
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values.add(gcd(firstPolynomial, secondPolynomial));
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} catch (MultiplierNotFoundException e) {
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}
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System.out.println(values);
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}
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private List<Integer> gcd(List<Integer> polyOne, List<Integer> polyTwo) throws MultiplierNotFoundException, DivisionErrorException {
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if (polyTwo.isEmpty()) return polyOne;
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List<Integer> poly = Arrays.stream(moduloDividePolynomialsReturnQuotient(polyOne, polyTwo)).boxed().collect(Collectors.toList());
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return gcd(polyTwo, poly);
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}
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}
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