ArrayApply.java
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// to you under the Apache License, Version 2.0 (the
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//
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package org.apache.doris.nereids.trees.expressions.functions.scalar;
import org.apache.doris.catalog.FunctionSignature;
import org.apache.doris.nereids.exceptions.AnalysisException;
import org.apache.doris.nereids.trees.expressions.Expression;
import org.apache.doris.nereids.trees.expressions.functions.ExplicitlyCastableSignature;
import org.apache.doris.nereids.trees.expressions.functions.PropagateNullable;
import org.apache.doris.nereids.trees.expressions.literal.StringLikeLiteral;
import org.apache.doris.nereids.trees.expressions.shape.BinaryExpression;
import org.apache.doris.nereids.trees.expressions.visitor.ExpressionVisitor;
import org.apache.doris.nereids.types.ArrayType;
import org.apache.doris.nereids.types.DataType;
import org.apache.doris.nereids.types.VarcharType;
import org.apache.doris.nereids.types.coercion.AnyDataType;
import org.apache.doris.nereids.types.coercion.FollowToAnyDataType;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableList;
import java.util.List;
/**
* scalar function array_apply
*/
public class ArrayApply extends ScalarFunction
implements BinaryExpression, ExplicitlyCastableSignature, PropagateNullable {
public static final List<FunctionSignature> FOLLOW_DATATYPE_SIGNATURE = ImmutableList.of(
FunctionSignature.retArgType(0)
.args(ArrayType.of(new AnyDataType(0)), VarcharType.SYSTEM_DEFAULT,
new FollowToAnyDataType(0)));
public static final List<FunctionSignature> MIN_COMMON_TYPE_SIGNATURES = ImmutableList.of(
FunctionSignature.retArgType(0)
.args(ArrayType.of(new AnyDataType(0)), VarcharType.SYSTEM_DEFAULT,
new AnyDataType(0)));
/**
* constructor
*/
public ArrayApply(Expression arg0, Expression arg1, Expression arg2) {
super("array_apply", arg0, arg1, arg2);
if (!(arg1 instanceof StringLikeLiteral)) {
throw new AnalysisException(
"array_apply(arr, op, val): op support const value only.");
} else {
String op = ((StringLikeLiteral) arg1).getStringValue();
if (! "=".equals(op) && !">".equals(op) && !"<".equals(op)
&& !">=".equals(op) && !"<=".equals(op) && !"!=".equals(op)) {
throw new AnalysisException(
"array_apply(arr, op, val): op support =, >=, <=, >, <, !=, but we get " + op);
}
}
if (!(arg2.isConstant())) {
throw new AnalysisException(
"array_apply(arr, op, val): val support const value only.");
}
}
@Override
public void checkLegalityBeforeTypeCoercion() {
DataType argType = ((ArrayType) child(0).getDataType()).getItemType();
if (!(argType.isIntegralType() || argType.isFloatLikeType() || argType.isDecimalLikeType()
|| argType.isDateLikeType() || argType.isBooleanType())) {
throw new AnalysisException("array_apply does not support type " + argType + ", expression is " + toSql());
}
}
@Override
public ArrayApply withChildren(List<Expression> children) {
Preconditions.checkArgument(children.size() == 3,
"array_apply accept 3 args, but got %s (%s)",
children.size(),
children);
return new ArrayApply(children.get(0), children.get(1), children.get(2));
}
@Override
public <R, C> R accept(ExpressionVisitor<R, C> visitor, C context) {
return visitor.visitArrayApply(this, context);
}
@Override
public List<FunctionSignature> getSignatures() {
if (getArgument(0).getDataType().isArrayType()
&&
((ArrayType) getArgument(0).getDataType()).getItemType()
.isSameTypeForComplexTypeParam(getArgument(2).getDataType())) {
// return least common type
return MIN_COMMON_TYPE_SIGNATURES;
}
return FOLLOW_DATATYPE_SIGNATURE;
}
}