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DecoderOverAvroParser
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_parser: AvroParserImpl
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DecoderOverAvroParser(AvroParserImpl): void
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consumeToken(JsonToken[]): JsonToken
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nextValue(): JsonToken
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nextUnionValue(): JsonToken
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readNull(): void
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readBoolean(): boolean
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readInt(): int
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readLong(): long
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readFloat(): float
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readDouble(): double
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readString(Utf8): Utf8
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readString(): String
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skipString(): void
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readBytes(ByteBuffer): ByteBuffer
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skipBytes(): void
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readFixed(byte[], int, int): void
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skipFixed(int): void
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readEnum(): int
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readArrayStart(): long
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arrayNext(): long
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skipArray(): long
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readMapStart(): long
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mapNext(): long
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skipMap(): long
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readIndex(): int
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package com.fasterxml.jackson.dataformat.avro.apacheimpl;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.Arrays;
import org.apache.avro.io.Decoder;
import org.apache.avro.util.Utf8;
import com.fasterxml.jackson.core.JsonToken;
import com.fasterxml.jackson.dataformat.avro.deser.AvroParserImpl;
Wraps an AvroParser instance and allows it to be advanced by reading from it like an avro Decoder /**
* Wraps an AvroParser instance and allows it to be advanced by reading from it like an avro {@link Decoder}
*/
public class DecoderOverAvroParser extends Decoder {
protected final AvroParserImpl _parser;
public DecoderOverAvroParser(AvroParserImpl parser) {
_parser = parser;
}
Reads in the next value token from the parser and validates that it's one of the expected tokens
Params: - expectedTokens – List of token types that is expected
Throws: - IOException – If there is an error while reading the next token
- IllegalArgumentException – If the next token is not one of the
expectedTokens
Returns: The token that was consumed from the parser
/**
* Reads in the next value token from the parser and validates that it's one of the expected tokens
*
* @param expectedTokens List of token types that is expected
* @return The token that was consumed from the parser
* @throws IOException If there is an error while reading the next token
* @throws IllegalArgumentException If the next token is not one of the <code>expectedTokens</code>
*/
protected JsonToken consumeToken(JsonToken... expectedTokens) throws IOException {
JsonToken token = nextValue();
for (JsonToken expectedToken : expectedTokens) {
if (token.equals(expectedToken)) {
_parser.clearCurrentToken();
return token;
}
}
throw new IllegalArgumentException("Expected " + Arrays.toString(expectedTokens) + ", got: " + token);
}
Advance to the next actual value token; This effectively discards the virtual JSON tokens inserted by the parser for
START_OBJECT, END_OBJECT, START_ARRAY, etc. that are not actually present in the underlying
data stream and stops after reading the first token that represents actual data
Throws: - IOException – If there is an error while reading the next token
Returns: The next data token
/**
* Advance to the next actual value token; This effectively discards the virtual JSON tokens inserted by the parser for
* <code>START_OBJECT</code>, <code>END_OBJECT</code>, <code>START_ARRAY</code>, etc. that are not actually present in the underlying
* data stream and stops after reading the first token that represents actual data
*
* @return The next data token
* @throws IOException If there is an error while reading the next token
*/
protected JsonToken nextValue() throws IOException {
// Decoders don't care about start and end of records, or field names in records; swallow them
while (((_parser.currentToken() == JsonToken.START_OBJECT || _parser.currentToken() == JsonToken.END_OBJECT
|| _parser.currentToken() == JsonToken.FIELD_NAME) && _parser.isRecord()) || _parser.currentToken() == null
|| _parser.currentToken() == JsonToken.END_ARRAY) {
_parser.nextToken();
if (_parser.currentToken() == null) {
break;
}
}
return _parser.currentToken();
}
Advance to the next token that might contain union branching information; This effectively discards the virtual JSON tokens inserted
by the parser for END_OBJECT, START_ARRAY, etc. that are not actually present in the underlying data
stream and stops after reading the first token that represents actual data. START_OBJECT is not skipped because union
information is only available at the start of an object, and has been discarded by the parser by the time we reach the next actual
value.
Throws: - IOException – If there is an error while reading the next token
Returns: The next union branch token
/**
* Advance to the next token that might contain union branching information; This effectively discards the virtual JSON tokens inserted
* by the parser for <code>END_OBJECT</code>, <code>START_ARRAY</code>, etc. that are not actually present in the underlying data
* stream and stops after reading the first token that represents actual data. <code>START_OBJECT</code> is not skipped because union
* information is only available at the start of an object, and has been discarded by the parser by the time we reach the next actual
* value.
*
* @return The next union branch token
* @throws IOException If there is an error while reading the next token
*/
protected JsonToken nextUnionValue() throws IOException {
// Decoders don't care about end of records, or field names in records; swallow them
while (((_parser.currentToken() == JsonToken.END_OBJECT || _parser.currentToken() == JsonToken.FIELD_NAME) && _parser.isRecord())
|| _parser.currentToken() == null || _parser.currentToken() == JsonToken.END_ARRAY) {
_parser.nextToken();
if (_parser.currentToken() == null) {
break;
}
}
return _parser.currentToken();
}
@Override
public void readNull() throws IOException {
consumeToken(JsonToken.VALUE_NULL);
}
@Override
public boolean readBoolean() throws IOException {
return consumeToken(JsonToken.VALUE_FALSE, JsonToken.VALUE_TRUE) == JsonToken.VALUE_TRUE;
}
@Override
public int readInt() throws IOException {
consumeToken(JsonToken.VALUE_NUMBER_INT);
return _parser.getIntValue();
}
@Override
public long readLong() throws IOException {
consumeToken(JsonToken.VALUE_NUMBER_INT);
return _parser.getLongValue();
}
@Override
public float readFloat() throws IOException {
consumeToken(JsonToken.VALUE_NUMBER_FLOAT);
return _parser.getFloatValue();
}
@Override
public double readDouble() throws IOException {
consumeToken(JsonToken.VALUE_NUMBER_FLOAT);
return _parser.getDoubleValue();
}
@Override
public Utf8 readString(Utf8 old) throws IOException {
return new Utf8(readString());
}
@Override
public String readString() throws IOException {
nextValue();
String value = _parser.getText();
_parser.clearCurrentToken();
return value;
}
@Override
public void skipString() throws IOException {
consumeToken(JsonToken.VALUE_STRING);
readString();
}
@Override
public ByteBuffer readBytes(ByteBuffer old) throws IOException {
consumeToken(JsonToken.VALUE_EMBEDDED_OBJECT);
byte[] value = _parser.getBinaryValue();
if ((old != null) && value.length <= old.capacity()) {
old.clear();
old.put(value);
old.flip();
return old;
}
return ByteBuffer.wrap(value);
}
@Override
public void skipBytes() throws IOException {
readBytes(null);
}
@Override
public void readFixed(byte[] bytes, int start, int length) throws IOException {
consumeToken(JsonToken.VALUE_EMBEDDED_OBJECT);
System.arraycopy(_parser.getBinaryValue(), 0, bytes, start, length);
}
@Override
public void skipFixed(int length) throws IOException {
readFixed(new byte[length], 0, length);
}
@Override
public int readEnum() throws IOException {
nextValue();
return _parser.enumIndex();
}
@Override
public long readArrayStart() throws IOException {
consumeToken(JsonToken.START_ARRAY);
return _parser.getRemainingElements();
}
@Override
public long arrayNext() throws IOException {
return _parser.getRemainingElements();
}
@Override
public long skipArray() throws IOException {
consumeToken(JsonToken.START_ARRAY);
_parser.skipValue();
consumeToken(JsonToken.END_ARRAY);
return 0;
}
@Override
public long readMapStart() throws IOException {
consumeToken(JsonToken.START_OBJECT);
return _parser.getRemainingElements();
}
@Override
public long mapNext() throws IOException {
return _parser.getRemainingElements();
}
@Override
public long skipMap() throws IOException {
consumeToken(JsonToken.START_OBJECT);
_parser.skipValue();
consumeToken(JsonToken.END_OBJECT);
return 0;
}
@Override
public int readIndex() throws IOException {
nextUnionValue();
return _parser.branchIndex();
}
}