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android / platform / external / guava / 8963f77d51f761236e9aa61d2aeb0d510fbefe30 / . / android / guava-tests / test / com / google / common / primitives / DoublesTest.java
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/*
* Copyright (C) 2008 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 static com.google.common.truth.Truth.assertThat;
import static java.lang.Double.NaN;
import com.google.common.annotations.GwtCompatible;
import com.google.common.annotations.GwtIncompatible;
import com.google.common.base.Converter;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.testing.Helpers;
import com.google.common.testing.NullPointerTester;
import com.google.common.testing.SerializableTester;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.List;
import java.util.regex.Pattern;
import junit.framework.TestCase;
/**
* Unit test for {@link Doubles}.
*
* @author Kevin Bourrillion
*/
@GwtCompatible(emulated = true)
@SuppressWarnings("cast") // redundant casts are intentional and harmless
public class DoublesTest extends TestCase {
private static final double[] EMPTY = {};
private static final double[] ARRAY1 = {(double) 1};
private static final double[] ARRAY234 = {(double) 2, (double) 3, (double) 4};
private static final double LEAST = Double.NEGATIVE_INFINITY;
private static final double GREATEST = Double.POSITIVE_INFINITY;
private static final double[] NUMBERS =
new double[] {
LEAST,
-Double.MAX_VALUE,
-1.0,
-0.5,
-0.1,
-0.0,
0.0,
0.1,
0.5,
1.0,
Double.MAX_VALUE,
GREATEST,
Double.MIN_NORMAL,
-Double.MIN_NORMAL,
Double.MIN_VALUE,
-Double.MIN_VALUE,
Integer.MIN_VALUE,
Integer.MAX_VALUE,
Long.MIN_VALUE,
Long.MAX_VALUE
};
private static final double[] VALUES = Doubles.concat(NUMBERS, new double[] {NaN});
public void testHashCode() {
for (double value : VALUES) {
assertEquals(((Double) value).hashCode(), Doubles.hashCode(value));
}
}
public void testIsFinite() {
for (double value : NUMBERS) {
assertEquals(!(Double.isNaN(value) || Double.isInfinite(value)), Doubles.isFinite(value));
}
}
public void testCompare() {
for (double x : VALUES) {
for (double y : VALUES) {
// note: spec requires only that the sign is the same
assertEquals(x + ", " + y, Double.valueOf(x).compareTo(y), Doubles.compare(x, y));
}
}
}
public void testContains() {
assertFalse(Doubles.contains(EMPTY, (double) 1));
assertFalse(Doubles.contains(ARRAY1, (double) 2));
assertFalse(Doubles.contains(ARRAY234, (double) 1));
assertTrue(Doubles.contains(new double[] {(double) -1}, (double) -1));
assertTrue(Doubles.contains(ARRAY234, (double) 2));
assertTrue(Doubles.contains(ARRAY234, (double) 3));
assertTrue(Doubles.contains(ARRAY234, (double) 4));
for (double value : NUMBERS) {
assertTrue("" + value, Doubles.contains(new double[] {5.0, value}, value));
}
assertFalse(Doubles.contains(new double[] {5.0, NaN}, NaN));
}
public void testIndexOf() {
assertEquals(-1, Doubles.indexOf(EMPTY, (double) 1));
assertEquals(-1, Doubles.indexOf(ARRAY1, (double) 2));
assertEquals(-1, Doubles.indexOf(ARRAY234, (double) 1));
assertEquals(0, Doubles.indexOf(new double[] {(double) -1}, (double) -1));
assertEquals(0, Doubles.indexOf(ARRAY234, (double) 2));
assertEquals(1, Doubles.indexOf(ARRAY234, (double) 3));
assertEquals(2, Doubles.indexOf(ARRAY234, (double) 4));
assertEquals(
1,
Doubles.indexOf(new double[] {(double) 2, (double) 3, (double) 2, (double) 3}, (double) 3));
for (double value : NUMBERS) {
assertEquals("" + value, 1, Doubles.indexOf(new double[] {5.0, value}, value));
}
assertEquals(-1, Doubles.indexOf(new double[] {5.0, NaN}, NaN));
}
public void testIndexOf_arrayTarget() {
assertEquals(0, Doubles.indexOf(EMPTY, EMPTY));
assertEquals(0, Doubles.indexOf(ARRAY234, EMPTY));
assertEquals(-1, Doubles.indexOf(EMPTY, ARRAY234));
assertEquals(-1, Doubles.indexOf(ARRAY234, ARRAY1));
assertEquals(-1, Doubles.indexOf(ARRAY1, ARRAY234));
assertEquals(0, Doubles.indexOf(ARRAY1, ARRAY1));
assertEquals(0, Doubles.indexOf(ARRAY234, ARRAY234));
assertEquals(0, Doubles.indexOf(ARRAY234, new double[] {(double) 2, (double) 3}));
assertEquals(1, Doubles.indexOf(ARRAY234, new double[] {(double) 3, (double) 4}));
assertEquals(1, Doubles.indexOf(ARRAY234, new double[] {(double) 3}));
assertEquals(2, Doubles.indexOf(ARRAY234, new double[] {(double) 4}));
assertEquals(
1,
Doubles.indexOf(
new double[] {(double) 2, (double) 3, (double) 3, (double) 3, (double) 3},
new double[] {(double) 3}));
assertEquals(
2,
Doubles.indexOf(
new double[] {
(double) 2, (double) 3, (double) 2, (double) 3, (double) 4, (double) 2, (double) 3
},
new double[] {(double) 2, (double) 3, (double) 4}));
assertEquals(
1,
Doubles.indexOf(
new double[] {
(double) 2, (double) 2, (double) 3, (double) 4, (double) 2, (double) 3, (double) 4
},
new double[] {(double) 2, (double) 3, (double) 4}));
assertEquals(
-1,
Doubles.indexOf(
new double[] {(double) 4, (double) 3, (double) 2},
new double[] {(double) 2, (double) 3, (double) 4}));
for (double value : NUMBERS) {
assertEquals(
"" + value,
1,
Doubles.indexOf(new double[] {5.0, value, value, 5.0}, new double[] {value, value}));
}
assertEquals(-1, Doubles.indexOf(new double[] {5.0, NaN, NaN, 5.0}, new double[] {NaN, NaN}));
}
public void testLastIndexOf() {
assertEquals(-1, Doubles.lastIndexOf(EMPTY, (double) 1));
assertEquals(-1, Doubles.lastIndexOf(ARRAY1, (double) 2));
assertEquals(-1, Doubles.lastIndexOf(ARRAY234, (double) 1));
assertEquals(0, Doubles.lastIndexOf(new double[] {(double) -1}, (double) -1));
assertEquals(0, Doubles.lastIndexOf(ARRAY234, (double) 2));
assertEquals(1, Doubles.lastIndexOf(ARRAY234, (double) 3));
assertEquals(2, Doubles.lastIndexOf(ARRAY234, (double) 4));
assertEquals(
3,
Doubles.lastIndexOf(
new double[] {(double) 2, (double) 3, (double) 2, (double) 3}, (double) 3));
for (double value : NUMBERS) {
assertEquals("" + value, 0, Doubles.lastIndexOf(new double[] {value, 5.0}, value));
}
assertEquals(-1, Doubles.lastIndexOf(new double[] {NaN, 5.0}, NaN));
}
public void testMax_noArgs() {
try {
Doubles.max();
fail();
} catch (IllegalArgumentException expected) {
}
}
public void testMax() {
assertEquals(LEAST, Doubles.max(LEAST));
assertEquals(GREATEST, Doubles.max(GREATEST));
assertEquals(
(double) 9,
Doubles.max(
(double) 8, (double) 6, (double) 7, (double) 5, (double) 3, (double) 0, (double) 9));
assertEquals(0.0, Doubles.max(-0.0, 0.0));
assertEquals(0.0, Doubles.max(0.0, -0.0));
assertEquals(GREATEST, Doubles.max(NUMBERS));
assertTrue(Double.isNaN(Doubles.max(VALUES)));
}
public void testMin_noArgs() {
try {
Doubles.min();
fail();
} catch (IllegalArgumentException expected) {
}
}
public void testMin() {
assertEquals(LEAST, Doubles.min(LEAST));
assertEquals(GREATEST, Doubles.min(GREATEST));
assertEquals(
(double) 0,
Doubles.min(
(double) 8, (double) 6, (double) 7, (double) 5, (double) 3, (double) 0, (double) 9));
assertEquals(-0.0, Doubles.min(-0.0, 0.0));
assertEquals(-0.0, Doubles.min(0.0, -0.0));
assertEquals(LEAST, Doubles.min(NUMBERS));
assertTrue(Double.isNaN(Doubles.min(VALUES)));
}
public void testConstrainToRange() {
double tolerance = 1e-10;
assertEquals(
(double) 1, Doubles.constrainToRange((double) 1, (double) 0, (double) 5), tolerance);
assertEquals(
(double) 1, Doubles.constrainToRange((double) 1, (double) 1, (double) 5), tolerance);
assertEquals(
(double) 3, Doubles.constrainToRange((double) 1, (double) 3, (double) 5), tolerance);
assertEquals(
(double) -1, Doubles.constrainToRange((double) 0, (double) -5, (double) -1), tolerance);
assertEquals(
(double) 2, Doubles.constrainToRange((double) 5, (double) 2, (double) 2), tolerance);
try {
Doubles.constrainToRange((double) 1, (double) 3, (double) 2);
fail();
} catch (IllegalArgumentException expected) {
}
}
public void testConcat() {
assertTrue(Arrays.equals(EMPTY, Doubles.concat()));
assertTrue(Arrays.equals(EMPTY, Doubles.concat(EMPTY)));
assertTrue(Arrays.equals(EMPTY, Doubles.concat(EMPTY, EMPTY, EMPTY)));
assertTrue(Arrays.equals(ARRAY1, Doubles.concat(ARRAY1)));
assertNotSame(ARRAY1, Doubles.concat(ARRAY1));
assertTrue(Arrays.equals(ARRAY1, Doubles.concat(EMPTY, ARRAY1, EMPTY)));
assertTrue(
Arrays.equals(
new double[] {(double) 1, (double) 1, (double) 1},
Doubles.concat(ARRAY1, ARRAY1, ARRAY1)));
assertTrue(
Arrays.equals(
new double[] {(double) 1, (double) 2, (double) 3, (double) 4},
Doubles.concat(ARRAY1, ARRAY234)));
}
public void testEnsureCapacity() {
assertSame(EMPTY, Doubles.ensureCapacity(EMPTY, 0, 1));
assertSame(ARRAY1, Doubles.ensureCapacity(ARRAY1, 0, 1));
assertSame(ARRAY1, Doubles.ensureCapacity(ARRAY1, 1, 1));
assertTrue(
Arrays.equals(
new double[] {(double) 1, (double) 0, (double) 0},
Doubles.ensureCapacity(ARRAY1, 2, 1)));
}
public void testEnsureCapacity_fail() {
try {
Doubles.ensureCapacity(ARRAY1, -1, 1);
fail();
} catch (IllegalArgumentException expected) {
}
try {
// notice that this should even fail when no growth was needed
Doubles.ensureCapacity(ARRAY1, 1, -1);
fail();
} catch (IllegalArgumentException expected) {
}
}
@GwtIncompatible // Double.toString returns different value in GWT.
public void testJoin() {
assertEquals("", Doubles.join(",", EMPTY));
assertEquals("1.0", Doubles.join(",", ARRAY1));
assertEquals("1.0,2.0", Doubles.join(",", (double) 1, (double) 2));
assertEquals("1.02.03.0", Doubles.join("", (double) 1, (double) 2, (double) 3));
}
public void testJoinNonTrivialDoubles() {
assertEquals("", Doubles.join(",", EMPTY));
assertEquals("1.2", Doubles.join(",", 1.2));
assertEquals("1.3,2.4", Doubles.join(",", 1.3, 2.4));
assertEquals("1.42.53.6", Doubles.join("", 1.4, 2.5, 3.6));
}
public void testLexicographicalComparator() {
List<double[]> ordered =
Arrays.asList(
new double[] {},
new double[] {LEAST},
new double[] {LEAST, LEAST},
new double[] {LEAST, (double) 1},
new double[] {(double) 1},
new double[] {(double) 1, LEAST},
new double[] {GREATEST, Double.MAX_VALUE},
new double[] {GREATEST, GREATEST},
new double[] {GREATEST, GREATEST, GREATEST});
Comparator<double[]> comparator = Doubles.lexicographicalComparator();
Helpers.testComparator(comparator, ordered);
}
public void testReverse() {
testReverse(new double[] {}, new double[] {});
testReverse(new double[] {1}, new double[] {1});
testReverse(new double[] {1, 2}, new double[] {2, 1});
testReverse(new double[] {3, 1, 1}, new double[] {1, 1, 3});
testReverse(new double[] {-1, 1, -2, 2}, new double[] {2, -2, 1, -1});
}
private static void testReverse(double[] input, double[] expectedOutput) {
input = Arrays.copyOf(input, input.length);
Doubles.reverse(input);
assertTrue(Arrays.equals(expectedOutput, input));
}
private static void testReverse(
double[] input, int fromIndex, int toIndex, double[] expectedOutput) {
input = Arrays.copyOf(input, input.length);
Doubles.reverse(input, fromIndex, toIndex);
assertTrue(Arrays.equals(expectedOutput, input));
}
public void testReverseIndexed() {
testReverse(new double[] {}, 0, 0, new double[] {});
testReverse(new double[] {1}, 0, 1, new double[] {1});
testReverse(new double[] {1, 2}, 0, 2, new double[] {2, 1});
testReverse(new double[] {3, 1, 1}, 0, 2, new double[] {1, 3, 1});
testReverse(new double[] {3, 1, 1}, 0, 1, new double[] {3, 1, 1});
testReverse(new double[] {-1, 1, -2, 2}, 1, 3, new double[] {-1, -2, 1, 2});
}
public void testSortDescending() {
testSortDescending(new double[] {}, new double[] {});
testSortDescending(new double[] {1}, new double[] {1});
testSortDescending(new double[] {1, 2}, new double[] {2, 1});
testSortDescending(new double[] {1, 3, 1}, new double[] {3, 1, 1});
testSortDescending(new double[] {-1, 1, -2, 2}, new double[] {2, 1, -1, -2});
testSortDescending(
new double[] {-1, 1, Double.NaN, -2, -0, 0, 2},
new double[] {Double.NaN, 2, 1, 0, -0, -1, -2});
}
private static void testSortDescending(double[] input, double[] expectedOutput) {
input = Arrays.copyOf(input, input.length);
Doubles.sortDescending(input);
// GWT's Arrays.equals doesn't appear to handle NaN correctly, so test each element individually
for (int i = 0; i < input.length; i++) {
assertEquals(0, Double.compare(expectedOutput[i], input[i]));
}
}
private static void testSortDescending(
double[] input, int fromIndex, int toIndex, double[] expectedOutput) {
input = Arrays.copyOf(input, input.length);
Doubles.sortDescending(input, fromIndex, toIndex);
// GWT's Arrays.equals doesn't appear to handle NaN correctly, so test each element individually
for (int i = 0; i < input.length; i++) {
assertEquals(0, Double.compare(expectedOutput[i], input[i]));
}
}
public void testSortDescendingIndexed() {
testSortDescending(new double[] {}, 0, 0, new double[] {});
testSortDescending(new double[] {1}, 0, 1, new double[] {1});
testSortDescending(new double[] {1, 2}, 0, 2, new double[] {2, 1});
testSortDescending(new double[] {1, 3, 1}, 0, 2, new double[] {3, 1, 1});
testSortDescending(new double[] {1, 3, 1}, 0, 1, new double[] {1, 3, 1});
testSortDescending(new double[] {-1, -2, 1, 2}, 1, 3, new double[] {-1, 1, -2, 2});
testSortDescending(
new double[] {-1, 1, Double.NaN, -2, 2}, 1, 4, new double[] {-1, Double.NaN, 1, -2, 2});
}
@GwtIncompatible // SerializableTester
public void testLexicographicalComparatorSerializable() {
Comparator<double[]> comparator = Doubles.lexicographicalComparator();
assertSame(comparator, SerializableTester.reserialize(comparator));
}
@GwtIncompatible // SerializableTester
public void testStringConverterSerialization() {
SerializableTester.reserializeAndAssert(Doubles.stringConverter());
}
public void testToArray() {
// need explicit type parameter to avoid javac warning!?
List<Double> none = Arrays.<Double>asList();
assertTrue(Arrays.equals(EMPTY, Doubles.toArray(none)));
List<Double> one = Arrays.asList((double) 1);
assertTrue(Arrays.equals(ARRAY1, Doubles.toArray(one)));
double[] array = {(double) 0, (double) 1, Math.PI};
List<Double> three = Arrays.asList((double) 0, (double) 1, Math.PI);
assertTrue(Arrays.equals(array, Doubles.toArray(three)));
assertTrue(Arrays.equals(array, Doubles.toArray(Doubles.asList(array))));
}
public void testToArray_threadSafe() {
for (int delta : new int[] {+1, 0, -1}) {
for (int i = 0; i < VALUES.length; i++) {
List<Double> list = Doubles.asList(VALUES).subList(0, i);
Collection<Double> misleadingSize = Helpers.misleadingSizeCollection(delta);
misleadingSize.addAll(list);
double[] arr = Doubles.toArray(misleadingSize);
assertEquals(i, arr.length);
for (int j = 0; j < i; j++) {
assertEquals(VALUES[j], arr[j]);
}
}
}
}
public void testToArray_withNull() {
List<Double> list = Arrays.asList((double) 0, (double) 1, null);
try {
Doubles.toArray(list);
fail();
} catch (NullPointerException expected) {
}
}
public void testToArray_withConversion() {
double[] array = {(double) 0, (double) 1, (double) 2};
List<Byte> bytes = Arrays.asList((byte) 0, (byte) 1, (byte) 2);
List<Short> shorts = Arrays.asList((short) 0, (short) 1, (short) 2);
List<Integer> ints = Arrays.asList(0, 1, 2);
List<Float> floats = Arrays.asList((float) 0, (float) 1, (float) 2);
List<Long> longs = Arrays.asList((long) 0, (long) 1, (long) 2);
List<Double> doubles = Arrays.asList((double) 0, (double) 1, (double) 2);
assertTrue(Arrays.equals(array, Doubles.toArray(bytes)));
assertTrue(Arrays.equals(array, Doubles.toArray(shorts)));
assertTrue(Arrays.equals(array, Doubles.toArray(ints)));
assertTrue(Arrays.equals(array, Doubles.toArray(floats)));
assertTrue(Arrays.equals(array, Doubles.toArray(longs)));
assertTrue(Arrays.equals(array, Doubles.toArray(doubles)));
}
public void testAsList_isAView() {
double[] array = {(double) 0, (double) 1};
List<Double> list = Doubles.asList(array);
list.set(0, (double) 2);
assertTrue(Arrays.equals(new double[] {(double) 2, (double) 1}, array));
array[1] = (double) 3;
assertThat(list).containsExactly((double) 2, (double) 3).inOrder();
}
public void testAsList_toArray_roundTrip() {
double[] array = {(double) 0, (double) 1, (double) 2};
List<Double> list = Doubles.asList(array);
double[] newArray = Doubles.toArray(list);
// Make sure it returned a copy
list.set(0, (double) 4);
assertTrue(Arrays.equals(new double[] {(double) 0, (double) 1, (double) 2}, newArray));
newArray[1] = (double) 5;
assertEquals((double) 1, (double) list.get(1));
}
// This test stems from a real bug found by andrewk
public void testAsList_subList_toArray_roundTrip() {
double[] array = {(double) 0, (double) 1, (double) 2, (double) 3};
List<Double> list = Doubles.asList(array);
assertTrue(
Arrays.equals(new double[] {(double) 1, (double) 2}, Doubles.toArray(list.subList(1, 3))));
assertTrue(Arrays.equals(new double[] {}, Doubles.toArray(list.subList(2, 2))));
}
public void testAsListEmpty() {
assertSame(Collections.emptyList(), Doubles.asList(EMPTY));
}
/**
* A reference implementation for {@code tryParse} that just catches the exception from {@link
* Double#valueOf}.
*/
private static Double referenceTryParse(String input) {
if (input.trim().length() < input.length()) {
return null;
}
try {
return Double.valueOf(input);
} catch (NumberFormatException e) {
return null;
}
}
@GwtIncompatible // Doubles.tryParse
private static void checkTryParse(String input) {
Double expected = referenceTryParse(input);
assertEquals(expected, Doubles.tryParse(input));
if (expected != null && !Doubles.FLOATING_POINT_PATTERN.matcher(input).matches()) {
// TODO(cpovirk): Use SourceCodeEscapers if it is added to Guava.
StringBuilder escapedInput = new StringBuilder();
for (char c : input.toCharArray()) {
if (c >= 0x20 && c <= 0x7E) {
escapedInput.append(c);
} else {
escapedInput.append(String.format("\\u%04x", (int) c));
}
}
fail("FLOATING_POINT_PATTERN should have matched valid input <" + escapedInput + ">");
}
}
@GwtIncompatible // Doubles.tryParse
private static void checkTryParse(double expected, String input) {
assertEquals(Double.valueOf(expected), Doubles.tryParse(input));
assertThat(input)
.matches(
Pattern.compile(
Doubles.FLOATING_POINT_PATTERN.pattern(), Doubles.FLOATING_POINT_PATTERN.flags()));
}
@GwtIncompatible // Doubles.tryParse
public void testTryParseHex() {
for (String signChar : ImmutableList.of("", "+", "-")) {
for (String hexPrefix : ImmutableList.of("0x", "0X")) {
for (String iPart : ImmutableList.of("", "0", "1", "F", "f", "c4", "CE")) {
for (String fPart : ImmutableList.of("", ".", ".F", ".52", ".a")) {
for (String expMarker : ImmutableList.of("p", "P")) {
for (String exponent : ImmutableList.of("0", "-5", "+20", "52")) {
for (String typePart : ImmutableList.of("", "D", "F", "d", "f")) {
checkTryParse(
signChar + hexPrefix + iPart + fPart + expMarker + exponent + typePart);
}
}
}
}
}
}
}
}
@AndroidIncompatible // slow
@GwtIncompatible // Doubles.tryParse
public void testTryParseAllCodePoints() {
// Exercise non-ASCII digit test cases and the like.
char[] tmp = new char[2];
for (int i = Character.MIN_CODE_POINT; i < Character.MAX_CODE_POINT; i++) {
Character.toChars(i, tmp, 0);
checkTryParse(String.copyValueOf(tmp, 0, Character.charCount(i)));
}
}
@GwtIncompatible // Doubles.tryParse
public void testTryParseOfToStringIsOriginal() {
for (double d : NUMBERS) {
checkTryParse(d, Double.toString(d));
}
}
@GwtIncompatible // Doubles.tryParse
public void testTryParseOfToHexStringIsOriginal() {
for (double d : NUMBERS) {
checkTryParse(d, Double.toHexString(d));
}
}
@GwtIncompatible // Doubles.tryParse
public void testTryParseNaN() {
checkTryParse("NaN");
checkTryParse("+NaN");
checkTryParse("-NaN");
}
@GwtIncompatible // Doubles.tryParse
public void testTryParseInfinity() {
checkTryParse(Double.POSITIVE_INFINITY, "Infinity");
checkTryParse(Double.POSITIVE_INFINITY, "+Infinity");
checkTryParse(Double.NEGATIVE_INFINITY, "-Infinity");
}
private static final String[] BAD_TRY_PARSE_INPUTS = {
"",
"+-",
"+-0",
" 5",
"32 ",
" 55 ",
"infinity",
"POSITIVE_INFINITY",
"0x9A",
"0x9A.bE-5",
".",
".e5",
"NaNd",
"InfinityF"
};
@GwtIncompatible // Doubles.tryParse
public void testTryParseFailures() {
for (String badInput : BAD_TRY_PARSE_INPUTS) {
assertThat(badInput)
.doesNotMatch(
Pattern.compile(
Doubles.FLOATING_POINT_PATTERN.pattern(),
Doubles.FLOATING_POINT_PATTERN.flags()));
assertEquals(referenceTryParse(badInput), Doubles.tryParse(badInput));
assertNull(Doubles.tryParse(badInput));
}
}
@GwtIncompatible // NullPointerTester
public void testNulls() {
new NullPointerTester().testAllPublicStaticMethods(Doubles.class);
}
public void testStringConverter_convert() {
Converter<String, Double> converter = Doubles.stringConverter();
assertEquals((Double) 1.0, converter.convert("1.0"));
assertEquals((Double) 0.0, converter.convert("0.0"));
assertEquals((Double) (-1.0), converter.convert("-1.0"));
assertEquals((Double) 1.0, converter.convert("1"));
assertEquals((Double) 0.0, converter.convert("0"));
assertEquals((Double) (-1.0), converter.convert("-1"));
assertEquals((Double) 1e6, converter.convert("1e6"));
assertEquals((Double) 1e-6, converter.convert("1e-6"));
}
public void testStringConverter_convertError() {
try {
Doubles.stringConverter().convert("notanumber");
fail();
} catch (NumberFormatException expected) {
}
}
public void testStringConverter_nullConversions() {
assertNull(Doubles.stringConverter().convert(null));
assertNull(Doubles.stringConverter().reverse().convert(null));
}
@GwtIncompatible // Double.toString returns different value in GWT.
public void testStringConverter_reverse() {
Converter<String, Double> converter = Doubles.stringConverter();
assertEquals("1.0", converter.reverse().convert(1.0));
assertEquals("0.0", converter.reverse().convert(0.0));
assertEquals("-1.0", converter.reverse().convert(-1.0));
assertEquals("1000000.0", converter.reverse().convert(1e6));
assertEquals("1.0E-6", converter.reverse().convert(1e-6));
}
@GwtIncompatible // NullPointerTester
public void testStringConverter_nullPointerTester() throws Exception {
NullPointerTester tester = new NullPointerTester();
tester.testAllPublicInstanceMethods(Doubles.stringConverter());
}
@GwtIncompatible
public void testTryParse_withNullNoGwt() {
assertNull(Doubles.tryParse("null"));
try {
Doubles.tryParse(null);
fail("Expected NPE");
} catch (NullPointerException expected) {
}
}
}