AsyncSimpleObjectTest.java
package com.fasterxml.jackson.core.json.async;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.math.BigDecimal;
import org.junit.jupiter.api.Test;
import com.fasterxml.jackson.core.*;
import com.fasterxml.jackson.core.JsonParser.NumberType;
import com.fasterxml.jackson.core.async.AsyncTestBase;
import com.fasterxml.jackson.core.testsupport.AsyncReaderWrapper;
import static org.junit.jupiter.api.Assertions.*;
class AsyncSimpleObjectTest extends AsyncTestBase
{
private final JsonFactory JSON_F = new JsonFactory();
/*
/**********************************************************************
/* Test methods
/**********************************************************************
*/
private final static String UNICODE_SHORT_NAME = "Unicode"+UNICODE_3BYTES+"RlzOk";
private final static String UNICODE_LONG_NAME = "Unicode-with-"+UNICODE_3BYTES+"-much-longer";
@Test
void booleans() throws IOException
{
final JsonFactory f = JSON_F;
byte[] data = _jsonDoc(a2q(
"{ 'a':true, 'b':false, 'acdc':true, '"+UNICODE_SHORT_NAME+"':true, 'a1234567':false,"
+"'"+UNICODE_LONG_NAME+"': true }"));
// first, no offsets
_testBooleans(f, data, 0, 100);
_testBooleans(f, data, 0, 3);
_testBooleans(f, data, 0, 1);
// then with some
_testBooleans(f, data, 1, 100);
_testBooleans(f, data, 1, 3);
_testBooleans(f, data, 1, 1);
}
private void _testBooleans(JsonFactory f,
byte[] data, int offset, int readSize) throws IOException
{
AsyncReaderWrapper r = asyncForBytes(f, readSize, data, offset);
// start with "no token"
assertNull(r.currentToken());
assertToken(JsonToken.START_OBJECT, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("a", r.currentText());
// by default no cheap access to char[] version:
assertFalse(r.parser().hasTextCharacters());
// but...
char[] ch = r.parser().getTextCharacters();
assertEquals(0, r.parser().getTextOffset());
assertEquals(1, r.parser().getTextLength());
assertEquals("a", new String(ch, 0, 1));
assertTrue(r.parser().hasTextCharacters());
assertToken(JsonToken.VALUE_TRUE, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("b", r.currentText());
assertToken(JsonToken.VALUE_FALSE, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("acdc", r.currentText());
assertToken(JsonToken.VALUE_TRUE, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals(UNICODE_SHORT_NAME, r.currentText());
assertToken(JsonToken.VALUE_TRUE, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("a1234567", r.currentText());
assertToken(JsonToken.VALUE_FALSE, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals(UNICODE_LONG_NAME, r.currentText());
assertToken(JsonToken.VALUE_TRUE, r.nextToken());
// and for fun let's verify can't access this as number or binary
try {
r.getDoubleValue();
fail("Should not pass");
} catch (JsonProcessingException e) {
verifyException(e, "Current token (VALUE_TRUE) not numeric");
}
try {
r.parser().getBinaryValue();
fail("Should not pass");
} catch (JsonProcessingException e) {
verifyException(e, "Current token (VALUE_TRUE) not");
verifyException(e, "can not access as binary");
}
assertToken(JsonToken.END_OBJECT, r.nextToken());
// and end up with "no token" as well
assertNull(r.nextToken());
assertTrue(r.isClosed());
}
private final int NUMBER_EXP_I = -123456789;
private final double NUMBER_EXP_D = 1024798.125;
private final BigDecimal NUMBER_EXP_BD = new BigDecimal("1243565768679065.1247305834");
@Test
void numbers() throws IOException
{
ByteArrayOutputStream bytes = new ByteArrayOutputStream(100);
JsonFactory f = JSON_F;
JsonGenerator g = f.createGenerator(bytes);
g.writeStartObject();
g.writeNumberField("i1", NUMBER_EXP_I);
g.writeNumberField("doubley", NUMBER_EXP_D);
g.writeFieldName("biggieDecimal");
g.writeNumber(NUMBER_EXP_BD.toString());
g.writeEndObject();
g.close();
byte[] data = bytes.toByteArray();
// first, no offsets
_testNumbers(f, data, 0, 100);
_testNumbers(f, data, 0, 5);
_testNumbers(f, data, 0, 3);
_testNumbers(f, data, 0, 2);
_testNumbers(f, data, 0, 1);
// then with some
_testNumbers(f, data, 1, 100);
_testNumbers(f, data, 1, 3);
_testNumbers(f, data, 1, 1);
}
private void _testNumbers(JsonFactory f,
byte[] data, int offset, int readSize) throws IOException
{
AsyncReaderWrapper r = asyncForBytes(f, readSize, data, offset);
// start with "no token"
assertNull(r.currentToken());
assertToken(JsonToken.START_OBJECT, r.nextToken());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("i1", r.currentText());
assertToken(JsonToken.VALUE_NUMBER_INT, r.nextToken());
assertEquals(NumberType.INT, r.getNumberType());
assertEquals(NUMBER_EXP_I, r.getIntValue());
assertEquals((double)NUMBER_EXP_I, r.getDoubleValue());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("doubley", r.currentText());
assertToken(JsonToken.VALUE_NUMBER_FLOAT, r.nextToken());
assertEquals(NumberType.DOUBLE, r.getNumberType());
assertEquals(NUMBER_EXP_D, r.getDoubleValue());
assertEquals((long) NUMBER_EXP_D, r.getLongValue());
assertToken(JsonToken.FIELD_NAME, r.nextToken());
assertEquals("biggieDecimal", r.currentText());
assertToken(JsonToken.VALUE_NUMBER_FLOAT, r.nextToken());
// can't really tell double/BigDecimal apart in plain json
assertEquals(NumberType.DOUBLE, r.getNumberType());
assertEquals(NUMBER_EXP_BD, r.getDecimalValue());
assertEquals(""+NUMBER_EXP_BD, r.currentText());
assertToken(JsonToken.END_OBJECT, r.nextToken());
// and end up with "no token" as well
assertNull(r.nextToken());
assertTrue(r.isClosed());
}
}