Coverage Report

Created: 2026-07-10 06:22

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/storage/segment/column_reader.cpp
Line
Count
Source
1
// Licensed to the Apache Software Foundation (ASF) under one
2
// or more contributor license agreements.  See the NOTICE file
3
// distributed with this work for additional information
4
// regarding copyright ownership.  The ASF licenses this file
5
// to you under the Apache License, Version 2.0 (the
6
// "License"); you may not use this file except in compliance
7
// with the License.  You may obtain a copy of the License at
8
//
9
//   http://www.apache.org/licenses/LICENSE-2.0
10
//
11
// Unless required by applicable law or agreed to in writing,
12
// software distributed under the License is distributed on an
13
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
14
// KIND, either express or implied.  See the License for the
15
// specific language governing permissions and limitations
16
// under the License.
17
18
#include "storage/segment/column_reader.h"
19
20
#include <assert.h>
21
#include <gen_cpp/Descriptors_types.h>
22
#include <gen_cpp/segment_v2.pb.h>
23
#include <glog/logging.h>
24
25
#include <algorithm>
26
#include <memory>
27
#include <ostream>
28
#include <set>
29
#include <string>
30
#include <utility>
31
32
#include "common/compiler_util.h" // IWYU pragma: keep
33
#include "common/status.h"
34
#include "core/assert_cast.h"
35
#include "core/binary_cast.hpp"
36
#include "core/column/column.h"
37
#include "core/column/column_array.h"
38
#include "core/column/column_map.h"
39
#include "core/column/column_nullable.h"
40
#include "core/column/column_struct.h"
41
#include "core/column/column_vector.h"
42
#include "core/data_type/data_type_agg_state.h"
43
#include "core/data_type/data_type_factory.hpp"
44
#include "core/data_type/data_type_nullable.h"
45
#include "core/data_type/define_primitive_type.h"
46
#include "core/decimal12.h"
47
#include "core/string_ref.h"
48
#include "core/types.h"
49
#include "core/value/decimalv2_value.h"
50
#include "core/value/vdatetime_value.h" //for VecDateTime
51
#include "io/fs/file_reader.h"
52
#include "storage/index/ann/ann_index_reader.h"
53
#include "storage/index/bloom_filter/bloom_filter.h"
54
#include "storage/index/bloom_filter/bloom_filter_index_reader.h"
55
#include "storage/index/index_file_reader.h"
56
#include "storage/index/index_reader.h"
57
#include "storage/index/inverted/analyzer/analyzer.h"
58
#include "storage/index/inverted/inverted_index_reader.h"
59
#include "storage/index/zone_map/zone_map_index.h"
60
#include "storage/iterators.h"
61
#include "storage/olap_common.h"
62
#include "storage/predicate/block_column_predicate.h"
63
#include "storage/predicate/column_predicate.h"
64
#include "storage/segment/binary_dict_page.h" // for BinaryDictPageDecoder
65
#include "storage/segment/binary_plain_page.h"
66
#include "storage/segment/column_meta_accessor.h"
67
#include "storage/segment/encoding_info.h" // for EncodingInfo
68
#include "storage/segment/page_decoder.h"
69
#include "storage/segment/page_handle.h" // for PageHandle
70
#include "storage/segment/page_io.h"
71
#include "storage/segment/page_pointer.h" // for PagePointer
72
#include "storage/segment/row_ranges.h"
73
#include "storage/segment/segment.h"
74
#include "storage/segment/segment_prefetcher.h"
75
#include "storage/segment/variant/variant_column_reader.h"
76
#include "storage/tablet/tablet_schema.h"
77
#include "storage/types.h" // for TypeInfo
78
#include "util/bitmap.h"
79
#include "util/block_compression.h"
80
#include "util/concurrency_stats.h"
81
#include "util/defer_op.h"
82
#include "util/rle_encoding.h" // for RleDecoder
83
#include "util/slice.h"
84
85
namespace doris::segment_v2 {
86
#include "storage/segment/column_reader.h"
87
88
921
inline bool read_as_string(PrimitiveType type) {
89
921
    return type == PrimitiveType::TYPE_STRING || type == PrimitiveType::INVALID_TYPE ||
90
921
           type == PrimitiveType::TYPE_BITMAP || type == PrimitiveType::TYPE_FIXED_LENGTH_OBJECT;
91
921
}
92
93
14.1k
bool is_current_level_meta_access_path(const TColumnAccessPath& path) {
94
14.1k
    if (path.data_access_path.path.size() != 1) {
95
1.34k
        return false;
96
1.34k
    }
97
12.8k
    const auto& component = path.data_access_path.path[0];
98
12.8k
    return StringCaseEqual()(component, ColumnIterator::ACCESS_OFFSET) ||
99
12.8k
           StringCaseEqual()(component, ColumnIterator::ACCESS_NULL);
100
14.1k
}
101
102
bool is_current_level_data_access_path(const TColumnAccessPath& path,
103
65.4k
                                       const std::string& column_name) {
104
65.4k
    return path.data_access_path.path.size() == 1 &&
105
65.4k
           StringCaseEqual()(path.data_access_path.path[0], column_name);
106
65.4k
}
107
108
116k
void remove_current_level_meta_access_paths(TColumnAccessPaths& paths) {
109
116k
    auto removed = std::ranges::remove_if(paths, is_current_level_meta_access_path);
110
116k
    paths.erase(removed.begin(), removed.end());
111
116k
}
112
113
Status ColumnReader::create_array(const ColumnReaderOptions& opts, const ColumnMetaPB& meta,
114
                                  const io::FileReaderSPtr& file_reader,
115
69.4k
                                  std::shared_ptr<ColumnReader>* reader) {
116
69.4k
    DCHECK(meta.children_columns_size() == 2 || meta.children_columns_size() == 3);
117
118
69.4k
    std::shared_ptr<ColumnReader> item_reader;
119
69.4k
    RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(0),
120
69.4k
                                         meta.children_columns(0).num_rows(), file_reader,
121
69.4k
                                         &item_reader));
122
123
69.4k
    std::shared_ptr<ColumnReader> offset_reader;
124
69.4k
    RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(1),
125
69.4k
                                         meta.children_columns(1).num_rows(), file_reader,
126
69.4k
                                         &offset_reader));
127
128
69.4k
    std::shared_ptr<ColumnReader> null_reader;
129
69.4k
    if (meta.is_nullable()) {
130
49.8k
        RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(2),
131
49.8k
                                             meta.children_columns(2).num_rows(), file_reader,
132
49.8k
                                             &null_reader));
133
49.8k
    }
134
135
    // The num rows of the array reader equals to the num rows of the length reader.
136
69.4k
    uint64_t array_num_rows = meta.children_columns(1).num_rows();
137
69.4k
    std::shared_ptr<ColumnReader> array_reader(
138
69.4k
            new ColumnReader(opts, meta, array_num_rows, file_reader));
139
    //  array reader do not need to init
140
69.4k
    array_reader->_sub_readers.resize(meta.children_columns_size());
141
69.4k
    array_reader->_sub_readers[0] = std::move(item_reader);
142
69.4k
    array_reader->_sub_readers[1] = std::move(offset_reader);
143
69.4k
    if (meta.is_nullable()) {
144
49.6k
        array_reader->_sub_readers[2] = std::move(null_reader);
145
49.6k
    }
146
69.4k
    array_reader->_meta_type = FieldType::OLAP_FIELD_TYPE_ARRAY;
147
69.4k
    *reader = std::move(array_reader);
148
69.4k
    return Status::OK();
149
69.4k
}
150
151
Status ColumnReader::create_map(const ColumnReaderOptions& opts, const ColumnMetaPB& meta,
152
                                const io::FileReaderSPtr& file_reader,
153
71.9k
                                std::shared_ptr<ColumnReader>* reader) {
154
    // map reader now has 3 sub readers for key, value, offsets(scalar), null(scala)
155
71.9k
    DCHECK(meta.children_columns_size() == 3 || meta.children_columns_size() == 4);
156
71.9k
    std::shared_ptr<ColumnReader> key_reader;
157
71.9k
    RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(0),
158
71.9k
                                         meta.children_columns(0).num_rows(), file_reader,
159
71.9k
                                         &key_reader));
160
71.9k
    std::shared_ptr<ColumnReader> val_reader;
161
71.9k
    RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(1),
162
71.9k
                                         meta.children_columns(1).num_rows(), file_reader,
163
71.9k
                                         &val_reader));
164
71.9k
    std::shared_ptr<ColumnReader> offset_reader;
165
71.9k
    RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(2),
166
71.9k
                                         meta.children_columns(2).num_rows(), file_reader,
167
71.9k
                                         &offset_reader));
168
71.9k
    std::shared_ptr<ColumnReader> null_reader;
169
71.9k
    if (meta.is_nullable()) {
170
17.4k
        RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(3),
171
17.4k
                                             meta.children_columns(3).num_rows(), file_reader,
172
17.4k
                                             &null_reader));
173
17.4k
    }
174
175
    // The num rows of the map reader equals to the num rows of the length reader.
176
71.9k
    uint64_t map_num_rows = meta.children_columns(2).num_rows();
177
71.9k
    std::shared_ptr<ColumnReader> map_reader(
178
71.9k
            new ColumnReader(opts, meta, map_num_rows, file_reader));
179
71.9k
    map_reader->_sub_readers.resize(meta.children_columns_size());
180
181
71.9k
    map_reader->_sub_readers[0] = std::move(key_reader);
182
71.9k
    map_reader->_sub_readers[1] = std::move(val_reader);
183
71.9k
    map_reader->_sub_readers[2] = std::move(offset_reader);
184
71.9k
    if (meta.is_nullable()) {
185
17.3k
        map_reader->_sub_readers[3] = std::move(null_reader);
186
17.3k
    }
187
71.9k
    map_reader->_meta_type = FieldType::OLAP_FIELD_TYPE_MAP;
188
71.9k
    *reader = std::move(map_reader);
189
71.9k
    return Status::OK();
190
71.9k
}
191
192
Status ColumnReader::create_struct(const ColumnReaderOptions& opts, const ColumnMetaPB& meta,
193
                                   uint64_t num_rows, const io::FileReaderSPtr& file_reader,
194
8.22k
                                   std::shared_ptr<ColumnReader>* reader) {
195
    // not support empty struct
196
8.22k
    DCHECK(meta.children_columns_size() >= 1);
197
    // create struct column reader
198
8.22k
    std::shared_ptr<ColumnReader> struct_reader(
199
8.22k
            new ColumnReader(opts, meta, num_rows, file_reader));
200
8.22k
    struct_reader->_sub_readers.reserve(meta.children_columns_size());
201
    // now we support struct column can add the children columns according to the schema-change behavior
202
46.0k
    for (int i = 0; i < meta.children_columns_size(); i++) {
203
37.8k
        std::shared_ptr<ColumnReader> sub_reader;
204
37.8k
        RETURN_IF_ERROR(ColumnReader::create(opts, meta.children_columns(i),
205
37.8k
                                             meta.children_columns(i).num_rows(), file_reader,
206
37.8k
                                             &sub_reader));
207
37.8k
        struct_reader->_sub_readers.push_back(std::move(sub_reader));
208
37.8k
    }
209
8.22k
    struct_reader->_meta_type = FieldType::OLAP_FIELD_TYPE_STRUCT;
210
8.22k
    *reader = std::move(struct_reader);
211
8.22k
    return Status::OK();
212
8.22k
}
213
214
Status ColumnReader::create_agg_state(const ColumnReaderOptions& opts, const ColumnMetaPB& meta,
215
                                      uint64_t num_rows, const io::FileReaderSPtr& file_reader,
216
922
                                      std::shared_ptr<ColumnReader>* reader) {
217
922
    if (!meta.has_function_name()) { // meet old version ColumnMetaPB
218
0
        std::shared_ptr<ColumnReader> reader_local(
219
0
                new ColumnReader(opts, meta, num_rows, file_reader));
220
0
        RETURN_IF_ERROR(reader_local->init(&meta));
221
0
        *reader = std::move(reader_local);
222
0
        return Status::OK();
223
0
    }
224
225
922
    auto data_type = DataTypeFactory::instance().create_data_type(meta);
226
922
    const auto* agg_state_type = assert_cast<const DataTypeAggState*>(data_type.get());
227
922
    agg_state_type->check_function_compatibility(opts.be_exec_version);
228
922
    auto type = agg_state_type->get_serialized_type()->get_primitive_type();
229
230
922
    if (read_as_string(type)) {
231
862
        std::shared_ptr<ColumnReader> reader_local(
232
862
                new ColumnReader(opts, meta, num_rows, file_reader));
233
862
        RETURN_IF_ERROR(reader_local->init(&meta));
234
862
        *reader = std::move(reader_local);
235
862
        return Status::OK();
236
862
    } else if (type == PrimitiveType::TYPE_MAP) {
237
46
        return create_map(opts, meta, file_reader, reader);
238
46
    } else if (type == PrimitiveType::TYPE_ARRAY) {
239
13
        return create_array(opts, meta, file_reader, reader);
240
13
    } else if (type == PrimitiveType::TYPE_STRUCT) {
241
0
        return create_struct(opts, meta, num_rows, file_reader, reader);
242
0
    }
243
244
1
    return Status::InternalError("Not supported type: {}, serialized type: {}",
245
1
                                 agg_state_type->get_name(), int(type));
246
922
}
247
248
104k
bool ColumnReader::is_compaction_reader_type(ReaderType type) {
249
104k
    return type == ReaderType::READER_BASE_COMPACTION ||
250
104k
           type == ReaderType::READER_CUMULATIVE_COMPACTION ||
251
104k
           type == ReaderType::READER_COLD_DATA_COMPACTION ||
252
104k
           type == ReaderType::READER_SEGMENT_COMPACTION ||
253
104k
           type == ReaderType::READER_FULL_COMPACTION;
254
104k
}
255
256
Status ColumnReader::create(const ColumnReaderOptions& opts, const ColumnMetaPB& meta,
257
                            uint64_t num_rows, const io::FileReaderSPtr& file_reader,
258
28.9M
                            std::shared_ptr<ColumnReader>* reader) {
259
28.9M
    if (opts.const_value.has_value()) {
260
3
        *reader = std::make_shared<ConstantColumnReader>(*opts.const_value);
261
3
        return Status::OK();
262
3
    }
263
28.9M
    if (is_scalar_type((FieldType)meta.type())) {
264
28.7M
        std::shared_ptr<ColumnReader> reader_local(
265
28.7M
                new ColumnReader(opts, meta, num_rows, file_reader));
266
28.7M
        RETURN_IF_ERROR(reader_local->init(&meta));
267
28.7M
        *reader = std::move(reader_local);
268
28.7M
        return Status::OK();
269
28.7M
    } else {
270
149k
        auto type = (FieldType)meta.type();
271
149k
        switch (type) {
272
924
        case FieldType::OLAP_FIELD_TYPE_AGG_STATE: {
273
924
            return create_agg_state(opts, meta, num_rows, file_reader, reader);
274
0
        }
275
8.23k
        case FieldType::OLAP_FIELD_TYPE_STRUCT: {
276
8.23k
            return create_struct(opts, meta, num_rows, file_reader, reader);
277
0
        }
278
69.4k
        case FieldType::OLAP_FIELD_TYPE_ARRAY: {
279
69.4k
            return create_array(opts, meta, file_reader, reader);
280
0
        }
281
71.9k
        case FieldType::OLAP_FIELD_TYPE_MAP: {
282
71.9k
            return create_map(opts, meta, file_reader, reader);
283
0
        }
284
20.2k
        case FieldType::OLAP_FIELD_TYPE_VARIANT: {
285
            // Read variant only root data using a single ColumnReader
286
20.2k
            std::shared_ptr<ColumnReader> reader_local(
287
20.2k
                    new ColumnReader(opts, meta, num_rows, file_reader));
288
20.2k
            RETURN_IF_ERROR(reader_local->init(&meta));
289
20.2k
            *reader = std::move(reader_local);
290
20.2k
            return Status::OK();
291
20.2k
        }
292
0
        default:
293
0
            return Status::NotSupported("unsupported type for ColumnReader: {}",
294
0
                                        std::to_string(int(type)));
295
149k
        }
296
149k
    }
297
28.9M
}
298
299
20.7k
ColumnReader::ColumnReader() = default;
300
301
ColumnReader::ColumnReader(const ColumnReaderOptions& opts, const ColumnMetaPB& meta,
302
                           uint64_t num_rows, io::FileReaderSPtr file_reader)
303
29.0M
        : _use_index_page_cache(!config::disable_storage_page_cache),
304
29.0M
          _opts(opts),
305
29.0M
          _num_rows(num_rows),
306
29.0M
          _file_reader(std::move(file_reader)),
307
29.0M
          _dict_encoding_type(UNKNOWN_DICT_ENCODING) {
308
29.0M
    _meta_length = meta.length();
309
29.0M
    _meta_type = (FieldType)meta.type();
310
29.0M
    if (_meta_type == FieldType::OLAP_FIELD_TYPE_ARRAY) {
311
69.4k
        _meta_children_column_type = (FieldType)meta.children_columns(0).type();
312
69.4k
    }
313
29.0M
    _data_type = DataTypeFactory::instance().create_data_type(meta);
314
29.0M
    _meta_is_nullable = meta.is_nullable();
315
29.0M
    _meta_dict_page = meta.dict_page();
316
29.0M
    _meta_compression = meta.compression();
317
29.0M
}
318
319
29.0M
ColumnReader::~ColumnReader() = default;
320
321
28.8M
int64_t ColumnReader::get_metadata_size() const {
322
28.8M
    return sizeof(ColumnReader) + (_segment_zone_map ? _segment_zone_map->ByteSizeLong() : 0);
323
28.8M
}
324
325
#ifdef BE_TEST
326
/// This function is only used in UT to verify the correctness of data read from zone map
327
/// See UT case 'SegCompactionMoWTest.SegCompactionInterleaveWithBig_ooooOOoOooooooooO'
328
/// be/test/olap/segcompaction_mow_test.cpp
329
void ColumnReader::check_data_by_zone_map_for_test(const MutableColumnPtr& dst) const {
330
    if (!_segment_zone_map) {
331
        return;
332
    }
333
334
    const auto rows = dst->size();
335
    if (rows == 0) {
336
        return;
337
    }
338
339
    FieldType type = _type;
340
341
    if (type != FieldType::OLAP_FIELD_TYPE_INT) {
342
        return;
343
    }
344
345
    auto* non_nullable_column =
346
            is_column_nullable(*dst)
347
                    ? assert_cast<ColumnNullable*>(dst.get())->get_nested_column_ptr().get()
348
                    : dst.get();
349
350
    /// Only verify when the destination column carries Field-accessible TYPE_INT data.
351
    if (check_and_get_column<ColumnVector<TYPE_INT>>(non_nullable_column) == nullptr) {
352
        return;
353
    }
354
355
    ZoneMap zone_map;
356
    THROW_IF_ERROR(ZoneMap::from_proto(*_segment_zone_map, _data_type, zone_map));
357
358
    if (zone_map.has_null) {
359
        return;
360
    }
361
362
    for (size_t i = 0; i != rows; ++i) {
363
        Field field;
364
        dst->get(i, field);
365
        DCHECK(!field.is_null());
366
        const auto v = field.get<TYPE_INT>();
367
        DCHECK_GE(v, zone_map.min_value.get<TYPE_INT>());
368
        DCHECK_LE(v, zone_map.max_value.get<TYPE_INT>());
369
    }
370
}
371
#endif
372
373
28.7M
Status ColumnReader::init(const ColumnMetaPB* meta) {
374
28.7M
    _type = (FieldType)meta->type();
375
376
28.7M
    if (meta->has_be_exec_version()) {
377
28.4M
        _be_exec_version = meta->be_exec_version();
378
28.4M
    }
379
380
28.8M
    if (_type == FieldType::OLAP_FIELD_TYPE_NONE || _type == FieldType::OLAP_FIELD_TYPE_UNKNOWN) {
381
0
        return Status::NotSupported("unsupported typeinfo, type={}", meta->type());
382
0
    }
383
28.7M
    RETURN_IF_ERROR(EncodingInfo::get(_type, meta->encoding(), &_encoding_info));
384
385
85.6M
    for (int i = 0; i < meta->indexes_size(); i++) {
386
56.9M
        const auto& index_meta = meta->indexes(i);
387
56.9M
        switch (index_meta.type()) {
388
0
        case BITMAP_INDEX:
389
0
            break;
390
28.7M
        case ORDINAL_INDEX:
391
28.7M
            _ordinal_index.reset(
392
28.7M
                    new OrdinalIndexReader(_file_reader, _num_rows, index_meta.ordinal_index()));
393
28.7M
            break;
394
28.2M
        case ZONE_MAP_INDEX:
395
28.2M
            _segment_zone_map =
396
28.2M
                    std::make_unique<ZoneMapPB>(index_meta.zone_map_index().segment_zone_map());
397
28.2M
            _zone_map_index.reset(new ZoneMapIndexReader(
398
28.2M
                    _file_reader, index_meta.zone_map_index().page_zone_maps()));
399
28.2M
            break;
400
5.19k
        case BLOOM_FILTER_INDEX:
401
5.19k
            _bloom_filter_index.reset(
402
5.19k
                    new BloomFilterIndexReader(_file_reader, index_meta.bloom_filter_index()));
403
5.19k
            break;
404
0
        case NESTED_OFFSETS_INDEX:
405
0
            break;
406
0
        default:
407
0
            return Status::Corruption("Bad file {}: invalid column index type {}",
408
0
                                      _file_reader->path().native(), index_meta.type());
409
56.9M
        }
410
56.9M
    }
411
28.7M
    update_metadata_size();
412
413
    // ArrayColumnWriter writes a single empty array and flushes. In this scenario,
414
    // the item writer doesn't write any data and the corresponding ordinal index is empty.
415
28.7M
    if (_ordinal_index == nullptr && !is_empty()) {
416
0
        return Status::Corruption("Bad file {}: missing ordinal index for column {}",
417
0
                                  _file_reader->path().native(), meta->column_id());
418
0
    }
419
420
28.7M
    return Status::OK();
421
28.7M
}
422
423
Status ColumnReader::new_index_iterator(const std::shared_ptr<IndexFileReader>& index_file_reader,
424
                                        const TabletIndex* index_meta, const std::string& rowset_id,
425
                                        uint32_t segment_id, size_t rows_of_segment,
426
75.5k
                                        std::unique_ptr<IndexIterator>* iterator) {
427
75.5k
    RETURN_IF_ERROR(
428
75.5k
            _load_index(index_file_reader, index_meta, rowset_id, segment_id, rows_of_segment));
429
75.5k
    {
430
75.5k
        std::shared_lock<std::shared_mutex> rlock(_load_index_lock);
431
75.5k
        auto iter = _index_readers.find(index_meta->index_id());
432
75.7k
        if (iter != _index_readers.end()) {
433
75.7k
            if (iter->second != nullptr) {
434
75.7k
                RETURN_IF_ERROR(iter->second->new_iterator(iterator));
435
75.7k
            }
436
75.7k
        }
437
75.5k
    }
438
75.5k
    return Status::OK();
439
75.5k
}
440
441
Status ColumnReader::read_page(const ColumnIteratorOptions& iter_opts, const PagePointer& pp,
442
                               PageHandle* handle, Slice* page_body, PageFooterPB* footer,
443
2.15M
                               BlockCompressionCodec* codec) const {
444
2.15M
    SCOPED_CONCURRENCY_COUNT(ConcurrencyStatsManager::instance().column_reader_read_page);
445
2.15M
    iter_opts.sanity_check();
446
2.15M
    PageReadOptions opts(iter_opts.io_ctx);
447
2.15M
    opts.verify_checksum = _opts.verify_checksum;
448
2.15M
    opts.use_page_cache = iter_opts.use_page_cache;
449
2.15M
    opts.kept_in_memory = _opts.kept_in_memory;
450
2.15M
    opts.type = iter_opts.type;
451
2.15M
    opts.file_reader = iter_opts.file_reader;
452
2.15M
    opts.page_pointer = pp;
453
2.15M
    opts.codec = codec;
454
2.15M
    opts.stats = iter_opts.stats;
455
2.15M
    opts.encoding_info = _encoding_info;
456
457
2.15M
    return PageIO::read_and_decompress_page(opts, handle, page_body, footer);
458
2.15M
}
459
460
Status ColumnReader::get_row_ranges_by_zone_map(
461
        const AndBlockColumnPredicate* col_predicates,
462
        const std::vector<std::shared_ptr<const ColumnPredicate>>* delete_predicates,
463
129k
        RowRanges* row_ranges, const ColumnIteratorOptions& iter_opts) {
464
129k
    std::vector<uint32_t> page_indexes;
465
129k
    RETURN_IF_ERROR(
466
129k
            _get_filtered_pages(col_predicates, delete_predicates, &page_indexes, iter_opts));
467
129k
    RETURN_IF_ERROR(_calculate_row_ranges(page_indexes, row_ranges, iter_opts));
468
129k
    return Status::OK();
469
129k
}
470
471
22.7k
Status ColumnReader::next_batch_of_zone_map(size_t* n, MutableColumnPtr& dst) const {
472
22.7k
    if (_segment_zone_map == nullptr) {
473
0
        return Status::InternalError("segment zonemap not exist");
474
0
    }
475
    // TODO: this work to get min/max value seems should only do once
476
22.7k
    ZoneMap zone_map;
477
22.7k
    RETURN_IF_ERROR(ZoneMap::from_proto(*_segment_zone_map, _data_type, zone_map));
478
479
22.7k
    dst->reserve(*n);
480
22.7k
    if (!zone_map.has_not_null) {
481
1.39k
        assert_cast<ColumnNullable&>(*dst).insert_many_defaults(*n);
482
1.39k
        return Status::OK();
483
1.39k
    }
484
21.3k
    dst->insert(zone_map.max_value);
485
42.8k
    for (int i = 1; i < *n; ++i) {
486
21.5k
        dst->insert(zone_map.min_value);
487
21.5k
    }
488
21.3k
    return Status::OK();
489
22.7k
}
490
491
Status ColumnReader::match_condition(const AndBlockColumnPredicate* col_predicates,
492
1.84M
                                     bool* matched) const {
493
1.84M
    *matched = true;
494
1.84M
    if (_zone_map_index == nullptr) {
495
0
        return Status::OK();
496
0
    }
497
1.84M
    ZoneMap zone_map;
498
1.84M
    RETURN_IF_ERROR(ZoneMap::from_proto(*_segment_zone_map, _data_type, zone_map));
499
500
1.84M
    *matched = _zone_map_match_condition(zone_map, col_predicates);
501
1.84M
    return Status::OK();
502
1.84M
}
503
504
Status ConstantColumnReader::match_condition(const AndBlockColumnPredicate* col_predicates,
505
3
                                             bool* matched) const {
506
3
    ZoneMap zone_map;
507
3
    zone_map.min_value = _value;
508
3
    zone_map.max_value = _value;
509
3
    zone_map.has_not_null = !_value.is_null();
510
    // evaluate_and returns false iff no value in [min, max] (i.e. the real constant) can satisfy
511
    // the predicates; predicates that don't support zonemap conservatively return true.
512
3
    *matched = col_predicates->evaluate_and(zone_map);
513
3
    return Status::OK();
514
3
}
515
516
Status ColumnReader::prune_predicates_by_zone_map(
517
        std::vector<std::shared_ptr<ColumnPredicate>>& predicates, const int column_id,
518
1.80M
        bool* pruned) const {
519
1.80M
    *pruned = false;
520
1.80M
    if (_zone_map_index == nullptr) {
521
151
        return Status::OK();
522
151
    }
523
524
1.80M
    ZoneMap zone_map;
525
1.80M
    RETURN_IF_ERROR(ZoneMap::from_proto(*_segment_zone_map, _data_type, zone_map));
526
1.80M
    if (zone_map.pass_all) {
527
0
        return Status::OK();
528
0
    }
529
530
3.75M
    for (auto it = predicates.begin(); it != predicates.end();) {
531
1.95M
        auto predicate = *it;
532
1.95M
        if (predicate->column_id() == column_id && predicate->is_always_true(zone_map)) {
533
14.9k
            *pruned = true;
534
14.9k
            it = predicates.erase(it);
535
1.93M
        } else {
536
1.93M
            ++it;
537
1.93M
        }
538
1.95M
    }
539
1.80M
    return Status::OK();
540
1.80M
}
541
542
bool ColumnReader::_zone_map_match_condition(const ZoneMap& zone_map,
543
1.94M
                                             const AndBlockColumnPredicate* col_predicates) const {
544
1.94M
    if (zone_map.pass_all) {
545
0
        return true;
546
0
    }
547
548
1.94M
    return col_predicates->evaluate_and(zone_map);
549
1.94M
}
550
551
Status ColumnReader::_get_filtered_pages(
552
        const AndBlockColumnPredicate* col_predicates,
553
        const std::vector<std::shared_ptr<const ColumnPredicate>>* delete_predicates,
554
129k
        std::vector<uint32_t>* page_indexes, const ColumnIteratorOptions& iter_opts) {
555
129k
    RETURN_IF_ERROR(_load_zone_map_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
556
557
129k
    const std::vector<ZoneMapPB>& zone_maps = _zone_map_index->page_zone_maps();
558
129k
    size_t page_size = _zone_map_index->num_pages();
559
303k
    for (size_t i = 0; i < page_size; ++i) {
560
174k
        if (zone_maps[i].pass_all()) {
561
84.6k
            page_indexes->push_back(cast_set<uint32_t>(i));
562
89.5k
        } else {
563
89.5k
            segment_v2::ZoneMap zone_map;
564
89.5k
            RETURN_IF_ERROR(ZoneMap::from_proto(zone_maps[i], _data_type, zone_map));
565
89.5k
            if (_zone_map_match_condition(zone_map, col_predicates)) {
566
89.1k
                bool should_read = true;
567
89.1k
                if (delete_predicates != nullptr) {
568
4
                    for (auto del_pred : *delete_predicates) {
569
                        // TODO: Both `min_value` and `max_value` should be 0 or neither should be 0.
570
                        //  So nullable only need to judge once.
571
4
                        if (del_pred->evaluate_del(zone_map)) {
572
1
                            should_read = false;
573
1
                            break;
574
1
                        }
575
4
                    }
576
3
                }
577
89.1k
                if (should_read) {
578
89.1k
                    page_indexes->push_back(cast_set<uint32_t>(i));
579
89.1k
                }
580
89.1k
            }
581
89.5k
        }
582
174k
    }
583
18.4E
    VLOG(1) << "total-pages: " << page_size << " not-filtered-pages: " << page_indexes->size()
584
18.4E
            << " filtered-percent:"
585
18.4E
            << 1.0 - (static_cast<double>(page_indexes->size()) /
586
18.4E
                      (static_cast<double>(page_size) * 1.0));
587
129k
    return Status::OK();
588
129k
}
589
590
Status ColumnReader::_calculate_row_ranges(const std::vector<uint32_t>& page_indexes,
591
                                           RowRanges* row_ranges,
592
130k
                                           const ColumnIteratorOptions& iter_opts) {
593
130k
    row_ranges->clear();
594
130k
    RETURN_IF_ERROR(_load_ordinal_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
595
173k
    for (auto i : page_indexes) {
596
173k
        ordinal_t page_first_id = _ordinal_index->get_first_ordinal(i);
597
173k
        ordinal_t page_last_id = _ordinal_index->get_last_ordinal(i);
598
173k
        RowRanges page_row_ranges(RowRanges::create_single(page_first_id, page_last_id + 1));
599
173k
        RowRanges::ranges_union(*row_ranges, page_row_ranges, row_ranges);
600
173k
    }
601
130k
    return Status::OK();
602
130k
}
603
604
Status ColumnReader::get_row_ranges_by_bloom_filter(const AndBlockColumnPredicate* col_predicates,
605
                                                    RowRanges* row_ranges,
606
100
                                                    const ColumnIteratorOptions& iter_opts) {
607
100
    RETURN_IF_ERROR(_load_ordinal_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
608
100
    RETURN_IF_ERROR(
609
100
            _load_bloom_filter_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
610
100
    RowRanges bf_row_ranges;
611
100
    std::unique_ptr<BloomFilterIndexIterator> bf_iter;
612
100
    RETURN_IF_ERROR(
613
100
            _bloom_filter_index->new_iterator(&bf_iter, iter_opts.stats, &iter_opts.io_ctx));
614
100
    size_t range_size = row_ranges->range_size();
615
    // get covered page ids
616
100
    std::set<uint32_t> page_ids;
617
200
    for (int i = 0; i < range_size; ++i) {
618
100
        int64_t from = row_ranges->get_range_from(i);
619
100
        int64_t idx = from;
620
100
        int64_t to = row_ranges->get_range_to(i);
621
100
        auto iter = _ordinal_index->seek_at_or_before(from);
622
228
        while (idx < to && iter.valid()) {
623
128
            page_ids.insert(iter.page_index());
624
128
            idx = iter.last_ordinal() + 1;
625
128
            iter.next();
626
128
        }
627
100
    }
628
128
    for (auto& pid : page_ids) {
629
128
        std::unique_ptr<BloomFilter> bf;
630
128
        RETURN_IF_ERROR(bf_iter->read_bloom_filter(pid, &bf));
631
128
        if (col_predicates->evaluate_and(bf.get())) {
632
23
            bf_row_ranges.add(RowRange(_ordinal_index->get_first_ordinal(pid),
633
23
                                       _ordinal_index->get_last_ordinal(pid) + 1));
634
23
        }
635
128
    }
636
100
    RowRanges::ranges_intersection(*row_ranges, bf_row_ranges, row_ranges);
637
100
    return Status::OK();
638
100
}
639
640
Status ColumnReader::_load_ordinal_index(bool use_page_cache, bool kept_in_memory,
641
1.79M
                                         const ColumnIteratorOptions& iter_opts) {
642
1.79M
    if (!_ordinal_index) {
643
0
        return Status::InternalError("ordinal_index not inited");
644
0
    }
645
1.79M
    return _ordinal_index->load(use_page_cache, kept_in_memory, iter_opts.stats, &iter_opts.io_ctx);
646
1.79M
}
647
648
Status ColumnReader::_load_zone_map_index(bool use_page_cache, bool kept_in_memory,
649
130k
                                          const ColumnIteratorOptions& iter_opts) {
650
130k
    if (_zone_map_index != nullptr) {
651
130k
        return _zone_map_index->load(use_page_cache, kept_in_memory, iter_opts.stats,
652
130k
                                     &iter_opts.io_ctx);
653
130k
    }
654
80
    return Status::OK();
655
130k
}
656
657
2.79k
Status ColumnReader::get_segment_zone_map(segment_v2::ZoneMap* zone_map) const {
658
2.79k
    DORIS_CHECK(zone_map != nullptr);
659
2.79k
    DORIS_CHECK(_segment_zone_map != nullptr);
660
2.79k
    return ZoneMap::from_proto(*_segment_zone_map, _data_type, *zone_map);
661
2.79k
}
662
663
1
Status ConstantColumnReader::get_segment_zone_map(segment_v2::ZoneMap* zone_map) const {
664
1
    zone_map->min_value = _value;
665
1
    zone_map->max_value = _value;
666
1
    zone_map->has_not_null = !_value.is_null();
667
1
    return Status::OK();
668
1
}
669
670
Status ColumnReader::get_page_zone_maps(const ColumnIteratorOptions& iter_opts,
671
605
                                        const std::vector<ZoneMapPB>** zone_maps) {
672
605
    DORIS_CHECK(zone_maps != nullptr);
673
605
    if (_zone_map_index == nullptr) {
674
0
        *zone_maps = nullptr;
675
0
        return Status::OK();
676
0
    }
677
605
    RETURN_IF_ERROR(_load_zone_map_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
678
605
    *zone_maps = &_zone_map_index->page_zone_maps();
679
605
    return Status::OK();
680
605
}
681
682
Status ColumnReader::get_row_range_for_page(uint32_t page_index,
683
                                            const ColumnIteratorOptions& iter_opts,
684
1.06k
                                            RowRange* row_range) {
685
1.06k
    DORIS_CHECK(row_range != nullptr);
686
1.06k
    RETURN_IF_ERROR(_load_ordinal_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
687
1.06k
    DORIS_CHECK(page_index < _ordinal_index->num_data_pages());
688
1.06k
    *row_range = RowRange(_ordinal_index->get_first_ordinal(page_index),
689
1.06k
                          _ordinal_index->get_last_ordinal(page_index) + 1);
690
1.06k
    return Status::OK();
691
1.06k
}
692
693
Status ColumnReader::_load_index(const std::shared_ptr<IndexFileReader>& index_file_reader,
694
                                 const TabletIndex* index_meta, const std::string& rowset_id,
695
75.6k
                                 uint32_t segment_id, size_t rows_of_segment) {
696
75.6k
    std::unique_lock<std::shared_mutex> wlock(_load_index_lock);
697
698
75.6k
    if (index_meta == nullptr) {
699
0
        return Status::Error<ErrorCode::INVERTED_INDEX_CLUCENE_ERROR>(
700
0
                "Failed to load inverted index: index metadata is null");
701
0
    }
702
703
75.6k
    auto it = _index_readers.find(index_meta->index_id());
704
75.6k
    if (it != _index_readers.end()) {
705
0
        return Status::OK();
706
0
    }
707
708
75.6k
    bool should_analyzer =
709
75.6k
            inverted_index::InvertedIndexAnalyzer::should_analyzer(index_meta->properties());
710
711
75.6k
    FieldType type;
712
75.6k
    if (_meta_type == FieldType::OLAP_FIELD_TYPE_ARRAY) {
713
6.54k
        type = _meta_children_column_type;
714
69.0k
    } else {
715
69.0k
        type = _type;
716
69.0k
    }
717
718
75.6k
    if (index_meta->index_type() == IndexType::ANN) {
719
159
        _index_readers[index_meta->index_id()] = std::make_shared<AnnIndexReader>(
720
159
                index_meta, index_file_reader, rowset_id, segment_id, rows_of_segment);
721
159
        return Status::OK();
722
159
    }
723
724
75.4k
    IndexReaderPtr index_reader;
725
726
75.4k
    if (is_string_type(type)) {
727
39.7k
        if (should_analyzer) {
728
22.6k
            try {
729
22.6k
                index_reader = FullTextIndexReader::create_shared(index_meta, index_file_reader);
730
22.6k
            } catch (const CLuceneError& e) {
731
0
                return Status::Error<ErrorCode::INVERTED_INDEX_CLUCENE_ERROR>(
732
0
                        "create FullTextIndexReader error: {}", e.what());
733
0
            }
734
22.6k
        } else {
735
17.1k
            try {
736
17.1k
                index_reader =
737
17.1k
                        StringTypeInvertedIndexReader::create_shared(index_meta, index_file_reader);
738
17.1k
            } catch (const CLuceneError& e) {
739
0
                return Status::Error<ErrorCode::INVERTED_INDEX_CLUCENE_ERROR>(
740
0
                        "create StringTypeInvertedIndexReader error: {}", e.what());
741
0
            }
742
17.1k
        }
743
39.7k
    } else if (is_numeric_type(type)) {
744
35.6k
        try {
745
35.6k
            index_reader = BkdIndexReader::create_shared(index_meta, index_file_reader);
746
35.6k
        } catch (const CLuceneError& e) {
747
0
            return Status::Error<ErrorCode::INVERTED_INDEX_CLUCENE_ERROR>(
748
0
                    "create BkdIndexReader error: {}", e.what());
749
0
        }
750
18.4E
    } else {
751
18.4E
        return Status::Error<ErrorCode::INVERTED_INDEX_NOT_SUPPORTED>(
752
18.4E
                "Field type {} is not supported for inverted index", type);
753
18.4E
    }
754
75.4k
    _index_readers[index_meta->index_id()] = index_reader;
755
75.4k
    return Status::OK();
756
75.4k
}
757
758
105k
bool ColumnReader::has_bloom_filter_index(bool ngram) const {
759
105k
    if (_bloom_filter_index == nullptr) return false;
760
761
18.4E
    if (ngram) {
762
77
        return _bloom_filter_index->algorithm() == BloomFilterAlgorithmPB::NGRAM_BLOOM_FILTER;
763
18.4E
    } else {
764
18.4E
        return _bloom_filter_index->algorithm() != BloomFilterAlgorithmPB::NGRAM_BLOOM_FILTER;
765
18.4E
    }
766
18.4E
}
767
768
Status ColumnReader::_load_bloom_filter_index(bool use_page_cache, bool kept_in_memory,
769
100
                                              const ColumnIteratorOptions& iter_opts) {
770
100
    if (_bloom_filter_index != nullptr) {
771
100
        return _bloom_filter_index->load(use_page_cache, kept_in_memory, iter_opts.stats,
772
100
                                         &iter_opts.io_ctx);
773
100
    }
774
0
    return Status::OK();
775
100
}
776
777
Status ColumnReader::seek_at_or_before(ordinal_t ordinal, OrdinalPageIndexIterator* iter,
778
1.66M
                                       const ColumnIteratorOptions& iter_opts) {
779
1.66M
    RETURN_IF_ERROR(_load_ordinal_index(_use_index_page_cache, _opts.kept_in_memory, iter_opts));
780
1.66M
    *iter = _ordinal_index->seek_at_or_before(ordinal);
781
1.66M
    if (!iter->valid()) {
782
0
        return Status::NotFound("Failed to seek to ordinal {}, ", ordinal);
783
0
    }
784
1.66M
    return Status::OK();
785
1.66M
}
786
787
Status ColumnReader::get_ordinal_index_reader(OrdinalIndexReader*& reader,
788
985k
                                              OlapReaderStatistics* index_load_stats) {
789
18.4E
    CHECK(_ordinal_index) << fmt::format("ordinal index is null for column reader of type {}",
790
18.4E
                                         std::to_string(int(_meta_type)));
791
985k
    RETURN_IF_ERROR(
792
985k
            _ordinal_index->load(_use_index_page_cache, _opts.kept_in_memory, index_load_stats));
793
985k
    reader = _ordinal_index.get();
794
985k
    return Status::OK();
795
985k
}
796
797
434k
Status ColumnReader::new_iterator(ColumnIteratorUPtr* iterator, const TabletColumn* tablet_column) {
798
434k
    return new_iterator(iterator, tablet_column, nullptr);
799
434k
}
800
801
Status ColumnReader::new_iterator(ColumnIteratorUPtr* iterator, const TabletColumn* tablet_column,
802
27.0M
                                  const StorageReadOptions* opt) {
803
27.0M
    if (is_empty()) {
804
44.9k
        *iterator = std::make_unique<EmptyFileColumnIterator>();
805
44.9k
        return Status::OK();
806
44.9k
    }
807
27.0M
    if (is_scalar_type(_meta_type)) {
808
26.9M
        if (is_string_type(_meta_type)) {
809
16.1M
            *iterator = std::make_unique<StringFileColumnIterator>(shared_from_this());
810
16.1M
        } else {
811
10.7M
            *iterator = std::make_unique<FileColumnIterator>(shared_from_this());
812
10.7M
        }
813
26.9M
        (*iterator)->set_column_name(tablet_column ? tablet_column->name() : "");
814
26.9M
        return Status::OK();
815
26.9M
    } else {
816
97.5k
        auto type = _meta_type;
817
97.5k
        switch (type) {
818
856
        case FieldType::OLAP_FIELD_TYPE_AGG_STATE: {
819
856
            return new_agg_state_iterator(iterator);
820
0
        }
821
8.16k
        case FieldType::OLAP_FIELD_TYPE_STRUCT: {
822
8.16k
            return new_struct_iterator(iterator, tablet_column);
823
0
        }
824
66.1k
        case FieldType::OLAP_FIELD_TYPE_ARRAY: {
825
66.1k
            return new_array_iterator(iterator, tablet_column);
826
0
        }
827
35.9k
        case FieldType::OLAP_FIELD_TYPE_MAP: {
828
35.9k
            return new_map_iterator(iterator, tablet_column);
829
0
        }
830
0
        default:
831
0
            return Status::NotSupported("unsupported type to create iterator: {}",
832
0
                                        std::to_string(int(type)));
833
97.5k
        }
834
97.5k
    }
835
27.0M
}
836
837
852
Status ColumnReader::new_agg_state_iterator(ColumnIteratorUPtr* iterator) {
838
852
    *iterator = std::make_unique<FileColumnIterator>(shared_from_this());
839
852
    return Status::OK();
840
852
}
841
842
Status ColumnReader::new_array_iterator(ColumnIteratorUPtr* iterator,
843
66.0k
                                        const TabletColumn* tablet_column) {
844
66.0k
    ColumnIteratorUPtr item_iterator;
845
66.0k
    RETURN_IF_ERROR(_sub_readers[0]->new_iterator(
846
66.0k
            &item_iterator, tablet_column && tablet_column->get_subtype_count() > 0
847
66.0k
                                    ? &tablet_column->get_sub_column(0)
848
66.0k
                                    : nullptr));
849
850
66.0k
    item_iterator->set_column_name(tablet_column ? tablet_column->get_sub_column(0).name() : "");
851
852
66.0k
    ColumnIteratorUPtr offset_iterator;
853
66.0k
    RETURN_IF_ERROR(_sub_readers[1]->new_iterator(&offset_iterator, nullptr));
854
66.0k
    auto* file_iter = static_cast<FileColumnIterator*>(offset_iterator.release());
855
66.0k
    OffsetFileColumnIteratorUPtr ofcIter = std::make_unique<OffsetFileColumnIterator>(
856
66.0k
            std::unique_ptr<FileColumnIterator>(file_iter));
857
858
66.0k
    ColumnIteratorUPtr null_iterator;
859
66.0k
    if (is_nullable()) {
860
47.0k
        RETURN_IF_ERROR(_sub_readers[2]->new_iterator(&null_iterator, nullptr));
861
47.0k
    }
862
66.0k
    *iterator = std::make_unique<ArrayFileColumnIterator>(shared_from_this(), std::move(ofcIter),
863
66.0k
                                                          std::move(item_iterator),
864
66.0k
                                                          std::move(null_iterator));
865
66.0k
    return Status::OK();
866
66.0k
}
867
868
Status ColumnReader::new_map_iterator(ColumnIteratorUPtr* iterator,
869
35.9k
                                      const TabletColumn* tablet_column) {
870
35.9k
    ColumnIteratorUPtr key_iterator;
871
35.9k
    RETURN_IF_ERROR(_sub_readers[0]->new_iterator(
872
35.9k
            &key_iterator, tablet_column && tablet_column->get_subtype_count() > 1
873
35.9k
                                   ? &tablet_column->get_sub_column(0)
874
35.9k
                                   : nullptr));
875
35.9k
    key_iterator->set_column_name(tablet_column ? tablet_column->get_sub_column(0).name() : "");
876
35.9k
    ColumnIteratorUPtr val_iterator;
877
35.9k
    RETURN_IF_ERROR(_sub_readers[1]->new_iterator(
878
35.9k
            &val_iterator, tablet_column && tablet_column->get_subtype_count() > 1
879
35.9k
                                   ? &tablet_column->get_sub_column(1)
880
35.9k
                                   : nullptr));
881
35.9k
    val_iterator->set_column_name(tablet_column ? tablet_column->get_sub_column(1).name() : "");
882
35.9k
    ColumnIteratorUPtr offsets_iterator;
883
35.9k
    RETURN_IF_ERROR(_sub_readers[2]->new_iterator(&offsets_iterator, nullptr));
884
35.9k
    auto* file_iter = static_cast<FileColumnIterator*>(offsets_iterator.release());
885
35.9k
    OffsetFileColumnIteratorUPtr ofcIter = std::make_unique<OffsetFileColumnIterator>(
886
35.9k
            std::unique_ptr<FileColumnIterator>(file_iter));
887
888
35.9k
    ColumnIteratorUPtr null_iterator;
889
35.9k
    if (is_nullable()) {
890
17.2k
        RETURN_IF_ERROR(_sub_readers[3]->new_iterator(&null_iterator, nullptr));
891
17.2k
    }
892
35.9k
    *iterator = std::make_unique<MapFileColumnIterator>(
893
35.9k
            shared_from_this(), std::move(null_iterator), std::move(ofcIter),
894
35.9k
            std::move(key_iterator), std::move(val_iterator));
895
35.9k
    return Status::OK();
896
35.9k
}
897
898
Status ColumnReader::new_struct_iterator(ColumnIteratorUPtr* iterator,
899
8.16k
                                         const TabletColumn* tablet_column) {
900
8.16k
    std::vector<ColumnIteratorUPtr> sub_column_iterators;
901
8.16k
    size_t child_size = is_nullable() ? _sub_readers.size() - 1 : _sub_readers.size();
902
8.16k
    size_t tablet_column_size = tablet_column ? tablet_column->get_sub_columns().size() : 0;
903
8.16k
    sub_column_iterators.reserve(child_size);
904
905
38.2k
    for (uint64_t i = 0; i < child_size; i++) {
906
30.0k
        ColumnIteratorUPtr sub_column_iterator;
907
30.0k
        RETURN_IF_ERROR(_sub_readers[i]->new_iterator(
908
30.0k
                &sub_column_iterator, tablet_column ? &tablet_column->get_sub_column(i) : nullptr));
909
30.0k
        sub_column_iterator->set_column_name(tablet_column ? tablet_column->get_sub_column(i).name()
910
18.4E
                                                           : "");
911
30.0k
        sub_column_iterators.emplace_back(std::move(sub_column_iterator));
912
30.0k
    }
913
914
    // create default_iterator for schema-change behavior which increase column
915
9.46k
    for (size_t i = child_size; i < tablet_column_size; i++) {
916
1.30k
        TabletColumn column = tablet_column->get_sub_column(i);
917
1.30k
        ColumnIteratorUPtr it;
918
1.30k
        RETURN_IF_ERROR(Segment::new_default_iterator(column, &it));
919
1.30k
        it->set_column_name(column.name());
920
1.30k
        sub_column_iterators.emplace_back(std::move(it));
921
1.30k
    }
922
923
8.16k
    ColumnIteratorUPtr null_iterator;
924
8.16k
    if (is_nullable()) {
925
7.32k
        RETURN_IF_ERROR(_sub_readers[child_size]->new_iterator(&null_iterator, nullptr));
926
7.32k
    }
927
8.16k
    *iterator = std::make_unique<StructFileColumnIterator>(
928
8.16k
            shared_from_this(), std::move(null_iterator), std::move(sub_column_iterators));
929
8.16k
    return Status::OK();
930
8.16k
}
931
932
5.90k
void ColumnIterator::_convert_to_place_holder_column(MutableColumnPtr& dst, size_t count) {
933
5.90k
    if (_read_phase == ReadPhase::LAZY) {
934
3.95k
        return;
935
3.95k
    } else if (_read_requirement == ReadRequirement::LAZY_OUTPUT &&
936
1.95k
               _read_phase == ReadPhase::PREDICATE) {
937
        // This branch is for non-predicate columns that still have to appear in the
938
        // predicate-phase block so row filtering can keep all block columns aligned.
939
        // Columns already marked PREDICATE are read normally, and SKIP/NORMAL
940
        // columns do not participate in lazy materialization.
941
1.46k
        _has_place_holder_column = true;
942
1.46k
    }
943
944
1.95k
    dst->insert_many_defaults(count);
945
1.95k
}
946
947
4.92M
void ColumnIterator::_recovery_from_place_holder_column(MutableColumnPtr& dst) {
948
4.92M
    if (_read_phase == ReadPhase::LAZY && _has_place_holder_column) {
949
1.46k
        dst->clear();
950
1.46k
        _has_place_holder_column = false;
951
1.46k
    }
952
4.92M
}
953
954
Result<TColumnAccessPaths> ColumnIterator::_get_sub_access_paths(
955
126k
        TColumnAccessPaths sub_access_paths, bool is_predicate) {
956
    // Access paths passed to a complex iterator always start with the current
957
    // column name. Strip that component and return the remaining child-relative
958
    // paths to the caller. For example, when this iterator is for column `s`,
959
    // path `s.a.b` is converted to `a.b` and then dispatched to child `a`.
960
    //
961
    // If stripping the current column consumes the whole path, the current
962
    // iterator itself is requested rather than one of its children. Mark the
963
    // current iterator according to the path source: predicate paths must be read
964
    // in the predicate phase, while all/output paths become lazy output targets.
965
    // Empty or mismatched paths indicate an FE/BE access-path contract violation.
966
195k
    for (auto it = sub_access_paths.begin(); it != sub_access_paths.end();) {
967
69.5k
        TColumnAccessPath& name_path = *it;
968
69.5k
        if (name_path.data_access_path.path.empty()) {
969
2
            return ResultError(Status::InternalError(
970
2
                    "Invalid access path for column '{}': path is empty", _column_name));
971
2
        }
972
973
69.5k
        if (!StringCaseEqual()(name_path.data_access_path.path[0], _column_name)) {
974
3
            return ResultError(Status::InternalError(
975
3
                    R"(Invalid access path for column: expected name "{}", got "{}")", _column_name,
976
3
                    name_path.data_access_path.path[0]));
977
3
        }
978
979
69.5k
        name_path.data_access_path.path.erase(name_path.data_access_path.path.begin());
980
69.5k
        if (!name_path.data_access_path.path.empty()) {
981
10.7k
            ++it;
982
58.7k
        } else {
983
58.7k
            if (is_predicate) {
984
2.99k
                set_read_requirement(ReadRequirement::PREDICATE);
985
55.7k
            } else {
986
55.7k
                set_lazy_output_requirement();
987
55.7k
            }
988
58.7k
            it = sub_access_paths.erase(it);
989
58.7k
        }
990
69.5k
    }
991
126k
    return sub_access_paths;
992
126k
}
993
994
///====================== MapFileColumnIterator ============================////
995
MapFileColumnIterator::MapFileColumnIterator(std::shared_ptr<ColumnReader> reader,
996
                                             ColumnIteratorUPtr null_iterator,
997
                                             OffsetFileColumnIteratorUPtr offsets_iterator,
998
                                             ColumnIteratorUPtr key_iterator,
999
                                             ColumnIteratorUPtr val_iterator)
1000
35.9k
        : _map_reader(reader),
1001
35.9k
          _offsets_iterator(std::move(offsets_iterator)),
1002
35.9k
          _key_iterator(std::move(key_iterator)),
1003
35.9k
          _val_iterator(std::move(val_iterator)) {
1004
35.9k
    if (_map_reader->is_nullable()) {
1005
17.2k
        _null_iterator = std::move(null_iterator);
1006
17.2k
    }
1007
35.9k
}
1008
1009
35.8k
Status MapFileColumnIterator::init(const ColumnIteratorOptions& opts) {
1010
35.8k
    if (_read_requirement == ReadRequirement::SKIP) {
1011
32
        DLOG(INFO) << "Map column iterator column " << _column_name << " skip reading.";
1012
32
        return Status::OK();
1013
32
    }
1014
35.8k
    RETURN_IF_ERROR(_key_iterator->init(opts));
1015
35.8k
    RETURN_IF_ERROR(_val_iterator->init(opts));
1016
35.8k
    RETURN_IF_ERROR(_offsets_iterator->init(opts));
1017
35.8k
    if (_map_reader->is_nullable()) {
1018
17.2k
        RETURN_IF_ERROR(_null_iterator->init(opts));
1019
17.2k
    }
1020
35.8k
    return Status::OK();
1021
35.8k
}
1022
1023
24.2k
Status MapFileColumnIterator::seek_to_ordinal(ordinal_t ord) {
1024
24.2k
    if (!need_to_read()) {
1025
0
        DLOG(INFO) << "Map column iterator column " << _column_name << " skip reading.";
1026
0
        return Status::OK();
1027
0
    }
1028
1029
24.2k
    if (read_null_map_only()) {
1030
        // In NULL_MAP_ONLY mode, only seek the null iterator; skip offset/key/val iterators
1031
11
        if (_map_reader->is_nullable() && _null_iterator) {
1032
11
            RETURN_IF_ERROR(_null_iterator->seek_to_ordinal(ord));
1033
11
        }
1034
11
        return Status::OK();
1035
11
    }
1036
1037
24.2k
    if (_map_reader->is_nullable()) {
1038
15.1k
        RETURN_IF_ERROR(_null_iterator->seek_to_ordinal(ord));
1039
15.1k
    }
1040
24.2k
    RETURN_IF_ERROR(_offsets_iterator->seek_to_ordinal(ord));
1041
24.2k
    if (read_offset_only()) {
1042
        // In OFFSET_ONLY mode, key/value iterators are SKIP, no need to seek them
1043
468
        return Status::OK();
1044
468
    }
1045
    // here to use offset info
1046
23.7k
    ordinal_t offset = 0;
1047
23.7k
    RETURN_IF_ERROR(_offsets_iterator->_peek_one_offset(&offset));
1048
23.7k
    RETURN_IF_ERROR(_key_iterator->seek_to_ordinal(offset));
1049
23.7k
    RETURN_IF_ERROR(_val_iterator->seek_to_ordinal(offset));
1050
23.7k
    return Status::OK();
1051
23.7k
}
1052
1053
7.08k
Status MapFileColumnIterator::init_prefetcher(const SegmentPrefetchParams& params) {
1054
7.08k
    RETURN_IF_ERROR(_offsets_iterator->init_prefetcher(params));
1055
7.08k
    if (_map_reader->is_nullable()) {
1056
5.37k
        RETURN_IF_ERROR(_null_iterator->init_prefetcher(params));
1057
5.37k
    }
1058
7.08k
    RETURN_IF_ERROR(_key_iterator->init_prefetcher(params));
1059
7.08k
    RETURN_IF_ERROR(_val_iterator->init_prefetcher(params));
1060
7.08k
    return Status::OK();
1061
7.08k
}
1062
1063
void MapFileColumnIterator::collect_prefetchers(
1064
        std::map<PrefetcherInitMethod, std::vector<SegmentPrefetcher*>>& prefetchers,
1065
7.03k
        PrefetcherInitMethod init_method) {
1066
7.03k
    if (!need_to_read()) {
1067
0
        return;
1068
0
    }
1069
7.03k
    if (!read_null_map_only()) {
1070
6.99k
        _offsets_iterator->collect_prefetchers(prefetchers, init_method);
1071
6.99k
    }
1072
7.03k
    if (_map_reader->is_nullable()) {
1073
5.32k
        _null_iterator->collect_prefetchers(prefetchers, init_method);
1074
5.32k
    }
1075
7.03k
    if (read_offset_only() || read_null_map_only()) {
1076
486
        return;
1077
486
    }
1078
    // the actual data pages to read of key/value column depends on the read result of offset column,
1079
    // so we can't init prefetch blocks according to rowids, just prefetch all data blocks here.
1080
6.54k
    if (_key_iterator->need_to_read()) {
1081
6.28k
        _key_iterator->collect_prefetchers(prefetchers, PrefetcherInitMethod::ALL_DATA_BLOCKS);
1082
6.28k
    }
1083
6.54k
    if (_val_iterator->need_to_read()) {
1084
6.27k
        _val_iterator->collect_prefetchers(prefetchers, PrefetcherInitMethod::ALL_DATA_BLOCKS);
1085
6.27k
    }
1086
6.54k
}
1087
1088
24.2k
Status MapFileColumnIterator::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
1089
24.2k
    if (!need_to_read()) {
1090
0
        DLOG(INFO) << "Map column iterator column " << _column_name << " skip reading.";
1091
0
        _convert_to_place_holder_column(dst, *n);
1092
0
        return Status::OK();
1093
0
    }
1094
1095
24.2k
    _recovery_from_place_holder_column(dst);
1096
1097
24.2k
    if (read_null_map_only()) {
1098
        // NULL_MAP_ONLY mode: read null map, fill nested ColumnMap with empty defaults
1099
12
        DORIS_CHECK(is_column_nullable(*dst));
1100
12
        auto& nullable_col = assert_cast<ColumnNullable&>(*dst);
1101
12
        auto null_map_ptr = nullable_col.get_null_map_column_ptr();
1102
12
        size_t num_read = *n;
1103
12
        if (_null_iterator) {
1104
12
            bool null_signs_has_null = false;
1105
12
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
1106
12
            RETURN_IF_ERROR(
1107
12
                    _null_iterator->next_batch(&num_read, null_map_column, &null_signs_has_null));
1108
12
        } else {
1109
            // schema-change: column became nullable but old segment has no null data
1110
0
            null_map_ptr->insert_many_vals(0, num_read);
1111
0
        }
1112
12
        DCHECK(num_read == *n);
1113
        // fill nested ColumnMap with empty (zero-element) maps
1114
12
        auto& column_map = assert_cast<ColumnMap&, TypeCheckOnRelease::DISABLE>(
1115
12
                nullable_col.get_nested_column());
1116
12
        column_map.insert_many_defaults(num_read);
1117
12
        *has_null = true;
1118
12
        return Status::OK();
1119
12
    }
1120
1121
24.2k
    auto& column_map = assert_cast<ColumnMap&, TypeCheckOnRelease::DISABLE>(
1122
24.2k
            is_column_nullable(*dst) ? static_cast<ColumnNullable&>(*dst).get_nested_column()
1123
24.2k
                                     : *dst);
1124
24.2k
    const bool read_meta_columns = need_to_read_meta_columns();
1125
24.2k
    MutableColumnPtr column_offsets_ptr;
1126
24.2k
    if (read_meta_columns) {
1127
23.3k
        column_offsets_ptr = IColumn::mutate(std::move(column_map.get_offsets_ptr()));
1128
23.3k
    } else {
1129
        // The parent offsets were already materialized in the predicate phase, so
1130
        // they must not be appended to dst again. We still read offsets into a
1131
        // temporary column here: this sequential path may be serving a nested
1132
        // lazy read after seek_to_ordinal(), and the storage offsets are needed to
1133
        // compute how many key/value elements to read from the current source
1134
        // ordinal. The existing dst offsets only describe the filtered output
1135
        // shape and do not track the current source ordinal consumed by this
1136
        // iterator call.
1137
904
        const auto base_offset =
1138
904
                column_map.get_offsets().empty() ? 0 : column_map.get_offsets().back();
1139
904
        column_offsets_ptr = ColumnMap::COffsets::create();
1140
904
        assert_cast<ColumnOffset64&, TypeCheckOnRelease::DISABLE>(*column_offsets_ptr)
1141
904
                .insert_value(base_offset);
1142
904
    }
1143
24.2k
    Defer defer_offsets {[&] {
1144
24.2k
        if (read_meta_columns) {
1145
23.3k
            auto typed_column_offsets_ptr = ColumnMap::COffsets::cast_to_column_mutptr(
1146
23.3k
                    assert_cast<ColumnMap::COffsets*, TypeCheckOnRelease::DISABLE>(
1147
23.3k
                            column_offsets_ptr.get()));
1148
23.3k
            column_offsets_ptr = nullptr;
1149
23.3k
            column_map.get_offsets_ptr() = std::move(typed_column_offsets_ptr);
1150
23.3k
        }
1151
24.2k
    }};
1152
24.2k
    bool offsets_has_null = false;
1153
24.2k
    ssize_t start = column_offsets_ptr->size();
1154
24.2k
    RETURN_IF_ERROR(_offsets_iterator->next_batch(n, column_offsets_ptr, &offsets_has_null));
1155
24.2k
    if (*n == 0) {
1156
0
        return Status::OK();
1157
0
    }
1158
24.2k
    auto& column_offsets = static_cast<ColumnArray::ColumnOffsets&>(*column_offsets_ptr);
1159
24.2k
    RETURN_IF_ERROR(_offsets_iterator->_calculate_offsets(start, column_offsets));
1160
24.2k
    DCHECK(column_offsets.get_data().back() >= column_offsets.get_data()[start - 1]);
1161
24.2k
    size_t num_items =
1162
24.2k
            column_offsets.get_data().back() - column_offsets.get_data()[start - 1]; // -1 is valid
1163
1164
24.2k
    if (num_items > 0) {
1165
20.8k
        auto key_ptr = IColumn::mutate(std::move(column_map.get_keys_ptr()));
1166
20.8k
        auto val_ptr = IColumn::mutate(std::move(column_map.get_values_ptr()));
1167
20.8k
        Defer defer_keys {[&] { column_map.get_keys_ptr() = std::move(key_ptr); }};
1168
20.8k
        Defer defer_values {[&] { column_map.get_values_ptr() = std::move(val_ptr); }};
1169
20.8k
        if (read_offset_only()) {
1170
            // OFFSET_ONLY mode: skip reading actual key/value data, fill with defaults
1171
468
            key_ptr->insert_many_defaults(num_items);
1172
468
            val_ptr->insert_many_defaults(num_items);
1173
20.3k
        } else {
1174
20.3k
            size_t num_read = num_items;
1175
20.3k
            bool key_has_null = false;
1176
20.3k
            bool val_has_null = false;
1177
20.3k
            RETURN_IF_ERROR(_key_iterator->next_batch(&num_read, key_ptr, &key_has_null));
1178
20.3k
            RETURN_IF_ERROR(_val_iterator->next_batch(&num_read, val_ptr, &val_has_null));
1179
20.3k
            DCHECK(num_read == num_items);
1180
20.3k
        }
1181
20.8k
    }
1182
1183
24.2k
    if (is_column_nullable(*dst) && read_meta_columns) {
1184
14.2k
        size_t num_read = *n;
1185
14.2k
        auto null_map_ptr = static_cast<ColumnNullable&>(*dst).get_null_map_column_ptr();
1186
        // in not-null to null linked-schemachange mode,
1187
        // actually we do not change dat data include meta in footer,
1188
        // so may dst from changed meta which is nullable but old data is not nullable,
1189
        // if so, we should set null_map to all null by default
1190
14.2k
        if (_null_iterator) {
1191
14.2k
            bool null_signs_has_null = false;
1192
14.2k
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
1193
14.2k
            RETURN_IF_ERROR(
1194
14.2k
                    _null_iterator->next_batch(&num_read, null_map_column, &null_signs_has_null));
1195
18.4E
        } else {
1196
18.4E
            null_map_ptr->insert_many_vals(0, num_read);
1197
18.4E
        }
1198
14.2k
        DCHECK(num_read == *n);
1199
14.2k
    }
1200
24.2k
    return Status::OK();
1201
24.2k
}
1202
1203
Status MapFileColumnIterator::read_by_rowids(const rowid_t* rowids, const size_t count,
1204
16.3k
                                             MutableColumnPtr& dst) {
1205
16.3k
    if (!need_to_read()) {
1206
1
        DLOG(INFO) << "Map column iterator column " << _column_name << " skip reading.";
1207
1
        _convert_to_place_holder_column(dst, count);
1208
1
        return Status::OK();
1209
1
    }
1210
1211
16.3k
    _recovery_from_place_holder_column(dst);
1212
1213
16.3k
    if (read_null_map_only()) {
1214
        // NULL_MAP_ONLY mode: read null map by rowids, fill nested ColumnMap with empty defaults
1215
8
        DORIS_CHECK(is_column_nullable(*dst));
1216
8
        auto& nullable_col = assert_cast<ColumnNullable&>(*dst);
1217
8
        if (_null_iterator) {
1218
8
            auto null_map_ptr = nullable_col.get_null_map_column_ptr();
1219
8
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
1220
8
            RETURN_IF_ERROR(_null_iterator->read_by_rowids(rowids, count, null_map_column));
1221
8
        } else {
1222
            // schema-change: column became nullable but old segment has no null data
1223
0
            auto null_map_ptr = nullable_col.get_null_map_column_ptr();
1224
0
            null_map_ptr->insert_many_vals(0, count);
1225
0
        }
1226
        // fill nested ColumnMap with empty (zero-element) maps
1227
8
        auto& column_map = assert_cast<ColumnMap&, TypeCheckOnRelease::DISABLE>(
1228
8
                nullable_col.get_nested_column());
1229
8
        column_map.insert_many_defaults(count);
1230
8
        return Status::OK();
1231
8
    }
1232
1233
16.2k
    if (count == 0) {
1234
0
        return Status::OK();
1235
0
    }
1236
1237
    // resolve ColumnMap and nullable wrapper
1238
16.2k
    auto& column_map = assert_cast<ColumnMap&, TypeCheckOnRelease::DISABLE>(
1239
16.2k
            is_column_nullable(*dst) ? static_cast<ColumnNullable&>(*dst).get_nested_column()
1240
16.2k
                                     : *dst);
1241
16.2k
    const bool read_meta_columns = need_to_read_meta_columns();
1242
16.2k
    MutableColumnPtr offsets_ptr;
1243
16.2k
    if (read_meta_columns) {
1244
16.2k
        offsets_ptr = IColumn::mutate(std::move(column_map.get_offsets_ptr()));
1245
16.2k
    } else {
1246
24
        const auto base_offset =
1247
24
                column_map.get_offsets().empty() ? 0 : column_map.get_offsets().back();
1248
24
        offsets_ptr = ColumnMap::COffsets::create();
1249
24
        assert_cast<ColumnOffset64&, TypeCheckOnRelease::DISABLE>(*offsets_ptr)
1250
24
                .insert_value(base_offset);
1251
24
    }
1252
16.2k
    Defer defer_offsets {[&] {
1253
16.2k
        if (read_meta_columns) {
1254
16.2k
            auto typed_offsets_ptr = ColumnMap::COffsets::cast_to_column_mutptr(
1255
16.2k
                    assert_cast<ColumnMap::COffsets*, TypeCheckOnRelease::DISABLE>(
1256
16.2k
                            offsets_ptr.get()));
1257
16.2k
            offsets_ptr = nullptr;
1258
16.2k
            column_map.get_offsets_ptr() = std::move(typed_offsets_ptr);
1259
16.2k
        }
1260
16.2k
    }};
1261
16.2k
    auto& offsets = static_cast<ColumnArray::ColumnOffsets&>(*offsets_ptr);
1262
16.2k
    size_t base = offsets.get_data().empty() ? 0 : offsets.get_data().back();
1263
1264
    // 1. bulk read null-map if nullable
1265
16.2k
    std::vector<uint8_t> null_mask; // 0: not null, 1: null
1266
16.2k
    if (read_meta_columns) {
1267
16.2k
        if (_map_reader->is_nullable()) {
1268
            // For nullable map columns, the destination column must also be nullable.
1269
3.54k
            if (UNLIKELY(!is_column_nullable(*dst))) {
1270
0
                return Status::InternalError(
1271
0
                        "unexpected non-nullable destination column for nullable map reader");
1272
0
            }
1273
3.54k
            MutableColumnPtr null_map_ptr =
1274
3.54k
                    static_cast<ColumnNullable&>(*dst).get_null_map_column_ptr();
1275
3.54k
            size_t null_before = null_map_ptr->size();
1276
3.54k
            RETURN_IF_ERROR(_null_iterator->read_by_rowids(rowids, count, null_map_ptr));
1277
            // extract a light-weight view to decide element reads
1278
3.54k
            auto& null_map_col = assert_cast<ColumnUInt8&>(*null_map_ptr);
1279
3.54k
            const auto* src = null_map_col.get_data().data() + null_before;
1280
3.54k
            null_mask.assign(src, src + count);
1281
12.7k
        } else if (is_column_nullable(*dst)) {
1282
            // in not-null to null linked-schemachange mode,
1283
            // actually we do not change dat data include meta in footer,
1284
            // so may dst from changed meta which is nullable but old data is not nullable,
1285
            // if so, we should set null_map to all null by default
1286
1
            MutableColumnPtr null_map_ptr =
1287
1
                    static_cast<ColumnNullable&>(*dst).get_null_map_column_ptr();
1288
1
            auto& null_map = assert_cast<ColumnUInt8&>(*null_map_ptr);
1289
1
            null_map.insert_many_vals(0, count);
1290
1
        }
1291
16.2k
    } else if (_map_reader->is_nullable()) {
1292
        // In lazy mode the parent null map has already been materialized during
1293
        // predicate read and filtered together with the block. Reuse that dst
1294
        // null map to avoid re-reading the same meta column from storage.
1295
18
        if (UNLIKELY(!is_column_nullable(*dst))) {
1296
0
            return Status::InternalError(
1297
0
                    "unexpected non-nullable destination column for nullable map reader");
1298
0
        }
1299
18
        const auto& null_map_col = static_cast<const ColumnNullable&>(*dst).get_null_map_column();
1300
18
        DORIS_CHECK(null_map_col.size() == count);
1301
18
        const auto* src = null_map_col.get_data().data();
1302
18
        null_mask.assign(src, src + count);
1303
18
    }
1304
1305
    // 2. Bulk read source start ordinals for requested rows. The offsets stored
1306
    // in dst already describe the filtered output shape when read_meta_columns is
1307
    // false, but they do not contain the source key/value ordinal for each
1308
    // selected rowid. We still need the storage offsets here to seek child
1309
    // iterators to the correct source element ranges.
1310
16.2k
    MutableColumnPtr starts_col = ColumnOffset64::create();
1311
16.2k
    starts_col->reserve(count);
1312
16.2k
    RETURN_IF_ERROR(_offsets_iterator->read_by_rowids(rowids, count, starts_col));
1313
1314
    // 3. bulk read next-start ordinals for rowid+1 (within bounds)
1315
16.2k
    std::vector<rowid_t> next_rowids(count);
1316
3.34M
    for (size_t i = 0; i < count; ++i) {
1317
3.32M
        uint64_t nr = rowids[i] + 1;
1318
3.32M
        next_rowids[i] = nr < _map_reader->num_rows() ? static_cast<rowid_t>(nr)
1319
3.32M
                                                      : static_cast<rowid_t>(0); // placeholder
1320
3.32M
    }
1321
16.2k
    MutableColumnPtr next_starts_col = ColumnOffset64::create();
1322
16.2k
    next_starts_col->reserve(count);
1323
    // read for all; we'll fix out-of-bound cases below
1324
16.2k
    RETURN_IF_ERROR(_offsets_iterator->read_by_rowids(next_rowids.data(), count, next_starts_col));
1325
1326
    // 4. fix next_start for rows whose next_rowid is out-of-bound (rowid == num_rows-1)
1327
3.34M
    for (size_t i = 0; i < count; ++i) {
1328
3.32M
        if (rowids[i] + 1 >= _map_reader->num_rows()) {
1329
            // seek to the last row and consume one to move decoder to end-of-page,
1330
            // then peek page-tail sentinel next_array_item_ordinal as next_start
1331
13.5k
            RETURN_IF_ERROR(_offsets_iterator->seek_to_ordinal(rowids[i]));
1332
13.5k
            size_t one = 1;
1333
13.5k
            bool has_null_unused = false;
1334
13.5k
            MutableColumnPtr tmp = ColumnOffset64::create();
1335
13.5k
            RETURN_IF_ERROR(_offsets_iterator->next_batch(&one, tmp, &has_null_unused));
1336
13.5k
            ordinal_t ns = 0;
1337
13.5k
            RETURN_IF_ERROR(_offsets_iterator->_peek_one_offset(&ns));
1338
            // overwrite with sentinel
1339
13.5k
            assert_cast<ColumnOffset64&, TypeCheckOnRelease::DISABLE>(*next_starts_col)
1340
13.5k
                    .get_data()[i] = ns;
1341
13.5k
        }
1342
3.32M
    }
1343
1344
    // 5. compute sizes and append offsets prefix-sum
1345
16.2k
    auto& starts_data = assert_cast<ColumnOffset64&>(*starts_col).get_data();
1346
16.2k
    auto& next_starts_data = assert_cast<ColumnOffset64&>(*next_starts_col).get_data();
1347
16.2k
    std::vector<size_t> sizes(count, 0);
1348
16.2k
    size_t acc = base;
1349
16.2k
    if (read_meta_columns) {
1350
16.2k
        offsets.get_data().reserve(offsets.get_data().size() + count);
1351
16.2k
    }
1352
3.32M
    for (size_t i = 0; i < count; ++i) {
1353
3.31M
        auto sz = static_cast<size_t>(next_starts_data[i] - starts_data[i]);
1354
3.31M
        if (_map_reader->is_nullable() && !null_mask.empty() && null_mask[i]) {
1355
728
            sz = 0; // null rows do not consume elements
1356
728
        }
1357
3.31M
        sizes[i] = sz;
1358
3.31M
        acc += sz;
1359
3.31M
        if (read_meta_columns) {
1360
3.28M
            offsets.get_data().push_back(acc);
1361
3.28M
        }
1362
3.31M
    }
1363
1364
    // 6. read key/value elements for non-empty sizes
1365
16.2k
    auto keys_ptr = IColumn::mutate(std::move(column_map.get_keys_ptr()));
1366
16.2k
    auto vals_ptr = IColumn::mutate(std::move(column_map.get_values_ptr()));
1367
16.2k
    Defer defer_keys {[&] { column_map.get_keys_ptr() = std::move(keys_ptr); }};
1368
16.3k
    Defer defer_values {[&] { column_map.get_values_ptr() = std::move(vals_ptr); }};
1369
1370
16.2k
    size_t this_run = sizes[0];
1371
16.2k
    auto start_idx = starts_data[0];
1372
16.2k
    auto last_idx = starts_data[0] + this_run;
1373
3.31M
    for (size_t i = 1; i < count; ++i) {
1374
3.30M
        size_t sz = sizes[i];
1375
3.30M
        if (sz == 0) {
1376
56.9k
            continue;
1377
56.9k
        }
1378
3.24M
        auto start = static_cast<ordinal_t>(starts_data[i]);
1379
3.24M
        if (start != last_idx) {
1380
739k
            size_t n = this_run;
1381
739k
            bool dummy_has_null = false;
1382
1383
739k
            if (this_run != 0) {
1384
739k
                RETURN_IF_ERROR(_key_iterator->seek_to_ordinal(start_idx));
1385
739k
                RETURN_IF_ERROR(_key_iterator->next_batch(&n, keys_ptr, &dummy_has_null));
1386
739k
                DCHECK(n == this_run);
1387
1388
739k
                n = this_run;
1389
739k
                RETURN_IF_ERROR(_val_iterator->seek_to_ordinal(start_idx));
1390
739k
                RETURN_IF_ERROR(_val_iterator->next_batch(&n, vals_ptr, &dummy_has_null));
1391
739k
                DCHECK(n == this_run);
1392
739k
            }
1393
739k
            start_idx = start;
1394
739k
            this_run = sz;
1395
739k
            last_idx = start + sz;
1396
739k
            continue;
1397
739k
        }
1398
1399
2.50M
        this_run += sz;
1400
2.50M
        last_idx += sz;
1401
2.50M
    }
1402
1403
16.2k
    size_t n = this_run;
1404
16.2k
    bool dummy_has_null = false;
1405
16.2k
    if (this_run != 0) {
1406
6.84k
        RETURN_IF_ERROR(_key_iterator->seek_to_ordinal(start_idx));
1407
6.84k
        RETURN_IF_ERROR(_key_iterator->next_batch(&n, keys_ptr, &dummy_has_null));
1408
6.84k
        DCHECK(n == this_run);
1409
1410
6.84k
        n = this_run;
1411
6.84k
        RETURN_IF_ERROR(_val_iterator->seek_to_ordinal(start_idx));
1412
6.84k
        RETURN_IF_ERROR(_val_iterator->next_batch(&n, vals_ptr, &dummy_has_null));
1413
6.84k
        DCHECK(n == this_run);
1414
6.84k
    }
1415
16.2k
    return Status::OK();
1416
16.2k
}
1417
1418
5.81k
void MapFileColumnIterator::set_lazy_output_requirement() {
1419
5.81k
    set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
1420
5.81k
    _key_iterator->set_lazy_output_requirement();
1421
5.81k
    _val_iterator->set_lazy_output_requirement();
1422
5.81k
}
1423
1424
7.93k
void MapFileColumnIterator::remove_pruned_sub_iterators() {
1425
7.93k
    _key_iterator->remove_pruned_sub_iterators();
1426
7.93k
    _val_iterator->remove_pruned_sub_iterators();
1427
7.93k
}
1428
1429
Status MapFileColumnIterator::set_access_paths(const TColumnAccessPaths& all_access_paths,
1430
7.70k
                                               const TColumnAccessPaths& predicate_access_paths) {
1431
7.70k
    if (all_access_paths.empty() && predicate_access_paths.empty()) {
1432
1.51k
        return Status::OK();
1433
1.51k
    }
1434
1435
6.19k
    const auto requirement_before_access_path = _read_requirement;
1436
6.19k
    if (!predicate_access_paths.empty()) {
1437
256
        set_read_requirement_self(ReadRequirement::PREDICATE);
1438
256
        DLOG(INFO) << "Map column iterator set sub-column " << _column_name << " to PREDICATE";
1439
256
    }
1440
1441
6.19k
    const bool has_current_level_data_path =
1442
7.13k
            std::ranges::any_of(all_access_paths, [this](const TColumnAccessPath& path) {
1443
7.13k
                return is_current_level_data_access_path(path, _column_name);
1444
7.13k
            });
1445
6.19k
    auto sub_all_access_paths = DORIS_TRY(_get_sub_access_paths(all_access_paths));
1446
6.19k
    auto sub_predicate_access_paths =
1447
6.19k
            DORIS_TRY(_get_sub_access_paths(predicate_access_paths, true));
1448
6.19k
    if (has_current_level_data_path) {
1449
4.04k
        remove_current_level_meta_access_paths(sub_all_access_paths);
1450
4.04k
    }
1451
6.19k
    const bool has_current_level_predicate_meta_path =
1452
6.19k
            std::ranges::any_of(sub_predicate_access_paths, is_current_level_meta_access_path);
1453
    // Current-level predicate metadata paths are consumed by this map iterator and must not be
1454
    // forwarded to key/value children. The FE keeps all_access_paths as a superset of predicate
1455
    // paths, so meta-only mode is still decided from sub_all_access_paths below.
1456
6.19k
    remove_current_level_meta_access_paths(sub_predicate_access_paths);
1457
1458
6.19k
    if (sub_predicate_access_paths.empty() && _read_requirement == ReadRequirement::PREDICATE &&
1459
6.19k
        !has_current_level_predicate_meta_path) {
1460
        // if no sub-column in predicate_access_paths, but current column is PREDICATE,
1461
        // then we should set key/value iterator to PREDICATE too.
1462
1
        _key_iterator->set_read_requirement(ReadRequirement::PREDICATE);
1463
1
        _val_iterator->set_read_requirement(ReadRequirement::PREDICATE);
1464
1
    }
1465
1466
6.19k
    if (sub_predicate_access_paths.empty()) {
1467
        // Check for meta-only modes (OFFSET_ONLY or NULL_MAP_ONLY). Only skip key/value
1468
        // iterators when no predicate sub-path needs them in the predicate phase.
1469
5.94k
        _check_and_set_meta_read_mode(requirement_before_access_path, sub_all_access_paths);
1470
5.94k
        if (read_offset_only()) {
1471
467
            _key_iterator->set_read_requirement(ReadRequirement::SKIP);
1472
467
            _val_iterator->set_read_requirement(ReadRequirement::SKIP);
1473
467
            DLOG(INFO) << "Map column iterator set column " << _column_name
1474
467
                       << " to OFFSET_ONLY meta read mode, key/value columns set to SKIP";
1475
467
            return Status::OK();
1476
467
        }
1477
5.47k
        if (read_null_map_only()) {
1478
20
            _key_iterator->set_read_requirement(ReadRequirement::SKIP);
1479
20
            _val_iterator->set_read_requirement(ReadRequirement::SKIP);
1480
20
            DLOG(INFO) << "Map column iterator set column " << _column_name
1481
20
                       << " to NULL_MAP_ONLY meta read mode, key/value columns set to SKIP";
1482
20
            return Status::OK();
1483
20
        }
1484
5.47k
    }
1485
1486
    // A current-level data path is consumed by _get_sub_access_paths() and leaves
1487
    // sub_all_access_paths empty after marking key/value as lazy-read targets. Predicate
1488
    // sub-paths still have to be routed to child iterators for the predicate phase.
1489
5.70k
    if (sub_all_access_paths.empty() && sub_predicate_access_paths.empty()) {
1490
4.02k
        return Status::OK();
1491
4.02k
    }
1492
1493
1.68k
    TColumnAccessPaths key_all_access_paths;
1494
1.68k
    TColumnAccessPaths val_all_access_paths;
1495
1.68k
    TColumnAccessPaths key_predicate_access_paths;
1496
1.68k
    TColumnAccessPaths val_predicate_access_paths;
1497
1498
2.57k
    for (auto paths : sub_all_access_paths) {
1499
2.57k
        if (paths.data_access_path.path[0] == ACCESS_ALL) {
1500
            // ACCESS_ALL means element_at(map, key) style access: the key column must be
1501
            // fully read so that the runtime can match the requested key, while any sub-path
1502
            // qualifiers (e.g. OFFSET) apply only to the value column.
1503
            // For key: create a path with just the column name (= full data access).
1504
1.11k
            TColumnAccessPath key_path;
1505
1.11k
            key_path.__set_type(paths.type);
1506
1.11k
            TDataAccessPath key_data_path;
1507
1.11k
            key_data_path.__set_path({_key_iterator->column_name()});
1508
1.11k
            key_path.__set_data_access_path(key_data_path);
1509
1.11k
            key_all_access_paths.emplace_back(std::move(key_path));
1510
            // For value: pass the full sub-path so qualifiers like OFFSET propagate.
1511
1.11k
            paths.data_access_path.path[0] = _val_iterator->column_name();
1512
1.11k
            val_all_access_paths.emplace_back(paths);
1513
1.46k
        } else if (paths.data_access_path.path[0] == ACCESS_MAP_KEYS) {
1514
1.19k
            paths.data_access_path.path[0] = _key_iterator->column_name();
1515
1.19k
            key_all_access_paths.emplace_back(paths);
1516
1.19k
        } else if (paths.data_access_path.path[0] == ACCESS_MAP_VALUES) {
1517
288
            paths.data_access_path.path[0] = _val_iterator->column_name();
1518
288
            val_all_access_paths.emplace_back(paths);
1519
288
        }
1520
2.57k
    }
1521
1.68k
    for (auto paths : sub_predicate_access_paths) {
1522
397
        if (paths.data_access_path.path[0] == ACCESS_ALL) {
1523
            // Same logic as above: key needs full data, value gets the sub-path.
1524
191
            TColumnAccessPath key_path;
1525
191
            key_path.__set_type(paths.type);
1526
191
            TDataAccessPath key_data_path;
1527
191
            key_data_path.__set_path({_key_iterator->column_name()});
1528
191
            key_path.__set_data_access_path(key_data_path);
1529
191
            key_predicate_access_paths.emplace_back(std::move(key_path));
1530
191
            paths.data_access_path.path[0] = _val_iterator->column_name();
1531
191
            val_predicate_access_paths.emplace_back(paths);
1532
206
        } else if (paths.data_access_path.path[0] == ACCESS_MAP_KEYS) {
1533
191
            paths.data_access_path.path[0] = _key_iterator->column_name();
1534
191
            key_predicate_access_paths.emplace_back(paths);
1535
191
        } else if (paths.data_access_path.path[0] == ACCESS_MAP_VALUES) {
1536
15
            paths.data_access_path.path[0] = _val_iterator->column_name();
1537
15
            val_predicate_access_paths.emplace_back(paths);
1538
15
        }
1539
397
    }
1540
1541
1.68k
    const auto need_read_keys =
1542
1.68k
            !key_all_access_paths.empty() || !key_predicate_access_paths.empty();
1543
1.68k
    const auto need_read_values =
1544
1.68k
            !val_all_access_paths.empty() || !val_predicate_access_paths.empty();
1545
1546
1.68k
    if (need_read_keys) {
1547
1.41k
        RETURN_IF_ERROR(
1548
1.41k
                _key_iterator->set_access_paths(key_all_access_paths, key_predicate_access_paths));
1549
        // Apply LAZY_OUTPUT after child predicate paths have been handled. Read requirements are
1550
        // monotonic, so a predicate-only child already promoted to PREDICATE will not
1551
        // be downgraded, while a non-predicate child becomes a lazy materialization target.
1552
1.41k
        _key_iterator->set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
1553
1.41k
    } else {
1554
269
        _key_iterator->set_read_requirement(ReadRequirement::SKIP);
1555
269
        DLOG(INFO) << "Map column iterator set key column to SKIP";
1556
269
    }
1557
1558
1.68k
    if (need_read_values) {
1559
1.37k
        RETURN_IF_ERROR(
1560
1.37k
                _val_iterator->set_access_paths(val_all_access_paths, val_predicate_access_paths));
1561
        // Same as keys: predicate-only value paths stay PREDICATE because this
1562
        // post-processing update cannot lower a stronger child requirement.
1563
1.37k
        _val_iterator->set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
1564
1.37k
    } else {
1565
301
        _val_iterator->set_read_requirement(ReadRequirement::SKIP);
1566
301
        DLOG(INFO) << "Map column iterator set value column to SKIP";
1567
301
    }
1568
1.68k
    return Status::OK();
1569
1.68k
}
1570
1571
81.7k
void MapFileColumnIterator::set_read_phase(ReadPhase mode) {
1572
81.7k
    ColumnIterator::set_read_phase(mode);
1573
81.7k
    _key_iterator->set_read_phase(mode);
1574
81.7k
    _val_iterator->set_read_phase(mode);
1575
81.7k
}
1576
1577
981
void MapFileColumnIterator::finalize_lazy_phase(MutableColumnPtr& dst) {
1578
981
    _recovery_from_place_holder_column(dst);
1579
981
    auto& map_column = assert_cast<ColumnMap&, TypeCheckOnRelease::DISABLE>(
1580
981
            dst->is_nullable() ? static_cast<ColumnNullable&>(*dst).get_nested_column() : *dst);
1581
981
    auto keys_ptr = IColumn::mutate(std::move(map_column.get_keys_ptr()));
1582
981
    auto vals_ptr = IColumn::mutate(std::move(map_column.get_values_ptr()));
1583
981
    _key_iterator->finalize_lazy_phase(keys_ptr);
1584
981
    _val_iterator->finalize_lazy_phase(vals_ptr);
1585
981
    map_column.get_keys_ptr() = std::move(keys_ptr);
1586
981
    map_column.get_values_ptr() = std::move(vals_ptr);
1587
981
}
1588
1589
47
void MapFileColumnIterator::set_read_requirement(ReadRequirement requirement) {
1590
47
    set_read_requirement_self(requirement);
1591
47
    _key_iterator->set_read_requirement(requirement);
1592
47
    _val_iterator->set_read_requirement(requirement);
1593
47
}
1594
1595
10.2k
bool MapFileColumnIterator::has_lazy_read_target() const {
1596
10.2k
    return _read_requirement == ReadRequirement::LAZY_OUTPUT ||
1597
10.2k
           _key_iterator->has_lazy_read_target() || _val_iterator->has_lazy_read_target();
1598
10.2k
}
1599
1600
////////////////////////////////////////////////////////////////////////////////
1601
1602
StructFileColumnIterator::StructFileColumnIterator(
1603
        std::shared_ptr<ColumnReader> reader, ColumnIteratorUPtr null_iterator,
1604
        std::vector<ColumnIteratorUPtr>&& sub_column_iterators)
1605
8.21k
        : _struct_reader(reader), _sub_column_iterators(std::move(sub_column_iterators)) {
1606
8.21k
    if (_struct_reader->is_nullable()) {
1607
7.31k
        _null_iterator = std::move(null_iterator);
1608
7.31k
    }
1609
8.21k
}
1610
1611
8.13k
Status StructFileColumnIterator::init(const ColumnIteratorOptions& opts) {
1612
8.13k
    if (_read_requirement == ReadRequirement::SKIP) {
1613
0
        DLOG(INFO) << "Struct column iterator column " << _column_name << " skip reading.";
1614
0
        return Status::OK();
1615
0
    }
1616
1617
29.8k
    for (auto& column_iterator : _sub_column_iterators) {
1618
29.8k
        RETURN_IF_ERROR(column_iterator->init(opts));
1619
29.8k
    }
1620
8.13k
    if (_struct_reader->is_nullable()) {
1621
7.30k
        RETURN_IF_ERROR(_null_iterator->init(opts));
1622
7.30k
    }
1623
8.13k
    return Status::OK();
1624
8.13k
}
1625
1626
11.6k
Status StructFileColumnIterator::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
1627
11.6k
    if (!need_to_read()) {
1628
2
        DLOG(INFO) << "Struct column iterator column " << _column_name << " skip reading.";
1629
2
        _convert_to_place_holder_column(dst, *n);
1630
2
        return Status::OK();
1631
2
    }
1632
1633
11.6k
    _recovery_from_place_holder_column(dst);
1634
1635
11.6k
    if (read_null_map_only()) {
1636
        // NULL_MAP_ONLY mode: read null map, fill nested ColumnStruct with empty defaults
1637
3
        DORIS_CHECK(is_column_nullable(*dst));
1638
3
        auto& nullable_col = assert_cast<ColumnNullable&>(*dst);
1639
3
        auto null_map_ptr = nullable_col.get_null_map_column_ptr();
1640
3
        size_t num_read = *n;
1641
3
        if (_null_iterator) {
1642
3
            bool null_signs_has_null = false;
1643
3
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
1644
3
            RETURN_IF_ERROR(
1645
3
                    _null_iterator->next_batch(&num_read, null_map_column, &null_signs_has_null));
1646
3
        } else {
1647
            // schema-change: column became nullable but old segment has no null data
1648
0
            null_map_ptr->insert_many_vals(0, num_read);
1649
0
        }
1650
3
        DCHECK(num_read == *n);
1651
        // fill nested ColumnStruct with defaults to maintain consistent column sizes
1652
3
        auto& column_struct = assert_cast<ColumnStruct&, TypeCheckOnRelease::DISABLE>(
1653
3
                nullable_col.get_nested_column());
1654
3
        column_struct.insert_many_defaults(num_read);
1655
3
        *has_null = true;
1656
3
        return Status::OK();
1657
3
    }
1658
1659
11.6k
    auto& column_struct = assert_cast<ColumnStruct&, TypeCheckOnRelease::DISABLE>(
1660
11.6k
            is_column_nullable(*dst) ? static_cast<ColumnNullable&>(*dst).get_nested_column()
1661
11.6k
                                     : *dst);
1662
40.4k
    for (size_t i = 0; i < column_struct.tuple_size(); i++) {
1663
28.7k
        size_t num_read = *n;
1664
28.7k
        auto sub_column_ptr = IColumn::mutate(std::move(column_struct.get_column_ptr(i)));
1665
28.7k
        Defer defer_sub_column {
1666
28.7k
                [&] { column_struct.get_column_ptr(i) = std::move(sub_column_ptr); }};
1667
28.7k
        bool column_has_null = false;
1668
28.7k
        RETURN_IF_ERROR(
1669
28.7k
                _sub_column_iterators[i]->next_batch(&num_read, sub_column_ptr, &column_has_null));
1670
28.7k
        DCHECK(num_read == *n);
1671
28.7k
    }
1672
1673
11.6k
    if (is_column_nullable(*dst) && need_to_read_meta_columns()) {
1674
7.34k
        size_t num_read = *n;
1675
7.34k
        auto null_map_ptr = static_cast<ColumnNullable&>(*dst).get_null_map_column_ptr();
1676
        // in not-null to null linked-schemachange mode,
1677
        // actually we do not change dat data include meta in footer,
1678
        // so may dst from changed meta which is nullable but old data is not nullable,
1679
        // if so, we should set null_map to all null by default
1680
7.34k
        if (_null_iterator) {
1681
7.25k
            bool null_signs_has_null = false;
1682
7.25k
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
1683
7.25k
            RETURN_IF_ERROR(
1684
7.25k
                    _null_iterator->next_batch(&num_read, null_map_column, &null_signs_has_null));
1685
7.25k
        } else {
1686
89
            null_map_ptr->insert_many_vals(0, num_read);
1687
89
        }
1688
7.34k
        DCHECK(num_read == *n);
1689
7.34k
    }
1690
1691
11.6k
    return Status::OK();
1692
11.6k
}
1693
1694
11.6k
Status StructFileColumnIterator::seek_to_ordinal(ordinal_t ord) {
1695
11.6k
    if (!need_to_read()) {
1696
2
        DLOG(INFO) << "Struct column iterator column " << _column_name << " skip reading.";
1697
2
        return Status::OK();
1698
2
    }
1699
1700
11.6k
    if (read_null_map_only()) {
1701
        // In NULL_MAP_ONLY mode, only seek the null iterator; skip all sub-column iterators
1702
2
        if (_struct_reader->is_nullable() && _null_iterator) {
1703
2
            RETURN_IF_ERROR(_null_iterator->seek_to_ordinal(ord));
1704
2
        }
1705
2
        return Status::OK();
1706
2
    }
1707
1708
28.7k
    for (auto& column_iterator : _sub_column_iterators) {
1709
28.7k
        RETURN_IF_ERROR(column_iterator->seek_to_ordinal(ord));
1710
28.7k
    }
1711
1712
11.6k
    if (_struct_reader->is_nullable() && need_to_read_meta_columns()) {
1713
7.25k
        RETURN_IF_ERROR(_null_iterator->seek_to_ordinal(ord));
1714
7.25k
    }
1715
11.6k
    return Status::OK();
1716
11.6k
}
1717
1718
3.52k
Status StructFileColumnIterator::init_prefetcher(const SegmentPrefetchParams& params) {
1719
10.4k
    for (auto& column_iterator : _sub_column_iterators) {
1720
10.4k
        RETURN_IF_ERROR(column_iterator->init_prefetcher(params));
1721
10.4k
    }
1722
3.52k
    if (_struct_reader->is_nullable()) {
1723
3.15k
        RETURN_IF_ERROR(_null_iterator->init_prefetcher(params));
1724
3.15k
    }
1725
3.52k
    return Status::OK();
1726
3.52k
}
1727
1728
void StructFileColumnIterator::collect_prefetchers(
1729
        std::map<PrefetcherInitMethod, std::vector<SegmentPrefetcher*>>& prefetchers,
1730
3.51k
        PrefetcherInitMethod init_method) {
1731
3.51k
    if (!need_to_read()) {
1732
0
        return;
1733
0
    }
1734
3.51k
    if (_struct_reader->is_nullable()) {
1735
3.14k
        _null_iterator->collect_prefetchers(prefetchers, init_method);
1736
3.14k
    }
1737
3.51k
    if (read_null_map_only()) {
1738
2
        return;
1739
2
    }
1740
10.3k
    for (auto& column_iterator : _sub_column_iterators) {
1741
10.3k
        if (column_iterator->need_to_read()) {
1742
10.0k
            column_iterator->collect_prefetchers(prefetchers, init_method);
1743
10.0k
        }
1744
10.3k
    }
1745
3.51k
}
1746
1747
Status StructFileColumnIterator::read_by_rowids(const rowid_t* rowids, const size_t count,
1748
3.83k
                                                MutableColumnPtr& dst) {
1749
3.83k
    if (!need_to_read()) {
1750
0
        DLOG(INFO) << "Struct column iterator column " << _column_name << " skip reading.";
1751
0
        _convert_to_place_holder_column(dst, count);
1752
0
        return Status::OK();
1753
0
    }
1754
1755
3.83k
    _recovery_from_place_holder_column(dst);
1756
1757
3.83k
    if (count == 0) {
1758
0
        return Status::OK();
1759
0
    }
1760
1761
3.83k
    size_t this_run = 1;
1762
3.83k
    auto start_idx = rowids[0];
1763
3.83k
    auto last_idx = rowids[0];
1764
6.25k
    for (size_t i = 1; i < count; ++i) {
1765
2.42k
        if (last_idx == rowids[i] - 1) {
1766
323
            last_idx = rowids[i];
1767
323
            this_run++;
1768
323
            continue;
1769
323
        }
1770
2.09k
        RETURN_IF_ERROR(seek_to_ordinal(start_idx));
1771
2.09k
        size_t num_read = this_run;
1772
2.09k
        RETURN_IF_ERROR(next_batch(&num_read, dst));
1773
2.09k
        DCHECK_EQ(num_read, this_run);
1774
1775
2.09k
        start_idx = rowids[i];
1776
2.09k
        last_idx = rowids[i];
1777
2.09k
        this_run = 1;
1778
2.09k
    }
1779
1780
3.83k
    RETURN_IF_ERROR(seek_to_ordinal(start_idx));
1781
3.83k
    size_t num_read = this_run;
1782
3.83k
    RETURN_IF_ERROR(next_batch(&num_read, dst));
1783
3.83k
    DCHECK_EQ(num_read, this_run);
1784
3.83k
    return Status::OK();
1785
3.83k
}
1786
1787
7.06k
void StructFileColumnIterator::set_lazy_output_requirement() {
1788
7.06k
    set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
1789
27.0k
    for (auto& sub_iterator : _sub_column_iterators) {
1790
27.0k
        sub_iterator->set_lazy_output_requirement();
1791
27.0k
    }
1792
7.06k
}
1793
1794
7.29k
void StructFileColumnIterator::remove_pruned_sub_iterators() {
1795
36.2k
    for (auto it = _sub_column_iterators.begin(); it != _sub_column_iterators.end();) {
1796
28.9k
        auto& sub_iterator = *it;
1797
28.9k
        if (sub_iterator->read_requirement() == ReadRequirement::SKIP) {
1798
1.45k
            DLOG(INFO) << "Struct column iterator remove pruned sub-column "
1799
1.45k
                       << sub_iterator->column_name();
1800
1.45k
            it = _sub_column_iterators.erase(it);
1801
27.4k
        } else {
1802
27.4k
            sub_iterator->remove_pruned_sub_iterators();
1803
27.4k
            ++it;
1804
27.4k
        }
1805
28.9k
    }
1806
7.29k
}
1807
1808
Status StructFileColumnIterator::set_access_paths(
1809
        const TColumnAccessPaths& all_access_paths,
1810
6.77k
        const TColumnAccessPaths& predicate_access_paths) {
1811
6.77k
    if (all_access_paths.empty() && predicate_access_paths.empty()) {
1812
1.87k
        return Status::OK();
1813
1.87k
    }
1814
1815
4.90k
    const auto requirement_before_access_path = _read_requirement;
1816
4.90k
    if (!predicate_access_paths.empty()) {
1817
126
        set_read_requirement_self(ReadRequirement::PREDICATE);
1818
126
        DLOG(INFO) << "Struct column iterator set sub-column " << _column_name << " to PREDICATE";
1819
126
    }
1820
1821
4.90k
    const bool has_current_level_data_path =
1822
5.13k
            std::ranges::any_of(all_access_paths, [this](const TColumnAccessPath& path) {
1823
5.13k
                return is_current_level_data_access_path(path, _column_name);
1824
5.13k
            });
1825
4.90k
    auto sub_all_access_paths = DORIS_TRY(_get_sub_access_paths(all_access_paths));
1826
4.90k
    auto sub_predicate_access_paths =
1827
4.90k
            DORIS_TRY(_get_sub_access_paths(predicate_access_paths, true));
1828
4.90k
    if (has_current_level_data_path) {
1829
4.59k
        remove_current_level_meta_access_paths(sub_all_access_paths);
1830
4.59k
    }
1831
4.90k
    const bool has_current_level_predicate_meta_path =
1832
4.90k
            std::ranges::any_of(sub_predicate_access_paths, is_current_level_meta_access_path);
1833
    // Current-level predicate metadata paths are consumed by this struct iterator and must not be
1834
    // forwarded to child fields. The FE keeps all_access_paths as a superset of predicate paths, so
1835
    // NULL_MAP_ONLY is still decided from sub_all_access_paths below.
1836
4.90k
    remove_current_level_meta_access_paths(sub_predicate_access_paths);
1837
1838
4.90k
    if (sub_predicate_access_paths.empty()) {
1839
        // Check for NULL_MAP_ONLY mode: only read null map, skip all sub-columns.
1840
        // Do not take this early return when predicate child paths must still be read.
1841
4.78k
        _check_and_set_meta_read_mode(requirement_before_access_path, sub_all_access_paths);
1842
4.78k
        if (read_null_map_only()) {
1843
9
            for (auto& sub_iterator : _sub_column_iterators) {
1844
9
                sub_iterator->set_read_requirement(ReadRequirement::SKIP);
1845
9
            }
1846
5
            DLOG(INFO) << "Struct column iterator set column " << _column_name
1847
5
                       << " to NULL_MAP_ONLY meta read mode, all sub-columns set to SKIP";
1848
5
            return Status::OK();
1849
5
        }
1850
4.78k
    }
1851
1852
4.89k
    const auto no_sub_column_to_skip = sub_all_access_paths.empty();
1853
4.89k
    const auto no_predicate_sub_column = sub_predicate_access_paths.empty();
1854
1855
23.5k
    for (auto& sub_iterator : _sub_column_iterators) {
1856
23.5k
        const auto name = sub_iterator->column_name();
1857
23.5k
        TColumnAccessPaths sub_all_access_paths_of_this;
1858
23.5k
        if (!no_sub_column_to_skip) {
1859
2.86k
            for (const auto& paths : sub_all_access_paths) {
1860
2.86k
                if (paths.data_access_path.path[0] == name) {
1861
520
                    sub_all_access_paths_of_this.emplace_back(paths);
1862
520
                }
1863
2.86k
            }
1864
1.97k
        }
1865
1866
23.5k
        TColumnAccessPaths sub_predicate_access_paths_of_this;
1867
23.5k
        if (!no_predicate_sub_column) {
1868
1.08k
            for (const auto& paths : sub_predicate_access_paths) {
1869
1.08k
                if (StringCaseEqual()(paths.data_access_path.path[0], name)) {
1870
114
                    sub_predicate_access_paths_of_this.emplace_back(paths);
1871
114
                }
1872
1.08k
            }
1873
1.08k
        }
1874
1875
        // Predicate-only child paths still need to be routed to the child iterator
1876
        // even when the child is not requested by ordinary projection access paths.
1877
23.5k
        const bool need_to_read = no_sub_column_to_skip || !sub_all_access_paths_of_this.empty() ||
1878
23.5k
                                  !sub_predicate_access_paths_of_this.empty();
1879
23.5k
        if (!need_to_read) {
1880
1.46k
            set_read_requirement_self(ReadRequirement::SKIP);
1881
1.46k
            sub_iterator->set_read_requirement(ReadRequirement::SKIP);
1882
1.46k
            DLOG(INFO) << "Struct column iterator set sub-column " << name << " to SKIP";
1883
1.46k
            continue;
1884
1.46k
        }
1885
1886
22.0k
        if (no_predicate_sub_column && _read_requirement == ReadRequirement::PREDICATE &&
1887
22.0k
            !has_current_level_predicate_meta_path) {
1888
            // if no sub-column in predicate_access_paths, but current column is PREDICATE,
1889
            // then we should set sub iterator to PREDICATE too.
1890
6
            sub_iterator->set_read_requirement(ReadRequirement::PREDICATE);
1891
6
        }
1892
1893
22.0k
        RETURN_IF_ERROR(sub_iterator->set_access_paths(sub_all_access_paths_of_this,
1894
22.0k
                                                       sub_predicate_access_paths_of_this));
1895
        // Set LAZY_OUTPUT after routing child predicate paths. If the child was needed only for
1896
        // predicate evaluation, set_access_paths() has already promoted it to
1897
        // PREDICATE and this monotonic update will not downgrade it. Otherwise, this
1898
        // marks the child as a lazy materialization target.
1899
22.0k
        set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
1900
22.0k
        sub_iterator->set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
1901
22.0k
    }
1902
4.89k
    return Status::OK();
1903
4.89k
}
1904
1905
36.1k
void StructFileColumnIterator::set_read_phase(ReadPhase mode) {
1906
36.1k
    ColumnIterator::set_read_phase(mode);
1907
105k
    for (auto& sub_iterator : _sub_column_iterators) {
1908
105k
        sub_iterator->set_read_phase(mode);
1909
105k
    }
1910
36.1k
}
1911
1912
1.91k
void StructFileColumnIterator::finalize_lazy_phase(MutableColumnPtr& dst) {
1913
1.91k
    _recovery_from_place_holder_column(dst);
1914
1.91k
    auto& column_struct = assert_cast<ColumnStruct&, TypeCheckOnRelease::DISABLE>(
1915
1.91k
            dst->is_nullable() ? static_cast<ColumnNullable&>(*dst).get_nested_column() : *dst);
1916
1917
5.29k
    for (size_t i = 0; i < _sub_column_iterators.size(); ++i) {
1918
3.37k
        auto& sub_column = column_struct.get_column_ptr(i);
1919
3.37k
        MutableColumnPtr mutable_sub_column = IColumn::mutate(std::move(sub_column));
1920
3.37k
        _sub_column_iterators[i]->finalize_lazy_phase(mutable_sub_column);
1921
3.37k
        sub_column = std::move(mutable_sub_column);
1922
3.37k
    }
1923
1.91k
}
1924
1925
18
void StructFileColumnIterator::set_read_requirement(ReadRequirement requirement) {
1926
18
    set_read_requirement_self(requirement);
1927
36
    for (const auto& sub_column_iterator : _sub_column_iterators) {
1928
36
        sub_column_iterator->set_read_requirement(requirement);
1929
36
    }
1930
18
}
1931
1932
18.9k
bool StructFileColumnIterator::has_lazy_read_target() const {
1933
18.9k
    if (_read_requirement == ReadRequirement::LAZY_OUTPUT) {
1934
2.46k
        return true;
1935
2.46k
    }
1936
16.4k
    return std::any_of(_sub_column_iterators.begin(), _sub_column_iterators.end(),
1937
19.3k
                       [](const auto& sub_column_iterator) {
1938
19.3k
                           return sub_column_iterator->has_lazy_read_target();
1939
19.3k
                       });
1940
18.9k
}
1941
1942
////////////////////////////////////////////////////////////////////////////////
1943
101k
Status OffsetFileColumnIterator::init(const ColumnIteratorOptions& opts) {
1944
101k
    RETURN_IF_ERROR(_offset_iterator->init(opts));
1945
    // allocate peek tmp column once
1946
101k
    _peek_tmp_col = ColumnOffset64::create();
1947
101k
    return Status::OK();
1948
101k
}
1949
1950
139k
Status OffsetFileColumnIterator::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
1951
139k
    RETURN_IF_ERROR(_offset_iterator->next_batch(n, dst, has_null));
1952
139k
    return Status::OK();
1953
139k
}
1954
1955
262k
Status OffsetFileColumnIterator::_peek_one_offset(ordinal_t* offset) {
1956
262k
    if (_offset_iterator->get_current_page()->has_remaining()) {
1957
172k
        PageDecoder* offset_page_decoder = _offset_iterator->get_current_page()->data_decoder.get();
1958
172k
        size_t n = 1;
1959
172k
        _peek_tmp_col->clear();
1960
172k
        RETURN_IF_ERROR(offset_page_decoder->peek_next_batch(&n, _peek_tmp_col)); // not null
1961
172k
        DCHECK(_peek_tmp_col->size() == 1);
1962
172k
        *offset =
1963
172k
                assert_cast<const ColumnOffset64*, TypeCheckOnRelease::DISABLE>(_peek_tmp_col.get())
1964
172k
                        ->get_element(0);
1965
172k
    } else {
1966
89.6k
        *offset = _offset_iterator->get_current_page()->next_array_item_ordinal;
1967
89.6k
    }
1968
262k
    return Status::OK();
1969
262k
}
1970
1971
54.5k
Status OffsetFileColumnIterator::init_prefetcher(const SegmentPrefetchParams& params) {
1972
54.5k
    return _offset_iterator->init_prefetcher(params);
1973
54.5k
}
1974
1975
void OffsetFileColumnIterator::collect_prefetchers(
1976
        std::map<PrefetcherInitMethod, std::vector<SegmentPrefetcher*>>& prefetchers,
1977
54.3k
        PrefetcherInitMethod init_method) {
1978
54.3k
    _offset_iterator->collect_prefetchers(prefetchers, init_method);
1979
54.3k
}
1980
1981
/**
1982
 *  first_storage_offset read from page should smaller than next_storage_offset which here call _peek_one_offset from page,
1983
    and first_column_offset is keep in memory data which is different dimension with (first_storage_offset and next_storage_offset)
1984
     eg. step1. read page: first_storage_offset = 16382
1985
         step2. read page below with _peek_one_offset(&last_offset): last_offset = 16387
1986
         step3. first_offset = 126 which is calculate in column offsets
1987
         for loop column offsets element in size
1988
            we can calculate from first_storage_offset to next_storage_offset one by one to fill with offsets_data in memory column offsets
1989
 * @param start
1990
 * @param column_offsets
1991
 * @return
1992
 */
1993
Status OffsetFileColumnIterator::_calculate_offsets(ssize_t start,
1994
125k
                                                    ColumnArray::ColumnOffsets& column_offsets) {
1995
125k
    ordinal_t next_storage_offset = 0;
1996
125k
    RETURN_IF_ERROR(_peek_one_offset(&next_storage_offset));
1997
1998
    // calculate real offsets
1999
125k
    auto& offsets_data = column_offsets.get_data();
2000
125k
    ordinal_t first_column_offset = offsets_data[start - 1]; // -1 is valid
2001
125k
    ordinal_t first_storage_offset = offsets_data[start];
2002
125k
    DCHECK(next_storage_offset >= first_storage_offset);
2003
14.6M
    for (ssize_t i = start; i < offsets_data.size() - 1; ++i) {
2004
14.4M
        offsets_data[i] = first_column_offset + (offsets_data[i + 1] - first_storage_offset);
2005
14.4M
    }
2006
    // last offset
2007
125k
    offsets_data[offsets_data.size() - 1] =
2008
125k
            first_column_offset + (next_storage_offset - first_storage_offset);
2009
125k
    return Status::OK();
2010
125k
}
2011
2012
////////////////////////////////////////////////////////////////////////////////
2013
ArrayFileColumnIterator::ArrayFileColumnIterator(std::shared_ptr<ColumnReader> reader,
2014
                                                 OffsetFileColumnIteratorUPtr offset_reader,
2015
                                                 ColumnIteratorUPtr item_iterator,
2016
                                                 ColumnIteratorUPtr null_iterator)
2017
66.0k
        : _array_reader(reader),
2018
66.0k
          _offset_iterator(std::move(offset_reader)),
2019
66.0k
          _item_iterator(std::move(item_iterator)) {
2020
66.0k
    if (_array_reader->is_nullable()) {
2021
46.9k
        _null_iterator = std::move(null_iterator);
2022
46.9k
    }
2023
66.0k
}
2024
2025
65.9k
Status ArrayFileColumnIterator::init(const ColumnIteratorOptions& opts) {
2026
65.9k
    if (_read_requirement == ReadRequirement::SKIP) {
2027
56
        DLOG(INFO) << "Array column iterator column " << _column_name << " skip reading.";
2028
56
        return Status::OK();
2029
56
    }
2030
2031
65.8k
    RETURN_IF_ERROR(_offset_iterator->init(opts));
2032
65.8k
    RETURN_IF_ERROR(_item_iterator->init(opts));
2033
65.8k
    if (_array_reader->is_nullable()) {
2034
46.9k
        RETURN_IF_ERROR(_null_iterator->init(opts));
2035
46.9k
    }
2036
65.8k
    return Status::OK();
2037
65.8k
}
2038
2039
101k
Status ArrayFileColumnIterator::_seek_by_offsets(ordinal_t ord) {
2040
101k
    if (read_offset_only()) {
2041
        // In OFFSET_ONLY mode, item iterator is SKIP, no need to seek it
2042
1.34k
        return Status::OK();
2043
1.34k
    }
2044
    // using offsets info
2045
99.8k
    ordinal_t offset = 0;
2046
99.8k
    RETURN_IF_ERROR(_offset_iterator->_peek_one_offset(&offset));
2047
99.8k
    RETURN_IF_ERROR(_item_iterator->seek_to_ordinal(offset));
2048
99.8k
    return Status::OK();
2049
99.8k
}
2050
2051
102k
Status ArrayFileColumnIterator::seek_to_ordinal(ordinal_t ord) {
2052
102k
    if (!need_to_read()) {
2053
1.29k
        DLOG(INFO) << "Array column iterator column " << _column_name << " skip reading.";
2054
1.29k
        return Status::OK();
2055
1.29k
    }
2056
2057
101k
    if (read_null_map_only()) {
2058
        // In NULL_MAP_ONLY mode, only seek the null iterator; skip offset and item iterators
2059
4
        if (_array_reader->is_nullable() && _null_iterator) {
2060
4
            RETURN_IF_ERROR(_null_iterator->seek_to_ordinal(ord));
2061
4
        }
2062
4
        return Status::OK();
2063
4
    }
2064
2065
101k
    RETURN_IF_ERROR(_offset_iterator->seek_to_ordinal(ord));
2066
101k
    if (_array_reader->is_nullable()) {
2067
81.3k
        RETURN_IF_ERROR(_null_iterator->seek_to_ordinal(ord));
2068
81.3k
    }
2069
101k
    return _seek_by_offsets(ord);
2070
101k
}
2071
2072
102k
Status ArrayFileColumnIterator::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
2073
102k
    if (!need_to_read()) {
2074
1.29k
        DLOG(INFO) << "Array column iterator column " << _column_name << " skip reading, read phase"
2075
1.29k
                   << static_cast<int>(_read_phase)
2076
1.29k
                   << ", read requirement: " << static_cast<int>(_read_requirement);
2077
1.29k
        _convert_to_place_holder_column(dst, *n);
2078
1.29k
        return Status::OK();
2079
1.29k
    }
2080
2081
101k
    _recovery_from_place_holder_column(dst);
2082
2083
101k
    if (read_null_map_only()) {
2084
        // NULL_MAP_ONLY mode: read null map, fill nested ColumnArray with empty defaults
2085
5
        DORIS_CHECK(is_column_nullable(*dst));
2086
5
        auto& nullable_col = assert_cast<ColumnNullable&>(*dst);
2087
5
        auto null_map_ptr = nullable_col.get_null_map_column_ptr();
2088
5
        size_t num_read = *n;
2089
5
        if (_null_iterator) {
2090
5
            bool null_signs_has_null = false;
2091
5
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
2092
5
            RETURN_IF_ERROR(
2093
5
                    _null_iterator->next_batch(&num_read, null_map_column, &null_signs_has_null));
2094
5
        } else {
2095
            // schema-change: column became nullable but old segment has no null data
2096
0
            null_map_ptr->insert_many_vals(0, num_read);
2097
0
        }
2098
5
        DCHECK(num_read == *n);
2099
        // fill nested ColumnArray with empty (zero-length) arrays
2100
5
        auto& column_array = assert_cast<ColumnArray&, TypeCheckOnRelease::DISABLE>(
2101
5
                nullable_col.get_nested_column());
2102
5
        column_array.insert_many_defaults(num_read);
2103
5
        *has_null = true;
2104
5
        return Status::OK();
2105
5
    }
2106
2107
101k
    auto& column_array = assert_cast<ColumnArray&, TypeCheckOnRelease::DISABLE>(
2108
101k
            is_column_nullable(*dst) ? static_cast<ColumnNullable&>(*dst).get_nested_column()
2109
101k
                                     : *dst);
2110
2111
101k
    bool offsets_has_null = false;
2112
101k
    const bool read_meta_columns = need_to_read_meta_columns();
2113
101k
    MutableColumnPtr column_offsets_ptr;
2114
101k
    if (read_meta_columns) {
2115
100k
        column_offsets_ptr = IColumn::mutate(std::move(column_array.get_offsets_ptr()));
2116
100k
    } else {
2117
1.10k
        const auto base_offset =
2118
1.10k
                column_array.get_offsets().empty() ? 0 : column_array.get_offsets().back();
2119
1.10k
        column_offsets_ptr = ColumnArray::ColumnOffsets::create();
2120
1.10k
        assert_cast<ColumnOffset64&, TypeCheckOnRelease::DISABLE>(*column_offsets_ptr)
2121
1.10k
                .insert_value(base_offset);
2122
1.10k
    }
2123
101k
    Defer defer_offsets {[&] {
2124
101k
        if (read_meta_columns) {
2125
100k
            auto typed_column_offsets_ptr = ColumnArray::ColumnOffsets::cast_to_column_mutptr(
2126
100k
                    assert_cast<ColumnArray::ColumnOffsets*, TypeCheckOnRelease::DISABLE>(
2127
100k
                            column_offsets_ptr.get()));
2128
100k
            column_offsets_ptr = nullptr;
2129
100k
            column_array.get_offsets_ptr() = std::move(typed_column_offsets_ptr);
2130
100k
        }
2131
101k
    }};
2132
101k
    ssize_t start = column_offsets_ptr->size();
2133
101k
    RETURN_IF_ERROR(_offset_iterator->next_batch(n, column_offsets_ptr, &offsets_has_null));
2134
101k
    if (*n == 0) {
2135
0
        return Status::OK();
2136
0
    }
2137
101k
    auto& column_offsets = static_cast<ColumnArray::ColumnOffsets&>(*column_offsets_ptr);
2138
101k
    RETURN_IF_ERROR(_offset_iterator->_calculate_offsets(start, column_offsets));
2139
101k
    size_t num_items =
2140
101k
            column_offsets.get_data().back() - column_offsets.get_data()[start - 1]; // -1 is valid
2141
101k
    if (num_items > 0) {
2142
77.8k
        auto column_items_ptr = IColumn::mutate(std::move(column_array.get_data_ptr()));
2143
77.8k
        Defer defer_items {[&] { column_array.get_data_ptr() = std::move(column_items_ptr); }};
2144
77.8k
        if (read_offset_only()) {
2145
            // OFFSET_ONLY mode: skip reading actual item data, fill with defaults
2146
1.01k
            column_items_ptr->insert_many_defaults(num_items);
2147
76.7k
        } else {
2148
76.7k
            size_t num_read = num_items;
2149
76.7k
            bool items_has_null = false;
2150
76.7k
            RETURN_IF_ERROR(
2151
76.7k
                    _item_iterator->next_batch(&num_read, column_items_ptr, &items_has_null));
2152
76.7k
            DCHECK(num_read == num_items);
2153
76.7k
        }
2154
77.8k
    }
2155
2156
101k
    if (is_column_nullable(*dst) && read_meta_columns) {
2157
80.3k
        auto null_map_ptr = static_cast<ColumnNullable&>(*dst).get_null_map_column_ptr();
2158
80.3k
        size_t num_read = *n;
2159
        // in not-null to null linked-schemachange mode,
2160
        // actually we do not change dat data include meta in footer,
2161
        // so may dst from changed meta which is nullable but old data is not nullable,
2162
        // if so, we should set null_map to all null by default
2163
80.4k
        if (_null_iterator) {
2164
80.4k
            bool null_signs_has_null = false;
2165
80.4k
            MutableColumnPtr null_map_column = std::move(null_map_ptr);
2166
80.4k
            RETURN_IF_ERROR(
2167
80.4k
                    _null_iterator->next_batch(&num_read, null_map_column, &null_signs_has_null));
2168
18.4E
        } else {
2169
18.4E
            null_map_ptr->insert_many_vals(0, num_read);
2170
18.4E
        }
2171
80.3k
        DCHECK(num_read == *n);
2172
80.3k
    }
2173
2174
101k
    return Status::OK();
2175
101k
}
2176
2177
47.4k
Status ArrayFileColumnIterator::init_prefetcher(const SegmentPrefetchParams& params) {
2178
47.4k
    RETURN_IF_ERROR(_offset_iterator->init_prefetcher(params));
2179
47.4k
    RETURN_IF_ERROR(_item_iterator->init_prefetcher(params));
2180
47.4k
    if (_array_reader->is_nullable()) {
2181
30.1k
        RETURN_IF_ERROR(_null_iterator->init_prefetcher(params));
2182
30.1k
    }
2183
47.4k
    return Status::OK();
2184
47.4k
}
2185
2186
void ArrayFileColumnIterator::collect_prefetchers(
2187
        std::map<PrefetcherInitMethod, std::vector<SegmentPrefetcher*>>& prefetchers,
2188
47.3k
        PrefetcherInitMethod init_method) {
2189
47.3k
    if (!need_to_read()) {
2190
0
        return;
2191
0
    }
2192
47.3k
    if (!read_null_map_only()) {
2193
47.3k
        _offset_iterator->collect_prefetchers(prefetchers, init_method);
2194
47.3k
    }
2195
47.3k
    if (_array_reader->is_nullable()) {
2196
30.0k
        _null_iterator->collect_prefetchers(prefetchers, init_method);
2197
30.0k
    }
2198
47.3k
    if (read_offset_only() || read_null_map_only()) {
2199
1.34k
        return;
2200
1.34k
    }
2201
    // the actual data pages to read of item column depends on the read result of offset column,
2202
    // so we can't init prefetch blocks according to rowids, just prefetch all data blocks here.
2203
46.0k
    if (_item_iterator->need_to_read()) {
2204
45.9k
        _item_iterator->collect_prefetchers(prefetchers, PrefetcherInitMethod::ALL_DATA_BLOCKS);
2205
45.9k
    }
2206
46.0k
}
2207
2208
Status ArrayFileColumnIterator::read_by_rowids(const rowid_t* rowids, const size_t count,
2209
34.0k
                                               MutableColumnPtr& dst) {
2210
34.0k
    if (!need_to_read()) {
2211
0
        DLOG(INFO) << "Array column iterator column " << _column_name << " skip reading.";
2212
0
        _convert_to_place_holder_column(dst, count);
2213
0
        return Status::OK();
2214
0
    }
2215
2216
34.0k
    _recovery_from_place_holder_column(dst);
2217
2218
105k
    for (size_t i = 0; i < count; ++i) {
2219
        // TODO(cambyszju): now read array one by one, need optimize later
2220
71.5k
        RETURN_IF_ERROR(seek_to_ordinal(rowids[i]));
2221
71.5k
        size_t num_read = 1;
2222
71.5k
        RETURN_IF_ERROR(next_batch(&num_read, dst));
2223
71.5k
    }
2224
34.0k
    return Status::OK();
2225
34.0k
}
2226
2227
48.3k
void ArrayFileColumnIterator::set_lazy_output_requirement() {
2228
48.3k
    set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
2229
48.3k
    _item_iterator->set_lazy_output_requirement();
2230
48.3k
}
2231
2232
53.8k
void ArrayFileColumnIterator::remove_pruned_sub_iterators() {
2233
53.8k
    _item_iterator->remove_pruned_sub_iterators();
2234
53.8k
}
2235
2236
306k
void ArrayFileColumnIterator::set_read_phase(ReadPhase mode) {
2237
306k
    ColumnIterator::set_read_phase(mode);
2238
306k
    _item_iterator->set_read_phase(mode);
2239
306k
}
2240
2241
1.02k
void ArrayFileColumnIterator::finalize_lazy_phase(MutableColumnPtr& dst) {
2242
1.02k
    _recovery_from_place_holder_column(dst);
2243
1.02k
    auto& column_array = assert_cast<ColumnArray&, TypeCheckOnRelease::DISABLE>(
2244
1.02k
            dst->is_nullable() ? static_cast<ColumnNullable&>(*dst).get_nested_column() : *dst);
2245
1.02k
    auto item_column_ptr = IColumn::mutate(std::move(column_array.get_data_ptr()));
2246
1.02k
    _item_iterator->finalize_lazy_phase(item_column_ptr);
2247
1.02k
    column_array.get_data_ptr() = std::move(item_column_ptr);
2248
1.02k
}
2249
2250
3.05k
void ArrayFileColumnIterator::set_read_requirement(ReadRequirement requirement) {
2251
3.05k
    set_read_requirement_self(requirement);
2252
3.05k
    _item_iterator->set_read_requirement(requirement);
2253
3.05k
}
2254
2255
12.9k
bool ArrayFileColumnIterator::has_lazy_read_target() const {
2256
12.9k
    return _read_requirement == ReadRequirement::LAZY_OUTPUT ||
2257
12.9k
           _item_iterator->has_lazy_read_target();
2258
12.9k
}
2259
2260
Status ArrayFileColumnIterator::set_access_paths(const TColumnAccessPaths& all_access_paths,
2261
53.3k
                                                 const TColumnAccessPaths& predicate_access_paths) {
2262
53.3k
    if (all_access_paths.empty() && predicate_access_paths.empty()) {
2263
1.76k
        return Status::OK();
2264
1.76k
    }
2265
2266
51.5k
    const auto requirement_before_access_path = _read_requirement;
2267
51.5k
    if (!predicate_access_paths.empty()) {
2268
3.45k
        set_read_requirement_self(ReadRequirement::PREDICATE);
2269
3.45k
        DLOG(INFO) << "Array column iterator set sub-column " << _column_name << " to PREDICATE";
2270
3.45k
    }
2271
2272
51.5k
    const bool has_current_level_data_path =
2273
51.6k
            std::ranges::any_of(all_access_paths, [this](const TColumnAccessPath& path) {
2274
51.6k
                return is_current_level_data_access_path(path, _column_name);
2275
51.6k
            });
2276
51.5k
    auto sub_all_access_paths = DORIS_TRY(_get_sub_access_paths(all_access_paths));
2277
51.5k
    auto sub_predicate_access_paths =
2278
51.5k
            DORIS_TRY(_get_sub_access_paths(predicate_access_paths, true));
2279
51.5k
    if (has_current_level_data_path) {
2280
        // A current-level data path already reads the array offsets while materializing the array.
2281
        // Do not let a redundant current-level OFFSET/NULL path switch this iterator into a
2282
        // meta-only mode that would skip item data.
2283
45.9k
        remove_current_level_meta_access_paths(sub_all_access_paths);
2284
45.9k
    }
2285
51.5k
    const bool has_current_level_predicate_meta_path =
2286
51.5k
            std::ranges::any_of(sub_predicate_access_paths, is_current_level_meta_access_path);
2287
    // Current-level predicate metadata paths are consumed by this array iterator and must not be
2288
    // forwarded to the item iterator. The FE keeps all_access_paths as a superset of predicate
2289
    // paths, so meta-only mode is still decided from sub_all_access_paths below.
2290
51.5k
    auto removed =
2291
51.5k
            std::ranges::remove_if(sub_predicate_access_paths, is_current_level_meta_access_path);
2292
51.5k
    sub_predicate_access_paths.erase(removed.begin(), removed.end());
2293
2294
51.5k
    if (sub_predicate_access_paths.empty()) {
2295
        // Check for meta-only modes (OFFSET_ONLY or NULL_MAP_ONLY). Only skip the item
2296
        // iterator when no predicate sub-path needs it in the predicate phase.
2297
51.2k
        _check_and_set_meta_read_mode(requirement_before_access_path, sub_all_access_paths);
2298
51.2k
        if (read_offset_only()) {
2299
1.32k
            _item_iterator->set_read_requirement(ReadRequirement::SKIP);
2300
1.32k
            DLOG(INFO) << "Array column iterator set column " << _column_name
2301
1.32k
                       << " to OFFSET_ONLY meta read mode, item column set to SKIP";
2302
1.32k
            return Status::OK();
2303
1.32k
        }
2304
49.9k
        if (read_null_map_only()) {
2305
14
            _item_iterator->set_read_requirement(ReadRequirement::SKIP);
2306
14
            DLOG(INFO) << "Array column iterator set column " << _column_name
2307
14
                       << " to NULL_MAP_ONLY meta read mode, item column set to SKIP";
2308
14
            return Status::OK();
2309
14
        }
2310
49.9k
    }
2311
    // OFFSET/NULL at the current array level is consumed by this iterator. After deciding that
2312
    // the array is not in a meta-only mode, do not forward those paths to the item iterator.
2313
50.2k
    remove_current_level_meta_access_paths(sub_all_access_paths);
2314
2315
50.2k
    const auto no_sub_column_to_skip = sub_all_access_paths.empty();
2316
50.2k
    const auto no_predicate_sub_column = sub_predicate_access_paths.empty();
2317
2318
50.2k
    if (!no_sub_column_to_skip) {
2319
4.42k
        for (auto& path : sub_all_access_paths) {
2320
4.42k
            if (path.data_access_path.path[0] == ACCESS_ALL) {
2321
4.41k
                path.data_access_path.path[0] = _item_iterator->column_name();
2322
4.41k
            }
2323
4.42k
        }
2324
4.36k
    }
2325
2326
50.2k
    if (no_predicate_sub_column) {
2327
        // Current-level predicate meta paths (OFFSET/NULL) are consumed by the array itself and
2328
        // removed before forwarding paths to the item iterator. If they are the only predicate
2329
        // paths, the item iterator may still be needed later for lazy materialization, but it must
2330
        // not be promoted to PREDICATE. Only propagate the predicate requirement when the
2331
        // parent predicate really applies to the item/whole value instead of array metadata only.
2332
49.8k
        if (_read_requirement == ReadRequirement::PREDICATE &&
2333
49.8k
            !has_current_level_predicate_meta_path) {
2334
2.98k
            _item_iterator->set_read_requirement(ReadRequirement::PREDICATE);
2335
2.98k
        }
2336
49.8k
    } else {
2337
444
        for (auto& path : sub_predicate_access_paths) {
2338
404
            if (path.data_access_path.path[0] == ACCESS_ALL) {
2339
404
                path.data_access_path.path[0] = _item_iterator->column_name();
2340
404
            }
2341
404
        }
2342
444
    }
2343
2344
50.2k
    if (!no_sub_column_to_skip || !no_predicate_sub_column) {
2345
4.35k
        RETURN_IF_ERROR(
2346
4.35k
                _item_iterator->set_access_paths(sub_all_access_paths, sub_predicate_access_paths));
2347
        // Predicate-only item paths stay PREDICATE because this update runs after
2348
        // child set_access_paths() and read requirements are monotonic. Non-predicate item paths are
2349
        // marked as lazy materialization targets.
2350
4.35k
        _item_iterator->set_read_requirement_self(ReadRequirement::LAZY_OUTPUT);
2351
4.35k
    }
2352
50.2k
    return Status::OK();
2353
50.2k
}
2354
2355
////////////////////////////////////////////////////////////////////////////////
2356
// StringFileColumnIterator implementation
2357
////////////////////////////////////////////////////////////////////////////////
2358
2359
StringFileColumnIterator::StringFileColumnIterator(std::shared_ptr<ColumnReader> reader)
2360
16.1M
        : FileColumnIterator(std::move(reader)) {}
2361
2362
16.1M
Status StringFileColumnIterator::init(const ColumnIteratorOptions& opts) {
2363
16.1M
    if (read_offset_only()) {
2364
        // Propagate only_read_offsets to the FileColumnIterator's options
2365
122
        auto modified_opts = opts;
2366
122
        modified_opts.only_read_offsets = true;
2367
122
        return FileColumnIterator::init(modified_opts);
2368
122
    }
2369
16.1M
    return FileColumnIterator::init(opts);
2370
16.1M
}
2371
2372
Status StringFileColumnIterator::set_access_paths(
2373
        const TColumnAccessPaths& all_access_paths,
2374
5.72k
        const TColumnAccessPaths& predicate_access_paths) {
2375
5.72k
    if (all_access_paths.empty() && predicate_access_paths.empty()) {
2376
4.11k
        return Status::OK();
2377
4.11k
    }
2378
2379
1.60k
    const auto requirement_before_access_path = _read_requirement;
2380
1.60k
    if (!predicate_access_paths.empty()) {
2381
408
        set_read_requirement(ReadRequirement::PREDICATE);
2382
408
    }
2383
2384
1.60k
    const bool has_current_level_data_path =
2385
1.60k
            std::ranges::any_of(all_access_paths, [this](const TColumnAccessPath& path) {
2386
1.58k
                return is_current_level_data_access_path(path, _column_name);
2387
1.58k
            });
2388
    // Strip the column name from path[0] before checking for meta-only modes.
2389
    // Raw paths look like ["col_name", "OFFSET"] or ["col_name", "NULL"].
2390
1.60k
    auto sub_all_access_paths = DORIS_TRY(_get_sub_access_paths(all_access_paths));
2391
1.60k
    if (has_current_level_data_path) {
2392
1.16k
        remove_current_level_meta_access_paths(sub_all_access_paths);
2393
1.16k
    }
2394
1.60k
    _check_and_set_meta_read_mode(requirement_before_access_path, sub_all_access_paths);
2395
    // OFFSET_ONLY mode is fundamentally incompatible with CHAR columns:
2396
    // CHAR is stored padded to its declared length (see
2397
    // OlapColumnDataConvertorChar::clone_and_padding), so the per-row length
2398
    // recorded in dict word info / page headers is always the padded length
2399
    // (e.g. 25 for CHAR(25)) — never the logical length expected by length().
2400
    // Recovering the logical length requires scanning the chars buffer with
2401
    // strnlen() (shrink_padding_chars), which OFFSET_ONLY by definition skips.
2402
    // There is no partial-benefit path: any optimization that still produces
2403
    // the correct length() result must read the chars buffer in full.
2404
    //
2405
    // FE (NestedColumnPruning) already filters CHAR slots out of the
2406
    // OFFSET-only access plan, so reaching this branch means an FE/BE
2407
    // contract violation. Fail loudly instead of silently falling back.
2408
1.60k
    if (read_offset_only() && get_reader() != nullptr &&
2409
1.60k
        get_reader()->get_meta_type() == FieldType::OLAP_FIELD_TYPE_CHAR) {
2410
0
        return Status::InternalError(
2411
0
                "OFFSET_ONLY access path is not supported on CHAR column '{}': CHAR is stored "
2412
0
                "padded so the per-row length information available without reading the chars "
2413
0
                "buffer is always the padded length, not the logical length. The FE planner "
2414
0
                "must not emit an OFFSET access path for CHAR columns.",
2415
0
                _column_name);
2416
0
    }
2417
1.60k
    if (read_offset_only()) {
2418
121
        DLOG(INFO) << "String column iterator set column " << _column_name
2419
121
                   << " to OFFSET_ONLY meta read mode";
2420
1.48k
    } else if (read_null_map_only()) {
2421
282
        DLOG(INFO) << "String column iterator set column " << _column_name
2422
282
                   << " to NULL_MAP_ONLY meta read mode";
2423
282
    }
2424
2425
1.60k
    return Status::OK();
2426
1.60k
}
2427
2428
////////////////////////////////////////////////////////////////////////////////
2429
2430
26.9M
FileColumnIterator::FileColumnIterator(std::shared_ptr<ColumnReader> reader) : _reader(reader) {}
2431
2432
void ColumnIterator::_check_and_set_meta_read_mode(ReadRequirement requirement_before_access_path,
2433
63.0k
                                                   const TColumnAccessPaths& sub_all_access_paths) {
2434
63.0k
    _meta_read_mode = MetaReadMode::DEFAULT;
2435
63.0k
    if (requirement_before_access_path != ReadRequirement::NORMAL &&
2436
63.0k
        requirement_before_access_path != ReadRequirement::SKIP) {
2437
        // A stronger requirement means a parent/full-data path already required this iterator
2438
        // to materialize data. In that case a later predicate NULL/OFFSET path is only
2439
        // an additional predicate requirement and must not downgrade the read to
2440
        // meta-only.
2441
41
        return;
2442
41
    }
2443
2444
63.0k
    bool has_offset_path = false;
2445
63.0k
    bool has_null_path = false;
2446
63.0k
    for (const auto& path : sub_all_access_paths) {
2447
7.63k
        if (!is_current_level_meta_access_path(path)) {
2448
5.54k
            _meta_read_mode = MetaReadMode::DEFAULT;
2449
5.54k
            return;
2450
5.54k
        }
2451
2.09k
        const auto& component = path.data_access_path.path[0];
2452
2.09k
        if (StringCaseEqual()(component, ACCESS_OFFSET)) {
2453
1.92k
            has_offset_path = true;
2454
1.92k
        } else {
2455
168
            has_null_path = true;
2456
168
        }
2457
2.09k
    }
2458
57.4k
    if (has_offset_path) {
2459
        // OFFSET_ONLY skips actual child/string data, but nullable complex iterators still
2460
        // materialize the current-level null map. So OFFSET covers OFFSET+NULL metadata.
2461
1.92k
        _meta_read_mode = MetaReadMode::OFFSET_ONLY;
2462
55.5k
    } else if (has_null_path) {
2463
322
        _meta_read_mode = MetaReadMode::NULL_MAP_ONLY;
2464
55.2k
    } else {
2465
55.2k
        _meta_read_mode = MetaReadMode::DEFAULT;
2466
55.2k
    }
2467
57.4k
}
2468
2469
26.8M
Status FileColumnIterator::init(const ColumnIteratorOptions& opts) {
2470
26.8M
    if (_read_requirement == ReadRequirement::SKIP) {
2471
2.39k
        DLOG(INFO) << "File column iterator column " << _column_name << " skip reading.";
2472
2.39k
        return Status::OK();
2473
2.39k
    }
2474
2475
26.8M
    _opts = opts;
2476
26.8M
    if (!_opts.use_page_cache) {
2477
25.8M
        _reader->disable_index_meta_cache();
2478
25.8M
    }
2479
26.8M
    RETURN_IF_ERROR(get_block_compression_codec(_reader->get_compression(), &_compress_codec));
2480
26.8M
    if (config::enable_low_cardinality_optimize &&
2481
26.9M
        opts.io_ctx.reader_type == ReaderType::READER_QUERY &&
2482
26.8M
        _reader->encoding_info()->encoding() == DICT_ENCODING) {
2483
15.9M
        auto dict_encoding_type = _reader->get_dict_encoding_type();
2484
        // Only if the column is a predicate column, then we need check the all dict encoding flag
2485
        // because we could rewrite the predciate to accelarate query speed. But if it is not a
2486
        // predicate column, then it is useless. And it has a bad impact on cold read(first time read)
2487
        // because it will load the column's ordinal index and zonemap index and maybe other indices.
2488
        // it has bad impact on primary key query. For example, select * from table where pk = 1, and
2489
        // the table has 2000 columns.
2490
15.9M
        if (dict_encoding_type == ColumnReader::UNKNOWN_DICT_ENCODING && opts.is_predicate_column) {
2491
15.2k
            RETURN_IF_ERROR(seek_to_ordinal(_reader->num_rows() - 1));
2492
15.2k
            _is_all_dict_encoding = _page.is_dict_encoding;
2493
15.2k
            _reader->set_dict_encoding_type(_is_all_dict_encoding
2494
15.2k
                                                    ? ColumnReader::ALL_DICT_ENCODING
2495
15.2k
                                                    : ColumnReader::PARTIAL_DICT_ENCODING);
2496
15.9M
        } else {
2497
15.9M
            _is_all_dict_encoding = dict_encoding_type == ColumnReader::ALL_DICT_ENCODING;
2498
15.9M
        }
2499
15.9M
    }
2500
26.8M
    return Status::OK();
2501
26.8M
}
2502
2503
27.0M
FileColumnIterator::~FileColumnIterator() = default;
2504
2505
1.15M
void FileColumnIterator::_trigger_prefetch_if_eligible(ordinal_t ord) {
2506
1.15M
    std::vector<BlockRange> ranges;
2507
1.15M
    if (_prefetcher->need_prefetch(cast_set<uint32_t>(ord), &ranges)) {
2508
880k
        for (const auto& range : ranges) {
2509
880k
            _cached_remote_file_reader->prefetch_range(range.offset, range.size, &_opts.io_ctx);
2510
880k
        }
2511
880k
    }
2512
1.15M
}
2513
2514
4.78M
Status FileColumnIterator::seek_to_ordinal(ordinal_t ord) {
2515
4.78M
    if (!need_to_read()) {
2516
4.61k
        DLOG(INFO) << "File column iterator column " << _column_name << " skip reading.";
2517
4.61k
        return Status::OK();
2518
4.61k
    }
2519
2520
18.4E
    LOG_IF(INFO, config::enable_segment_prefetch_verbose_log) << fmt::format(
2521
18.4E
            "[verbose] FileColumnIterator::seek_to_ordinal seek to ordinal {}, enable_prefetch={}",
2522
18.4E
            ord, _enable_prefetch);
2523
4.78M
    if (_enable_prefetch) {
2524
1.15M
        _trigger_prefetch_if_eligible(ord);
2525
1.15M
    }
2526
2527
    // if current page contains this row, we don't need to seek
2528
4.78M
    if (!_page || !_page.contains(ord) || !_page_iter.valid()) {
2529
1.66M
        RETURN_IF_ERROR(_reader->seek_at_or_before(ord, &_page_iter, _opts));
2530
1.66M
        RETURN_IF_ERROR(_read_data_page(_page_iter));
2531
1.66M
    }
2532
4.78M
    RETURN_IF_ERROR(_seek_to_pos_in_page(&_page, ord - _page.first_ordinal));
2533
4.78M
    _current_ordinal = ord;
2534
4.78M
    return Status::OK();
2535
4.78M
}
2536
2537
0
Status FileColumnIterator::seek_to_page_start() {
2538
0
    return seek_to_ordinal(_page.first_ordinal);
2539
0
}
2540
2541
4.83M
Status FileColumnIterator::_seek_to_pos_in_page(ParsedPage* page, ordinal_t offset_in_page) const {
2542
4.83M
    if (page->offset_in_page == offset_in_page) {
2543
        // fast path, do nothing
2544
1.91M
        return Status::OK();
2545
1.91M
    }
2546
2547
2.92M
    ordinal_t pos_in_data = offset_in_page;
2548
2.92M
    if (_page.has_null) {
2549
128k
        ordinal_t offset_in_data = 0;
2550
128k
        ordinal_t skips = offset_in_page;
2551
2552
128k
        if (offset_in_page > page->offset_in_page) {
2553
            // forward, reuse null bitmap
2554
80.8k
            skips = offset_in_page - page->offset_in_page;
2555
80.8k
            offset_in_data = page->data_decoder->current_index();
2556
80.8k
        } else {
2557
            // rewind null bitmap, and
2558
47.9k
            page->null_decoder = RleDecoder<bool>((const uint8_t*)page->null_bitmap.data,
2559
47.9k
                                                  cast_set<int>(page->null_bitmap.size), 1);
2560
47.9k
        }
2561
2562
128k
        auto skip_nulls = page->null_decoder.Skip(skips);
2563
128k
        pos_in_data = offset_in_data + skips - skip_nulls;
2564
128k
    }
2565
2566
2.92M
    RETURN_IF_ERROR(page->data_decoder->seek_to_position_in_page(pos_in_data));
2567
2.92M
    page->offset_in_page = offset_in_page;
2568
2.92M
    return Status::OK();
2569
2.92M
}
2570
2571
22.8k
Status FileColumnIterator::next_batch_of_zone_map(size_t* n, MutableColumnPtr& dst) {
2572
22.8k
    return _reader->next_batch_of_zone_map(n, dst);
2573
22.8k
}
2574
2575
3.92M
Status FileColumnIterator::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
2576
3.92M
    if (!need_to_read()) {
2577
4.60k
        DLOG(INFO) << "File column iterator column " << _column_name << " skip reading.";
2578
4.60k
        _convert_to_place_holder_column(dst, *n);
2579
4.60k
        return Status::OK();
2580
4.60k
    }
2581
2582
3.91M
    _recovery_from_place_holder_column(dst);
2583
2584
3.91M
    if (read_null_map_only()) {
2585
3.02k
        DLOG(INFO) << "File column iterator column " << _column_name
2586
3.02k
                   << " in NULL_MAP_ONLY mode, reading only null map.";
2587
3.02k
        DORIS_CHECK(is_column_nullable(*dst));
2588
3.02k
        auto& nullable_col = assert_cast<ColumnNullable&>(*dst);
2589
3.02k
        auto& null_map_data = nullable_col.get_null_map_data();
2590
2591
3.02k
        size_t remaining = *n;
2592
3.02k
        *has_null = false;
2593
6.09k
        while (remaining > 0) {
2594
3.07k
            if (!_page.has_remaining()) {
2595
48
                bool eos = false;
2596
48
                RETURN_IF_ERROR(_load_next_page(&eos));
2597
48
                if (eos) {
2598
0
                    break;
2599
0
                }
2600
48
            }
2601
2602
3.07k
            size_t nrows_in_page = std::min(remaining, _page.remaining());
2603
3.07k
            size_t nrows_to_read = nrows_in_page;
2604
3.07k
            if (_page.has_null) {
2605
193k
                while (nrows_to_read > 0) {
2606
190k
                    bool is_null = false;
2607
190k
                    size_t this_run = _page.null_decoder.GetNextRun(&is_null, nrows_to_read);
2608
190k
                    const size_t cur_size = null_map_data.size();
2609
190k
                    null_map_data.resize(cur_size + this_run);
2610
190k
                    memset(null_map_data.data() + cur_size, is_null ? 1 : 0, this_run);
2611
190k
                    if (is_null) {
2612
100k
                        *has_null = true;
2613
100k
                    }
2614
190k
                    nrows_to_read -= this_run;
2615
190k
                    _page.offset_in_page += this_run;
2616
190k
                    _current_ordinal += this_run;
2617
190k
                }
2618
2.96k
            } else {
2619
105
                const size_t cur_size = null_map_data.size();
2620
105
                null_map_data.resize(cur_size + nrows_to_read);
2621
105
                memset(null_map_data.data() + cur_size, 0, nrows_to_read);
2622
105
                _page.offset_in_page += nrows_to_read;
2623
105
                _current_ordinal += nrows_to_read;
2624
105
            }
2625
3.07k
            remaining -= nrows_in_page;
2626
3.07k
        }
2627
3.02k
        *n -= remaining;
2628
3.02k
        nullable_col.get_nested_column().insert_many_defaults(*n);
2629
3.02k
        return Status::OK();
2630
3.02k
    }
2631
2632
3.91M
    size_t curr_size = dst->byte_size();
2633
3.91M
    dst->reserve(*n);
2634
3.91M
    size_t remaining = *n;
2635
3.91M
    *has_null = false;
2636
7.88M
    while (remaining > 0) {
2637
3.96M
        if (!_page.has_remaining()) {
2638
56.9k
            bool eos = false;
2639
56.9k
            RETURN_IF_ERROR(_load_next_page(&eos));
2640
56.9k
            if (eos) {
2641
0
                break;
2642
0
            }
2643
56.9k
        }
2644
2645
        // number of rows to be read from this page
2646
3.96M
        size_t nrows_in_page = std::min(remaining, _page.remaining());
2647
3.96M
        size_t nrows_to_read = nrows_in_page;
2648
3.96M
        if (_page.has_null) {
2649
1.12M
            while (nrows_to_read > 0) {
2650
883k
                bool is_null = false;
2651
883k
                size_t this_run = _page.null_decoder.GetNextRun(&is_null, nrows_to_read);
2652
                // we use num_rows only for CHECK
2653
883k
                size_t num_rows = this_run;
2654
883k
                if (!is_null) {
2655
462k
                    RETURN_IF_ERROR(_page.data_decoder->next_batch(&num_rows, dst));
2656
462k
                    DCHECK_EQ(this_run, num_rows);
2657
462k
                } else {
2658
420k
                    *has_null = true;
2659
420k
                    auto* null_col = check_and_get_column<ColumnNullable>(dst.get());
2660
424k
                    if (null_col != nullptr) {
2661
424k
                        null_col->insert_many_defaults(this_run);
2662
18.4E
                    } else {
2663
18.4E
                        return Status::InternalError("unexpected column type in column reader");
2664
18.4E
                    }
2665
420k
                }
2666
2667
886k
                nrows_to_read -= this_run;
2668
886k
                _page.offset_in_page += this_run;
2669
886k
                _current_ordinal += this_run;
2670
886k
            }
2671
3.72M
        } else {
2672
3.72M
            RETURN_IF_ERROR(_page.data_decoder->next_batch(&nrows_to_read, dst));
2673
3.72M
            DCHECK_EQ(nrows_to_read, nrows_in_page);
2674
2675
3.72M
            _page.offset_in_page += nrows_to_read;
2676
3.72M
            _current_ordinal += nrows_to_read;
2677
3.72M
        }
2678
3.97M
        remaining -= nrows_in_page;
2679
3.97M
    }
2680
3.91M
    *n -= remaining;
2681
3.91M
    _opts.stats->bytes_read += (dst->byte_size() - curr_size) + BitmapSize(*n);
2682
2683
#ifdef BE_TEST
2684
    _reader->check_data_by_zone_map_for_test(dst);
2685
#endif
2686
3.91M
    return Status::OK();
2687
3.91M
}
2688
2689
Status FileColumnIterator::read_by_rowids(const rowid_t* rowids, const size_t count,
2690
810k
                                          MutableColumnPtr& dst) {
2691
810k
    if (!need_to_read()) {
2692
0
        DLOG(INFO) << "File column iterator column " << _column_name << " skip reading.";
2693
0
        _convert_to_place_holder_column(dst, count);
2694
0
        return Status::OK();
2695
0
    }
2696
2697
810k
    _recovery_from_place_holder_column(dst);
2698
2699
810k
    if (read_null_map_only()) {
2700
23
        DLOG(INFO) << "File column iterator column " << _column_name
2701
23
                   << " in NULL_MAP_ONLY mode, reading only null map by rowids.";
2702
2703
23
        DORIS_CHECK(is_column_nullable(*dst));
2704
23
        auto& nullable_col = assert_cast<ColumnNullable&>(*dst);
2705
23
        auto& null_map_data = nullable_col.get_null_map_data();
2706
23
        const size_t base_size = null_map_data.size();
2707
23
        null_map_data.resize(base_size + count);
2708
2709
23
        size_t remaining = count;
2710
23
        size_t total_read_count = 0;
2711
23
        size_t nrows_to_read = 0;
2712
47
        while (remaining > 0) {
2713
24
            RETURN_IF_ERROR(seek_to_ordinal(rowids[total_read_count]));
2714
2715
24
            nrows_to_read = std::min(remaining, _page.remaining());
2716
2717
24
            if (_page.has_null) {
2718
5
                size_t already_read = 0;
2719
10
                while ((nrows_to_read - already_read) > 0) {
2720
5
                    bool is_null = false;
2721
5
                    size_t this_run = std::min(nrows_to_read - already_read, _page.remaining());
2722
5
                    if (UNLIKELY(this_run == 0)) {
2723
0
                        break;
2724
0
                    }
2725
5
                    this_run = _page.null_decoder.GetNextRun(&is_null, this_run);
2726
2727
5
                    size_t offset = total_read_count + already_read;
2728
5
                    size_t this_read_count = 0;
2729
5
                    rowid_t current_ordinal_in_page =
2730
5
                            cast_set<uint32_t>(_page.offset_in_page + _page.first_ordinal);
2731
10
                    for (size_t i = 0; i < this_run; ++i) {
2732
5
                        if (rowids[offset + i] - current_ordinal_in_page >= this_run) {
2733
0
                            break;
2734
0
                        }
2735
5
                        this_read_count++;
2736
5
                    }
2737
2738
5
                    if (this_read_count > 0) {
2739
5
                        memset(null_map_data.data() + base_size + offset, is_null ? 1 : 0,
2740
5
                               this_read_count);
2741
5
                    }
2742
2743
5
                    already_read += this_read_count;
2744
5
                    _page.offset_in_page += this_run;
2745
5
                }
2746
2747
5
                nrows_to_read = already_read;
2748
5
                total_read_count += nrows_to_read;
2749
5
                remaining -= nrows_to_read;
2750
19
            } else {
2751
19
                rowid_t current_ordinal_in_page =
2752
19
                        cast_set<uint32_t>(_page.offset_in_page + _page.first_ordinal);
2753
19
                size_t rows_in_current_page = 0;
2754
38
                for (size_t i = 0; i < nrows_to_read; ++i) {
2755
20
                    if (rowids[total_read_count + i] - current_ordinal_in_page >= nrows_to_read) {
2756
1
                        break;
2757
1
                    }
2758
19
                    ++rows_in_current_page;
2759
19
                }
2760
19
                DCHECK_GT(rows_in_current_page, 0);
2761
19
                memset(null_map_data.data() + base_size + total_read_count, 0,
2762
19
                       rows_in_current_page);
2763
19
                _page.offset_in_page += rows_in_current_page;
2764
19
                total_read_count += rows_in_current_page;
2765
19
                remaining -= rows_in_current_page;
2766
19
            }
2767
24
        }
2768
2769
23
        null_map_data.resize(base_size + total_read_count);
2770
23
        nullable_col.get_nested_column().insert_many_defaults(total_read_count);
2771
23
        return Status::OK();
2772
23
    }
2773
2774
810k
    size_t remaining = count;
2775
810k
    size_t total_read_count = 0;
2776
810k
    size_t nrows_to_read = 0;
2777
1.65M
    while (remaining > 0) {
2778
842k
        RETURN_IF_ERROR(seek_to_ordinal(rowids[total_read_count]));
2779
2780
        // number of rows to be read from this page
2781
842k
        nrows_to_read = std::min(remaining, _page.remaining());
2782
2783
842k
        if (_page.has_null) {
2784
79.5k
            size_t already_read = 0;
2785
4.37M
            while ((nrows_to_read - already_read) > 0) {
2786
4.30M
                bool is_null = false;
2787
4.30M
                size_t this_run = std::min(nrows_to_read - already_read, _page.remaining());
2788
4.30M
                if (UNLIKELY(this_run == 0)) {
2789
186
                    break;
2790
186
                }
2791
4.30M
                this_run = _page.null_decoder.GetNextRun(&is_null, this_run);
2792
4.30M
                size_t offset = total_read_count + already_read;
2793
4.30M
                size_t this_read_count = 0;
2794
4.30M
                rowid_t current_ordinal_in_page =
2795
4.30M
                        cast_set<uint32_t>(_page.offset_in_page + _page.first_ordinal);
2796
20.9M
                for (size_t i = 0; i < this_run; ++i) {
2797
19.6M
                    if (rowids[offset + i] - current_ordinal_in_page >= this_run) {
2798
3.02M
                        break;
2799
3.02M
                    }
2800
16.6M
                    this_read_count++;
2801
16.6M
                }
2802
2803
4.30M
                auto origin_index = _page.data_decoder->current_index();
2804
4.30M
                if (this_read_count > 0) {
2805
1.28M
                    if (is_null) {
2806
672k
                        auto* null_col = check_and_get_column<ColumnNullable>(dst.get());
2807
672k
                        if (UNLIKELY(null_col == nullptr)) {
2808
0
                            return Status::InternalError("unexpected column type in column reader");
2809
0
                        }
2810
2811
672k
                        null_col->insert_many_defaults(this_read_count);
2812
672k
                    } else {
2813
612k
                        size_t read_count = this_read_count;
2814
2815
                        // ordinal in nullable columns' data buffer maybe be not continuously(the data doesn't contain null value),
2816
                        // so we need use `page_start_off_in_decoder` to calculate the actual offset in `data_decoder`
2817
612k
                        size_t page_start_off_in_decoder =
2818
612k
                                _page.first_ordinal + _page.offset_in_page - origin_index;
2819
612k
                        RETURN_IF_ERROR(_page.data_decoder->read_by_rowids(
2820
612k
                                &rowids[offset], page_start_off_in_decoder, &read_count, dst));
2821
612k
                        DCHECK_EQ(read_count, this_read_count);
2822
612k
                    }
2823
1.28M
                }
2824
2825
4.30M
                if (!is_null) {
2826
3.61M
                    RETURN_IF_ERROR(
2827
3.61M
                            _page.data_decoder->seek_to_position_in_page(origin_index + this_run));
2828
3.61M
                }
2829
2830
4.30M
                already_read += this_read_count;
2831
4.30M
                _page.offset_in_page += this_run;
2832
4.30M
                DCHECK(_page.offset_in_page <= _page.num_rows);
2833
4.30M
            }
2834
2835
79.5k
            nrows_to_read = already_read;
2836
79.5k
            total_read_count += nrows_to_read;
2837
79.5k
            remaining -= nrows_to_read;
2838
762k
        } else {
2839
762k
            RETURN_IF_ERROR(_page.data_decoder->read_by_rowids(
2840
762k
                    &rowids[total_read_count], _page.first_ordinal, &nrows_to_read, dst));
2841
762k
            total_read_count += nrows_to_read;
2842
762k
            remaining -= nrows_to_read;
2843
762k
        }
2844
842k
    }
2845
810k
    return Status::OK();
2846
810k
}
2847
2848
56.9k
Status FileColumnIterator::_load_next_page(bool* eos) {
2849
56.9k
    _page_iter.next();
2850
56.9k
    if (!_page_iter.valid()) {
2851
0
        *eos = true;
2852
0
        return Status::OK();
2853
0
    }
2854
2855
56.9k
    RETURN_IF_ERROR(_read_data_page(_page_iter));
2856
56.9k
    RETURN_IF_ERROR(_seek_to_pos_in_page(&_page, 0));
2857
56.9k
    *eos = false;
2858
56.9k
    return Status::OK();
2859
56.9k
}
2860
2861
1.71M
Status FileColumnIterator::_read_data_page(const OrdinalPageIndexIterator& iter) {
2862
1.71M
    PageHandle handle;
2863
1.71M
    Slice page_body;
2864
1.71M
    PageFooterPB footer;
2865
1.71M
    _opts.type = DATA_PAGE;
2866
1.71M
    PageDecoderOptions decoder_opts;
2867
1.71M
    decoder_opts.only_read_offsets = _opts.only_read_offsets;
2868
1.71M
    RETURN_IF_ERROR(
2869
1.71M
            _reader->read_page(_opts, iter.page(), &handle, &page_body, &footer, _compress_codec));
2870
    // parse data page
2871
1.71M
    auto st = ParsedPage::create(std::move(handle), page_body, footer.data_page_footer(),
2872
1.71M
                                 _reader->encoding_info(), iter.page(), iter.page_index(), &_page,
2873
1.71M
                                 decoder_opts);
2874
1.71M
    if (!st.ok()) {
2875
0
        LOG(WARNING) << "failed to create ParsedPage, file=" << _opts.file_reader->path().native()
2876
0
                     << ", page_offset=" << iter.page().offset << ", page_size=" << iter.page().size
2877
0
                     << ", page_index=" << iter.page_index() << ", error=" << st;
2878
0
        return st;
2879
0
    }
2880
2881
    // dictionary page is read when the first data page that uses it is read,
2882
    // this is to optimize the memory usage: when there is no query on one column, we could
2883
    // release the memory of dictionary page.
2884
    // note that concurrent iterators for the same column won't repeatedly read dictionary page
2885
    // because of page cache.
2886
1.71M
    if (_reader->encoding_info()->encoding() == DICT_ENCODING) {
2887
465k
        auto dict_page_decoder = reinterpret_cast<BinaryDictPageDecoder*>(_page.data_decoder.get());
2888
465k
        if (dict_page_decoder->is_dict_encoding()) {
2889
440k
            if (_dict_decoder == nullptr) {
2890
430k
                RETURN_IF_ERROR(_read_dict_data());
2891
430k
                CHECK_NOTNULL(_dict_decoder);
2892
430k
            }
2893
2894
440k
            dict_page_decoder->set_dict_decoder(cast_set<uint32_t>(_dict_decoder->count()),
2895
440k
                                                _dict_word_info.get());
2896
440k
        }
2897
465k
    }
2898
1.71M
    return Status::OK();
2899
1.71M
}
2900
2901
430k
Status FileColumnIterator::_read_dict_data() {
2902
430k
    CHECK_EQ(_reader->encoding_info()->encoding(), DICT_ENCODING);
2903
    // read dictionary page
2904
430k
    Slice dict_data;
2905
430k
    PageFooterPB dict_footer;
2906
430k
    _opts.type = INDEX_PAGE;
2907
2908
430k
    RETURN_IF_ERROR(_reader->read_page(_opts, _reader->get_dict_page_pointer(), &_dict_page_handle,
2909
430k
                                       &dict_data, &dict_footer, _compress_codec));
2910
430k
    const EncodingInfo* encoding_info;
2911
    // The dict pool stores strings of the outer column's type. Using the
2912
    // outer type (CHAR vs VARCHAR/STRING) lets the EncodingInfo pick a
2913
    // CHAR-strip pre-decoder so the cached dict page is already unpadded.
2914
430k
    RETURN_IF_ERROR(EncodingInfo::get(_reader->get_meta_type(),
2915
430k
                                      dict_footer.dict_page_footer().encoding(), &encoding_info));
2916
430k
    RETURN_IF_ERROR(encoding_info->create_page_decoder(dict_data, {}, _dict_decoder));
2917
430k
    RETURN_IF_ERROR(_dict_decoder->init());
2918
2919
430k
    _dict_word_info.reset(new StringRef[_dict_decoder->count()]);
2920
430k
    RETURN_IF_ERROR(_dict_decoder->get_dict_word_info(_dict_word_info.get()));
2921
430k
    return Status::OK();
2922
430k
}
2923
2924
Status FileColumnIterator::get_row_ranges_by_zone_map(
2925
        const AndBlockColumnPredicate* col_predicates,
2926
        const std::vector<std::shared_ptr<const ColumnPredicate>>* delete_predicates,
2927
129k
        RowRanges* row_ranges) {
2928
129k
    if (_reader->has_zone_map()) {
2929
129k
        RETURN_IF_ERROR(_reader->get_row_ranges_by_zone_map(col_predicates, delete_predicates,
2930
129k
                                                            row_ranges, _opts));
2931
129k
    }
2932
129k
    return Status::OK();
2933
129k
}
2934
2935
Status FileColumnIterator::get_row_ranges_by_bloom_filter(
2936
130k
        const AndBlockColumnPredicate* col_predicates, RowRanges* row_ranges) {
2937
130k
    if ((col_predicates->can_do_bloom_filter(false) && _reader->has_bloom_filter_index(false)) ||
2938
130k
        (col_predicates->can_do_bloom_filter(true) && _reader->has_bloom_filter_index(true))) {
2939
100
        RETURN_IF_ERROR(_reader->get_row_ranges_by_bloom_filter(col_predicates, row_ranges, _opts));
2940
100
    }
2941
130k
    return Status::OK();
2942
130k
}
2943
2944
Status FileColumnIterator::get_row_ranges_by_dict(const AndBlockColumnPredicate* col_predicates,
2945
132k
                                                  RowRanges* row_ranges) {
2946
132k
    if (!_is_all_dict_encoding) {
2947
121k
        return Status::OK();
2948
121k
    }
2949
2950
10.6k
    if (!_dict_decoder) {
2951
0
        RETURN_IF_ERROR(_read_dict_data());
2952
0
        CHECK_NOTNULL(_dict_decoder);
2953
0
    }
2954
2955
10.6k
    if (!col_predicates->evaluate_and(_dict_word_info.get(), _dict_decoder->count())) {
2956
1.26k
        row_ranges->clear();
2957
1.26k
    }
2958
10.6k
    return Status::OK();
2959
10.6k
}
2960
2961
987k
Status FileColumnIterator::init_prefetcher(const SegmentPrefetchParams& params) {
2962
987k
    if (_cached_remote_file_reader =
2963
987k
                std::dynamic_pointer_cast<io::CachedRemoteFileReader>(_reader->_file_reader);
2964
987k
        !_cached_remote_file_reader) {
2965
0
        return Status::OK();
2966
0
    }
2967
987k
    _enable_prefetch = true;
2968
987k
    _prefetcher = std::make_unique<SegmentPrefetcher>(params.config);
2969
987k
    RETURN_IF_ERROR(_prefetcher->init(_reader, params.read_options));
2970
987k
    return Status::OK();
2971
987k
}
2972
2973
void FileColumnIterator::collect_prefetchers(
2974
        std::map<PrefetcherInitMethod, std::vector<SegmentPrefetcher*>>& prefetchers,
2975
983k
        PrefetcherInitMethod init_method) {
2976
984k
    if (_prefetcher) {
2977
984k
        prefetchers[init_method].emplace_back(_prefetcher.get());
2978
984k
    }
2979
983k
}
2980
2981
27.6k
Status DefaultValueColumnIterator::init(const ColumnIteratorOptions& opts) {
2982
27.6k
    _opts = opts;
2983
    // be consistent with segment v1
2984
    // if _has_default_value, we should create default column iterator for this column, and
2985
    // "NULL" is a special default value which means the default value is null.
2986
27.6k
    if (_has_default_value) {
2987
1.72k
        if (_default_value == "NULL") {
2988
965
            _default_value_field = Field::create_field<TYPE_NULL>(Null {});
2989
965
        } else {
2990
763
            if (_type == FieldType::OLAP_FIELD_TYPE_ARRAY) {
2991
8
                if (_default_value != "[]") {
2992
0
                    return Status::NotSupported("Array default {} is unsupported", _default_value);
2993
8
                } else {
2994
8
                    _default_value_field = Field::create_field<TYPE_ARRAY>(Array {});
2995
8
                    return Status::OK();
2996
8
                }
2997
755
            } else if (_type == FieldType::OLAP_FIELD_TYPE_STRUCT) {
2998
0
                return Status::NotSupported("STRUCT default type is unsupported");
2999
755
            } else if (_type == FieldType::OLAP_FIELD_TYPE_MAP) {
3000
0
                return Status::NotSupported("MAP default type is unsupported");
3001
0
            }
3002
755
            const auto t = _type;
3003
755
            const auto serde = DataTypeFactory::instance()
3004
755
                                       .create_data_type(t, _precision, _scale, _len)
3005
755
                                       ->get_serde();
3006
755
            RETURN_IF_ERROR(serde->from_fe_string(_default_value, _default_value_field));
3007
755
        }
3008
25.9k
    } else if (_is_nullable) {
3009
25.9k
        _default_value_field = Field::create_field<TYPE_NULL>(Null {});
3010
18.4E
    } else {
3011
18.4E
        return Status::InternalError(
3012
18.4E
                "invalid default value column for no default value and not nullable");
3013
18.4E
    }
3014
27.6k
    return Status::OK();
3015
27.6k
}
3016
3017
2.69k
Status DefaultValueColumnIterator::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
3018
2.69k
    *has_null = _default_value_field.is_null();
3019
2.69k
    _insert_many_default(dst, *n);
3020
2.69k
    return Status::OK();
3021
2.69k
}
3022
3023
Status DefaultValueColumnIterator::read_by_rowids(const rowid_t* rowids, const size_t count,
3024
8.74k
                                                  MutableColumnPtr& dst) {
3025
8.74k
    _insert_many_default(dst, count);
3026
8.74k
    return Status::OK();
3027
8.74k
}
3028
3029
11.4k
void DefaultValueColumnIterator::_insert_many_default(MutableColumnPtr& dst, size_t n) {
3030
11.4k
    if (_default_value_field.is_null()) {
3031
11.0k
        dst->insert_many_defaults(n);
3032
11.0k
    } else {
3033
439
        dst = dst->convert_to_predicate_column_if_dictionary();
3034
439
        dst->insert_duplicate_fields(_default_value_field, n);
3035
439
    }
3036
11.4k
}
3037
3038
5.86k
Status RowIdColumnIteratorV2::next_batch(size_t* n, MutableColumnPtr& dst, bool* has_null) {
3039
5.86k
    auto* string_column = assert_cast<ColumnString*, TypeCheckOnRelease::DISABLE>(dst.get());
3040
3041
11.8M
    for (uint32_t i = 0; i < *n; ++i) {
3042
11.8M
        uint32_t row_id = _current_rowid + i;
3043
11.8M
        GlobalRowLoacationV2 location(_version, _backend_id, _file_id, row_id);
3044
11.8M
        string_column->insert_data(reinterpret_cast<const char*>(&location),
3045
11.8M
                                   sizeof(GlobalRowLoacationV2));
3046
11.8M
    }
3047
5.86k
    _current_rowid += *n;
3048
5.86k
    return Status::OK();
3049
5.86k
}
3050
3051
Status RowIdColumnIteratorV2::read_by_rowids(const rowid_t* rowids, const size_t count,
3052
6.25k
                                             MutableColumnPtr& dst) {
3053
6.25k
    auto* string_column = assert_cast<ColumnString*>(dst.get());
3054
3055
13.0M
    for (size_t i = 0; i < count; ++i) {
3056
13.0M
        uint32_t row_id = rowids[i];
3057
13.0M
        GlobalRowLoacationV2 location(_version, _backend_id, _file_id, row_id);
3058
13.0M
        string_column->insert_data(reinterpret_cast<const char*>(&location),
3059
13.0M
                                   sizeof(GlobalRowLoacationV2));
3060
13.0M
    }
3061
6.25k
    return Status::OK();
3062
6.25k
}
3063
3064
} // namespace doris::segment_v2