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From mbalassi <...@git.apache.org>
Subject [GitHub] flink pull request #2094: [FLINK-3702] Make FieldAccessors support nested fi...
Date Fri, 18 Nov 2016 08:27:32 GMT
Github user mbalassi commented on a diff in the pull request:

    https://github.com/apache/flink/pull/2094#discussion_r88615630
  
    --- Diff: flink-streaming-java/src/main/java/org/apache/flink/streaming/util/typeutils/FieldAccessor.java
---
    @@ -0,0 +1,386 @@
    +/*
    + * Licensed to the Apache Software Foundation (ASF) under one or more
    + * contributor license agreements.  See the NOTICE file distributed with
    + * this work for additional information regarding copyright ownership.
    + * The ASF licenses this file to You 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 org.apache.flink.streaming.util.typeutils;
    +
    +import org.apache.flink.annotation.PublicEvolving;
    +import org.apache.flink.api.common.ExecutionConfig;
    +import org.apache.flink.api.common.operators.Keys;
    +import org.apache.flink.api.common.typeinfo.BasicTypeInfo;
    +import org.apache.flink.api.common.typeinfo.TypeInformation;
    +import org.apache.flink.api.common.typeutils.CompositeType;
    +import org.apache.flink.api.java.tuple.Tuple;
    +import org.apache.flink.api.java.typeutils.TupleTypeInfo;
    +import org.apache.flink.api.java.typeutils.TupleTypeInfoBase;
    +import org.apache.flink.api.java.typeutils.runtime.FieldSerializer;
    +import org.apache.flink.api.java.typeutils.runtime.TupleSerializerBase;
    +import scala.Product;
    +
    +import java.io.IOException;
    +import java.io.ObjectInputStream;
    +import java.io.ObjectOutputStream;
    +import java.io.Serializable;
    +import java.lang.reflect.Array;
    +import java.lang.reflect.Field;
    +import java.util.regex.Matcher;
    +import java.util.regex.Pattern;
    +
    +import static org.apache.flink.util.Preconditions.checkNotNull;
    +
    +
    +/**
    + * These classes encapsulate the logic of accessing a field specified by the user as
either an index
    + * or a field expression string. TypeInformation can also be requested for the field.
    + * The position index might specify a field of a Tuple, an array, or a simple type (only
"0th field").
    + *
    + * Field expressions that specify nested fields (e.g. "f1.a.foo") result in nested field
accessors.
    + * These penetrate one layer, and then delegate the rest of the work to an "innerAccesor".
    + * (see PojoFieldAccessor, RecursiveTupleFieldAccessor, ProductFieldAccessor)
    + */
    +@PublicEvolving
    +public abstract class FieldAccessor<T, F> implements Serializable {
    +
    +	private static final long serialVersionUID = 1L;
    +
    +	protected TypeInformation fieldType;
    +
    +	/**
    +	 * Gets the TypeInformation for the type of the field.
    +	 * Note: For an array of a primitive type, it returns the corresponding basic type (Integer
for int[]).
    +	 */
    +	@SuppressWarnings("unchecked")
    +	public TypeInformation<F> getFieldType() {
    +		return fieldType;
    +	}
    +
    +
    +	/**
    +	 * Gets the value of the field (specified in the constructor) of the given record.
    +	 * @param record The record on which the field will be accessed
    +	 * @return The value of the field.
    +	 */
    +	public abstract F get(T record);
    +
    +	/**
    +	 * Sets the field (specified in the constructor) of the given record to the given value.
    +	 *
    +	 * Warning: This might modify the original object, or might return a new object instance.
    +	 * (This is necessary, because the record might be immutable.)
    +	 *
    +	 * @param record The record to modify
    +	 * @param fieldValue The new value of the field
    +	 * @return A record that has the given field value. (this might be a new instance or
the original)
    +	 */
    +	public abstract T set(T record, F fieldValue);
    +
    +
    +	// --------------------------------------------------------------------------------------------------
    +
    +
    +	/**
    +	 * This is when the entire record is considered as a single field. (eg. field 0 of a
basic type, or a
    +	 * field of a POJO that is itself some composite type but is not further decomposed)
    +	 */
    +	final static class SimpleFieldAccessor<T> extends FieldAccessor<T, T> {
    +
    +		private static final long serialVersionUID = 1L;
    +
    +		public SimpleFieldAccessor(TypeInformation<T> typeInfo) {
    +			checkNotNull(typeInfo, "typeInfo must not be null.");
    +
    +			this.fieldType = typeInfo;
    +		}
    +
    +		@Override
    +		public T get(T record) {
    +			return record;
    +		}
    +
    +		@Override
    +		public T set(T record, T fieldValue) {
    +			return fieldValue;
    +		}
    +	}
    +
    +	final static class ArrayFieldAccessor<T, F> extends FieldAccessor<T, F>
{
    +
    +		private static final long serialVersionUID = 1L;
    +
    +		private final int pos;
    +
    +		public ArrayFieldAccessor(int pos, TypeInformation typeInfo) {
    +			if(pos < 0) {
    +				throw new CompositeType.InvalidFieldReferenceException("The " + ((Integer) pos).toString()
+ ". field selected on" +
    +					" an array, which is an invalid index.");
    +			}
    +			checkNotNull(typeInfo, "typeInfo must not be null.");
    +
    +			this.pos = pos;
    +			this.fieldType = BasicTypeInfo.getInfoFor(typeInfo.getTypeClass().getComponentType());
    +		}
    +
    +		@SuppressWarnings("unchecked")
    +		@Override
    +		public F get(T record) {
    +			return (F) Array.get(record, pos);
    +		}
    +
    +		@Override
    +		public T set(T record, F fieldValue) {
    +			Array.set(record, pos, fieldValue);
    +			return record;
    +		}
    +	}
    +
    +	/**
    +	 * There are two versions of TupleFieldAccessor, differing in whether there is an other
    +	 * FieldAccessor nested inside. The no inner accessor version is probably a little faster.
    +	 */
    +	static final class SimpleTupleFieldAccessor<T, F> extends FieldAccessor<T,
F> {
    +
    +		private static final long serialVersionUID = 1L;
    +
    +		private final int pos;
    +
    +		SimpleTupleFieldAccessor(int pos, TypeInformation<T> typeInfo) {
    +			checkNotNull(typeInfo, "typeInfo must not be null.");
    +			int arity = ((TupleTypeInfo)typeInfo).getArity();
    +			if(pos < 0 || pos >= arity) {
    +				throw new CompositeType.InvalidFieldReferenceException(
    +					"Tried to select " + ((Integer) pos).toString() + ". field on \"" +
    +					typeInfo.toString() + "\", which is an invalid index.");
    +			}
    +
    +			this.pos = pos;
    +			this.fieldType = ((TupleTypeInfo)typeInfo).getTypeAt(pos);
    +		}
    +
    +		@SuppressWarnings("unchecked")
    +		@Override
    +		public F get(T record) {
    +			final Tuple tuple = (Tuple) record;
    +			return (F) tuple.getField(pos);
    +		}
    +
    +		@Override
    +		public T set(T record, F fieldValue) {
    +			final Tuple tuple = (Tuple) record;
    +			tuple.setField(fieldValue, pos);
    +			return record;
    +		}
    +	}
    +
    +	/**
    +	 * @param <T> The Tuple type
    +	 * @param <R> The field type at the first level
    +	 * @param <F> The field type at the innermost level
    +	 */
    +	static final class RecursiveTupleFieldAccessor<T, R, F> extends FieldAccessor<T,
F> {
    +
    +		private static final long serialVersionUID = 1L;
    +
    +		private final int pos;
    +		private final FieldAccessor<R, F> innerAccessor;
    +
    +		RecursiveTupleFieldAccessor(int pos, FieldAccessor<R, F> innerAccessor, TypeInformation<T>
typeInfo) {
    +			checkNotNull(typeInfo, "typeInfo must not be null.");
    +			checkNotNull(innerAccessor, "innerAccessor must not be null.");
    +
    +			int arity = ((TupleTypeInfo)typeInfo).getArity();
    +			if(pos < 0 || pos >= arity) {
    +				throw new CompositeType.InvalidFieldReferenceException(
    +					"Tried to select " + ((Integer) pos).toString() + ". field on \"" +
    +						typeInfo.toString() + "\", which is an invalid index.");
    +			}
    +
    +			if(pos < 0) {
    +				throw new CompositeType.InvalidFieldReferenceException("Tried to select " + ((Integer)
pos).toString() + ". field.");
    +			}
    +
    +			this.pos = pos;
    +			this.innerAccessor = innerAccessor;
    +			this.fieldType = innerAccessor.fieldType;
    +		}
    +
    +		@Override
    +		public F get(T record) {
    +			final Tuple tuple = (Tuple) record;
    +			final R inner = tuple.getField(pos);
    +			return innerAccessor.get(inner);
    +		}
    +
    +		@Override
    +		public T set(T record, F fieldValue) {
    +			final Tuple tuple = (Tuple) record;
    +			final R inner = tuple.getField(pos);
    +			tuple.setField(innerAccessor.set(inner, fieldValue), pos);
    +			return record;
    +		}
    +	}
    +
    +	/**
    +	 * @param <T> The POJO type
    +	 * @param <R> The field type at the first level
    +	 * @param <F> The field type at the innermost level
    +	 */
    +	static final class PojoFieldAccessor<T, R, F> extends FieldAccessor<T, F>
{
    +
    +		private static final long serialVersionUID = 1L;
    +
    +		private transient Field field;
    +		private final FieldAccessor<R, F> innerAccessor;
    +
    +		PojoFieldAccessor(Field field, FieldAccessor<R, F> innerAccessor) {
    +			checkNotNull(field, "field must not be null.");
    +			checkNotNull(innerAccessor, "innerAccessor must not be null.");
    +
    +			this.field = field;
    +			this.innerAccessor = innerAccessor;
    +			this.fieldType = innerAccessor.fieldType;
    +		}
    +
    +		@Override
    +		public F get(T pojo) {
    +			try {
    +				@SuppressWarnings("unchecked")
    +				final R inner = (R)field.get(pojo);
    +				return innerAccessor.get(inner);
    +			} catch (IllegalAccessException iaex) {
    +				// The Field class is transient and when deserializing its value we also make it
accessible
    +				throw new RuntimeException("This should not happen since we call setAccesssible(true)
in readObject."
    +						+ " fields: " + field + " obj: " + pojo);
    +			}
    +		}
    +
    +		@Override
    +		public T set(T pojo, F valueToSet) {
    +			try {
    +				@SuppressWarnings("unchecked")
    +				final R inner = (R)field.get(pojo);
    +				field.set(pojo, innerAccessor.set(inner, valueToSet));
    +				return pojo;
    +			} catch (IllegalAccessException iaex) {
    +				// The Field class is transient and when deserializing its value we also make it
accessible
    +				throw new RuntimeException("This should not happen since we call setAccesssible(true)
in readObject."
    +						+ " fields: " + field + " obj: " + pojo);
    +			}
    +		}
    +
    +		private void writeObject(ObjectOutputStream out)
    +				throws IOException, ClassNotFoundException {
    +			out.defaultWriteObject();
    +			FieldSerializer.serializeField(field, out);
    +		}
    +
    +		private void readObject(ObjectInputStream in)
    +				throws IOException, ClassNotFoundException {
    +			in.defaultReadObject();
    +			field = FieldSerializer.deserializeField(in);
    +		}
    +	}
    +
    +	static final class ProductFieldAccessor<T, R, F> extends FieldAccessor<T, F>
{
    +
    +		private static final long serialVersionUID = 1L;
    +
    +		private final int pos;
    +		private final TupleSerializerBase<T> serializer;
    +		private final Object[] fields;
    +		private final int length;
    +		private final FieldAccessor<R, F> innerAccessor;
    +
    +		ProductFieldAccessor(int pos, TypeInformation<T> typeInfo, FieldAccessor<R,
F> innerAccessor, ExecutionConfig config) {
    +			int arity = ((TupleTypeInfoBase)typeInfo).getArity();
    +			if(pos < 0 || pos >= arity) {
    +				throw new CompositeType.InvalidFieldReferenceException(
    +					"Tried to select " + ((Integer) pos).toString() + ". field on \"" +
    +						typeInfo.toString() + "\", which is an invalid index.");
    +			}
    +			checkNotNull(typeInfo, "typeInfo must not be null.");
    +			checkNotNull(innerAccessor, "innerAccessor must not be null.");
    +
    +			this.pos = pos;
    +			this.fieldType = ((TupleTypeInfoBase<T>)typeInfo).getTypeAt(pos);
    +			this.serializer = (TupleSerializerBase<T>)typeInfo.createSerializer(config);
    +			this.length = this.serializer.getArity();
    +			this.fields = new Object[this.length];
    +			this.innerAccessor = innerAccessor;
    +		}
    +
    +		@SuppressWarnings("unchecked")
    +		@Override
    +		public F get(T record) {
    +			return innerAccessor.get((R)((Product)record).productElement(pos));
    +		}
    +
    +		@SuppressWarnings("unchecked")
    +		@Override
    +		public T set(T record, F fieldValue) {
    +			Product prod = (Product)record;
    +			for (int i = 0; i < length; i++) {
    +				fields[i] = prod.productElement(i);
    +			}
    +			fields[pos] = innerAccessor.set((R)fields[pos], fieldValue);
    +			return serializer.createInstance(fields);
    +		}
    +	}
    +
    +
    +	// --------------------------------------------------------------------------------------------------
    --- End diff --
    
    Good idea.


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