jnh5y commented on code in PR #23761: URL: https://github.com/apache/flink/pull/23761#discussion_r1407844330
########## flink-table/flink-table-common/src/main/java/org/apache/flink/table/functions/LegacyUserDefinedFunctionInference.java: ########## @@ -0,0 +1,529 @@ +/* + * 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.table.functions; + +import org.apache.flink.annotation.Internal; +import org.apache.flink.api.common.functions.InvalidTypesException; +import org.apache.flink.api.common.typeinfo.TypeInformation; +import org.apache.flink.api.java.typeutils.TypeExtractor; +import org.apache.flink.table.api.TableException; +import org.apache.flink.table.api.ValidationException; +import org.apache.flink.table.data.DecimalData; +import org.apache.flink.table.data.RowData; +import org.apache.flink.table.data.StringData; +import org.apache.flink.table.data.TimestampData; +import org.apache.flink.table.types.DataType; +import org.apache.flink.table.types.inference.ArgumentCount; +import org.apache.flink.table.types.inference.CallContext; +import org.apache.flink.table.types.inference.ConstantArgumentCount; +import org.apache.flink.table.types.inference.InputTypeStrategy; +import org.apache.flink.table.types.inference.Signature; +import org.apache.flink.table.types.inference.TypeStrategy; +import org.apache.flink.table.types.logical.LogicalType; +import org.apache.flink.table.types.logical.LogicalTypeRoot; +import org.apache.flink.table.types.utils.TypeConversions; +import org.apache.flink.types.Row; + +import org.apache.flink.shaded.guava31.com.google.common.primitives.Primitives; + +import java.lang.reflect.Method; +import java.lang.reflect.Modifier; +import java.math.BigDecimal; +import java.sql.Time; +import java.sql.Timestamp; +import java.time.Instant; +import java.time.LocalDateTime; +import java.util.Arrays; +import java.util.Comparator; +import java.util.Date; +import java.util.List; +import java.util.Optional; +import java.util.function.Function; +import java.util.stream.Collectors; +import java.util.stream.IntStream; +import java.util.stream.Stream; + +import static org.apache.flink.table.types.logical.utils.LogicalTypeUtils.toInternalConversionClass; +import static org.apache.flink.table.types.utils.TypeConversions.fromLegacyInfoToDataType; + +/** + * Ported {@code UserDefinedFunctionUtils} to run some of the type inference for legacy functions in + * Table API. + */ +@Internal +@Deprecated +public class LegacyUserDefinedFunctionInference { + + public static InputTypeStrategy getInputTypeStrategy(ImperativeAggregateFunction<?, ?> func) { + return new InputTypeStrategy() { + @Override + public ArgumentCount getArgumentCount() { + return ConstantArgumentCount.any(); + } + + @Override + public Optional<List<DataType>> inferInputTypes( + CallContext callContext, boolean throwOnFailure) { + final List<DataType> argumentDataTypes = callContext.getArgumentDataTypes(); + final DataType accType = getAccumulatorType(func); + final LogicalType[] input = + Stream.concat(Stream.of(accType), argumentDataTypes.stream()) + .map(DataType::getLogicalType) + .toArray(LogicalType[]::new); + + final Optional<Optional<Method>> foundMethod = + Stream.of( + logicalTypesToInternalClasses(input), + logicalTypesToExternalClasses(input)) + .map( + signature -> + getUserDefinedMethod( + func, + "accumulate", + signature, + input, + cls -> + Stream.concat( + Stream.of(accType), + Arrays.stream(cls) + .skip(1) + .map( + c -> + fromLegacyInfoToDataType( + TypeExtractor + .createTypeInfo( + c)))) + .toArray(DataType[]::new))) + .filter(Optional::isPresent) + .findAny(); + + if (foundMethod.isPresent()) { + return Optional.of(argumentDataTypes); + } else { + return callContext.fail(throwOnFailure, ""); + } + } + + @Override + public List<Signature> getExpectedSignatures(FunctionDefinition definition) { + return getSignatures(func, "accumulate"); + } + }; + } + + public static InputTypeStrategy getInputTypeStrategy(TableFunction<?> func) { + return new InputTypeStrategy() { + @Override + public ArgumentCount getArgumentCount() { + return ConstantArgumentCount.any(); + } + + @Override + public Optional<List<DataType>> inferInputTypes( + CallContext callContext, boolean throwOnFailure) { + final List<DataType> argumentDataTypes = callContext.getArgumentDataTypes(); + final LogicalType[] input = + argumentDataTypes.stream() + .map(DataType::getLogicalType) + .toArray(LogicalType[]::new); + + final Optional<Method> foundMethod = + getUserDefinedMethod( + func, + "eval", + argumentDataTypes.stream() + .map(DataType::getConversionClass) + .toArray(Class<?>[]::new), + input, + cls -> + Arrays.stream(cls) + .map( + c -> + fromLegacyInfoToDataType( + TypeExtractor + .createTypeInfo(c))) + .toArray(DataType[]::new)); + + if (foundMethod.isPresent()) { + return Optional.of(argumentDataTypes); + } else { + return callContext.fail( + throwOnFailure, "Given parameters do not match any signature."); + } + } + + @Override + public List<Signature> getExpectedSignatures(FunctionDefinition definition) { + return getSignatures(func, "eval"); + } + }; + } + + public static TypeStrategy getOutputTypeStrategy(ScalarFunction func) { + return callContext -> { + final LogicalType[] params = + callContext.getArgumentDataTypes().stream() + .map(DataType::getLogicalType) + .toArray(LogicalType[]::new); + Optional<Class<?>[]> evalParams = getEvalMethodSignature(func, params); + if (!evalParams.isPresent()) { + return Optional.empty(); + } + + final TypeInformation<?> userDefinedTypeInfo = func.getResultType(evalParams.get()); + if (userDefinedTypeInfo != null) { + return Optional.of(fromLegacyInfoToDataType(userDefinedTypeInfo)); + } else { + final Optional<Method> eval = + getUserDefinedMethod( + func, + "eval", + logicalTypesToExternalClasses(params), + params, + (paraClasses) -> + Arrays.stream(func.getParameterTypes(paraClasses)) + .map(TypeConversions::fromLegacyInfoToDataType) + .toArray(DataType[]::new)); + return eval.flatMap(m -> TypeConversions.fromClassToDataType(m.getReturnType())); + } + }; + } + + public static InputTypeStrategy getInputTypeStrategy(ScalarFunction func) { + return new InputTypeStrategy() { + @Override + public ArgumentCount getArgumentCount() { + return ConstantArgumentCount.any(); + } + + @Override + public Optional<List<DataType>> inferInputTypes( + CallContext callContext, boolean throwOnFailure) { + final List<DataType> argumentDataTypes = callContext.getArgumentDataTypes(); + final LogicalType[] input = + argumentDataTypes.stream() + .map(DataType::getLogicalType) + .toArray(LogicalType[]::new); + + final Optional<Method> foundMethod = + getUserDefinedMethod( + func, + "eval", + logicalTypesToExternalClasses(input), + input, + (paraClasses) -> + Arrays.stream(func.getParameterTypes(paraClasses)) + .map(TypeConversions::fromLegacyInfoToDataType) + .toArray(DataType[]::new)); + + if (foundMethod.isPresent()) { + return Optional.of(argumentDataTypes); + } else { + return callContext.fail( + throwOnFailure, "Given parameters do not match any signature."); + } + } + + @Override + public List<Signature> getExpectedSignatures(FunctionDefinition definition) { + return getSignatures(func, "eval"); + } + }; + } + + private static Optional<Class<?>[]> getEvalMethodSignature( + ScalarFunction func, LogicalType[] expectedTypes) { + return getUserDefinedMethod( + func, + "eval", + logicalTypesToExternalClasses(expectedTypes), + expectedTypes, + (paraClasses) -> + Arrays.stream(func.getParameterTypes(paraClasses)) + .map(TypeConversions::fromLegacyInfoToDataType) + .toArray(DataType[]::new)) + .map( + m -> + getParamClassesConsiderVarArgs( + m.isVarArgs(), + m.getParameterTypes(), + expectedTypes.length)); + } + + private static Class<?>[] getParamClassesConsiderVarArgs( + boolean isVarArgs, Class<?>[] matchingSignature, int expectedLength) { + return IntStream.range(0, expectedLength) Review Comment: Here it won't matter (much). In the old days, Scala could generate tons of intermediate objects to handle things like this. That got me used to looking for when objects were being created just to perform iteration. This code just reminded me of situations like that! -- This is an automated message from the Apache Git Service. To respond to the message, please log on to GitHub and use the URL above to go to the specific comment. To unsubscribe, e-mail: [email protected] For queries about this service, please contact Infrastructure at: [email protected]
