package com.baeldung.maths; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertTrue; import java.math.BigInteger; import java.util.Random; import org.junit.jupiter.api.Test; public class BigIntegerDemoUnitTest { @Test public void whenBigIntegerCreatedFromConstructor_thenExpectedResult() { BigInteger biFromString = new BigInteger("1234567890987654321"); BigInteger biFromByteArray = new BigInteger( new byte[] { 64, 64, 64, 64, 64, 64 }); BigInteger biFromSignMagnitude = new BigInteger(-1, new byte[] { 64, 64, 64, 64, 64, 64 }); assertEquals("1234567890987654321", biFromString.toString()); assertEquals("70644700037184", biFromByteArray.toString()); assertEquals("-70644700037184", biFromSignMagnitude.toString()); } @Test public void whenLongConvertedToBigInteger_thenValueMatches() { BigInteger bi = BigInteger.valueOf(2305843009213693951L); assertEquals("2305843009213693951", bi.toString()); } @Test public void givenBigIntegers_whentCompared_thenExpectedResult() { BigInteger i = new BigInteger("123456789012345678901234567890"); BigInteger j = new BigInteger("123456789012345678901234567891"); BigInteger k = new BigInteger("123456789012345678901234567892"); assertTrue(i.compareTo(i) == 0); assertTrue(j.compareTo(i) > 0); assertTrue(j.compareTo(k) < 0); } @Test public void givenBigIntegers_whenPerformingArithmetic_thenExpectedResult() { BigInteger i = new BigInteger("4"); BigInteger j = new BigInteger("2"); BigInteger sum = i.add(j); BigInteger difference = i.subtract(j); BigInteger quotient = i.divide(j); BigInteger product = i.multiply(j); assertEquals(new BigInteger("6"), sum); assertEquals(new BigInteger("2"), difference); assertEquals(new BigInteger("2"), quotient); assertEquals(new BigInteger("8"), product); } @Test public void givenBigIntegers_whenPerformingBitOperations_thenExpectedResult() { BigInteger i = new BigInteger("17"); BigInteger j = new BigInteger("7"); BigInteger and = i.and(j); BigInteger or = i.or(j); BigInteger not = j.not(); BigInteger xor = i.xor(j); BigInteger andNot = i.andNot(j); BigInteger shiftLeft = i.shiftLeft(1); BigInteger shiftRight = i.shiftRight(1); assertEquals(new BigInteger("1"), and); assertEquals(new BigInteger("23"), or); assertEquals(new BigInteger("-8"), not); assertEquals(new BigInteger("22"), xor); assertEquals(new BigInteger("16"), andNot); assertEquals(new BigInteger("34"), shiftLeft); assertEquals(new BigInteger("8"), shiftRight); } @Test public void givenBigIntegers_whenPerformingBitManipulations_thenExpectedResult() { BigInteger i = new BigInteger("1018"); int bitCount = i.bitCount(); int bitLength = i.bitLength(); int getLowestSetBit = i.getLowestSetBit(); boolean testBit3 = i.testBit(3); BigInteger setBit12 = i.setBit(12); BigInteger flipBit0 = i.flipBit(0); BigInteger clearBit3 = i.clearBit(3); assertEquals(8, bitCount); assertEquals(10, bitLength); assertEquals(1, getLowestSetBit); assertEquals(true, testBit3); assertEquals(new BigInteger("5114"), setBit12); assertEquals(new BigInteger("1019"), flipBit0); assertEquals(new BigInteger("1010"), clearBit3); } @Test public void givenBigIntegers_whenModularCalculation_thenExpectedResult() { BigInteger i = new BigInteger("31"); BigInteger j = new BigInteger("24"); BigInteger k = new BigInteger("16"); BigInteger gcd = j.gcd(k); BigInteger multiplyAndmod = j.multiply(k) .mod(i); BigInteger modInverse = j.modInverse(i); BigInteger modPow = j.modPow(k, i); assertEquals(new BigInteger("8"), gcd); assertEquals(new BigInteger("12"), multiplyAndmod); assertEquals(new BigInteger("22"), modInverse); assertEquals(new BigInteger("7"), modPow); } @Test public void givenBigIntegers_whenPrimeOperations_thenExpectedResult() { BigInteger i = BigInteger.probablePrime(100, new Random()); boolean isProbablePrime = i.isProbablePrime(1000); assertEquals(true, isProbablePrime); } }