// 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. #pragma once #include #include #include "arrow/status.h" #include "arrow/util/visibility.h" namespace arrow { class DataType; struct ArrayData; struct Datum; struct Scalar; namespace internal { ARROW_EXPORT uint8_t DetectUIntWidth(const uint64_t* values, int64_t length, uint8_t min_width = 1); ARROW_EXPORT uint8_t DetectUIntWidth(const uint64_t* values, const uint8_t* valid_bytes, int64_t length, uint8_t min_width = 1); ARROW_EXPORT uint8_t DetectIntWidth(const int64_t* values, int64_t length, uint8_t min_width = 1); ARROW_EXPORT uint8_t DetectIntWidth(const int64_t* values, const uint8_t* valid_bytes, int64_t length, uint8_t min_width = 1); ARROW_EXPORT void DowncastInts(const int64_t* source, int8_t* dest, int64_t length); ARROW_EXPORT void DowncastInts(const int64_t* source, int16_t* dest, int64_t length); ARROW_EXPORT void DowncastInts(const int64_t* source, int32_t* dest, int64_t length); ARROW_EXPORT void DowncastInts(const int64_t* source, int64_t* dest, int64_t length); ARROW_EXPORT void DowncastUInts(const uint64_t* source, uint8_t* dest, int64_t length); ARROW_EXPORT void DowncastUInts(const uint64_t* source, uint16_t* dest, int64_t length); ARROW_EXPORT void DowncastUInts(const uint64_t* source, uint32_t* dest, int64_t length); ARROW_EXPORT void DowncastUInts(const uint64_t* source, uint64_t* dest, int64_t length); ARROW_EXPORT void UpcastInts(const int32_t* source, int64_t* dest, int64_t length); template inline typename std::enable_if<(sizeof(InputInt) >= sizeof(OutputInt))>::type CastInts( const InputInt* source, OutputInt* dest, int64_t length) { DowncastInts(source, dest, length); } template inline typename std::enable_if<(sizeof(InputInt) < sizeof(OutputInt))>::type CastInts( const InputInt* source, OutputInt* dest, int64_t length) { UpcastInts(source, dest, length); } template ARROW_EXPORT void TransposeInts(const InputInt* source, OutputInt* dest, int64_t length, const int32_t* transpose_map); /// \brief Do vectorized boundschecking of integer-type array indices. The /// indices must be non-nonnegative and strictly less than the passed upper /// limit (which is usually the length of an array that is being indexed-into). ARROW_EXPORT Status CheckIndexBounds(const ArrayData& indices, uint64_t upper_limit); /// \brief Boundscheck integer values to determine if they are all between the /// passed upper and lower limits (inclusive). Upper and lower bounds must be /// the same type as the data and are not currently casted. ARROW_EXPORT Status CheckIntegersInRange(const Datum& datum, const Scalar& bound_lower, const Scalar& bound_upper); /// \brief Use CheckIntegersInRange to determine whether the passed integers /// can fit safely in the passed integer type. This helps quickly determine if /// integer narrowing (e.g. int64->int32) is safe to do. ARROW_EXPORT Status IntegersCanFit(const Datum& datum, const DataType& target_type); } // namespace internal } // namespace arrow