Java example source code file (PrimitiveTest.java)
The PrimitiveTest.java Java example source code/*
* Copyright (C) 2008 Google Inc.
*
* 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.gson.functional;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.gson.JsonPrimitive;
import com.google.gson.JsonSyntaxException;
import com.google.gson.LongSerializationPolicy;
import com.google.gson.reflect.TypeToken;
import java.io.Serializable;
import java.io.StringReader;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.Arrays;
import java.util.List;
import junit.framework.TestCase;
/**
* Functional tests for Json primitive values: integers, and floating point numbers.
*
* @author Inderjeet Singh
* @author Joel Leitch
*/
public class PrimitiveTest extends TestCase {
private Gson gson;
@Override
protected void setUp() throws Exception {
super.setUp();
gson = new Gson();
}
public void testPrimitiveIntegerAutoboxedSerialization() {
assertEquals("1", gson.toJson(1));
}
public void testPrimitiveIntegerAutoboxedDeserialization() {
int expected = 1;
int actual = gson.fromJson("1", int.class);
assertEquals(expected, actual);
actual = gson.fromJson("1", Integer.class);
assertEquals(expected, actual);
}
public void testByteSerialization() {
assertEquals("1", gson.toJson(1, byte.class));
assertEquals("1", gson.toJson(1, Byte.class));
}
public void testShortSerialization() {
assertEquals("1", gson.toJson(1, short.class));
assertEquals("1", gson.toJson(1, Short.class));
}
public void testByteDeserialization() {
Byte target = gson.fromJson("1", Byte.class);
assertEquals(1, (byte)target);
byte primitive = gson.fromJson("1", byte.class);
assertEquals(1, primitive);
}
public void testPrimitiveIntegerAutoboxedInASingleElementArraySerialization() {
int target[] = {-9332};
assertEquals("[-9332]", gson.toJson(target));
assertEquals("[-9332]", gson.toJson(target, int[].class));
assertEquals("[-9332]", gson.toJson(target, Integer[].class));
}
public void testReallyLongValuesSerialization() {
long value = 333961828784581L;
assertEquals("333961828784581", gson.toJson(value));
}
public void testReallyLongValuesDeserialization() {
String json = "333961828784581";
long value = gson.fromJson(json, Long.class);
assertEquals(333961828784581L, value);
}
public void testPrimitiveLongAutoboxedSerialization() {
assertEquals("1", gson.toJson(1L, long.class));
assertEquals("1", gson.toJson(1L, Long.class));
}
public void testPrimitiveLongAutoboxedDeserialization() {
long expected = 1L;
long actual = gson.fromJson("1", long.class);
assertEquals(expected, actual);
actual = gson.fromJson("1", Long.class);
assertEquals(expected, actual);
}
public void testPrimitiveLongAutoboxedInASingleElementArraySerialization() {
long[] target = {-23L};
assertEquals("[-23]", gson.toJson(target));
assertEquals("[-23]", gson.toJson(target, long[].class));
assertEquals("[-23]", gson.toJson(target, Long[].class));
}
public void testPrimitiveBooleanAutoboxedSerialization() {
assertEquals("true", gson.toJson(true));
assertEquals("false", gson.toJson(false));
}
public void testBooleanDeserialization() {
boolean value = gson.fromJson("false", boolean.class);
assertEquals(false, value);
value = gson.fromJson("true", boolean.class);
assertEquals(true, value);
}
public void testPrimitiveBooleanAutoboxedInASingleElementArraySerialization() {
boolean target[] = {false};
assertEquals("[false]", gson.toJson(target));
assertEquals("[false]", gson.toJson(target, boolean[].class));
assertEquals("[false]", gson.toJson(target, Boolean[].class));
}
public void testNumberSerialization() {
Number expected = 1L;
String json = gson.toJson(expected);
assertEquals(expected.toString(), json);
json = gson.toJson(expected, Number.class);
assertEquals(expected.toString(), json);
}
public void testNumberDeserialization() {
String json = "1";
Number expected = new Integer(json);
Number actual = gson.fromJson(json, Number.class);
assertEquals(expected.intValue(), actual.intValue());
json = String.valueOf(Long.MAX_VALUE);
expected = new Long(json);
actual = gson.fromJson(json, Number.class);
assertEquals(expected.longValue(), actual.longValue());
json = "1.0";
actual = gson.fromJson(json, Number.class);
assertEquals(1L, actual.longValue());
}
public void testPrimitiveDoubleAutoboxedSerialization() {
assertEquals("-122.08234335", gson.toJson(-122.08234335));
assertEquals("122.08112002", gson.toJson(new Double(122.08112002)));
}
public void testPrimitiveDoubleAutoboxedDeserialization() {
double actual = gson.fromJson("-122.08858585", double.class);
assertEquals(-122.08858585, actual);
actual = gson.fromJson("122.023900008000", Double.class);
assertEquals(122.023900008, actual);
}
public void testPrimitiveDoubleAutoboxedInASingleElementArraySerialization() {
double[] target = {-122.08D};
assertEquals("[-122.08]", gson.toJson(target));
assertEquals("[-122.08]", gson.toJson(target, double[].class));
assertEquals("[-122.08]", gson.toJson(target, Double[].class));
}
public void testDoubleAsStringRepresentationDeserialization() {
String doubleValue = "1.0043E+5";
Double expected = Double.valueOf(doubleValue);
Double actual = gson.fromJson(doubleValue, Double.class);
assertEquals(expected, actual);
double actual1 = gson.fromJson(doubleValue, double.class);
assertEquals(expected.doubleValue(), actual1);
}
public void testDoubleNoFractAsStringRepresentationDeserialization() {
String doubleValue = "1E+5";
Double expected = Double.valueOf(doubleValue);
Double actual = gson.fromJson(doubleValue, Double.class);
assertEquals(expected, actual);
double actual1 = gson.fromJson(doubleValue, double.class);
assertEquals(expected.doubleValue(), actual1);
}
public void testDoubleArrayDeserialization() {
String json = "[0.0, 0.004761904761904762, 3.4013606962703525E-4, 7.936508173034305E-4,"
+ "0.0011904761904761906, 0.0]";
double[] values = gson.fromJson(json, double[].class);
assertEquals(6, values.length);
assertEquals(0.0, values[0]);
assertEquals(0.004761904761904762, values[1]);
assertEquals(3.4013606962703525E-4, values[2]);
assertEquals(7.936508173034305E-4, values[3]);
assertEquals(0.0011904761904761906, values[4]);
assertEquals(0.0, values[5]);
}
public void testLargeDoubleDeserialization() {
String doubleValue = "1.234567899E8";
Double expected = Double.valueOf(doubleValue);
Double actual = gson.fromJson(doubleValue, Double.class);
assertEquals(expected, actual);
double actual1 = gson.fromJson(doubleValue, double.class);
assertEquals(expected.doubleValue(), actual1);
}
public void testBigDecimalSerialization() {
BigDecimal target = new BigDecimal("-122.0e-21");
String json = gson.toJson(target);
assertEquals(target, new BigDecimal(json));
}
public void testBigDecimalDeserialization() {
BigDecimal target = new BigDecimal("-122.0e-21");
String json = "-122.0e-21";
assertEquals(target, gson.fromJson(json, BigDecimal.class));
}
public void testBigDecimalInASingleElementArraySerialization() {
BigDecimal[] target = {new BigDecimal("-122.08e-21")};
String json = gson.toJson(target);
String actual = extractElementFromArray(json);
assertEquals(target[0], new BigDecimal(actual));
json = gson.toJson(target, BigDecimal[].class);
actual = extractElementFromArray(json);
assertEquals(target[0], new BigDecimal(actual));
}
public void testSmallValueForBigDecimalSerialization() {
BigDecimal target = new BigDecimal("1.55");
String actual = gson.toJson(target);
assertEquals(target.toString(), actual);
}
public void testSmallValueForBigDecimalDeserialization() {
BigDecimal expected = new BigDecimal("1.55");
BigDecimal actual = gson.fromJson("1.55", BigDecimal.class);
assertEquals(expected, actual);
}
public void testBigDecimalPreservePrecisionSerialization() {
String expectedValue = "1.000";
BigDecimal obj = new BigDecimal(expectedValue);
String actualValue = gson.toJson(obj);
assertEquals(expectedValue, actualValue);
}
public void testBigDecimalPreservePrecisionDeserialization() {
String json = "1.000";
BigDecimal expected = new BigDecimal(json);
BigDecimal actual = gson.fromJson(json, BigDecimal.class);
assertEquals(expected, actual);
}
public void testBigDecimalAsStringRepresentationDeserialization() {
String doubleValue = "0.05E+5";
BigDecimal expected = new BigDecimal(doubleValue);
BigDecimal actual = gson.fromJson(doubleValue, BigDecimal.class);
assertEquals(expected, actual);
}
public void testBigDecimalNoFractAsStringRepresentationDeserialization() {
String doubleValue = "5E+5";
BigDecimal expected = new BigDecimal(doubleValue);
BigDecimal actual = gson.fromJson(doubleValue, BigDecimal.class);
assertEquals(expected, actual);
}
public void testBigIntegerSerialization() {
BigInteger target = new BigInteger("12121211243123245845384534687435634558945453489543985435");
assertEquals(target.toString(), gson.toJson(target));
}
public void testBigIntegerDeserialization() {
String json = "12121211243123245845384534687435634558945453489543985435";
BigInteger target = new BigInteger(json);
assertEquals(target, gson.fromJson(json, BigInteger.class));
}
public void testBigIntegerInASingleElementArraySerialization() {
BigInteger[] target = {new BigInteger("1212121243434324323254365345367456456456465464564564")};
String json = gson.toJson(target);
String actual = extractElementFromArray(json);
assertEquals(target[0], new BigInteger(actual));
json = gson.toJson(target, BigInteger[].class);
actual = extractElementFromArray(json);
assertEquals(target[0], new BigInteger(actual));
}
public void testSmallValueForBigIntegerSerialization() {
BigInteger target = new BigInteger("15");
String actual = gson.toJson(target);
assertEquals(target.toString(), actual);
}
public void testSmallValueForBigIntegerDeserialization() {
BigInteger expected = new BigInteger("15");
BigInteger actual = gson.fromJson("15", BigInteger.class);
assertEquals(expected, actual);
}
public void testBadValueForBigIntegerDeserialization() {
try {
gson.fromJson("15.099", BigInteger.class);
fail("BigInteger can not be decimal values.");
} catch (JsonSyntaxException expected) { }
}
public void testMoreSpecificSerialization() {
Gson gson = new Gson();
String expected = "This is a string";
String expectedJson = gson.toJson(expected);
Serializable serializableString = expected;
String actualJson = gson.toJson(serializableString, Serializable.class);
assertFalse(expectedJson.equals(actualJson));
}
private String extractElementFromArray(String json) {
return json.substring(json.indexOf('[') + 1, json.indexOf(']'));
}
public void testDoubleNaNSerializationNotSupportedByDefault() {
try {
double nan = Double.NaN;
gson.toJson(nan);
fail("Gson should not accept NaN for serialization");
} catch (IllegalArgumentException expected) {
}
try {
gson.toJson(Double.NaN);
fail("Gson should not accept NaN for serialization");
} catch (IllegalArgumentException expected) {
}
}
public void testDoubleNaNSerialization() {
Gson gson = new GsonBuilder().serializeSpecialFloatingPointValues().create();
double nan = Double.NaN;
assertEquals("NaN", gson.toJson(nan));
assertEquals("NaN", gson.toJson(Double.NaN));
}
public void testDoubleNaNDeserialization() {
assertTrue(Double.isNaN(gson.fromJson("NaN", Double.class)));
assertTrue(Double.isNaN(gson.fromJson("NaN", double.class)));
}
public void testFloatNaNSerializationNotSupportedByDefault() {
try {
float nan = Float.NaN;
gson.toJson(nan);
fail("Gson should not accept NaN for serialization");
} catch (IllegalArgumentException expected) {
}
try {
gson.toJson(Float.NaN);
fail("Gson should not accept NaN for serialization");
} catch (IllegalArgumentException expected) {
}
}
public void testFloatNaNSerialization() {
Gson gson = new GsonBuilder().serializeSpecialFloatingPointValues().create();
float nan = Float.NaN;
assertEquals("NaN", gson.toJson(nan));
assertEquals("NaN", gson.toJson(Float.NaN));
}
public void testFloatNaNDeserialization() {
assertTrue(Float.isNaN(gson.fromJson("NaN", Float.class)));
assertTrue(Float.isNaN(gson.fromJson("NaN", float.class)));
}
public void testBigDecimalNaNDeserializationNotSupported() {
try {
gson.fromJson("NaN", BigDecimal.class);
fail("Gson should not accept NaN for deserialization by default.");
} catch (JsonSyntaxException expected) {
}
}
public void testDoubleInfinitySerializationNotSupportedByDefault() {
try {
double infinity = Double.POSITIVE_INFINITY;
gson.toJson(infinity);
fail("Gson should not accept positive infinity for serialization by default.");
} catch (IllegalArgumentException expected) {
}
try {
gson.toJson(Double.POSITIVE_INFINITY);
fail("Gson should not accept positive infinity for serialization by default.");
} catch (IllegalArgumentException expected) {
}
}
public void testDoubleInfinitySerialization() {
Gson gson = new GsonBuilder().serializeSpecialFloatingPointValues().create();
double infinity = Double.POSITIVE_INFINITY;
assertEquals("Infinity", gson.toJson(infinity));
assertEquals("Infinity", gson.toJson(Double.POSITIVE_INFINITY));
}
public void testDoubleInfinityDeserialization() {
assertTrue(Double.isInfinite(gson.fromJson("Infinity", Double.class)));
assertTrue(Double.isInfinite(gson.fromJson("Infinity", double.class)));
}
public void testFloatInfinitySerializationNotSupportedByDefault() {
try {
float infinity = Float.POSITIVE_INFINITY;
gson.toJson(infinity);
fail("Gson should not accept positive infinity for serialization by default");
} catch (IllegalArgumentException expected) {
}
try {
gson.toJson(Float.POSITIVE_INFINITY);
fail("Gson should not accept positive infinity for serialization by default");
} catch (IllegalArgumentException expected) {
}
}
public void testFloatInfinitySerialization() {
Gson gson = new GsonBuilder().serializeSpecialFloatingPointValues().create();
float infinity = Float.POSITIVE_INFINITY;
assertEquals("Infinity", gson.toJson(infinity));
assertEquals("Infinity", gson.toJson(Float.POSITIVE_INFINITY));
}
public void testFloatInfinityDeserialization() {
assertTrue(Float.isInfinite(gson.fromJson("Infinity", Float.class)));
assertTrue(Float.isInfinite(gson.fromJson("Infinity", float.class)));
}
public void testBigDecimalInfinityDeserializationNotSupported() {
try {
gson.fromJson("Infinity", BigDecimal.class);
fail("Gson should not accept positive infinity for deserialization with BigDecimal");
} catch (JsonSyntaxException expected) {
}
}
public void testNegativeInfinitySerializationNotSupportedByDefault() {
try {
double negativeInfinity = Double.NEGATIVE_INFINITY;
gson.toJson(negativeInfinity);
fail("Gson should not accept negative infinity for serialization by default");
} catch (IllegalArgumentException expected) {
}
try {
gson.toJson(Double.NEGATIVE_INFINITY);
fail("Gson should not accept negative infinity for serialization by default");
} catch (IllegalArgumentException expected) {
}
}
public void testNegativeInfinitySerialization() {
Gson gson = new GsonBuilder().serializeSpecialFloatingPointValues().create();
double negativeInfinity = Double.NEGATIVE_INFINITY;
assertEquals("-Infinity", gson.toJson(negativeInfinity));
assertEquals("-Infinity", gson.toJson(Double.NEGATIVE_INFINITY));
}
public void testNegativeInfinityDeserialization() {
assertTrue(Double.isInfinite(gson.fromJson("-Infinity", double.class)));
assertTrue(Double.isInfinite(gson.fromJson("-Infinity", Double.class)));
}
public void testNegativeInfinityFloatSerializationNotSupportedByDefault() {
try {
float negativeInfinity = Float.NEGATIVE_INFINITY;
gson.toJson(negativeInfinity);
fail("Gson should not accept negative infinity for serialization by default");
} catch (IllegalArgumentException expected) {
}
try {
gson.toJson(Float.NEGATIVE_INFINITY);
fail("Gson should not accept negative infinity for serialization by default");
} catch (IllegalArgumentException expected) {
}
}
public void testNegativeInfinityFloatSerialization() {
Gson gson = new GsonBuilder().serializeSpecialFloatingPointValues().create();
float negativeInfinity = Float.NEGATIVE_INFINITY;
assertEquals("-Infinity", gson.toJson(negativeInfinity));
assertEquals("-Infinity", gson.toJson(Float.NEGATIVE_INFINITY));
}
public void testNegativeInfinityFloatDeserialization() {
assertTrue(Float.isInfinite(gson.fromJson("-Infinity", float.class)));
assertTrue(Float.isInfinite(gson.fromJson("-Infinity", Float.class)));
}
public void testBigDecimalNegativeInfinityDeserializationNotSupported() {
try {
gson.fromJson("-Infinity", BigDecimal.class);
fail("Gson should not accept positive infinity for deserialization");
} catch (JsonSyntaxException expected) {
}
}
public void testLongAsStringSerialization() throws Exception {
gson = new GsonBuilder().setLongSerializationPolicy(LongSerializationPolicy.STRING).create();
String result = gson.toJson(15L);
assertEquals("\"15\"", result);
// Test with an integer and ensure its still a number
result = gson.toJson(2);
assertEquals("2", result);
}
public void testLongAsStringDeserialization() throws Exception {
long value = gson.fromJson("\"15\"", long.class);
assertEquals(15, value);
gson = new GsonBuilder().setLongSerializationPolicy(LongSerializationPolicy.STRING).create();
value = gson.fromJson("\"25\"", long.class);
assertEquals(25, value);
}
public void testQuotedStringSerializationAndDeserialization() throws Exception {
String value = "String Blah Blah Blah...1, 2, 3";
String serializedForm = gson.toJson(value);
assertEquals("\"" + value + "\"", serializedForm);
String actual = gson.fromJson(serializedForm, String.class);
assertEquals(value, actual);
}
public void testUnquotedStringDeserializationFails() throws Exception {
assertEquals("UnquotedSingleWord", gson.fromJson("UnquotedSingleWord", String.class));
String value = "String Blah Blah Blah...1, 2, 3";
try {
gson.fromJson(value, String.class);
fail();
} catch (JsonSyntaxException expected) { }
}
public void testHtmlCharacterSerialization() throws Exception {
String target = "<script>var a = 12;";
String result = gson.toJson(target);
assertFalse(result.equals('"' + target + '"'));
gson = new GsonBuilder().disableHtmlEscaping().create();
result = gson.toJson(target);
assertTrue(result.equals('"' + target + '"'));
}
public void testDeserializePrimitiveWrapperAsObjectField() {
String json = "{i:10}";
ClassWithIntegerField target = gson.fromJson(json, ClassWithIntegerField.class);
assertEquals(10, target.i.intValue());
}
private static class ClassWithIntegerField {
Integer i;
}
public void testPrimitiveClassLiteral() {
assertEquals(1, gson.fromJson("1", int.class).intValue());
assertEquals(1, gson.fromJson(new StringReader("1"), int.class).intValue());
assertEquals(1, gson.fromJson(new JsonPrimitive(1), int.class).intValue());
}
public void testDeserializeJsonObjectAsLongPrimitive() {
try {
gson.fromJson("{'abc':1}", long.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsLongWrapper() {
try {
gson.fromJson("[1,2,3]", Long.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsInt() {
try {
gson.fromJson("[1, 2, 3, 4]", int.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsInteger() {
try {
gson.fromJson("{}", Integer.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsShortPrimitive() {
try {
gson.fromJson("{'abc':1}", short.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsShortWrapper() {
try {
gson.fromJson("['a','b']", Short.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsDoublePrimitive() {
try {
gson.fromJson("[1,2]", double.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsDoubleWrapper() {
try {
gson.fromJson("{'abc':1}", Double.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsFloatPrimitive() {
try {
gson.fromJson("{'abc':1}", float.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsFloatWrapper() {
try {
gson.fromJson("[1,2,3]", Float.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsBytePrimitive() {
try {
gson.fromJson("{'abc':1}", byte.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsByteWrapper() {
try {
gson.fromJson("[1,2,3,4]", Byte.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsBooleanPrimitive() {
try {
gson.fromJson("{'abc':1}", boolean.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsBooleanWrapper() {
try {
gson.fromJson("[1,2,3,4]", Boolean.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsBigDecimal() {
try {
gson.fromJson("[1,2,3,4]", BigDecimal.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsBigDecimal() {
try {
gson.fromJson("{'a':1}", BigDecimal.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsBigInteger() {
try {
gson.fromJson("[1,2,3,4]", BigInteger.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsBigInteger() {
try {
gson.fromJson("{'c':2}", BigInteger.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonArrayAsNumber() {
try {
gson.fromJson("[1,2,3,4]", Number.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializeJsonObjectAsNumber() {
try {
gson.fromJson("{'c':2}", Number.class);
fail();
} catch (JsonSyntaxException expected) {}
}
public void testDeserializingDecimalPointValueZeroSucceeds() {
assertEquals(1, (int) gson.fromJson("1.0", Integer.class));
}
public void testDeserializingNonZeroDecimalPointValuesAsIntegerFails() {
try {
gson.fromJson("1.02", Byte.class);
fail();
} catch (JsonSyntaxException expected) {
}
try {
gson.fromJson("1.02", Short.class);
fail();
} catch (JsonSyntaxException expected) {
}
try {
gson.fromJson("1.02", Integer.class);
fail();
} catch (JsonSyntaxException expected) {
}
try {
gson.fromJson("1.02", Long.class);
fail();
} catch (JsonSyntaxException expected) {
}
}
public void testDeserializingBigDecimalAsIntegerFails() {
try {
gson.fromJson("-122.08e-213", Integer.class);
fail();
} catch (JsonSyntaxException expected) {
}
}
public void testDeserializingBigIntegerAsInteger() {
try {
gson.fromJson("12121211243123245845384534687435634558945453489543985435", Integer.class);
fail();
} catch (JsonSyntaxException expected) {
}
}
public void testDeserializingBigIntegerAsLong() {
try {
gson.fromJson("12121211243123245845384534687435634558945453489543985435", Long.class);
fail();
} catch (JsonSyntaxException expected) {
}
}
public void testValueVeryCloseToZeroIsZero() {
assertEquals(0, (byte) gson.fromJson("-122.08e-2132", byte.class));
assertEquals(0, (short) gson.fromJson("-122.08e-2132", short.class));
assertEquals(0, (int) gson.fromJson("-122.08e-2132", int.class));
assertEquals(0, (long) gson.fromJson("-122.08e-2132", long.class));
assertEquals(-0.0f, gson.fromJson("-122.08e-2132", float.class));
assertEquals(-0.0, gson.fromJson("-122.08e-2132", double.class));
assertEquals(0.0f, gson.fromJson("122.08e-2132", float.class));
assertEquals(0.0, gson.fromJson("122.08e-2132", double.class));
}
public void testDeserializingBigDecimalAsFloat() {
String json = "-122.08e-2132332";
float actual = gson.fromJson(json, float.class);
assertEquals(-0.0f, actual);
}
public void testDeserializingBigDecimalAsDouble() {
String json = "-122.08e-2132332";
double actual = gson.fromJson(json, double.class);
assertEquals(-0.0d, actual);
}
public void testDeserializingBigDecimalAsBigIntegerFails() {
try {
gson.fromJson("-122.08e-213", BigInteger.class);
fail();
} catch (JsonSyntaxException expected) {
}
}
public void testDeserializingBigIntegerAsBigDecimal() {
BigDecimal actual =
gson.fromJson("12121211243123245845384534687435634558945453489543985435", BigDecimal.class);
assertEquals("12121211243123245845384534687435634558945453489543985435", actual.toPlainString());
}
public void testStringsAsBooleans() {
String json = "['true', 'false', 'TRUE', 'yes', '1']";
assertEquals(Arrays.asList(true, false, true, false, false),
gson.<List
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