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A Java implementation of the Amazon Ion data notation.
// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package com.amazon.ion.impl.bin;
import com.amazon.ion.Decimal;
import com.amazon.ion.IonDatagram;
import com.amazon.ion.IonReader;
import com.amazon.ion.IonType;
import com.amazon.ion.IonValue;
import com.amazon.ion.IonWriter;
import com.amazon.ion.SymbolToken;
import com.amazon.ion.Timestamp;
import com.amazon.ion.impl._Private_ByteTransferReader;
import com.amazon.ion.impl._Private_ByteTransferSink;
import com.amazon.ion.impl._Private_IonWriter;
import com.amazon.ion.impl._Private_SymtabExtendsCache;
import com.amazon.ion.impl._Private_Utils;
import java.io.IOException;
import java.math.BigInteger;
import java.util.Date;
/** Common adapter for binary {@link IonWriter} implementations. */
/*package*/ abstract class AbstractIonWriter implements _Private_IonWriter, _Private_ByteTransferSink
{
/*package*/ enum WriteValueOptimization
{
NONE,
COPY_OPTIMIZED,
}
/** The cache for copy optimization checks--null if not copy optimized. */
private final _Private_SymtabExtendsCache symtabExtendsCache;
/*package*/ AbstractIonWriter(final WriteValueOptimization optimization)
{
this.symtabExtendsCache = optimization == WriteValueOptimization.COPY_OPTIMIZED
? new _Private_SymtabExtendsCache() : null;
}
public final void writeValue(final IonValue value) throws IOException
{
if (value != null)
{
if (value instanceof IonDatagram)
{
// XXX this is a hack to make the writer consistent with legacy implementations and flush out an IVM
finish();
}
value.writeTo(this);
}
}
public final void writeValue(final IonReader reader) throws IOException
{
final IonType type = reader.getType();
if (isStreamCopyOptimized())
{
final _Private_ByteTransferReader transferReader =
reader.asFacet(_Private_ByteTransferReader.class);
if (transferReader != null
&& (_Private_Utils.isNonSymbolScalar(type)
|| symtabExtendsCache.symtabsCompat(getSymbolTable(), reader.getSymbolTable())))
{
// we have something we can pipe over
transferReader.transferCurrentValue(this);
return;
}
}
writeValueRecursive(reader);
}
/**
* Performs a depth-first (recursive-like) traversal of the IonReader's current value, writing all values and
* annotations encountered during the traversal. This method is not implemented using recursion.
*
* @param reader The IonReader that will provide a value to write.
* @throws IOException if either the provided IonReader or this writer's underlying OutputStream throw an
* IOException.
* @throws IllegalStateException if this writer is inside a struct but the IonReader is not.
*/
public final void writeValueRecursive(final IonReader reader) throws IOException
{
// The IonReader does not need to be at the top level (getDepth()==0) when the function is called.
// We take note of its initial depth so we can avoid advancing the IonReader beyond the starting value.
int startingDepth = getDepth();
// The IonReader will be at `startingDepth` when the function is first called and then again when we
// have finished traversing all of its children. This boolean tracks which of those two states we are
// in when `getDepth() == startingDepth`.
boolean alreadyProcessedTheStartingValue = false;
// The IonType of the IonReader's current value.
IonType type;
while (true) {
// Each time we reach the top of the loop we are in one of three states:
// 1. We have not yet begun processing the starting value.
// 2. We are currently traversing the starting value's children.
// 3. We have finished processing the starting value.
if (getDepth() == startingDepth) {
// The IonReader is at the starting depth. We're either beginning our traversal or finishing it.
if (alreadyProcessedTheStartingValue) {
// We're finishing our traversal.
break;
}
// We're beginning our traversal. Don't advance the cursor; instead, use the current
// value's IonType.
type = reader.getType();
// We've begun processing the starting value.
alreadyProcessedTheStartingValue = true;
} else {
// We're traversing the starting value's children (that is: values at greater depths). We need to
// advance the cursor by calling next().
type = reader.next();
}
if (type == null) {
// There are no more values at this level. If we're at the starting level, we're done.
if (getDepth() == startingDepth) {
break;
}
// Otherwise, step out once and then try to move forward again.
reader.stepOut();
stepOut();
continue;
}
final SymbolToken fieldName = reader.getFieldNameSymbol();
if (fieldName != null && !isFieldNameSet() && isInStruct()) {
setFieldNameSymbol(fieldName);
}
final SymbolToken[] annotations = reader.getTypeAnnotationSymbols();
if (annotations.length > 0) {
setTypeAnnotationSymbols(annotations);
}
if (reader.isNullValue()) {
writeNull(type);
continue;
}
switch (type) {
case BOOL:
final boolean booleanValue = reader.booleanValue();
writeBool(booleanValue);
break;
case INT:
switch (reader.getIntegerSize()) {
case INT:
final int intValue = reader.intValue();
writeInt(intValue);
break;
case LONG:
final long longValue = reader.longValue();
writeInt(longValue);
break;
case BIG_INTEGER:
final BigInteger bigIntegerValue = reader.bigIntegerValue();
writeInt(bigIntegerValue);
break;
default:
throw new IllegalStateException();
}
break;
case FLOAT:
final double doubleValue = reader.doubleValue();
writeFloat(doubleValue);
break;
case DECIMAL:
final Decimal decimalValue = reader.decimalValue();
writeDecimal(decimalValue);
break;
case TIMESTAMP:
final Timestamp timestampValue = reader.timestampValue();
writeTimestamp(timestampValue);
break;
case SYMBOL:
final SymbolToken symbolToken = reader.symbolValue();
writeSymbolToken(symbolToken);
break;
case STRING:
final String stringValue = reader.stringValue();
writeString(stringValue);
break;
case CLOB:
final byte[] clobValue = reader.newBytes();
writeClob(clobValue);
break;
case BLOB:
final byte[] blobValue = reader.newBytes();
writeBlob(blobValue);
break;
case LIST:
case SEXP:
case STRUCT:
reader.stepIn();
stepIn(type);
break;
default:
throw new IllegalStateException("Unexpected type: " + type);
}
}
}
public final void writeValues(final IonReader reader) throws IOException
{
if (reader.getType() != null)
{
writeValue(reader);
}
while (reader.next() != null)
{
writeValue(reader);
}
}
public final void writeTimestampUTC(final Date value) throws IOException
{
writeTimestamp(Timestamp.forDateZ(value));
}
public final boolean isStreamCopyOptimized()
{
return symtabExtendsCache != null;
}
@SuppressWarnings("deprecation")
public T asFacet(Class facetType)
{
if (facetType == _Private_IonManagedWriter.class)
{
return facetType.cast(this);
}
return null; // Consistent with readers' behavior when requested facet isn't supported
}
/**
* Writes a portion of the byte array out as an IonString value. This
* copies the portion of the byte array that is written.
*
* @param data bytes to be written.
* May be {@code null} to represent {@code null.string}.
* @param offset offset of the first byte in value to write
* @param length number of bytes to write from value
* @see IonWriter#writeClob(byte[], int, int)
* @see IonWriter#writeBlob(byte[], int, int)
*/
public abstract void writeString(byte[] data, int offset, int length)
throws IOException;
}