Coverage Report

Created: 2024-11-20 12:06

/root/doris/be/src/olap/merger.cpp
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#include "olap/merger.h"
19
20
#include <gen_cpp/olap_file.pb.h>
21
#include <gen_cpp/types.pb.h>
22
#include <stddef.h>
23
#include <unistd.h>
24
25
#include <algorithm>
26
#include <iterator>
27
#include <memory>
28
#include <mutex>
29
#include <numeric>
30
#include <ostream>
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#include <shared_mutex>
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#include <string>
33
#include <utility>
34
#include <vector>
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36
#include "common/config.h"
37
#include "common/logging.h"
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#include "common/status.h"
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#include "olap/base_tablet.h"
40
#include "olap/iterators.h"
41
#include "olap/olap_common.h"
42
#include "olap/olap_define.h"
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#include "olap/rowid_conversion.h"
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#include "olap/rowset/rowset.h"
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#include "olap/rowset/rowset_meta.h"
46
#include "olap/rowset/rowset_writer.h"
47
#include "olap/rowset/segment_v2/segment_writer.h"
48
#include "olap/storage_engine.h"
49
#include "olap/tablet.h"
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#include "olap/tablet_fwd.h"
51
#include "olap/tablet_meta.h"
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#include "olap/tablet_reader.h"
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#include "olap/utils.h"
54
#include "util/slice.h"
55
#include "vec/core/block.h"
56
#include "vec/olap/block_reader.h"
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#include "vec/olap/vertical_block_reader.h"
58
#include "vec/olap/vertical_merge_iterator.h"
59
60
namespace doris {
61
62
Status Merger::vmerge_rowsets(BaseTabletSPtr tablet, ReaderType reader_type,
63
                              const TabletSchema& cur_tablet_schema,
64
                              const std::vector<RowsetReaderSharedPtr>& src_rowset_readers,
65
48
                              RowsetWriter* dst_rowset_writer, Statistics* stats_output) {
66
48
    vectorized::BlockReader reader;
67
48
    TabletReader::ReaderParams reader_params;
68
48
    reader_params.tablet = tablet;
69
48
    reader_params.reader_type = reader_type;
70
71
48
    TabletReader::ReadSource read_source;
72
48
    read_source.rs_splits.reserve(src_rowset_readers.size());
73
144
    for (const RowsetReaderSharedPtr& rs_reader : src_rowset_readers) {
74
144
        read_source.rs_splits.emplace_back(rs_reader);
75
144
    }
76
48
    read_source.fill_delete_predicates();
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48
    reader_params.set_read_source(std::move(read_source));
78
79
48
    reader_params.version = dst_rowset_writer->version();
80
81
48
    TabletSchemaSPtr merge_tablet_schema = std::make_shared<TabletSchema>();
82
48
    merge_tablet_schema->copy_from(cur_tablet_schema);
83
84
    // Merge the columns in delete predicate that not in latest schema in to current tablet schema
85
48
    for (auto& del_pred_rs : reader_params.delete_predicates) {
86
24
        merge_tablet_schema->merge_dropped_columns(*del_pred_rs->tablet_schema());
87
24
    }
88
48
    reader_params.tablet_schema = merge_tablet_schema;
89
48
    if (!tablet->tablet_schema()->cluster_key_idxes().empty()) {
90
0
        reader_params.delete_bitmap = &tablet->tablet_meta()->delete_bitmap();
91
0
    }
92
93
48
    if (stats_output && stats_output->rowid_conversion) {
94
48
        reader_params.record_rowids = true;
95
48
        reader_params.rowid_conversion = stats_output->rowid_conversion;
96
48
        stats_output->rowid_conversion->set_dst_rowset_id(dst_rowset_writer->rowset_id());
97
48
    }
98
99
48
    reader_params.return_columns.resize(cur_tablet_schema.num_columns());
100
48
    std::iota(reader_params.return_columns.begin(), reader_params.return_columns.end(), 0);
101
48
    reader_params.origin_return_columns = &reader_params.return_columns;
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48
    RETURN_IF_ERROR(reader.init(reader_params));
103
104
48
    vectorized::Block block = cur_tablet_schema.create_block(reader_params.return_columns);
105
48
    size_t output_rows = 0;
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48
    bool eof = false;
107
626
    while (!eof && !ExecEnv::GetInstance()->storage_engine().stopped()) {
108
578
        auto tablet_state = tablet->tablet_state();
109
578
        if (tablet_state != TABLET_RUNNING && tablet_state != TABLET_NOTREADY) {
110
0
            tablet->clear_cache();
111
0
            return Status::Error<INTERNAL_ERROR>("tablet {} is not used any more",
112
0
                                                 tablet->tablet_id());
113
0
        }
114
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        // Read one block from block reader
116
578
        RETURN_NOT_OK_STATUS_WITH_WARN(reader.next_block_with_aggregation(&block, &eof),
117
578
                                       "failed to read next block when merging rowsets of tablet " +
118
578
                                               std::to_string(tablet->tablet_id()));
119
578
        RETURN_NOT_OK_STATUS_WITH_WARN(dst_rowset_writer->add_block(&block),
120
578
                                       "failed to write block when merging rowsets of tablet " +
121
578
                                               std::to_string(tablet->tablet_id()));
122
123
578
        if (reader_params.record_rowids && block.rows() > 0) {
124
578
            std::vector<uint32_t> segment_num_rows;
125
578
            RETURN_IF_ERROR(dst_rowset_writer->get_segment_num_rows(&segment_num_rows));
126
578
            stats_output->rowid_conversion->add(reader.current_block_row_locations(),
127
578
                                                segment_num_rows);
128
578
        }
129
130
578
        output_rows += block.rows();
131
578
        block.clear_column_data();
132
578
    }
133
48
    if (ExecEnv::GetInstance()->storage_engine().stopped()) {
134
0
        return Status::Error<INTERNAL_ERROR>("tablet {} failed to do compaction, engine stopped",
135
0
                                             tablet->tablet_id());
136
0
    }
137
138
48
    if (stats_output != nullptr) {
139
48
        stats_output->output_rows = output_rows;
140
48
        stats_output->merged_rows = reader.merged_rows();
141
48
        stats_output->filtered_rows = reader.filtered_rows();
142
48
    }
143
144
48
    RETURN_NOT_OK_STATUS_WITH_WARN(dst_rowset_writer->flush(),
145
48
                                   "failed to flush rowset when merging rowsets of tablet " +
146
48
                                           std::to_string(tablet->tablet_id()));
147
148
48
    return Status::OK();
149
48
}
150
151
// split columns into several groups, make sure all keys in one group
152
// unique_key should consider sequence&delete column
153
void Merger::vertical_split_columns(const TabletSchema& tablet_schema,
154
                                    std::vector<std::vector<uint32_t>>* column_groups,
155
60
                                    std::vector<uint32_t>* key_group_cluster_key_idxes) {
156
60
    uint32_t num_key_cols = tablet_schema.num_key_columns();
157
60
    uint32_t total_cols = tablet_schema.num_columns();
158
60
    std::vector<uint32_t> key_columns;
159
126
    for (auto i = 0; i < num_key_cols; ++i) {
160
66
        key_columns.emplace_back(i);
161
66
    }
162
    // in unique key, sequence & delete sign column should merge with key columns
163
60
    int32_t sequence_col_idx = -1;
164
60
    int32_t delete_sign_idx = -1;
165
    // in key column compaction, seq_col real index is _num_key_columns
166
    // and delete_sign column is _block->columns() - 1
167
60
    if (tablet_schema.keys_type() == KeysType::UNIQUE_KEYS) {
168
39
        if (tablet_schema.has_sequence_col()) {
169
4
            sequence_col_idx = tablet_schema.sequence_col_idx();
170
4
            key_columns.emplace_back(sequence_col_idx);
171
4
        }
172
39
        delete_sign_idx = tablet_schema.field_index(DELETE_SIGN);
173
39
        if (delete_sign_idx != -1) {
174
33
            key_columns.emplace_back(delete_sign_idx);
175
33
        }
176
39
        if (!tablet_schema.cluster_key_idxes().empty()) {
177
0
            for (const auto& cid : tablet_schema.cluster_key_idxes()) {
178
0
                auto idx = tablet_schema.field_index(cid);
179
0
                DCHECK(idx >= 0) << "could not find cluster key column with unique_id=" << cid
180
0
                                 << " in tablet schema, table_id=" << tablet_schema.table_id();
181
0
                if (idx >= num_key_cols) {
182
0
                    key_columns.emplace_back(idx);
183
0
                }
184
0
            }
185
            // tablet schema unique ids: [1, 2, 5, 3, 6, 4], [1 2] is key columns
186
            // cluster key unique ids: [3, 1, 4]
187
            // the key_columns should be [0, 1, 3, 5]
188
            // the key_group_cluster_key_idxes should be [2, 1, 3]
189
0
            for (const auto& cid : tablet_schema.cluster_key_idxes()) {
190
0
                auto idx = tablet_schema.field_index(cid);
191
0
                for (auto i = 0; i < key_columns.size(); ++i) {
192
0
                    if (idx == key_columns[i]) {
193
0
                        key_group_cluster_key_idxes->emplace_back(i);
194
0
                        break;
195
0
                    }
196
0
                }
197
0
            }
198
0
        }
199
39
    }
200
60
    VLOG_NOTICE << "sequence_col_idx=" << sequence_col_idx
201
0
                << ", delete_sign_idx=" << delete_sign_idx;
202
    // for duplicate no keys
203
60
    if (!key_columns.empty()) {
204
55
        column_groups->emplace_back(std::move(key_columns));
205
55
    }
206
207
60
    std::vector<uint32_t> value_columns;
208
209
168
    for (uint32_t i = num_key_cols; i < total_cols; ++i) {
210
108
        if (i == sequence_col_idx || i == delete_sign_idx ||
211
108
            key_columns.end() != std::find(key_columns.begin(), key_columns.end(), i)) {
212
37
            continue;
213
37
        }
214
215
71
        if (!value_columns.empty() &&
216
71
            value_columns.size() % config::vertical_compaction_num_columns_per_group == 0) {
217
0
            column_groups->push_back(value_columns);
218
0
            value_columns.clear();
219
0
        }
220
71
        value_columns.push_back(i);
221
71
    }
222
223
60
    if (!value_columns.empty()) {
224
60
        column_groups->push_back(value_columns);
225
60
    }
226
60
}
227
228
Status Merger::vertical_compact_one_group(
229
        BaseTabletSPtr tablet, ReaderType reader_type, const TabletSchema& tablet_schema,
230
        bool is_key, const std::vector<uint32_t>& column_group,
231
        vectorized::RowSourcesBuffer* row_source_buf,
232
        const std::vector<RowsetReaderSharedPtr>& src_rowset_readers,
233
        RowsetWriter* dst_rowset_writer, int64_t max_rows_per_segment, Statistics* stats_output,
234
        std::vector<uint32_t> key_group_cluster_key_idxes, int64_t batch_size,
235
93
        CompactionSampleInfo* sample_info) {
236
    // build tablet reader
237
93
    VLOG_NOTICE << "vertical compact one group, max_rows_per_segment=" << max_rows_per_segment;
238
93
    vectorized::VerticalBlockReader reader(row_source_buf);
239
93
    TabletReader::ReaderParams reader_params;
240
93
    reader_params.is_key_column_group = is_key;
241
93
    reader_params.key_group_cluster_key_idxes = key_group_cluster_key_idxes;
242
93
    reader_params.tablet = tablet;
243
93
    reader_params.reader_type = reader_type;
244
245
93
    TabletReader::ReadSource read_source;
246
93
    read_source.rs_splits.reserve(src_rowset_readers.size());
247
279
    for (const RowsetReaderSharedPtr& rs_reader : src_rowset_readers) {
248
279
        read_source.rs_splits.emplace_back(rs_reader);
249
279
    }
250
93
    read_source.fill_delete_predicates();
251
93
    reader_params.set_read_source(std::move(read_source));
252
253
93
    reader_params.version = dst_rowset_writer->version();
254
255
93
    TabletSchemaSPtr merge_tablet_schema = std::make_shared<TabletSchema>();
256
93
    merge_tablet_schema->copy_from(tablet_schema);
257
258
93
    for (auto& del_pred_rs : reader_params.delete_predicates) {
259
53
        merge_tablet_schema->merge_dropped_columns(*del_pred_rs->tablet_schema());
260
53
    }
261
262
93
    reader_params.tablet_schema = merge_tablet_schema;
263
93
    bool has_cluster_key = false;
264
93
    if (!tablet->tablet_schema()->cluster_key_idxes().empty()) {
265
0
        reader_params.delete_bitmap = &tablet->tablet_meta()->delete_bitmap();
266
0
        has_cluster_key = true;
267
0
    }
268
269
93
    if (is_key && stats_output && stats_output->rowid_conversion) {
270
49
        reader_params.record_rowids = true;
271
49
        reader_params.rowid_conversion = stats_output->rowid_conversion;
272
49
        stats_output->rowid_conversion->set_dst_rowset_id(dst_rowset_writer->rowset_id());
273
49
    }
274
275
93
    reader_params.return_columns = column_group;
276
93
    reader_params.origin_return_columns = &reader_params.return_columns;
277
93
    reader_params.batch_size = batch_size;
278
93
    RETURN_IF_ERROR(reader.init(reader_params, sample_info));
279
280
93
    vectorized::Block block = tablet_schema.create_block(reader_params.return_columns);
281
93
    size_t output_rows = 0;
282
93
    bool eof = false;
283
7.64k
    while (!eof && !ExecEnv::GetInstance()->storage_engine().stopped()) {
284
7.55k
        auto tablet_state = tablet->tablet_state();
285
7.55k
        if (tablet_state != TABLET_RUNNING && tablet_state != TABLET_NOTREADY) {
286
0
            tablet->clear_cache();
287
0
            return Status::Error<INTERNAL_ERROR>("tablet {} is not used any more",
288
0
                                                 tablet->tablet_id());
289
0
        }
290
        // Read one block from block reader
291
7.55k
        RETURN_NOT_OK_STATUS_WITH_WARN(reader.next_block_with_aggregation(&block, &eof),
292
7.55k
                                       "failed to read next block when merging rowsets of tablet " +
293
7.55k
                                               std::to_string(tablet->tablet_id()));
294
7.55k
        RETURN_NOT_OK_STATUS_WITH_WARN(
295
7.55k
                dst_rowset_writer->add_columns(&block, column_group, is_key, max_rows_per_segment,
296
7.55k
                                               has_cluster_key),
297
7.55k
                "failed to write block when merging rowsets of tablet " +
298
7.55k
                        std::to_string(tablet->tablet_id()));
299
300
7.55k
        if (is_key && reader_params.record_rowids && block.rows() > 0) {
301
4.63k
            std::vector<uint32_t> segment_num_rows;
302
4.63k
            RETURN_IF_ERROR(dst_rowset_writer->get_segment_num_rows(&segment_num_rows));
303
4.63k
            stats_output->rowid_conversion->add(reader.current_block_row_locations(),
304
4.63k
                                                segment_num_rows);
305
4.63k
        }
306
7.55k
        output_rows += block.rows();
307
7.55k
        block.clear_column_data();
308
7.55k
    }
309
93
    if (ExecEnv::GetInstance()->storage_engine().stopped()) {
310
0
        return Status::Error<INTERNAL_ERROR>("tablet {} failed to do compaction, engine stopped",
311
0
                                             tablet->tablet_id());
312
0
    }
313
314
93
    if (is_key && stats_output != nullptr) {
315
49
        stats_output->output_rows = output_rows;
316
49
        stats_output->merged_rows = reader.merged_rows();
317
49
        stats_output->filtered_rows = reader.filtered_rows();
318
49
    }
319
93
    RETURN_IF_ERROR(dst_rowset_writer->flush_columns(is_key));
320
321
93
    return Status::OK();
322
93
}
323
324
// for segcompaction
325
Status Merger::vertical_compact_one_group(
326
        int64_t tablet_id, ReaderType reader_type, const TabletSchema& tablet_schema, bool is_key,
327
        const std::vector<uint32_t>& column_group, vectorized::RowSourcesBuffer* row_source_buf,
328
        vectorized::VerticalBlockReader& src_block_reader,
329
        segment_v2::SegmentWriter& dst_segment_writer, Statistics* stats_output,
330
22
        uint64_t* index_size, KeyBoundsPB& key_bounds, SimpleRowIdConversion* rowid_conversion) {
331
    // TODO: record_rowids
332
22
    vectorized::Block block = tablet_schema.create_block(column_group);
333
22
    size_t output_rows = 0;
334
22
    bool eof = false;
335
138
    while (!eof && !ExecEnv::GetInstance()->storage_engine().stopped()) {
336
        // Read one block from block reader
337
116
        RETURN_NOT_OK_STATUS_WITH_WARN(src_block_reader.next_block_with_aggregation(&block, &eof),
338
116
                                       "failed to read next block when merging rowsets of tablet " +
339
116
                                               std::to_string(tablet_id));
340
116
        if (!block.rows()) {
341
0
            break;
342
0
        }
343
116
        RETURN_NOT_OK_STATUS_WITH_WARN(dst_segment_writer.append_block(&block, 0, block.rows()),
344
116
                                       "failed to write block when merging rowsets of tablet " +
345
116
                                               std::to_string(tablet_id));
346
347
116
        if (is_key && rowid_conversion != nullptr) {
348
30
            rowid_conversion->add(src_block_reader.current_block_row_locations());
349
30
        }
350
116
        output_rows += block.rows();
351
116
        block.clear_column_data();
352
116
    }
353
22
    if (ExecEnv::GetInstance()->storage_engine().stopped()) {
354
0
        return Status::Error<INTERNAL_ERROR>("tablet {} failed to do compaction, engine stopped",
355
0
                                             tablet_id);
356
0
    }
357
358
22
    if (is_key && stats_output != nullptr) {
359
11
        stats_output->output_rows = output_rows;
360
11
        stats_output->merged_rows = src_block_reader.merged_rows();
361
11
        stats_output->filtered_rows = src_block_reader.filtered_rows();
362
11
    }
363
364
    // segcompaction produce only one segment at once
365
22
    RETURN_IF_ERROR(dst_segment_writer.finalize_columns_data());
366
22
    RETURN_IF_ERROR(dst_segment_writer.finalize_columns_index(index_size));
367
368
22
    if (is_key) {
369
11
        Slice min_key = dst_segment_writer.min_encoded_key();
370
11
        Slice max_key = dst_segment_writer.max_encoded_key();
371
11
        DCHECK_LE(min_key.compare(max_key), 0);
372
11
        key_bounds.set_min_key(min_key.to_string());
373
11
        key_bounds.set_max_key(max_key.to_string());
374
11
    }
375
376
22
    return Status::OK();
377
22
}
378
379
93
int64_t estimate_batch_size(int group_index, BaseTabletSPtr tablet, int64_t way_cnt) {
380
93
    std::unique_lock<std::mutex> lock(tablet->sample_info_lock);
381
93
    CompactionSampleInfo info = tablet->sample_infos[group_index];
382
93
    if (way_cnt <= 0) {
383
0
        LOG(INFO) << "estimate batch size for vertical compaction, tablet id: "
384
0
                  << tablet->tablet_id() << " way cnt: " << way_cnt;
385
0
        return 4096 - 32;
386
0
    }
387
93
    int64_t block_mem_limit = config::compaction_memory_bytes_limit / way_cnt;
388
93
    if (tablet->last_compaction_status.is<ErrorCode::MEM_LIMIT_EXCEEDED>()) {
389
0
        block_mem_limit /= 4;
390
0
    }
391
392
93
    int64_t group_data_size = 0;
393
93
    if (info.group_data_size > 0 && info.bytes > 0 && info.rows > 0) {
394
1
        float smoothing_factor = 0.5;
395
1
        group_data_size = int64_t(info.group_data_size * (1 - smoothing_factor) +
396
1
                                  info.bytes / info.rows * smoothing_factor);
397
1
        tablet->sample_infos[group_index].group_data_size = group_data_size;
398
92
    } else if (info.group_data_size > 0 && (info.bytes <= 0 || info.rows <= 0)) {
399
0
        group_data_size = info.group_data_size;
400
92
    } else if (info.group_data_size <= 0 && info.bytes > 0 && info.rows > 0) {
401
0
        group_data_size = info.bytes / info.rows;
402
0
        tablet->sample_infos[group_index].group_data_size = group_data_size;
403
92
    } else {
404
92
        LOG(INFO) << "estimate batch size for vertical compaction, tablet id: "
405
92
                  << tablet->tablet_id() << " group data size: " << info.group_data_size
406
92
                  << " row num: " << info.rows << " consume bytes: " << info.bytes;
407
92
        return 1024 - 32;
408
92
    }
409
410
1
    if (group_data_size <= 0) {
411
0
        LOG(WARNING) << "estimate batch size for vertical compaction, tablet id: "
412
0
                     << tablet->tablet_id() << " unexpected group data size: " << group_data_size;
413
0
        return 4096 - 32;
414
0
    }
415
416
1
    tablet->sample_infos[group_index].bytes = 0;
417
1
    tablet->sample_infos[group_index].rows = 0;
418
419
1
    int64_t batch_size = block_mem_limit / group_data_size;
420
1
    int64_t res = std::max(std::min(batch_size, int64_t(4096 - 32)), int64_t(32L));
421
1
    LOG(INFO) << "estimate batch size for vertical compaction, tablet id: " << tablet->tablet_id()
422
1
              << " group data size: " << info.group_data_size << " row num: " << info.rows
423
1
              << " consume bytes: " << info.bytes << " way cnt: " << way_cnt
424
1
              << " batch size: " << res;
425
1
    return res;
426
1
}
427
428
// steps to do vertical merge:
429
// 1. split columns into column groups
430
// 2. compact groups one by one, generate a row_source_buf when compact key group
431
// and use this row_source_buf to compact value column groups
432
// 3. build output rowset
433
Status Merger::vertical_merge_rowsets(BaseTabletSPtr tablet, ReaderType reader_type,
434
                                      const TabletSchema& tablet_schema,
435
                                      const std::vector<RowsetReaderSharedPtr>& src_rowset_readers,
436
                                      RowsetWriter* dst_rowset_writer, int64_t max_rows_per_segment,
437
49
                                      int64_t merge_way_num, Statistics* stats_output) {
438
49
    LOG(INFO) << "Start to do vertical compaction, tablet_id: " << tablet->tablet_id();
439
49
    std::vector<std::vector<uint32_t>> column_groups;
440
49
    std::vector<uint32_t> key_group_cluster_key_idxes;
441
49
    vertical_split_columns(tablet_schema, &column_groups, &key_group_cluster_key_idxes);
442
443
49
    vectorized::RowSourcesBuffer row_sources_buf(
444
49
            tablet->tablet_id(), dst_rowset_writer->context().tablet_path, reader_type);
445
49
    {
446
49
        std::unique_lock<std::mutex> lock(tablet->sample_info_lock);
447
49
        tablet->sample_infos.resize(column_groups.size(), {0, 0, 0});
448
49
    }
449
    // compact group one by one
450
142
    for (auto i = 0; i < column_groups.size(); ++i) {
451
93
        VLOG_NOTICE << "row source size: " << row_sources_buf.total_size();
452
93
        bool is_key = (i == 0);
453
93
        int64_t batch_size = config::compaction_batch_size != -1
454
93
                                     ? config::compaction_batch_size
455
93
                                     : estimate_batch_size(i, tablet, merge_way_num);
456
93
        CompactionSampleInfo sample_info;
457
93
        Status st = vertical_compact_one_group(
458
93
                tablet, reader_type, tablet_schema, is_key, column_groups[i], &row_sources_buf,
459
93
                src_rowset_readers, dst_rowset_writer, max_rows_per_segment, stats_output,
460
93
                key_group_cluster_key_idxes, batch_size, &sample_info);
461
93
        {
462
93
            std::unique_lock<std::mutex> lock(tablet->sample_info_lock);
463
93
            tablet->sample_infos[i] = sample_info;
464
93
        }
465
93
        RETURN_IF_ERROR(st);
466
93
        if (is_key) {
467
49
            RETURN_IF_ERROR(row_sources_buf.flush());
468
49
        }
469
93
        RETURN_IF_ERROR(row_sources_buf.seek_to_begin());
470
93
    }
471
472
    // finish compact, build output rowset
473
49
    VLOG_NOTICE << "finish compact groups";
474
49
    RETURN_IF_ERROR(dst_rowset_writer->final_flush());
475
476
49
    return Status::OK();
477
49
}
478
479
} // namespace doris