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/**
* Autogenerated by Avro
*
* DO NOT EDIT DIRECTLY
*/
package org.apache.hudi.avro.model;
import org.apache.avro.generic.GenericArray;
import org.apache.avro.specific.SpecificData;
import org.apache.avro.util.Utf8;
import org.apache.avro.message.BinaryMessageEncoder;
import org.apache.avro.message.BinaryMessageDecoder;
import org.apache.avro.message.SchemaStore;
@org.apache.avro.specific.AvroGenerated
public class HoodieCompactionStrategy extends org.apache.avro.specific.SpecificRecordBase implements org.apache.avro.specific.SpecificRecord {
private static final long serialVersionUID = 8264073142057426607L;
public static final org.apache.avro.Schema SCHEMA$ = new org.apache.avro.Schema.Parser().parse("{\"type\":\"record\",\"name\":\"HoodieCompactionStrategy\",\"namespace\":\"org.apache.hudi.avro.model\",\"fields\":[{\"name\":\"compactorClassName\",\"type\":[\"null\",{\"type\":\"string\",\"avro.java.string\":\"String\"}],\"doc\":\"The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.\",\"default\":null},{\"name\":\"strategyParams\",\"type\":[\"null\",{\"type\":\"map\",\"values\":{\"type\":\"string\",\"avro.java.string\":\"String\"},\"avro.java.string\":\"String\"}],\"doc\":\"These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.\",\"default\":null},{\"name\":\"version\",\"type\":[\"int\",\"null\"],\"default\":1}]}");
public static org.apache.avro.Schema getClassSchema() { return SCHEMA$; }
private static SpecificData MODEL$ = new SpecificData();
private static final BinaryMessageEncoder ENCODER =
new BinaryMessageEncoder(MODEL$, SCHEMA$);
private static final BinaryMessageDecoder DECODER =
new BinaryMessageDecoder(MODEL$, SCHEMA$);
/**
* Return the BinaryMessageEncoder instance used by this class.
* @return the message encoder used by this class
*/
public static BinaryMessageEncoder getEncoder() {
return ENCODER;
}
/**
* Return the BinaryMessageDecoder instance used by this class.
* @return the message decoder used by this class
*/
public static BinaryMessageDecoder getDecoder() {
return DECODER;
}
/**
* Create a new BinaryMessageDecoder instance for this class that uses the specified {@link SchemaStore}.
* @param resolver a {@link SchemaStore} used to find schemas by fingerprint
* @return a BinaryMessageDecoder instance for this class backed by the given SchemaStore
*/
public static BinaryMessageDecoder createDecoder(SchemaStore resolver) {
return new BinaryMessageDecoder(MODEL$, SCHEMA$, resolver);
}
/**
* Serializes this HoodieCompactionStrategy to a ByteBuffer.
* @return a buffer holding the serialized data for this instance
* @throws java.io.IOException if this instance could not be serialized
*/
public java.nio.ByteBuffer toByteBuffer() throws java.io.IOException {
return ENCODER.encode(this);
}
/**
* Deserializes a HoodieCompactionStrategy from a ByteBuffer.
* @param b a byte buffer holding serialized data for an instance of this class
* @return a HoodieCompactionStrategy instance decoded from the given buffer
* @throws java.io.IOException if the given bytes could not be deserialized into an instance of this class
*/
public static HoodieCompactionStrategy fromByteBuffer(
java.nio.ByteBuffer b) throws java.io.IOException {
return DECODER.decode(b);
}
/** The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use. */
private java.lang.String compactorClassName;
/** These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed. */
private java.util.Map strategyParams;
private java.lang.Integer version;
/**
* Default constructor. Note that this does not initialize fields
* to their default values from the schema. If that is desired then
* one should use newBuilder().
*/
public HoodieCompactionStrategy() {}
/**
* All-args constructor.
* @param compactorClassName The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
* @param strategyParams These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
* @param version The new value for version
*/
public HoodieCompactionStrategy(java.lang.String compactorClassName, java.util.Map strategyParams, java.lang.Integer version) {
this.compactorClassName = compactorClassName;
this.strategyParams = strategyParams;
this.version = version;
}
public org.apache.avro.specific.SpecificData getSpecificData() { return MODEL$; }
public org.apache.avro.Schema getSchema() { return SCHEMA$; }
// Used by DatumWriter. Applications should not call.
public java.lang.Object get(int field$) {
switch (field$) {
case 0: return compactorClassName;
case 1: return strategyParams;
case 2: return version;
default: throw new IndexOutOfBoundsException("Invalid index: " + field$);
}
}
// Used by DatumReader. Applications should not call.
@SuppressWarnings(value="unchecked")
public void put(int field$, java.lang.Object value$) {
switch (field$) {
case 0: compactorClassName = value$ != null ? value$.toString() : null; break;
case 1: strategyParams = (java.util.Map)value$; break;
case 2: version = (java.lang.Integer)value$; break;
default: throw new IndexOutOfBoundsException("Invalid index: " + field$);
}
}
/**
* Gets the value of the 'compactorClassName' field.
* @return The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
*/
public java.lang.String getCompactorClassName() {
return compactorClassName;
}
/**
* Sets the value of the 'compactorClassName' field.
* The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
* @param value the value to set.
*/
public void setCompactorClassName(java.lang.String value) {
this.compactorClassName = value;
}
/**
* Gets the value of the 'strategyParams' field.
* @return These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
*/
public java.util.Map getStrategyParams() {
return strategyParams;
}
/**
* Sets the value of the 'strategyParams' field.
* These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
* @param value the value to set.
*/
public void setStrategyParams(java.util.Map value) {
this.strategyParams = value;
}
/**
* Gets the value of the 'version' field.
* @return The value of the 'version' field.
*/
public java.lang.Integer getVersion() {
return version;
}
/**
* Sets the value of the 'version' field.
* @param value the value to set.
*/
public void setVersion(java.lang.Integer value) {
this.version = value;
}
/**
* Creates a new HoodieCompactionStrategy RecordBuilder.
* @return A new HoodieCompactionStrategy RecordBuilder
*/
public static org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder newBuilder() {
return new org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder();
}
/**
* Creates a new HoodieCompactionStrategy RecordBuilder by copying an existing Builder.
* @param other The existing builder to copy.
* @return A new HoodieCompactionStrategy RecordBuilder
*/
public static org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder newBuilder(org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder other) {
if (other == null) {
return new org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder();
} else {
return new org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder(other);
}
}
/**
* Creates a new HoodieCompactionStrategy RecordBuilder by copying an existing HoodieCompactionStrategy instance.
* @param other The existing instance to copy.
* @return A new HoodieCompactionStrategy RecordBuilder
*/
public static org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder newBuilder(org.apache.hudi.avro.model.HoodieCompactionStrategy other) {
if (other == null) {
return new org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder();
} else {
return new org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder(other);
}
}
/**
* RecordBuilder for HoodieCompactionStrategy instances.
*/
@org.apache.avro.specific.AvroGenerated
public static class Builder extends org.apache.avro.specific.SpecificRecordBuilderBase
implements org.apache.avro.data.RecordBuilder {
/** The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use. */
private java.lang.String compactorClassName;
/** These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed. */
private java.util.Map strategyParams;
private java.lang.Integer version;
/** Creates a new Builder */
private Builder() {
super(SCHEMA$);
}
/**
* Creates a Builder by copying an existing Builder.
* @param other The existing Builder to copy.
*/
private Builder(org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder other) {
super(other);
if (isValidValue(fields()[0], other.compactorClassName)) {
this.compactorClassName = data().deepCopy(fields()[0].schema(), other.compactorClassName);
fieldSetFlags()[0] = other.fieldSetFlags()[0];
}
if (isValidValue(fields()[1], other.strategyParams)) {
this.strategyParams = data().deepCopy(fields()[1].schema(), other.strategyParams);
fieldSetFlags()[1] = other.fieldSetFlags()[1];
}
if (isValidValue(fields()[2], other.version)) {
this.version = data().deepCopy(fields()[2].schema(), other.version);
fieldSetFlags()[2] = other.fieldSetFlags()[2];
}
}
/**
* Creates a Builder by copying an existing HoodieCompactionStrategy instance
* @param other The existing instance to copy.
*/
private Builder(org.apache.hudi.avro.model.HoodieCompactionStrategy other) {
super(SCHEMA$);
if (isValidValue(fields()[0], other.compactorClassName)) {
this.compactorClassName = data().deepCopy(fields()[0].schema(), other.compactorClassName);
fieldSetFlags()[0] = true;
}
if (isValidValue(fields()[1], other.strategyParams)) {
this.strategyParams = data().deepCopy(fields()[1].schema(), other.strategyParams);
fieldSetFlags()[1] = true;
}
if (isValidValue(fields()[2], other.version)) {
this.version = data().deepCopy(fields()[2].schema(), other.version);
fieldSetFlags()[2] = true;
}
}
/**
* Gets the value of the 'compactorClassName' field.
* The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
* @return The value.
*/
public java.lang.String getCompactorClassName() {
return compactorClassName;
}
/**
* Sets the value of the 'compactorClassName' field.
* The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
* @param value The value of 'compactorClassName'.
* @return This builder.
*/
public org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder setCompactorClassName(java.lang.String value) {
validate(fields()[0], value);
this.compactorClassName = value;
fieldSetFlags()[0] = true;
return this;
}
/**
* Checks whether the 'compactorClassName' field has been set.
* The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
* @return True if the 'compactorClassName' field has been set, false otherwise.
*/
public boolean hasCompactorClassName() {
return fieldSetFlags()[0];
}
/**
* Clears the value of the 'compactorClassName' field.
* The class name that is provided here should extend CompactionExecutionStrategy abstract class, idea is that the plan generator will also provide the execution strategy to use.
* @return This builder.
*/
public org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder clearCompactorClassName() {
compactorClassName = null;
fieldSetFlags()[0] = false;
return this;
}
/**
* Gets the value of the 'strategyParams' field.
* These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
* @return The value.
*/
public java.util.Map getStrategyParams() {
return strategyParams;
}
/**
* Sets the value of the 'strategyParams' field.
* These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
* @param value The value of 'strategyParams'.
* @return This builder.
*/
public org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder setStrategyParams(java.util.Map value) {
validate(fields()[1], value);
this.strategyParams = value;
fieldSetFlags()[1] = true;
return this;
}
/**
* Checks whether the 'strategyParams' field has been set.
* These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
* @return True if the 'strategyParams' field has been set, false otherwise.
*/
public boolean hasStrategyParams() {
return fieldSetFlags()[1];
}
/**
* Clears the value of the 'strategyParams' field.
* These parameters play a key role in determining which action type it is i.e. compaction or logcompaction and it will also include configs that determine how compaction needs to be executed.
* @return This builder.
*/
public org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder clearStrategyParams() {
strategyParams = null;
fieldSetFlags()[1] = false;
return this;
}
/**
* Gets the value of the 'version' field.
* @return The value.
*/
public java.lang.Integer getVersion() {
return version;
}
/**
* Sets the value of the 'version' field.
* @param value The value of 'version'.
* @return This builder.
*/
public org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder setVersion(java.lang.Integer value) {
validate(fields()[2], value);
this.version = value;
fieldSetFlags()[2] = true;
return this;
}
/**
* Checks whether the 'version' field has been set.
* @return True if the 'version' field has been set, false otherwise.
*/
public boolean hasVersion() {
return fieldSetFlags()[2];
}
/**
* Clears the value of the 'version' field.
* @return This builder.
*/
public org.apache.hudi.avro.model.HoodieCompactionStrategy.Builder clearVersion() {
version = null;
fieldSetFlags()[2] = false;
return this;
}
@Override
@SuppressWarnings("unchecked")
public HoodieCompactionStrategy build() {
try {
HoodieCompactionStrategy record = new HoodieCompactionStrategy();
record.compactorClassName = fieldSetFlags()[0] ? this.compactorClassName : (java.lang.String) defaultValue(fields()[0]);
record.strategyParams = fieldSetFlags()[1] ? this.strategyParams : (java.util.Map) defaultValue(fields()[1]);
record.version = fieldSetFlags()[2] ? this.version : (java.lang.Integer) defaultValue(fields()[2]);
return record;
} catch (org.apache.avro.AvroMissingFieldException e) {
throw e;
} catch (java.lang.Exception e) {
throw new org.apache.avro.AvroRuntimeException(e);
}
}
}
@SuppressWarnings("unchecked")
private static final org.apache.avro.io.DatumWriter
WRITER$ = (org.apache.avro.io.DatumWriter)MODEL$.createDatumWriter(SCHEMA$);
@Override public void writeExternal(java.io.ObjectOutput out)
throws java.io.IOException {
WRITER$.write(this, SpecificData.getEncoder(out));
}
@SuppressWarnings("unchecked")
private static final org.apache.avro.io.DatumReader
READER$ = (org.apache.avro.io.DatumReader)MODEL$.createDatumReader(SCHEMA$);
@Override public void readExternal(java.io.ObjectInput in)
throws java.io.IOException {
READER$.read(this, SpecificData.getDecoder(in));
}
@Override protected boolean hasCustomCoders() { return true; }
@Override public void customEncode(org.apache.avro.io.Encoder out)
throws java.io.IOException
{
if (this.compactorClassName == null) {
out.writeIndex(0);
out.writeNull();
} else {
out.writeIndex(1);
out.writeString(this.compactorClassName);
}
if (this.strategyParams == null) {
out.writeIndex(0);
out.writeNull();
} else {
out.writeIndex(1);
long size0 = this.strategyParams.size();
out.writeMapStart();
out.setItemCount(size0);
long actualSize0 = 0;
for (java.util.Map.Entry e0: this.strategyParams.entrySet()) {
actualSize0++;
out.startItem();
out.writeString(e0.getKey());
java.lang.String v0 = e0.getValue();
out.writeString(v0);
}
out.writeMapEnd();
if (actualSize0 != size0)
throw new java.util.ConcurrentModificationException("Map-size written was " + size0 + ", but element count was " + actualSize0 + ".");
}
if (this.version == null) {
out.writeIndex(1);
out.writeNull();
} else {
out.writeIndex(0);
out.writeInt(this.version);
}
}
@Override public void customDecode(org.apache.avro.io.ResolvingDecoder in)
throws java.io.IOException
{
org.apache.avro.Schema.Field[] fieldOrder = in.readFieldOrderIfDiff();
if (fieldOrder == null) {
if (in.readIndex() != 1) {
in.readNull();
this.compactorClassName = null;
} else {
this.compactorClassName = in.readString();
}
if (in.readIndex() != 1) {
in.readNull();
this.strategyParams = null;
} else {
long size0 = in.readMapStart();
java.util.Map m0 = this.strategyParams; // Need fresh name due to limitation of macro system
if (m0 == null) {
m0 = new java.util.HashMap((int)size0);
this.strategyParams = m0;
} else m0.clear();
for ( ; 0 < size0; size0 = in.mapNext()) {
for ( ; size0 != 0; size0--) {
java.lang.String k0 = null;
k0 = in.readString();
java.lang.String v0 = null;
v0 = in.readString();
m0.put(k0, v0);
}
}
}
if (in.readIndex() != 0) {
in.readNull();
this.version = null;
} else {
this.version = in.readInt();
}
} else {
for (int i = 0; i < 3; i++) {
switch (fieldOrder[i].pos()) {
case 0:
if (in.readIndex() != 1) {
in.readNull();
this.compactorClassName = null;
} else {
this.compactorClassName = in.readString();
}
break;
case 1:
if (in.readIndex() != 1) {
in.readNull();
this.strategyParams = null;
} else {
long size0 = in.readMapStart();
java.util.Map m0 = this.strategyParams; // Need fresh name due to limitation of macro system
if (m0 == null) {
m0 = new java.util.HashMap((int)size0);
this.strategyParams = m0;
} else m0.clear();
for ( ; 0 < size0; size0 = in.mapNext()) {
for ( ; size0 != 0; size0--) {
java.lang.String k0 = null;
k0 = in.readString();
java.lang.String v0 = null;
v0 = in.readString();
m0.put(k0, v0);
}
}
}
break;
case 2:
if (in.readIndex() != 0) {
in.readNull();
this.version = null;
} else {
this.version = in.readInt();
}
break;
default:
throw new java.io.IOException("Corrupt ResolvingDecoder.");
}
}
}
}
}