/* * Copyright (C) 2011 The Guava Authors * * 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. */ package com.google.common.primitives; import com.google.common.annotations.GwtCompatible; import com.google.common.annotations.GwtIncompatible; import com.google.common.collect.ImmutableSet; import com.google.common.testing.EqualsTester; import com.google.common.testing.NullPointerTester; import com.google.common.testing.SerializableTester; import java.math.BigInteger; import junit.framework.TestCase; /** * Tests for {@code UnsignedInteger}. * * @author Louis Wasserman */ @GwtCompatible(emulated = true) public class UnsignedIntegerTest extends TestCase { private static final ImmutableSet TEST_INTS; private static final ImmutableSet TEST_LONGS; private static int force32(int value) { // GWT doesn't consistently overflow values to make them 32-bit, so we need to force it. return value & 0xffffffff; } static { ImmutableSet.Builder testIntsBuilder = ImmutableSet.builder(); ImmutableSet.Builder testLongsBuilder = ImmutableSet.builder(); for (int i = -3; i <= 3; i++) { testIntsBuilder .add(i) .add(force32(Integer.MIN_VALUE + i)) .add(force32(Integer.MAX_VALUE + i)); testLongsBuilder .add((long) i) .add((long) Integer.MIN_VALUE + i) .add((long) Integer.MAX_VALUE + i) .add((1L << 32) + i); } TEST_INTS = testIntsBuilder.build(); TEST_LONGS = testLongsBuilder.build(); } public void testFromIntBitsAndIntValueAreInverses() { for (int value : TEST_INTS) { assertEquals( UnsignedInts.toString(value), value, UnsignedInteger.fromIntBits(value).intValue()); } } public void testFromIntBitsLongValue() { for (int value : TEST_INTS) { long expected = value & 0xffffffffL; assertEquals( UnsignedInts.toString(value), expected, UnsignedInteger.fromIntBits(value).longValue()); } } public void testValueOfLong() { long min = 0; long max = (1L << 32) - 1; for (long value : TEST_LONGS) { boolean expectSuccess = value >= min && value <= max; try { assertEquals(value, UnsignedInteger.valueOf(value).longValue()); assertTrue(expectSuccess); } catch (IllegalArgumentException e) { assertFalse(expectSuccess); } } } public void testValueOfBigInteger() { long min = 0; long max = (1L << 32) - 1; for (long value : TEST_LONGS) { boolean expectSuccess = value >= min && value <= max; try { assertEquals(value, UnsignedInteger.valueOf(BigInteger.valueOf(value)).longValue()); assertTrue(expectSuccess); } catch (IllegalArgumentException e) { assertFalse(expectSuccess); } } } public void testToString() { for (int value : TEST_INTS) { UnsignedInteger unsignedValue = UnsignedInteger.fromIntBits(value); assertEquals(unsignedValue.bigIntegerValue().toString(), unsignedValue.toString()); } } @GwtIncompatible // too slow public void testToStringRadix() { for (int radix = Character.MIN_RADIX; radix <= Character.MAX_RADIX; radix++) { for (int l : TEST_INTS) { UnsignedInteger value = UnsignedInteger.fromIntBits(l); assertEquals(value.bigIntegerValue().toString(radix), value.toString(radix)); } } } public void testToStringRadixQuick() { int[] radices = {2, 3, 5, 7, 10, 12, 16, 21, 31, 36}; for (int radix : radices) { for (int l : TEST_INTS) { UnsignedInteger value = UnsignedInteger.fromIntBits(l); assertEquals(value.bigIntegerValue().toString(radix), value.toString(radix)); } } } public void testFloatValue() { for (int value : TEST_INTS) { UnsignedInteger unsignedValue = UnsignedInteger.fromIntBits(value); assertEquals(unsignedValue.bigIntegerValue().floatValue(), unsignedValue.floatValue()); } } public void testDoubleValue() { for (int value : TEST_INTS) { UnsignedInteger unsignedValue = UnsignedInteger.fromIntBits(value); assertEquals(unsignedValue.bigIntegerValue().doubleValue(), unsignedValue.doubleValue()); } } public void testPlus() { for (int a : TEST_INTS) { for (int b : TEST_INTS) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); UnsignedInteger bUnsigned = UnsignedInteger.fromIntBits(b); int expected = aUnsigned.bigIntegerValue().add(bUnsigned.bigIntegerValue()).intValue(); UnsignedInteger unsignedSum = aUnsigned.plus(bUnsigned); assertEquals(expected, unsignedSum.intValue()); } } } public void testMinus() { for (int a : TEST_INTS) { for (int b : TEST_INTS) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); UnsignedInteger bUnsigned = UnsignedInteger.fromIntBits(b); int expected = force32(aUnsigned.bigIntegerValue().subtract(bUnsigned.bigIntegerValue()).intValue()); UnsignedInteger unsignedSub = aUnsigned.minus(bUnsigned); assertEquals(expected, unsignedSub.intValue()); } } } @GwtIncompatible // multiply public void testTimes() { for (int a : TEST_INTS) { for (int b : TEST_INTS) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); UnsignedInteger bUnsigned = UnsignedInteger.fromIntBits(b); int expected = force32(aUnsigned.bigIntegerValue().multiply(bUnsigned.bigIntegerValue()).intValue()); UnsignedInteger unsignedMul = aUnsigned.times(bUnsigned); assertEquals(aUnsigned + " * " + bUnsigned, expected, unsignedMul.intValue()); } } } public void testDividedBy() { for (int a : TEST_INTS) { for (int b : TEST_INTS) { if (b != 0) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); UnsignedInteger bUnsigned = UnsignedInteger.fromIntBits(b); int expected = aUnsigned.bigIntegerValue().divide(bUnsigned.bigIntegerValue()).intValue(); UnsignedInteger unsignedDiv = aUnsigned.dividedBy(bUnsigned); assertEquals(expected, unsignedDiv.intValue()); } } } } public void testDivideByZeroThrows() { for (int a : TEST_INTS) { try { UnsignedInteger unused = UnsignedInteger.fromIntBits(a).dividedBy(UnsignedInteger.ZERO); fail("Expected ArithmeticException"); } catch (ArithmeticException expected) { } } } public void testMod() { for (int a : TEST_INTS) { for (int b : TEST_INTS) { if (b != 0) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); UnsignedInteger bUnsigned = UnsignedInteger.fromIntBits(b); int expected = aUnsigned.bigIntegerValue().mod(bUnsigned.bigIntegerValue()).intValue(); UnsignedInteger unsignedRem = aUnsigned.mod(bUnsigned); assertEquals(expected, unsignedRem.intValue()); } } } } public void testModByZero() { for (int a : TEST_INTS) { try { UnsignedInteger.fromIntBits(a).mod(UnsignedInteger.ZERO); fail("Expected ArithmeticException"); } catch (ArithmeticException expected) { } } } public void testCompare() { for (int a : TEST_INTS) { for (int b : TEST_INTS) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); UnsignedInteger bUnsigned = UnsignedInteger.fromIntBits(b); assertEquals( aUnsigned.bigIntegerValue().compareTo(bUnsigned.bigIntegerValue()), aUnsigned.compareTo(bUnsigned)); } } } @GwtIncompatible // too slow public void testEquals() { EqualsTester equalsTester = new EqualsTester(); for (int a : TEST_INTS) { long value = a & 0xffffffffL; equalsTester.addEqualityGroup( UnsignedInteger.fromIntBits(a), UnsignedInteger.valueOf(value), UnsignedInteger.valueOf(Long.toString(value)), UnsignedInteger.valueOf(Long.toString(value, 16), 16)); } equalsTester.testEquals(); } public void testIntValue() { for (int a : TEST_INTS) { UnsignedInteger aUnsigned = UnsignedInteger.fromIntBits(a); int intValue = aUnsigned.bigIntegerValue().intValue(); assertEquals(intValue, aUnsigned.intValue()); } } @GwtIncompatible // serialization public void testSerialization() { for (int a : TEST_INTS) { SerializableTester.reserializeAndAssert(UnsignedInteger.fromIntBits(a)); } } @GwtIncompatible // NullPointerTester public void testNulls() { new NullPointerTester().testAllPublicStaticMethods(UnsignedInteger.class); } }