Move CH -> Arrow routine converter into separated class

This commit is contained in:
FawnD2 2020-05-03 03:54:39 +03:00
parent 330627f597
commit fa1c35753b
4 changed files with 398 additions and 339 deletions

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@ -1,3 +1,4 @@
#pragma once
#include "config_formats.h"
#if USE_ARROW || USE_ORC || USE_PARQUET

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@ -0,0 +1,358 @@
#include "CHColumnToArrowColumn.h"
#if USE_ARROW || USE_PARQUET
#include <Columns/ColumnFixedString.h>
#include <Columns/ColumnNullable.h>
#include <Columns/ColumnString.h>
#include <Core/callOnTypeIndex.h>
#include <DataTypes/DataTypeNullable.h>
#include <Processors/Formats/IOutputFormat.h>
#include <arrow/api.h>
#include <arrow/util/decimal.h>
namespace DB
{
namespace ErrorCodes
{
extern const int UNKNOWN_EXCEPTION;
extern const int UNKNOWN_TYPE;
}
static const std::initializer_list<std::pair<String, std::shared_ptr<arrow::DataType>>> internal_type_to_arrow_type =
{
{"UInt8", arrow::uint8()},
{"Int8", arrow::int8()},
{"UInt16", arrow::uint16()},
{"Int16", arrow::int16()},
{"UInt32", arrow::uint32()},
{"Int32", arrow::int32()},
{"UInt64", arrow::uint64()},
{"Int64", arrow::int64()},
{"Float32", arrow::float32()},
{"Float64", arrow::float64()},
//{"Date", arrow::date64()},
//{"Date", arrow::date32()},
{"Date", arrow::uint16()}, // CHECK
//{"DateTime", arrow::date64()}, // BUG! saves as date32
{"DateTime", arrow::uint32()},
// TODO: ClickHouse can actually store non-utf8 strings!
{"String", arrow::utf8()},
{"FixedString", arrow::utf8()},
};
static const PaddedPODArray<UInt8> * extractNullBytemapPtr(ColumnPtr column)
{
ColumnPtr null_column = assert_cast<const ColumnNullable &>(*column).getNullMapColumnPtr();
const PaddedPODArray<UInt8> & null_bytemap = assert_cast<const ColumnVector<UInt8> &>(*null_column).getData();
return &null_bytemap;
}
static void checkStatus(arrow::Status & status, const std::string & column_name, const std::string & format_name)
{
if (!status.ok())
throw Exception{"Error with a " + format_name + " column \"" + column_name + "\": " + status.ToString(), ErrorCodes::UNKNOWN_EXCEPTION};
}
template <typename NumericType, typename ArrowBuilderType>
static void fillArrowArrayWithNumericColumnData(
ColumnPtr write_column,
std::shared_ptr<arrow::Array> & arrow_array,
const PaddedPODArray<UInt8> * null_bytemap,
const std::string & format_name)
{
const PaddedPODArray<NumericType> & internal_data = assert_cast<const ColumnVector<NumericType> &>(*write_column).getData();
ArrowBuilderType builder;
arrow::Status status;
const UInt8 * arrow_null_bytemap_raw_ptr = nullptr;
PaddedPODArray<UInt8> arrow_null_bytemap;
if (null_bytemap)
{
/// Invert values since Arrow interprets 1 as a non-null value, while CH as a null
arrow_null_bytemap.reserve(null_bytemap->size());
for (auto is_null : *null_bytemap)
arrow_null_bytemap.emplace_back(!is_null);
arrow_null_bytemap_raw_ptr = arrow_null_bytemap.data();
}
if constexpr (std::is_same_v<NumericType, UInt8>)
status = builder.AppendValues(
reinterpret_cast<const uint8_t *>(internal_data.data()),
internal_data.size(),
reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
else
status = builder.AppendValues(internal_data.data(), internal_data.size(), reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
checkStatus(status, write_column->getName(), format_name);
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName(), format_name);
}
template <typename ColumnType>
static void fillArrowArrayWithStringColumnData(
ColumnPtr write_column,
std::shared_ptr<arrow::Array> & arrow_array,
const PaddedPODArray<UInt8> * null_bytemap,
const std::string & format_name)
{
const auto & internal_column = assert_cast<const ColumnType &>(*write_column);
arrow::StringBuilder builder;
arrow::Status status;
for (size_t string_i = 0, size = internal_column.size(); string_i < size; ++string_i)
{
if (null_bytemap && (*null_bytemap)[string_i])
{
status = builder.AppendNull();
}
else
{
StringRef string_ref = internal_column.getDataAt(string_i);
status = builder.Append(string_ref.data, string_ref.size);
}
checkStatus(status, write_column->getName(), format_name);
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName(), format_name);
}
static void fillArrowArrayWithDateColumnData(
ColumnPtr write_column,
std::shared_ptr<arrow::Array> & arrow_array,
const PaddedPODArray<UInt8> * null_bytemap,
const std::string & format_name)
{
const PaddedPODArray<UInt16> & internal_data = assert_cast<const ColumnVector<UInt16> &>(*write_column).getData();
//arrow::Date32Builder date_builder;
arrow::UInt16Builder builder;
arrow::Status status;
for (size_t value_i = 0, size = internal_data.size(); value_i < size; ++value_i)
{
if (null_bytemap && (*null_bytemap)[value_i])
status = builder.AppendNull();
else
/// Implicitly converts UInt16 to Int32
status = builder.Append(internal_data[value_i]);
checkStatus(status, write_column->getName(), format_name);
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName(), format_name);
}
static void fillArrowArrayWithDateTimeColumnData(
ColumnPtr write_column,
std::shared_ptr<arrow::Array> & arrow_array,
const PaddedPODArray<UInt8> * null_bytemap,
const std::string & format_name)
{
const auto & internal_data = assert_cast<const ColumnVector<UInt32> &>(*write_column).getData();
//arrow::Date64Builder builder;
arrow::UInt32Builder builder;
arrow::Status status;
for (size_t value_i = 0, size = internal_data.size(); value_i < size; ++value_i)
{
if (null_bytemap && (*null_bytemap)[value_i])
status = builder.AppendNull();
else
/// Implicitly converts UInt16 to Int32
//status = date_builder.Append(static_cast<int64_t>(internal_data[value_i]) * 1000); // now ms. TODO check other units
status = builder.Append(internal_data[value_i]);
checkStatus(status, write_column->getName(), format_name);
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName(), format_name);
}
template <typename DataType>
static void fillArrowArrayWithDecimalColumnData(
ColumnPtr write_column,
std::shared_ptr<arrow::Array> & arrow_array,
const PaddedPODArray<UInt8> * null_bytemap,
const DataType * decimal_type,
const std::string & format_name)
{
const auto & column = static_cast<const typename DataType::ColumnType &>(*write_column);
arrow::DecimalBuilder builder(arrow::decimal(decimal_type->getPrecision(), decimal_type->getScale()));
arrow::Status status;
for (size_t value_i = 0, size = column.size(); value_i < size; ++value_i)
{
if (null_bytemap && (*null_bytemap)[value_i])
status = builder.AppendNull();
else
status = builder.Append(
arrow::Decimal128(reinterpret_cast<const uint8_t *>(&column.getElement(value_i).value))); // TODO: try copy column
checkStatus(status, write_column->getName(), format_name);
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName(), format_name);
/* TODO column copy
const auto & internal_data = static_cast<const typename DataType::ColumnType &>(*write_column).getData();
//ArrowBuilderType numeric_builder;
arrow::DecimalBuilder builder(arrow::decimal(decimal_type->getPrecision(), decimal_type->getScale()));
arrow::Status status;
const uint8_t * arrow_null_bytemap_raw_ptr = nullptr;
PaddedPODArray<UInt8> arrow_null_bytemap;
if (null_bytemap)
{
/// Invert values since Arrow interprets 1 as a non-null value, while CH as a null
arrow_null_bytemap.reserve(null_bytemap->size());
for (size_t i = 0, size = null_bytemap->size(); i < size; ++i)
arrow_null_bytemap.emplace_back(1 ^ (*null_bytemap)[i]);
arrow_null_bytemap_raw_ptr = arrow_null_bytemap.data();
}
if constexpr (std::is_same_v<NumericType, UInt8>)
status = builder.AppendValues(
reinterpret_cast<const uint8_t *>(internal_data.data()),
internal_data.size(),
reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
else
status = builder.AppendValues(internal_data.data(), internal_data.size(), reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
checkStatus(status, write_column->getName(), format_name);
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName(), format_name);
*/
}
void CHColumnToArrowColumn::CHChunkToArrowTable(
std::shared_ptr<arrow::Table> & res,
const Block & header,
const Chunk & chunk,
size_t columns_num,
std::string format_name)
{
/// For arrow::Schema and arrow::Table creation
std::vector<std::shared_ptr<arrow::Field>> arrow_fields;
std::vector<std::shared_ptr<arrow::Array>> arrow_arrays;
arrow_fields.reserve(columns_num);
arrow_arrays.reserve(columns_num);
for (size_t column_i = 0; column_i < columns_num; ++column_i)
{
// TODO: constructed every iteration
ColumnWithTypeAndName column = header.safeGetByPosition(column_i);
column.column = chunk.getColumns()[column_i];
const bool is_column_nullable = column.type->isNullable();
const auto & column_nested_type
= is_column_nullable ? static_cast<const DataTypeNullable *>(column.type.get())->getNestedType() : column.type;
const std::string column_nested_type_name = column_nested_type->getFamilyName();
if (isDecimal(column_nested_type))
{
const auto add_decimal_field = [&](const auto & types) -> bool {
using Types = std::decay_t<decltype(types)>;
using ToDataType = typename Types::LeftType;
if constexpr (
std::is_same_v<ToDataType, DataTypeDecimal<Decimal32>>
|| std::is_same_v<ToDataType, DataTypeDecimal<Decimal64>>
|| std::is_same_v<ToDataType, DataTypeDecimal<Decimal128>>)
{
const auto & decimal_type = static_cast<const ToDataType *>(column_nested_type.get());
arrow_fields.emplace_back(std::make_shared<arrow::Field>(
column.name, arrow::decimal(decimal_type->getPrecision(), decimal_type->getScale()), is_column_nullable));
}
return false;
};
callOnIndexAndDataType<void>(column_nested_type->getTypeId(), add_decimal_field);
}
else
{
if (const auto * arrow_type_it = std::find_if(internal_type_to_arrow_type.begin(), internal_type_to_arrow_type.end(),
[=](auto && elem) { return elem.first == column_nested_type_name; });
arrow_type_it != internal_type_to_arrow_type.end())
{
arrow_fields.emplace_back(std::make_shared<arrow::Field>(column.name, arrow_type_it->second, is_column_nullable));
} else
{
throw Exception{"The type \"" + column_nested_type_name + "\" of a column \"" + column.name + "\""
" is not supported for conversion into a " + format_name + " data format",
ErrorCodes::UNKNOWN_TYPE};
}
}
ColumnPtr nested_column
= is_column_nullable ? assert_cast<const ColumnNullable &>(*column.column).getNestedColumnPtr() : column.column;
const PaddedPODArray<UInt8> * null_bytemap = is_column_nullable ? extractNullBytemapPtr(column.column) : nullptr;
std::shared_ptr<arrow::Array> arrow_array;
if ("String" == column_nested_type_name)
{
fillArrowArrayWithStringColumnData<ColumnString>(nested_column, arrow_array, null_bytemap, format_name);
}
else if ("FixedString" == column_nested_type_name)
{
fillArrowArrayWithStringColumnData<ColumnFixedString>(nested_column, arrow_array, null_bytemap, format_name);
}
else if ("Date" == column_nested_type_name)
{
fillArrowArrayWithDateColumnData(nested_column, arrow_array, null_bytemap, format_name);
}
else if ("DateTime" == column_nested_type_name)
{
fillArrowArrayWithDateTimeColumnData(nested_column, arrow_array, null_bytemap, format_name);
}
else if (isDecimal(column_nested_type))
{
auto fill_decimal = [&](const auto & types) -> bool
{
using Types = std::decay_t<decltype(types)>;
using ToDataType = typename Types::LeftType;
if constexpr (
std::is_same_v<ToDataType,DataTypeDecimal<Decimal32>>
|| std::is_same_v<ToDataType, DataTypeDecimal<Decimal64>>
|| std::is_same_v<ToDataType, DataTypeDecimal<Decimal128>>)
{
const auto & decimal_type = static_cast<const ToDataType *>(column_nested_type.get());
fillArrowArrayWithDecimalColumnData(nested_column, arrow_array, null_bytemap, decimal_type, format_name);
}
return false;
};
callOnIndexAndDataType<void>(column_nested_type->getTypeId(), fill_decimal);
}
#define DISPATCH(CPP_NUMERIC_TYPE, ARROW_BUILDER_TYPE) \
else if (#CPP_NUMERIC_TYPE == column_nested_type_name) \
{ \
fillArrowArrayWithNumericColumnData<CPP_NUMERIC_TYPE, ARROW_BUILDER_TYPE>(nested_column, arrow_array, null_bytemap, format_name); \
}
FOR_INTERNAL_NUMERIC_TYPES(DISPATCH)
#undef DISPATCH
else
{
throw Exception{"Internal type \"" + column_nested_type_name + "\" of a column \"" + column.name + "\""
" is not supported for conversion into a " + format_name + " data format",
ErrorCodes::UNKNOWN_TYPE};
}
arrow_arrays.emplace_back(std::move(arrow_array));
}
std::shared_ptr<arrow::Schema> arrow_schema = std::make_shared<arrow::Schema>(std::move(arrow_fields));
res = arrow::Table::Make(arrow_schema, arrow_arrays);
}
}
#endif

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@ -0,0 +1,35 @@
#pragma once
#include "config_formats.h"
#if USE_ARROW || USE_PARQUET
#include <Core/Block.h>
#include <Processors/Chunk.h>
#include <arrow/table.h>
namespace DB
{
class CHColumnToArrowColumn
{
private:
#define FOR_INTERNAL_NUMERIC_TYPES(M) \
M(UInt8, arrow::UInt8Builder) \
M(Int8, arrow::Int8Builder) \
M(UInt16, arrow::UInt16Builder) \
M(Int16, arrow::Int16Builder) \
M(UInt32, arrow::UInt32Builder) \
M(Int32, arrow::Int32Builder) \
M(UInt64, arrow::UInt64Builder) \
M(Int64, arrow::Int64Builder) \
M(Float32, arrow::FloatBuilder) \
M(Float64, arrow::DoubleBuilder)
public:
static void CHChunkToArrowTable(std::shared_ptr<arrow::Table> & res, const Block & header, const Chunk & chunk,
size_t columns_num, std::string format_name);
};
}
#endif

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@ -3,28 +3,19 @@
#if USE_PARQUET
// TODO: clean includes
#include <Columns/ColumnDecimal.h>
#include <Columns/ColumnFixedString.h>
#include <Columns/ColumnNullable.h>
#include <Columns/ColumnString.h>
#include <Columns/ColumnVector.h>
#include <Columns/ColumnsNumber.h>
#include <Common/assert_cast.h>
#include <Core/ColumnWithTypeAndName.h>
#include <Core/callOnTypeIndex.h>
#include <DataTypes/DataTypeDateTime.h>
#include <DataTypes/DataTypeNullable.h>
#include <DataTypes/DataTypesDecimal.h>
#include <DataStreams/SquashingBlockOutputStream.h>
#include <Formats/FormatFactory.h>
#include <IO/WriteHelpers.h>
#include <arrow/api.h>
#include <arrow/io/api.h>
#include <arrow/util/decimal.h>
#include <arrow/util/memory.h>
#include <parquet/arrow/writer.h>
#include <parquet/exception.h>
#include <parquet/deprecated_io.h>
#include "CHColumnToArrowColumn.h"
namespace DB
@ -40,217 +31,6 @@ ParquetBlockOutputFormat::ParquetBlockOutputFormat(WriteBuffer & out_, const Blo
{
}
static void checkStatus(arrow::Status & status, const std::string & column_name)
{
if (!status.ok())
throw Exception{"Error with a parquet column \"" + column_name + "\": " + status.ToString(), ErrorCodes::UNKNOWN_EXCEPTION};
}
template <typename NumericType, typename ArrowBuilderType>
static void fillArrowArrayWithNumericColumnData(
ColumnPtr write_column, std::shared_ptr<arrow::Array> & arrow_array, const PaddedPODArray<UInt8> * null_bytemap)
{
const PaddedPODArray<NumericType> & internal_data = assert_cast<const ColumnVector<NumericType> &>(*write_column).getData();
ArrowBuilderType builder;
arrow::Status status;
const UInt8 * arrow_null_bytemap_raw_ptr = nullptr;
PaddedPODArray<UInt8> arrow_null_bytemap;
if (null_bytemap)
{
/// Invert values since Arrow interprets 1 as a non-null value, while CH as a null
arrow_null_bytemap.reserve(null_bytemap->size());
for (auto is_null : *null_bytemap)
arrow_null_bytemap.emplace_back(!is_null);
arrow_null_bytemap_raw_ptr = arrow_null_bytemap.data();
}
if constexpr (std::is_same_v<NumericType, UInt8>)
status = builder.AppendValues(
reinterpret_cast<const uint8_t *>(internal_data.data()),
internal_data.size(),
reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
else
status = builder.AppendValues(internal_data.data(), internal_data.size(), reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
checkStatus(status, write_column->getName());
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName());
}
template <typename ColumnType>
static void fillArrowArrayWithStringColumnData(
ColumnPtr write_column, std::shared_ptr<arrow::Array> & arrow_array, const PaddedPODArray<UInt8> * null_bytemap)
{
const auto & internal_column = assert_cast<const ColumnType &>(*write_column);
arrow::StringBuilder builder;
arrow::Status status;
for (size_t string_i = 0, size = internal_column.size(); string_i < size; ++string_i)
{
if (null_bytemap && (*null_bytemap)[string_i])
{
status = builder.AppendNull();
}
else
{
StringRef string_ref = internal_column.getDataAt(string_i);
status = builder.Append(string_ref.data, string_ref.size);
}
checkStatus(status, write_column->getName());
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName());
}
static void fillArrowArrayWithDateColumnData(
ColumnPtr write_column, std::shared_ptr<arrow::Array> & arrow_array, const PaddedPODArray<UInt8> * null_bytemap)
{
const PaddedPODArray<UInt16> & internal_data = assert_cast<const ColumnVector<UInt16> &>(*write_column).getData();
//arrow::Date32Builder date_builder;
arrow::UInt16Builder builder;
arrow::Status status;
for (size_t value_i = 0, size = internal_data.size(); value_i < size; ++value_i)
{
if (null_bytemap && (*null_bytemap)[value_i])
status = builder.AppendNull();
else
/// Implicitly converts UInt16 to Int32
status = builder.Append(internal_data[value_i]);
checkStatus(status, write_column->getName());
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName());
}
static void fillArrowArrayWithDateTimeColumnData(
ColumnPtr write_column, std::shared_ptr<arrow::Array> & arrow_array, const PaddedPODArray<UInt8> * null_bytemap)
{
const auto & internal_data = assert_cast<const ColumnVector<UInt32> &>(*write_column).getData();
//arrow::Date64Builder builder;
arrow::UInt32Builder builder;
arrow::Status status;
for (size_t value_i = 0, size = internal_data.size(); value_i < size; ++value_i)
{
if (null_bytemap && (*null_bytemap)[value_i])
status = builder.AppendNull();
else
/// Implicitly converts UInt16 to Int32
//status = date_builder.Append(static_cast<int64_t>(internal_data[value_i]) * 1000); // now ms. TODO check other units
status = builder.Append(internal_data[value_i]);
checkStatus(status, write_column->getName());
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName());
}
template <typename DataType>
static void fillArrowArrayWithDecimalColumnData(
ColumnPtr write_column,
std::shared_ptr<arrow::Array> & arrow_array,
const PaddedPODArray<UInt8> * null_bytemap,
const DataType * decimal_type)
{
const auto & column = static_cast<const typename DataType::ColumnType &>(*write_column);
arrow::DecimalBuilder builder(arrow::decimal(decimal_type->getPrecision(), decimal_type->getScale()));
arrow::Status status;
for (size_t value_i = 0, size = column.size(); value_i < size; ++value_i)
{
if (null_bytemap && (*null_bytemap)[value_i])
status = builder.AppendNull();
else
status = builder.Append(
arrow::Decimal128(reinterpret_cast<const uint8_t *>(&column.getElement(value_i).value))); // TODO: try copy column
checkStatus(status, write_column->getName());
}
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName());
/* TODO column copy
const auto & internal_data = static_cast<const typename DataType::ColumnType &>(*write_column).getData();
//ArrowBuilderType numeric_builder;
arrow::DecimalBuilder builder(arrow::decimal(decimal_type->getPrecision(), decimal_type->getScale()));
arrow::Status status;
const uint8_t * arrow_null_bytemap_raw_ptr = nullptr;
PaddedPODArray<UInt8> arrow_null_bytemap;
if (null_bytemap)
{
/// Invert values since Arrow interprets 1 as a non-null value, while CH as a null
arrow_null_bytemap.reserve(null_bytemap->size());
for (size_t i = 0, size = null_bytemap->size(); i < size; ++i)
arrow_null_bytemap.emplace_back(1 ^ (*null_bytemap)[i]);
arrow_null_bytemap_raw_ptr = arrow_null_bytemap.data();
}
if constexpr (std::is_same_v<NumericType, UInt8>)
status = builder.AppendValues(
reinterpret_cast<const uint8_t *>(internal_data.data()),
internal_data.size(),
reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
else
status = builder.AppendValues(internal_data.data(), internal_data.size(), reinterpret_cast<const uint8_t *>(arrow_null_bytemap_raw_ptr));
checkStatus(status, write_column->getName());
status = builder.Finish(&arrow_array);
checkStatus(status, write_column->getName());
*/
}
#define FOR_INTERNAL_NUMERIC_TYPES(M) \
M(UInt8, arrow::UInt8Builder) \
M(Int8, arrow::Int8Builder) \
M(UInt16, arrow::UInt16Builder) \
M(Int16, arrow::Int16Builder) \
M(UInt32, arrow::UInt32Builder) \
M(Int32, arrow::Int32Builder) \
M(UInt64, arrow::UInt64Builder) \
M(Int64, arrow::Int64Builder) \
M(Float32, arrow::FloatBuilder) \
M(Float64, arrow::DoubleBuilder)
const std::unordered_map<String, std::shared_ptr<arrow::DataType>> internal_type_to_arrow_type = {
{"UInt8", arrow::uint8()},
{"Int8", arrow::int8()},
{"UInt16", arrow::uint16()},
{"Int16", arrow::int16()},
{"UInt32", arrow::uint32()},
{"Int32", arrow::int32()},
{"UInt64", arrow::uint64()},
{"Int64", arrow::int64()},
{"Float32", arrow::float32()},
{"Float64", arrow::float64()},
//{"Date", arrow::date64()},
//{"Date", arrow::date32()},
{"Date", arrow::uint16()}, // CHECK
//{"DateTime", arrow::date64()}, // BUG! saves as date32
{"DateTime", arrow::uint32()},
// TODO: ClickHouse can actually store non-utf8 strings!
{"String", arrow::utf8()},
{"FixedString", arrow::utf8()},
};
static const PaddedPODArray<UInt8> * extractNullBytemapPtr(ColumnPtr column)
{
ColumnPtr null_column = assert_cast<const ColumnNullable &>(*column).getNullMapColumnPtr();
const PaddedPODArray<UInt8> & null_bytemap = assert_cast<const ColumnVector<UInt8> &>(*null_column).getData();
return &null_bytemap;
}
class OstreamOutputStream : public arrow::io::OutputStream
{
public:
@ -291,131 +71,16 @@ private:
void ParquetBlockOutputFormat::consume(Chunk chunk)
{
const auto & header = getPort(PortKind::Main).getHeader();
const Block & header = getPort(PortKind::Main).getHeader();
const size_t columns_num = chunk.getNumColumns();
std::shared_ptr<arrow::Table> arrow_table;
/// For arrow::Schema and arrow::Table creation
std::vector<std::shared_ptr<arrow::Field>> arrow_fields;
std::vector<std::shared_ptr<arrow::Array>> arrow_arrays;
arrow_fields.reserve(columns_num);
arrow_arrays.reserve(columns_num);
for (size_t column_i = 0; column_i < columns_num; ++column_i)
{
// TODO: constructed every iteration
ColumnWithTypeAndName column = header.safeGetByPosition(column_i);
column.column = chunk.getColumns()[column_i];
const bool is_column_nullable = column.type->isNullable();
const auto & column_nested_type
= is_column_nullable ? static_cast<const DataTypeNullable *>(column.type.get())->getNestedType() : column.type;
const std::string column_nested_type_name = column_nested_type->getFamilyName();
if (isDecimal(column_nested_type))
{
const auto add_decimal_field = [&](const auto & types) -> bool {
using Types = std::decay_t<decltype(types)>;
using ToDataType = typename Types::LeftType;
if constexpr (
std::is_same_v<
ToDataType,
DataTypeDecimal<
Decimal32>> || std::is_same_v<ToDataType, DataTypeDecimal<Decimal64>> || std::is_same_v<ToDataType, DataTypeDecimal<Decimal128>>)
{
const auto & decimal_type = static_cast<const ToDataType *>(column_nested_type.get());
arrow_fields.emplace_back(std::make_shared<arrow::Field>(
column.name, arrow::decimal(decimal_type->getPrecision(), decimal_type->getScale()), is_column_nullable));
}
return false;
};
callOnIndexAndDataType<void>(column_nested_type->getTypeId(), add_decimal_field);
}
else
{
if (internal_type_to_arrow_type.find(column_nested_type_name) == internal_type_to_arrow_type.end())
{
throw Exception{"The type \"" + column_nested_type_name + "\" of a column \"" + column.name
+ "\""
" is not supported for conversion into a Parquet data format",
ErrorCodes::UNKNOWN_TYPE};
}
arrow_fields.emplace_back(std::make_shared<arrow::Field>(column.name, internal_type_to_arrow_type.at(column_nested_type_name), is_column_nullable));
}
std::shared_ptr<arrow::Array> arrow_array;
ColumnPtr nested_column
= is_column_nullable ? assert_cast<const ColumnNullable &>(*column.column).getNestedColumnPtr() : column.column;
const PaddedPODArray<UInt8> * null_bytemap = is_column_nullable ? extractNullBytemapPtr(column.column) : nullptr;
if ("String" == column_nested_type_name)
{
fillArrowArrayWithStringColumnData<ColumnString>(nested_column, arrow_array, null_bytemap);
}
else if ("FixedString" == column_nested_type_name)
{
fillArrowArrayWithStringColumnData<ColumnFixedString>(nested_column, arrow_array, null_bytemap);
}
else if ("Date" == column_nested_type_name)
{
fillArrowArrayWithDateColumnData(nested_column, arrow_array, null_bytemap);
}
else if ("DateTime" == column_nested_type_name)
{
fillArrowArrayWithDateTimeColumnData(nested_column, arrow_array, null_bytemap);
}
else if (isDecimal(column_nested_type))
{
auto fill_decimal = [&](const auto & types) -> bool
{
using Types = std::decay_t<decltype(types)>;
using ToDataType = typename Types::LeftType;
if constexpr (
std::is_same_v<
ToDataType,
DataTypeDecimal<
Decimal32>> || std::is_same_v<ToDataType, DataTypeDecimal<Decimal64>> || std::is_same_v<ToDataType, DataTypeDecimal<Decimal128>>)
{
const auto & decimal_type = static_cast<const ToDataType *>(column_nested_type.get());
fillArrowArrayWithDecimalColumnData(nested_column, arrow_array, null_bytemap, decimal_type);
}
return false;
};
callOnIndexAndDataType<void>(column_nested_type->getTypeId(), fill_decimal);
}
#define DISPATCH(CPP_NUMERIC_TYPE, ARROW_BUILDER_TYPE) \
else if (#CPP_NUMERIC_TYPE == column_nested_type_name) \
{ \
fillArrowArrayWithNumericColumnData<CPP_NUMERIC_TYPE, ARROW_BUILDER_TYPE>(nested_column, arrow_array, null_bytemap); \
}
FOR_INTERNAL_NUMERIC_TYPES(DISPATCH)
#undef DISPATCH
else
{
throw Exception{"Internal type \"" + column_nested_type_name + "\" of a column \"" + column.name
+ "\""
" is not supported for conversion into a Parquet data format",
ErrorCodes::UNKNOWN_TYPE};
}
arrow_arrays.emplace_back(std::move(arrow_array));
}
std::shared_ptr<arrow::Schema> arrow_schema = std::make_shared<arrow::Schema>(std::move(arrow_fields));
std::shared_ptr<arrow::Table> arrow_table = arrow::Table::Make(arrow_schema, arrow_arrays);
CHColumnToArrowColumn::CHChunkToArrowTable(arrow_table, header, chunk, columns_num, "Parquet");
auto sink = std::make_shared<OstreamOutputStream>(out);
if (!file_writer)
{
parquet::WriterProperties::Builder builder;
#if USE_SNAPPY
builder.compression(parquet::Compression::SNAPPY);