// 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/type.h" #include "arrow/util/compare.h" #include "arrow/util/visibility.h" namespace arrow { namespace compute { enum class SortOrder { /// Arrange values in increasing order Ascending, /// Arrange values in decreasing order Descending, }; enum class NullPlacement { /// Place nulls and NaNs before any non-null values. /// NaNs will come after nulls. AtStart, /// Place nulls and NaNs after any non-null values. /// NaNs will come before nulls. AtEnd, }; /// \brief One sort key for PartitionNthIndices (TODO) and SortIndices class ARROW_EXPORT SortKey : public util::EqualityComparable { public: explicit SortKey(FieldRef target, SortOrder order = SortOrder::Ascending) : target(std::move(target)), order(order) {} bool Equals(const SortKey& other) const; std::string ToString() const; /// A FieldRef targeting the sort column. FieldRef target; /// How to order by this sort key. SortOrder order; }; class ARROW_EXPORT Ordering : public util::EqualityComparable { public: Ordering(std::vector sort_keys, NullPlacement null_placement = NullPlacement::AtStart) : sort_keys_(std::move(sort_keys)), null_placement_(null_placement) {} /// true if data ordered by other is also ordered by this /// /// For example, if data is ordered by [a, b, c] then it is also ordered /// by [a, b] but not by [b, c] or [a, b, c, d]. /// /// [a, b].IsSuborderOf([a, b, c]) - true /// [a, b, c].IsSuborderOf([a, b, c]) - true /// [b, c].IsSuborderOf([a, b, c]) - false /// [a, b, c, d].IsSuborderOf([a, b, c]) - false /// /// The implicit ordering is not a suborder of any other ordering and /// no other ordering is a suborder of it. The implicit ordering is not a /// suborder of itself. /// /// The unordered ordering is a suborder of all other orderings but no /// other ordering is a suborder of it. The unordered ordering is a suborder /// of itself. /// /// The unordered ordering is a suborder of the implicit ordering. bool IsSuborderOf(const Ordering& other) const; bool Equals(const Ordering& other) const; std::string ToString() const; bool is_implicit() const { return is_implicit_; } bool is_unordered() const { return !is_implicit_ && sort_keys_.empty(); } const std::vector& sort_keys() const { return sort_keys_; } NullPlacement null_placement() const { return null_placement_; } static const Ordering& Implicit() { static const Ordering kImplicit(true); return kImplicit; } static const Ordering& Unordered() { static const Ordering kUnordered(false); // It is also possible to get an unordered ordering by passing in an empty vector // using the normal constructor. This is ok and useful when ordering comes from user // input. return kUnordered; } private: explicit Ordering(bool is_implicit) : null_placement_(NullPlacement::AtStart), is_implicit_(is_implicit) {} /// Column key(s) to order by and how to order by these sort keys. std::vector sort_keys_; /// Whether nulls and NaNs are placed at the start or at the end NullPlacement null_placement_; bool is_implicit_ = false; }; } // namespace compute } // namespace arrow