// 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.

#include "storage/row_cursor.h"

#include <glog/logging.h>

#include <algorithm>

#include <numeric>

#include <ostream>

#include "common/cast_set.h"

#include "common/consts.h"

#include "core/data_type/primitive_type.h"

#include "core/field.h"

#include "storage/field.h"

#include "storage/olap_common.h"

#include "storage/olap_define.h"

#include "storage/tablet/tablet_schema.h"

#include "storage/types.h"

#include "util/slice.h"

namespace doris {

#include "common/compile_check_begin.h"

using namespace ErrorCode;

RowCursor::RowCursor() = default;

RowCursor::~RowCursor() = default;

RowCursor::RowCursor(RowCursor&&) noexcept = default;

RowCursor& RowCursor::operator=(RowCursor&&) noexcept = default;

void RowCursor::_init_schema(TabletSchemaSPtr schema, uint32_t column_count) {

    std::vector<uint32_t> columns(column_count);

    std::iota(columns.begin(), columns.end(), 0);

    _schema.reset(new Schema(schema->columns(), columns));

}

void RowCursor::_init_schema(const std::shared_ptr<Schema>& shared_schema, uint32_t column_count) {

    _schema.reset(new Schema(*shared_schema));

}

Status RowCursor::init(TabletSchemaSPtr schema, size_t num_columns) {

    if (num_columns > schema->num_columns()) {

        return Status::Error<INVALID_ARGUMENT>(

                "Input param are invalid. Column count is bigger than num_columns of schema. "

                "column_count={}, schema.num_columns={}",

                num_columns, schema->num_columns());

    }

    _init_schema(schema, cast_set<uint32_t>(num_columns));

    // Initialize all fields as null (TYPE_NULL).

    _fields.resize(num_columns);

    return Status::OK();

}

Status RowCursor::init(TabletSchemaSPtr schema, const OlapTuple& tuple) {

    size_t key_size = tuple.size();

    if (key_size > schema->num_columns()) {

        return Status::Error<INVALID_ARGUMENT>(

                "Input param are invalid. Column count is bigger than num_columns of schema. "

                "column_count={}, schema.num_columns={}",

                key_size, schema->num_columns());

    }

    _init_schema(schema, cast_set<uint32_t>(key_size));

    return from_tuple(tuple);

}

Status RowCursor::init(TabletSchemaSPtr schema, const OlapTuple& tuple,

                       const std::shared_ptr<Schema>& shared_schema) {

    size_t key_size = tuple.size();

    if (key_size > schema->num_columns()) {

        return Status::Error<INVALID_ARGUMENT>(

                "Input param are invalid. Column count is bigger than num_columns of schema. "

                "column_count={}, schema.num_columns={}",

                key_size, schema->num_columns());

    }

    _init_schema(shared_schema, cast_set<uint32_t>(key_size));

    return from_tuple(tuple);

}

Status RowCursor::init_scan_key(TabletSchemaSPtr schema, std::vector<Field> fields) {

    size_t key_size = fields.size();

    if (key_size > schema->num_columns()) {

        return Status::Error<INVALID_ARGUMENT>(

                "Input param are invalid. Column count is bigger than num_columns of schema. "

                "column_count={}, schema.num_columns={}",

                key_size, schema->num_columns());

    }

    _init_schema(schema, cast_set<uint32_t>(key_size));

    _fields = std::move(fields);

    return Status::OK();

}

Status RowCursor::from_tuple(const OlapTuple& tuple) {

    if (tuple.size() != _schema->num_column_ids()) {

        return Status::Error<INVALID_ARGUMENT>(

                "column count does not match. tuple_size={}, field_count={}", tuple.size(),

                _schema->num_column_ids());

    }

    _fields.resize(tuple.size());

    for (size_t i = 0; i < tuple.size(); ++i) {

        _fields[i] = tuple.get_field(i);

    }

    return Status::OK();

}

RowCursor RowCursor::clone() const {

    RowCursor result;

    result._schema = std::make_unique<Schema>(*_schema);

    result._fields = _fields;

    return result;

}

void RowCursor::pad_char_fields() {

    for (size_t i = 0; i < _fields.size(); ++i) {

        const StorageField* col = _schema->column(cast_set<uint32_t>(i));

        if (col->type() == FieldType::OLAP_FIELD_TYPE_CHAR && !_fields[i].is_null()) {

            String padded = _fields[i].get<TYPE_CHAR>();

            padded.resize(col->length(), '\0');

            _fields[i] = Field::create_field<TYPE_CHAR>(std::move(padded));

        }

    }

}

std::string RowCursor::to_string() const {

    std::string result;

    for (size_t i = 0; i < _fields.size(); ++i) {

        if (i > 0) {

            result.append("|");

        }

        if (_fields[i].is_null()) {

            result.append("1&NULL");

        } else {

            result.append("0&");

            result.append(_fields[i].to_debug_string(

                    _schema->column(cast_set<uint32_t>(i))->get_scale()));

        }

    }

    return result;

}

// Convert a Field value to its storage representation via PrimitiveTypeConvertor and encode.

// For most types this is an identity conversion; for DATE, DATETIME, DECIMALV2 it does

// actual conversion to the olap storage format.

template <PrimitiveType PT>

static void encode_non_string_field(const StorageField* storage_field, const Field& f,

                                    bool full_encode, std::string* buf) {

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

    if (full_encode) {

        storage_field->full_encode_ascending(&storage_val, buf);

    } else {

        storage_field->encode_ascending(&storage_val, buf);

    }

}

Unexecuted instantiation: row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE2EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

Unexecuted instantiation: row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE3EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

Unexecuted instantiation: row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE4EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE5EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

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    if (full_encode) {

163

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        storage_field->full_encode_ascending(&storage_val, buf);

164

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    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

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    }

167

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE6EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

2

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

2

    if (full_encode) {

163

1

        storage_field->full_encode_ascending(&storage_val, buf);

164

1

    } else {

165

1

        storage_field->encode_ascending(&storage_val, buf);

166

1

    }

167

2

}

Unexecuted instantiation: row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE7EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE8EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

8

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

8

    if (full_encode) {

163

2

        storage_field->full_encode_ascending(&storage_val, buf);

164

6

    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

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    }

167

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE9EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

3

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

3

    if (full_encode) {

163

1

        storage_field->full_encode_ascending(&storage_val, buf);

164

2

    } else {

165

2

        storage_field->encode_ascending(&storage_val, buf);

166

2

    }

167

3

}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE11EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

2

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

2

    if (full_encode) {

163

1

        storage_field->full_encode_ascending(&storage_val, buf);

164

1

    } else {

165

1

        storage_field->encode_ascending(&storage_val, buf);

166

1

    }

167

2

}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE12EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

3

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

3

    if (full_encode) {

163

1

        storage_field->full_encode_ascending(&storage_val, buf);

164

2

    } else {

165

2

        storage_field->encode_ascending(&storage_val, buf);

166

2

    }

167

3

}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE25EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

2

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

2

    if (full_encode) {

163

1

        storage_field->full_encode_ascending(&storage_val, buf);

164

1

    } else {

165

1

        storage_field->encode_ascending(&storage_val, buf);

166

1

    }

167

2

}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE26EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

4

    if (full_encode) {

163

0

        storage_field->full_encode_ascending(&storage_val, buf);

164

4

    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

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    }

167

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE42EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

1

    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

1

    if (full_encode) {

163

0

        storage_field->full_encode_ascending(&storage_val, buf);

164

1

    } else {

165

1

        storage_field->encode_ascending(&storage_val, buf);

166

1

    }

167

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE20EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

3

    if (full_encode) {

163

1

        storage_field->full_encode_ascending(&storage_val, buf);

164

2

    } else {

165

2

        storage_field->encode_ascending(&storage_val, buf);

166

2

    }

167

3

}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE28EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

4

    if (full_encode) {

163

0

        storage_field->full_encode_ascending(&storage_val, buf);

164

4

    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

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    }

167

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE29EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

2

    if (full_encode) {

163

0

        storage_field->full_encode_ascending(&storage_val, buf);

164

2

    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

2

    }

167

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE30EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

3

    if (full_encode) {

163

0

        storage_field->full_encode_ascending(&storage_val, buf);

164

3

    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

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    }

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}

row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE35EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

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                                    bool full_encode, std::string* buf) {

161

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    auto storage_val = PrimitiveTypeConvertor<PT>::to_storage_field_type(f.get<PT>());

162

2

    if (full_encode) {

163

0

        storage_field->full_encode_ascending(&storage_val, buf);

164

2

    } else {

165

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        storage_field->encode_ascending(&storage_val, buf);

166

2

    }

167

2

}

Unexecuted instantiation: row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE36EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

Unexecuted instantiation: row_cursor.cpp:_ZN5dorisL23encode_non_string_fieldILNS_13PrimitiveTypeE37EEEvPKNS_12StorageFieldERKNS_5FieldEbPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE

void RowCursor::_encode_field(const StorageField* storage_field, const Field& f, bool full_encode,

                              std::string* buf) const {

    FieldType ft = storage_field->type();

    if (field_is_slice_type(ft)) {

        // String types: CHAR, VARCHAR, STRING — all stored as String in Field.

        const String& str = f.get<TYPE_STRING>();

        if (ft == FieldType::OLAP_FIELD_TYPE_CHAR) {

            // CHAR type: must pad with \0 to the declared column length

            size_t col_len = storage_field->length();

            String padded(col_len, '\0');

            memcpy(padded.data(), str.data(), std::min(str.size(), col_len));

            Slice slice(padded.data(), col_len);

            if (full_encode) {

                storage_field->full_encode_ascending(&slice, buf);

            } else {

                storage_field->encode_ascending(&slice, buf);

            }

        } else {

            // VARCHAR / STRING: use actual length

            Slice slice(str.data(), str.size());

            if (full_encode) {

                storage_field->full_encode_ascending(&slice, buf);

            } else {

                storage_field->encode_ascending(&slice, buf);

            }

        }

        return;

    }

    // Non-string types: convert Field value to storage format via PrimitiveTypeConvertor,

    // then encode. For most types this is an identity conversion.

    switch (ft) {

    case FieldType::OLAP_FIELD_TYPE_BOOL:

        encode_non_string_field<TYPE_BOOLEAN>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_TINYINT:

        encode_non_string_field<TYPE_TINYINT>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_SMALLINT:

        encode_non_string_field<TYPE_SMALLINT>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_INT:

        encode_non_string_field<TYPE_INT>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_BIGINT:

        encode_non_string_field<TYPE_BIGINT>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_LARGEINT:

        encode_non_string_field<TYPE_LARGEINT>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_FLOAT:

        encode_non_string_field<TYPE_FLOAT>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DOUBLE:

        encode_non_string_field<TYPE_DOUBLE>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DATE:

        encode_non_string_field<TYPE_DATE>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DATETIME:

        encode_non_string_field<TYPE_DATETIME>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DATEV2:

        encode_non_string_field<TYPE_DATEV2>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DATETIMEV2:

        encode_non_string_field<TYPE_DATETIMEV2>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_TIMESTAMPTZ:

        encode_non_string_field<TYPE_TIMESTAMPTZ>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DECIMAL:

        encode_non_string_field<TYPE_DECIMALV2>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DECIMAL32:

        encode_non_string_field<TYPE_DECIMAL32>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DECIMAL64:

        encode_non_string_field<TYPE_DECIMAL64>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DECIMAL128I:

        encode_non_string_field<TYPE_DECIMAL128I>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_DECIMAL256:

        encode_non_string_field<TYPE_DECIMAL256>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_IPV4:

        encode_non_string_field<TYPE_IPV4>(storage_field, f, full_encode, buf);

        break;

    case FieldType::OLAP_FIELD_TYPE_IPV6:

        encode_non_string_field<TYPE_IPV6>(storage_field, f, full_encode, buf);

        break;

    default:

        LOG(FATAL) << "unsupported field type for encoding: " << int(ft);

        break;

    }

}

template <bool is_mow>

void RowCursor::encode_key_with_padding(std::string* buf, size_t num_keys,

                                        bool padding_minimal) const {

    for (uint32_t cid = 0; cid < num_keys; cid++) {

        auto* storage_field = _schema->column(cid);

        if (storage_field == nullptr) {

            if (padding_minimal) {

                buf->push_back(KeyConsts::KEY_MINIMAL_MARKER);

            } else {

                if (is_mow) {

                    buf->push_back(KeyConsts::KEY_NORMAL_NEXT_MARKER);

                } else {

                    buf->push_back(KeyConsts::KEY_MAXIMAL_MARKER);

                }

            }

            break;

        }

        if (cid >= _fields.size() || _fields[cid].is_null()) {

            buf->push_back(KeyConsts::KEY_NULL_FIRST_MARKER);

            continue;

        }

        buf->push_back(KeyConsts::KEY_NORMAL_MARKER);

        _encode_field(storage_field, _fields[cid], is_mow, buf);

    }

}

_ZNK5doris9RowCursor23encode_key_with_paddingILb0EEEvPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEmb

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                                        bool padding_minimal) const {

273

12

    for (uint32_t cid = 0; cid < num_keys; cid++) {

274

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        auto* storage_field = _schema->column(cid);

275

12

        if (storage_field == nullptr) {

276

4

            if (padding_minimal) {

277

2

                buf->push_back(KeyConsts::KEY_MINIMAL_MARKER);

278

2

            } else {

279

2

                if (is_mow) {

280

0

                    buf->push_back(KeyConsts::KEY_NORMAL_NEXT_MARKER);

281

2

                } else {

282

2

                    buf->push_back(KeyConsts::KEY_MAXIMAL_MARKER);

283

2

                }

284

2

            }

285

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            break;

286

4

        }

287

288

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        if (cid >= _fields.size() || _fields[cid].is_null()) {

289

1

            buf->push_back(KeyConsts::KEY_NULL_FIRST_MARKER);

290

1

            continue;

291

1

        }

292

293

7

        buf->push_back(KeyConsts::KEY_NORMAL_MARKER);

294

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        _encode_field(storage_field, _fields[cid], is_mow, buf);

295

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    }

296

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}

_ZNK5doris9RowCursor23encode_key_with_paddingILb1EEEvPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEmb

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                                        bool padding_minimal) const {

273

6

    for (uint32_t cid = 0; cid < num_keys; cid++) {

274

6

        auto* storage_field = _schema->column(cid);

275

6

        if (storage_field == nullptr) {

276

2

            if (padding_minimal) {

277

1

                buf->push_back(KeyConsts::KEY_MINIMAL_MARKER);

278

1

            } else {

279

1

                if (is_mow) {

280

1

                    buf->push_back(KeyConsts::KEY_NORMAL_NEXT_MARKER);

281

1

                } else {

282

0

                    buf->push_back(KeyConsts::KEY_MAXIMAL_MARKER);

283

0

                }

284

1

            }

285

2

            break;

286

2

        }

287

288

4

        if (cid >= _fields.size() || _fields[cid].is_null()) {

289

0

            buf->push_back(KeyConsts::KEY_NULL_FIRST_MARKER);

290

0

            continue;

291

0

        }

292

293

4

        buf->push_back(KeyConsts::KEY_NORMAL_MARKER);

294

4

        _encode_field(storage_field, _fields[cid], is_mow, buf);

295

4

    }

296

2

}

// Explicit template instantiations

template void RowCursor::encode_key_with_padding<false>(std::string*, size_t, bool) const;

template void RowCursor::encode_key_with_padding<true>(std::string*, size_t, bool) const;

template <bool full_encode>

void RowCursor::encode_key(std::string* buf, size_t num_keys) const {

    for (uint32_t cid = 0; cid < num_keys; cid++) {

        if (cid >= _fields.size() || _fields[cid].is_null()) {

            buf->push_back(KeyConsts::KEY_NULL_FIRST_MARKER);

            continue;

        }

        buf->push_back(KeyConsts::KEY_NORMAL_MARKER);

        _encode_field(_schema->column(cid), _fields[cid], full_encode, buf);

    }

}

_ZNK5doris9RowCursor10encode_keyILb0EEEvPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEm

Line

Count

Source

303

33

void RowCursor::encode_key(std::string* buf, size_t num_keys) const {

304

82

    for (uint32_t cid = 0; cid < num_keys; cid++) {

305

49

        if (cid >= _fields.size() || _fields[cid].is_null()) {

306

6

            buf->push_back(KeyConsts::KEY_NULL_FIRST_MARKER);

307

6

            continue;

308

6

        }

309

43

        buf->push_back(KeyConsts::KEY_NORMAL_MARKER);

310

43

        _encode_field(_schema->column(cid), _fields[cid], full_encode, buf);

311

43

    }

312

33

}

_ZNK5doris9RowCursor10encode_keyILb1EEEvPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEm

Line

Count

Source

303

129k

void RowCursor::encode_key(std::string* buf, size_t num_keys) const {

304

387k

    for (uint32_t cid = 0; cid < num_keys; cid++) {

305

258k

        if (cid >= _fields.size() || _fields[cid].is_null()) {

306

0

            buf->push_back(KeyConsts::KEY_NULL_FIRST_MARKER);

307

0

            continue;

308

0

        }

309

258k

        buf->push_back(KeyConsts::KEY_NORMAL_MARKER);

310

258k

        _encode_field(_schema->column(cid), _fields[cid], full_encode, buf);

311

258k

    }

312

129k

}

template void RowCursor::encode_key<false>(std::string*, size_t) const;

template void RowCursor::encode_key<true>(std::string*, size_t) const;

#include "common/compile_check_end.h"

} // namespace doris