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#pragma clang system_header
// 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 <cstdint>
#include <memory>
#include <string>
#include <vector>
#include "arrow/array/array_nested.h"
#include "arrow/array/builder_base.h"
#include "arrow/array/data.h"
#include "arrow/buffer_builder.h"
#include "arrow/memory_pool.h"
#include "arrow/status.h"
#include "arrow/type.h"
#include "arrow/util/visibility.h"
namespace arrow20 {
/// \addtogroup nested-builders
///
/// @{
/// \brief Base class for union array builds.
///
/// Note that while we subclass ArrayBuilder, as union types do not have a
/// validity bitmap, the bitmap builder member of ArrayBuilder is not used.
class ARROW_EXPORT BasicUnionBuilder : public ArrayBuilder {
public:
Status FinishInternal(std::shared_ptr<ArrayData>* out) override;
/// \cond FALSE
using ArrayBuilder::Finish;
/// \endcond
Status Finish(std::shared_ptr<UnionArray>* out) { return FinishTyped(out); }
/// \brief Make a new child builder available to the UnionArray
///
/// \param[in] new_child the child builder
/// \param[in] field_name the name of the field in the union array type
/// if type inference is used
/// \return child index, which is the "type" argument that needs
/// to be passed to the "Append" method to add a new element to
/// the union array.
int8_t AppendChild(const std::shared_ptr<ArrayBuilder>& new_child,
const std::string& field_name = "");
std::shared_ptr<DataType> type() const override;
int64_t length() const override { return types_builder_.length(); }
protected:
BasicUnionBuilder(MemoryPool* pool, int64_t alignment,
const std::vector<std::shared_ptr<ArrayBuilder>>& children,
const std::shared_ptr<DataType>& type);
int8_t NextTypeId();
std::vector<std::shared_ptr<Field>> child_fields_;
std::vector<int8_t> type_codes_;
UnionMode::type mode_;
std::vector<ArrayBuilder*> type_id_to_children_;
std::vector<int> type_id_to_child_id_;
// for all type_id < dense_type_id_, type_id_to_children_[type_id] != nullptr
int8_t dense_type_id_ = 0;
TypedBufferBuilder<int8_t> types_builder_;
};
/// \class DenseUnionBuilder
///
/// This API is EXPERIMENTAL.
class ARROW_EXPORT DenseUnionBuilder : public BasicUnionBuilder {
public:
/// Use this constructor to initialize the UnionBuilder with no child builders,
/// allowing type to be inferred. You will need to call AppendChild for each of the
/// children builders you want to use.
explicit DenseUnionBuilder(MemoryPool* pool,
int64_t alignment = kDefaultBufferAlignment)
: BasicUnionBuilder(pool, alignment, {}, dense_union(FieldVector{})),
offsets_builder_(pool, alignment) {}
/// Use this constructor to specify the type explicitly.
/// You can still add child builders to the union after using this constructor
DenseUnionBuilder(MemoryPool* pool,
const std::vector<std::shared_ptr<ArrayBuilder>>& children,
const std::shared_ptr<DataType>& type,
int64_t alignment = kDefaultBufferAlignment)
: BasicUnionBuilder(pool, alignment, children, type),
offsets_builder_(pool, alignment) {}
Status AppendNull() final {
const int8_t first_child_code = type_codes_[0];
ArrayBuilder* child_builder = type_id_to_children_[first_child_code];
ARROW_RETURN_NOT_OK(types_builder_.Append(first_child_code));
ARROW_RETURN_NOT_OK(
offsets_builder_.Append(static_cast<int32_t>(child_builder->length())));
// Append a null arbitrarily to the first child
return child_builder->AppendNull();
}
Status AppendNulls(int64_t length) final {
const int8_t first_child_code = type_codes_[0];
ArrayBuilder* child_builder = type_id_to_children_[first_child_code];
ARROW_RETURN_NOT_OK(types_builder_.Append(length, first_child_code));
ARROW_RETURN_NOT_OK(
offsets_builder_.Append(length, static_cast<int32_t>(child_builder->length())));
// Append just a single null to the first child
return child_builder->AppendNull();
}
Status AppendEmptyValue() final {
const int8_t first_child_code = type_codes_[0];
ArrayBuilder* child_builder = type_id_to_children_[first_child_code];
ARROW_RETURN_NOT_OK(types_builder_.Append(first_child_code));
ARROW_RETURN_NOT_OK(
offsets_builder_.Append(static_cast<int32_t>(child_builder->length())));
// Append an empty value arbitrarily to the first child
return child_builder->AppendEmptyValue();
}
Status AppendEmptyValues(int64_t length) final {
const int8_t first_child_code = type_codes_[0];
ArrayBuilder* child_builder = type_id_to_children_[first_child_code];
ARROW_RETURN_NOT_OK(types_builder_.Append(length, first_child_code));
ARROW_RETURN_NOT_OK(
offsets_builder_.Append(length, static_cast<int32_t>(child_builder->length())));
// Append just a single empty value to the first child
return child_builder->AppendEmptyValue();
}
/// \brief Append an element to the UnionArray. This must be followed
/// by an append to the appropriate child builder.
///
/// \param[in] next_type type_id of the child to which the next value will be appended.
///
/// The corresponding child builder must be appended to independently after this method
/// is called.
Status Append(int8_t next_type) {
ARROW_RETURN_NOT_OK(types_builder_.Append(next_type));
if (type_id_to_children_[next_type]->length() == kListMaximumElements) {
return Status::CapacityError(
"a dense UnionArray cannot contain more than 2^31 - 1 elements from a single "
"child");
}
auto offset = static_cast<int32_t>(type_id_to_children_[next_type]->length());
return offsets_builder_.Append(offset);
}
Status AppendArraySlice(const ArraySpan& array, int64_t offset,
int64_t length) override;
Status FinishInternal(std::shared_ptr<ArrayData>* out) override;
private:
TypedBufferBuilder<int32_t> offsets_builder_;
};
/// \class SparseUnionBuilder
///
/// This API is EXPERIMENTAL.
class ARROW_EXPORT SparseUnionBuilder : public BasicUnionBuilder {
public:
/// Use this constructor to initialize the UnionBuilder with no child builders,
/// allowing type to be inferred. You will need to call AppendChild for each of the
/// children builders you want to use.
explicit SparseUnionBuilder(MemoryPool* pool,
int64_t alignment = kDefaultBufferAlignment)
: BasicUnionBuilder(pool, alignment, {}, sparse_union(FieldVector{})) {}
/// Use this constructor to specify the type explicitly.
/// You can still add child builders to the union after using this constructor
SparseUnionBuilder(MemoryPool* pool,
const std::vector<std::shared_ptr<ArrayBuilder>>& children,
const std::shared_ptr<DataType>& type,
int64_t alignment = kDefaultBufferAlignment)
: BasicUnionBuilder(pool, alignment, children, type) {}
/// \brief Append a null value.
///
/// A null is appended to the first child, empty values to the other children.
Status AppendNull() final {
const auto first_child_code = type_codes_[0];
ARROW_RETURN_NOT_OK(types_builder_.Append(first_child_code));
ARROW_RETURN_NOT_OK(type_id_to_children_[first_child_code]->AppendNull());
for (int i = 1; i < static_cast<int>(type_codes_.size()); ++i) {
ARROW_RETURN_NOT_OK(type_id_to_children_[type_codes_[i]]->AppendEmptyValue());
}
return Status::OK();
}
/// \brief Append multiple null values.
///
/// Nulls are appended to the first child, empty values to the other children.
Status AppendNulls(int64_t length) final {
const auto first_child_code = type_codes_[0];
ARROW_RETURN_NOT_OK(types_builder_.Append(length, first_child_code));
ARROW_RETURN_NOT_OK(type_id_to_children_[first_child_code]->AppendNulls(length));
for (int i = 1; i < static_cast<int>(type_codes_.size()); ++i) {
ARROW_RETURN_NOT_OK(
type_id_to_children_[type_codes_[i]]->AppendEmptyValues(length));
}
return Status::OK();
}
Status AppendEmptyValue() final {
ARROW_RETURN_NOT_OK(types_builder_.Append(type_codes_[0]));
for (int8_t code : type_codes_) {
ARROW_RETURN_NOT_OK(type_id_to_children_[code]->AppendEmptyValue());
}
return Status::OK();
}
Status AppendEmptyValues(int64_t length) final {
ARROW_RETURN_NOT_OK(types_builder_.Append(length, type_codes_[0]));
for (int8_t code : type_codes_) {
ARROW_RETURN_NOT_OK(type_id_to_children_[code]->AppendEmptyValues(length));
}
return Status::OK();
}
/// \brief Append an element to the UnionArray. This must be followed
/// by an append to the appropriate child builder.
///
/// \param[in] next_type type_id of the child to which the next value will be appended.
///
/// The corresponding child builder must be appended to independently after this method
/// is called, and all other child builders must have null or empty value appended.
Status Append(int8_t next_type) { return types_builder_.Append(next_type); }
Status AppendArraySlice(const ArraySpan& array, int64_t offset,
int64_t length) override;
};
/// @}
} // namespace arrow20
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