io.trino.operator.scalar.ArrayIntersectFunction Maven / Gradle / Ivy
/*
* Licensed 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 io.trino.operator.scalar;
import io.trino.spi.block.Block;
import io.trino.spi.block.BufferedArrayValueBuilder;
import io.trino.spi.function.Convention;
import io.trino.spi.function.Description;
import io.trino.spi.function.OperatorDependency;
import io.trino.spi.function.ScalarFunction;
import io.trino.spi.function.SqlType;
import io.trino.spi.function.TypeParameter;
import io.trino.spi.type.ArrayType;
import io.trino.spi.type.Type;
import io.trino.type.BlockTypeOperators.BlockPositionHashCode;
import io.trino.type.BlockTypeOperators.BlockPositionIsDistinctFrom;
import static io.trino.operator.scalar.BlockSet.MAX_FUNCTION_MEMORY;
import static io.trino.spi.function.InvocationConvention.InvocationArgumentConvention.BLOCK_POSITION;
import static io.trino.spi.function.InvocationConvention.InvocationReturnConvention.FAIL_ON_NULL;
import static io.trino.spi.function.OperatorType.HASH_CODE;
import static io.trino.spi.function.OperatorType.IS_DISTINCT_FROM;
@ScalarFunction("array_intersect")
@Description("Intersects elements of the two given arrays")
public final class ArrayIntersectFunction
{
private final BufferedArrayValueBuilder arrayValueBuilder;
@TypeParameter("E")
public ArrayIntersectFunction(@TypeParameter("E") Type elementType)
{
arrayValueBuilder = BufferedArrayValueBuilder.createBuffered(new ArrayType(elementType));
}
@TypeParameter("E")
@SqlType("array(E)")
public Block intersect(
@TypeParameter("E") Type type,
@OperatorDependency(
operator = IS_DISTINCT_FROM,
argumentTypes = {"E", "E"},
convention = @Convention(arguments = {BLOCK_POSITION, BLOCK_POSITION}, result = FAIL_ON_NULL)) BlockPositionIsDistinctFrom elementIsDistinctFrom,
@OperatorDependency(
operator = HASH_CODE,
argumentTypes = "E",
convention = @Convention(arguments = BLOCK_POSITION, result = FAIL_ON_NULL)) BlockPositionHashCode elementHashCode,
@SqlType("array(E)") Block leftArray,
@SqlType("array(E)") Block rightArray)
{
if (leftArray.getPositionCount() < rightArray.getPositionCount()) {
Block tempArray = leftArray;
leftArray = rightArray;
rightArray = tempArray;
}
int leftPositionCount = leftArray.getPositionCount();
int rightPositionCount = rightArray.getPositionCount();
if (rightPositionCount == 0) {
return rightArray;
}
BlockSet rightSet = new BlockSet(type, elementIsDistinctFrom, elementHashCode, rightPositionCount);
for (int i = 0; i < rightPositionCount; i++) {
rightSet.add(rightArray, i);
}
// The intersected set can have at most rightPositionCount elements
BlockSet intersectSet = new BlockSet(type, elementIsDistinctFrom, elementHashCode, rightSet.size());
for (int i = 0; i < leftPositionCount; i++) {
if (rightSet.contains(leftArray, i)) {
intersectSet.add(leftArray, i);
}
}
return arrayValueBuilder.build(
intersectSet.size(),
blockBuilder -> intersectSet.getAllWithSizeLimit(blockBuilder, "array_intersect", MAX_FUNCTION_MEMORY));
}
}