Coverage Report

Created: 2026-07-15 14:44

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/load/memtable/memtable.cpp
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Source
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// Licensed to the Apache Software Foundation (ASF) under one
2
// 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
6
// "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
10
//
11
// Unless required by applicable law or agreed to in writing,
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// 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
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// specific language governing permissions and limitations
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// under the License.
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18
#include "load/memtable/memtable.h"
19
20
#include <fmt/format.h>
21
#include <gen_cpp/olap_file.pb.h>
22
#include <pdqsort.h>
23
24
#include <algorithm>
25
#include <limits>
26
#include <string>
27
#include <vector>
28
29
#include "bvar/bvar.h"
30
#include "common/config.h"
31
#include "core/column/column.h"
32
#include "exprs/aggregate/aggregate_function_reader.h"
33
#include "exprs/aggregate/aggregate_function_simple_factory.h"
34
#include "load/delta_writer/delta_writer_context.h"
35
#include "load/memtable/memtable_memory_limiter.h"
36
#include "runtime/descriptors.h"
37
#include "runtime/exec_env.h"
38
#include "runtime/runtime_profile.h"
39
#include "runtime/thread_context.h"
40
#include "storage/olap_define.h"
41
#include "storage/tablet/tablet_schema.h"
42
#include "util/debug_points.h"
43
#include "util/stopwatch.hpp"
44
45
namespace doris {
46
47
bvar::Adder<int64_t> g_memtable_cnt("memtable_cnt");
48
bvar::Adder<uint64_t> g_flush_cuz_memtable_full("flush_cuz_memtable_full");
49
50
using namespace ErrorCode;
51
52
MemTable::MemTable(int64_t tablet_id, std::shared_ptr<TabletSchema> tablet_schema,
53
                   const std::vector<SlotDescriptor*>* slot_descs, TupleDescriptor* tuple_desc,
54
                   bool enable_unique_key_mow, PartialUpdateInfo* partial_update_info,
55
                   const std::shared_ptr<ResourceContext>& resource_ctx, bool need_row_binlog_lsn)
56
19
        : _mem_type(MemType::ACTIVE),
57
19
          _tablet_id(tablet_id),
58
19
          _enable_unique_key_mow(enable_unique_key_mow),
59
19
          _keys_type(tablet_schema->keys_type()),
60
19
          _tablet_schema(tablet_schema),
61
19
          _resource_ctx(resource_ctx),
62
19
          _need_row_binlog_lsn(need_row_binlog_lsn),
63
19
          _is_first_insertion(true),
64
19
          _agg_functions(tablet_schema->num_columns()),
65
19
          _offsets_of_aggregate_states(tablet_schema->num_columns()),
66
19
          _total_size_of_aggregate_states(0) {
67
19
    g_memtable_cnt << 1;
68
19
    _mem_tracker = std::make_shared<MemTracker>();
69
19
    SCOPED_SWITCH_THREAD_MEM_TRACKER_LIMITER(
70
19
            _resource_ctx->memory_context()->mem_tracker()->write_tracker());
71
19
    SCOPED_CONSUME_MEM_TRACKER(_mem_tracker);
72
19
    _vec_row_comparator = std::make_shared<RowInBlockComparator>(_tablet_schema);
73
19
    if (partial_update_info != nullptr) {
74
16
        _partial_update_mode = partial_update_info->update_mode();
75
16
        if (_partial_update_mode == UniqueKeyUpdateModePB::UPDATE_FIXED_COLUMNS) {
76
0
            if (partial_update_info->is_schema_contains_auto_inc_column &&
77
0
                !partial_update_info->is_input_columns_contains_auto_inc_column) {
78
0
                _is_partial_update_and_auto_inc = true;
79
0
            }
80
0
        }
81
16
    }
82
19
    _init_columns_offset_by_slot_descs(slot_descs, tuple_desc);
83
    // TODO: Support ZOrderComparator in the future
84
19
    _row_in_blocks = std::make_unique<DorisVector<std::shared_ptr<RowInBlock>>>();
85
19
    _load_mem_limit = MemInfo::mem_limit() * config::load_process_max_memory_limit_percent / 100;
86
19
}
87
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void MemTable::_init_columns_offset_by_slot_descs(const std::vector<SlotDescriptor*>* slot_descs,
89
19
                                                  const TupleDescriptor* tuple_desc) {
90
101
    for (auto slot_desc : *slot_descs) {
91
101
        const auto& slots = tuple_desc->slots();
92
649
        for (int j = 0; j < slots.size(); ++j) {
93
649
            if (slot_desc->id() == slots[j]->id()) {
94
101
                _column_offset.emplace_back(j);
95
101
                break;
96
101
            }
97
649
        }
98
101
    }
99
19
    if (_is_partial_update_and_auto_inc) {
100
0
        _column_offset.emplace_back(_column_offset.size());
101
0
    }
102
19
    _num_columns = _column_offset.size();
103
19
}
104
105
15
void MemTable::_init_agg_functions(const Block* block) {
106
15
    if (_num_columns > _column_offset.size()) [[unlikely]] {
107
0
        throw doris::Exception(doris::ErrorCode::INTERNAL_ERROR,
108
0
                               "num_columns {} is greater than block columns {}", _num_columns,
109
0
                               _column_offset.size());
110
0
    }
111
45
    for (auto cid = _tablet_schema->num_key_columns(); cid < _num_columns; ++cid) {
112
30
        AggregateFunctionPtr function;
113
30
        if (_keys_type == KeysType::UNIQUE_KEYS && _enable_unique_key_mow) {
114
            // In such table, non-key column's aggregation type is NONE, so we need to construct
115
            // the aggregate function manually.
116
9
            if (_skip_bitmap_col_idx != cid) {
117
9
                function = AggregateFunctionSimpleFactory::instance().get(
118
9
                        "replace_load", {block->get_data_type(cid)}, block->get_data_type(cid),
119
9
                        block->get_data_type(cid)->is_nullable(),
120
9
                        BeExecVersionManager::get_newest_version());
121
9
            } else {
122
0
                function = AggregateFunctionSimpleFactory::instance().get(
123
0
                        "bitmap_intersect", {block->get_data_type(cid)}, block->get_data_type(cid),
124
0
                        false, BeExecVersionManager::get_newest_version());
125
0
            }
126
21
        } else {
127
21
            function = _tablet_schema->column(cid).get_aggregate_function(
128
21
                    AGG_LOAD_SUFFIX, _tablet_schema->column(cid).get_be_exec_version());
129
21
            if (function == nullptr) {
130
0
                LOG(WARNING) << "column get aggregate function failed, column="
131
0
                             << _tablet_schema->column(cid).name();
132
0
            }
133
21
        }
134
135
30
        DCHECK(function != nullptr);
136
30
        const auto* input_column = _input_mutable_block.get_column_by_position(cid).get();
137
30
        const IColumn* columns[] = {input_column};
138
30
        function->check_input_columns_type(columns);
139
30
        function->check_result_column_type(*_output_mutable_block.get_column_by_position(cid));
140
30
        _agg_functions[cid] = function;
141
30
    }
142
143
45
    for (auto cid = _tablet_schema->num_key_columns(); cid < _num_columns; ++cid) {
144
30
        _offsets_of_aggregate_states[cid] = _total_size_of_aggregate_states;
145
30
        _total_size_of_aggregate_states += _agg_functions[cid]->size_of_data();
146
147
        // If not the last aggregate_state, we need pad it so that next aggregate_state will be aligned.
148
30
        if (cid + 1 < _num_columns) {
149
22
            size_t alignment_of_next_state = _agg_functions[cid + 1]->align_of_data();
150
151
            /// Extend total_size to next alignment requirement
152
            /// Add padding by rounding up 'total_size_of_aggregate_states' to be a multiplier of alignment_of_next_state.
153
22
            _total_size_of_aggregate_states =
154
22
                    (_total_size_of_aggregate_states + alignment_of_next_state - 1) /
155
22
                    alignment_of_next_state * alignment_of_next_state;
156
22
        }
157
30
    }
158
15
}
159
160
19
MemTable::~MemTable() {
161
19
    SCOPED_SWITCH_THREAD_MEM_TRACKER_LIMITER(
162
19
            _resource_ctx->memory_context()->mem_tracker()->write_tracker());
163
19
    {
164
19
        SCOPED_CONSUME_MEM_TRACKER(_mem_tracker);
165
19
        g_memtable_cnt << -1;
166
19
        if (_keys_type != KeysType::DUP_KEYS) {
167
44
            for (auto it = _row_in_blocks->begin(); it != _row_in_blocks->end(); it++) {
168
26
                if (!(*it)->has_init_agg()) {
169
26
                    continue;
170
26
                }
171
                // We should release agg_places here, because they are not released when a
172
                // load is canceled.
173
0
                for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
174
0
                    auto function = _agg_functions[i];
175
0
                    DCHECK(function != nullptr);
176
0
                    function->destroy((*it)->agg_places(i));
177
0
                }
178
0
            }
179
18
        }
180
181
19
        _arena.clear(true);
182
19
        _vec_row_comparator.reset();
183
19
        _row_in_blocks.reset();
184
19
        _agg_functions.clear();
185
19
        _input_mutable_block.clear();
186
19
        _output_mutable_block.clear();
187
        // Reset the LSN sidecar to release its capacity tracked by the memtable tracker.
188
19
        _output_row_binlog_lsns = DorisVector<int64_t>();
189
19
    }
190
19
    if (_is_flush_success) {
191
        // If the memtable is flush success, then its memtracker's consumption should be 0
192
15
        if (_mem_tracker->consumption() != 0 && config::crash_in_memory_tracker_inaccurate) {
193
0
            LOG(FATAL) << "memtable flush success but cosumption is not 0, it is "
194
0
                       << _mem_tracker->consumption();
195
0
        }
196
15
    }
197
19
}
198
199
6
int RowInBlockComparator::operator()(const RowInBlock* left, const RowInBlock* right) const {
200
6
    return _pblock->compare_at(left->_row_pos, right->_row_pos, _tablet_schema->num_key_columns(),
201
6
                               *_pblock, -1);
202
6
}
203
204
24
Status MemTable::insert(const Block* input_block, const TabletAddRowsPayload& rows) {
205
24
    SCOPED_SWITCH_THREAD_MEM_TRACKER_LIMITER(
206
24
            _resource_ctx->memory_context()->mem_tracker()->write_tracker());
207
24
    SCOPED_CONSUME_MEM_TRACKER(_mem_tracker);
208
24
    const auto& row_idxs = rows.row_idxs;
209
24
    const auto& row_binlog_lsns = rows.row_binlog_lsns;
210
211
24
    if (_need_row_binlog_lsn) {
212
3
        if (row_binlog_lsns.empty()) {
213
0
            return Status::InternalError(
214
0
                    "row binlog lsn is missing for memtable insert, "
215
0
                    "tablet_id={}",
216
0
                    _tablet_id);
217
0
        }
218
3
        DCHECK_EQ(row_binlog_lsns.size(), row_idxs.size());
219
21
    } else if (!row_binlog_lsns.empty()) {
220
0
        return Status::InternalError(
221
0
                "row binlog lsn is unexpectedly provided for memtable insert, tablet_id={}",
222
0
                _tablet_id);
223
0
    }
224
225
24
    if (_is_first_insertion) {
226
16
        _is_first_insertion = false;
227
16
        auto clone_block = input_block->clone_without_columns(&_column_offset);
228
16
        _input_mutable_block = MutableBlock::build_mutable_block(std::move(clone_block));
229
16
        _vec_row_comparator->set_block(&_input_mutable_block);
230
16
        clone_block = input_block->clone_without_columns(&_column_offset);
231
16
        _output_mutable_block = MutableBlock::build_mutable_block(std::move(clone_block));
232
16
        if (_tablet_schema->has_sequence_col()) {
233
7
            if (_partial_update_mode == UniqueKeyUpdateModePB::UPDATE_FIXED_COLUMNS) {
234
                // for unique key fixed partial update, sequence column index in block
235
                // may be different with the index in `_tablet_schema`
236
0
                for (int32_t i = 0; i < clone_block.columns(); i++) {
237
0
                    if (clone_block.get_by_position(i).name == SEQUENCE_COL) {
238
0
                        _seq_col_idx_in_block = i;
239
0
                        break;
240
0
                    }
241
0
                }
242
7
            } else {
243
7
                _seq_col_idx_in_block = _tablet_schema->sequence_col_idx();
244
7
            }
245
7
        }
246
16
        if (_partial_update_mode == UniqueKeyUpdateModePB::UPDATE_FLEXIBLE_COLUMNS &&
247
16
            _tablet_schema->has_skip_bitmap_col()) {
248
            // init of _skip_bitmap_col_idx and _delete_sign_col_idx must be before _init_agg_functions()
249
0
            _skip_bitmap_col_idx = _tablet_schema->skip_bitmap_col_idx();
250
0
            _delete_sign_col_idx = _tablet_schema->delete_sign_idx();
251
0
            _delete_sign_col_unique_id = _tablet_schema->column(_delete_sign_col_idx).unique_id();
252
0
            if (_seq_col_idx_in_block != -1) {
253
0
                _seq_col_unique_id = _tablet_schema->column(_seq_col_idx_in_block).unique_id();
254
0
            }
255
0
        }
256
16
        if (_keys_type != KeysType::DUP_KEYS) {
257
            // there may be additional intermediate columns in input_block
258
            // we only need columns indicated by column offset in the output
259
15
            RETURN_IF_CATCH_EXCEPTION(_init_agg_functions(&clone_block));
260
15
        }
261
16
    }
262
263
24
    auto num_rows = row_idxs.size();
264
24
    size_t cursor_in_mutableblock = _input_mutable_block.rows();
265
24
    RETURN_IF_ERROR(_input_mutable_block.add_rows(input_block, row_idxs.data(),
266
24
                                                  row_idxs.data() + num_rows, &_column_offset));
267
51
    for (int i = 0; i < num_rows; i++) {
268
27
        _row_in_blocks->emplace_back(std::make_shared<RowInBlock>(
269
27
                cursor_in_mutableblock + i, _need_row_binlog_lsn ? row_binlog_lsns[i] : 0));
270
27
    }
271
272
24
    _stat.raw_rows += num_rows;
273
24
    return Status::OK();
274
24
}
275
276
3
void MemTable::_merge_row_binlog_lsn(RowInBlock* src_row, RowInBlock* dst_row) {
277
3
    if (_need_row_binlog_lsn) {
278
0
        dst_row->_row_binlog_lsn = std::max(dst_row->_row_binlog_lsn, src_row->_row_binlog_lsn);
279
0
    }
280
3
}
281
282
27
void MemTable::_append_output_row_binlog_lsn(RowInBlock* row) {
283
27
    if (_need_row_binlog_lsn) {
284
6
        _output_row_binlog_lsns.emplace_back(row->_row_binlog_lsn);
285
6
    }
286
27
}
287
288
void MemTable::_aggregate_two_row_with_sequence_map(MutableBlock& mutable_block,
289
0
                                                    RowInBlock* src_row, RowInBlock* dst_row) {
290
0
    _merge_row_binlog_lsn(src_row, dst_row);
291
    // for each mapping replace value columns according to the sequence column compare result
292
    // for example: a b c d s1 s2  (key:a , s1=>[b,c], s2=>[d])
293
    // src row:     1 4 5 6  8 9
294
    // dst row:     1 2 3 4  7 10
295
    // after aggregate
296
    // dst row:     1 4 5 4  8 10  (b,c,s1 will be replaced, d,s2)
297
0
    const auto& seq_map = _tablet_schema->seq_col_idx_to_value_cols_idx();
298
0
    for (const auto& it : seq_map) {
299
0
        auto sequence = it.first;
300
0
        auto* sequence_col_ptr = mutable_block.mutable_columns()[sequence].get();
301
0
        auto res = sequence_col_ptr->compare_at(dst_row->_row_pos, src_row->_row_pos,
302
0
                                                *sequence_col_ptr, -1);
303
0
        if (res > 0) {
304
0
            continue;
305
0
        }
306
0
        for (auto cid : it.second) {
307
0
            if (cid < _num_columns) {
308
0
                auto* col_ptr = mutable_block.mutable_columns()[cid].get();
309
0
                _agg_functions[cid]->add(dst_row->agg_places(cid),
310
0
                                         const_cast<const doris::IColumn**>(&col_ptr),
311
0
                                         src_row->_row_pos, _arena);
312
0
            }
313
0
        }
314
0
        if (sequence < _num_columns) {
315
0
            _agg_functions[sequence]->add(dst_row->agg_places(sequence),
316
0
                                          const_cast<const doris::IColumn**>(&sequence_col_ptr),
317
0
                                          src_row->_row_pos, _arena);
318
            // must use replace column instead of update row_pos
319
            // because one row may have multi sequence column
320
            // and agg function add method won't change the real column value
321
0
            sequence_col_ptr->replace_column_data(*sequence_col_ptr, src_row->_row_pos,
322
0
                                                  dst_row->_row_pos);
323
0
        }
324
0
    }
325
0
}
326
327
template <bool has_skip_bitmap_col>
328
void MemTable::_aggregate_two_row_in_block(MutableBlock& mutable_block, RowInBlock* src_row,
329
3
                                           RowInBlock* dst_row) {
330
3
    _merge_row_binlog_lsn(src_row, dst_row);
331
    // for flexible partial update, the caller must guarantees that either src_row and dst_row
332
    // both specify the sequence column, or src_row and dst_row both don't specify the
333
    // sequence column
334
3
    if (_tablet_schema->has_sequence_col() && _seq_col_idx_in_block >= 0) {
335
3
        DCHECK_LT(_seq_col_idx_in_block, mutable_block.columns());
336
3
        auto col_ptr = mutable_block.mutable_columns()[_seq_col_idx_in_block].get();
337
3
        auto res = col_ptr->compare_at(dst_row->_row_pos, src_row->_row_pos, *col_ptr, -1);
338
        // dst sequence column larger than src, don't need to update
339
3
        if (res > 0) {
340
3
            return;
341
3
        }
342
        // need to update the row pos in dst row to the src row pos when has
343
        // sequence column
344
0
        dst_row->_row_pos = src_row->_row_pos;
345
0
    }
346
    // dst is non-sequence row, or dst sequence is smaller
347
0
    if constexpr (!has_skip_bitmap_col) {
348
0
        DCHECK(_skip_bitmap_col_idx == -1);
349
0
        for (size_t cid = _tablet_schema->num_key_columns(); cid < _num_columns; ++cid) {
350
0
            auto* col_ptr = mutable_block.mutable_columns()[cid].get();
351
0
            _agg_functions[cid]->add(dst_row->agg_places(cid),
352
0
                                     const_cast<const doris::IColumn**>(&col_ptr),
353
0
                                     src_row->_row_pos, _arena);
354
0
        }
355
0
    } else {
356
0
        DCHECK(_skip_bitmap_col_idx != -1);
357
0
        DCHECK_LT(_skip_bitmap_col_idx, mutable_block.columns());
358
0
        const BitmapValue& skip_bitmap =
359
0
                assert_cast<ColumnBitmap*, TypeCheckOnRelease::DISABLE>(
360
0
                        mutable_block.mutable_columns()[_skip_bitmap_col_idx].get())
361
0
                        ->get_data()[src_row->_row_pos];
362
0
        for (size_t cid = _tablet_schema->num_key_columns(); cid < _num_columns; ++cid) {
363
0
            const auto& col = _tablet_schema->column(cid);
364
0
            if (cid != _skip_bitmap_col_idx && skip_bitmap.contains(col.unique_id())) {
365
0
                continue;
366
0
            }
367
0
            auto* col_ptr = mutable_block.mutable_columns()[cid].get();
368
0
            _agg_functions[cid]->add(dst_row->agg_places(cid),
369
0
                                     const_cast<const doris::IColumn**>(&col_ptr),
370
0
                                     src_row->_row_pos, _arena);
371
0
        }
372
0
    }
373
0
}
_ZN5doris8MemTable27_aggregate_two_row_in_blockILb0EEEvRNS_12MutableBlockEPNS_10RowInBlockES5_
Line
Count
Source
329
3
                                           RowInBlock* dst_row) {
330
3
    _merge_row_binlog_lsn(src_row, dst_row);
331
    // for flexible partial update, the caller must guarantees that either src_row and dst_row
332
    // both specify the sequence column, or src_row and dst_row both don't specify the
333
    // sequence column
334
3
    if (_tablet_schema->has_sequence_col() && _seq_col_idx_in_block >= 0) {
335
3
        DCHECK_LT(_seq_col_idx_in_block, mutable_block.columns());
336
3
        auto col_ptr = mutable_block.mutable_columns()[_seq_col_idx_in_block].get();
337
3
        auto res = col_ptr->compare_at(dst_row->_row_pos, src_row->_row_pos, *col_ptr, -1);
338
        // dst sequence column larger than src, don't need to update
339
3
        if (res > 0) {
340
3
            return;
341
3
        }
342
        // need to update the row pos in dst row to the src row pos when has
343
        // sequence column
344
0
        dst_row->_row_pos = src_row->_row_pos;
345
0
    }
346
    // dst is non-sequence row, or dst sequence is smaller
347
0
    if constexpr (!has_skip_bitmap_col) {
348
0
        DCHECK(_skip_bitmap_col_idx == -1);
349
0
        for (size_t cid = _tablet_schema->num_key_columns(); cid < _num_columns; ++cid) {
350
0
            auto* col_ptr = mutable_block.mutable_columns()[cid].get();
351
0
            _agg_functions[cid]->add(dst_row->agg_places(cid),
352
0
                                     const_cast<const doris::IColumn**>(&col_ptr),
353
0
                                     src_row->_row_pos, _arena);
354
0
        }
355
    } else {
356
        DCHECK(_skip_bitmap_col_idx != -1);
357
        DCHECK_LT(_skip_bitmap_col_idx, mutable_block.columns());
358
        const BitmapValue& skip_bitmap =
359
                assert_cast<ColumnBitmap*, TypeCheckOnRelease::DISABLE>(
360
                        mutable_block.mutable_columns()[_skip_bitmap_col_idx].get())
361
                        ->get_data()[src_row->_row_pos];
362
        for (size_t cid = _tablet_schema->num_key_columns(); cid < _num_columns; ++cid) {
363
            const auto& col = _tablet_schema->column(cid);
364
            if (cid != _skip_bitmap_col_idx && skip_bitmap.contains(col.unique_id())) {
365
                continue;
366
            }
367
            auto* col_ptr = mutable_block.mutable_columns()[cid].get();
368
            _agg_functions[cid]->add(dst_row->agg_places(cid),
369
                                     const_cast<const doris::IColumn**>(&col_ptr),
370
                                     src_row->_row_pos, _arena);
371
        }
372
    }
373
0
}
Unexecuted instantiation: _ZN5doris8MemTable27_aggregate_two_row_in_blockILb1EEEvRNS_12MutableBlockEPNS_10RowInBlockES5_
374
12
Status MemTable::_put_into_output(Block& in_block) {
375
12
    SCOPED_RAW_TIMER(&_stat.put_into_output_ns);
376
12
    DorisVector<uint32_t> row_pos_vec;
377
12
    DCHECK(in_block.rows() <= std::numeric_limits<int>::max());
378
12
    row_pos_vec.reserve(in_block.rows());
379
12
    if (_need_row_binlog_lsn) {
380
3
        _output_row_binlog_lsns.reserve(_output_row_binlog_lsns.size() + in_block.rows());
381
3
    }
382
29
    for (int i = 0; i < _row_in_blocks->size(); i++) {
383
17
        row_pos_vec.emplace_back((*_row_in_blocks)[i]->_row_pos);
384
17
        _append_output_row_binlog_lsn((*_row_in_blocks)[i].get());
385
17
    }
386
12
    return _output_mutable_block.add_rows(&in_block, row_pos_vec.data(),
387
12
                                          row_pos_vec.data() + in_block.rows());
388
12
}
389
390
15
size_t MemTable::_sort() {
391
15
    SCOPED_RAW_TIMER(&_stat.sort_ns);
392
15
    _stat.sort_times++;
393
15
    size_t same_keys_num = 0;
394
    // sort new rows
395
15
    Tie tie = Tie(_last_sorted_pos, _row_in_blocks->size());
396
55
    for (size_t i = 0; i < _tablet_schema->num_key_columns(); i++) {
397
40
        auto cmp = [&](RowInBlock* lhs, RowInBlock* rhs) -> int {
398
36
            return _input_mutable_block.compare_one_column(lhs->_row_pos, rhs->_row_pos, i, -1);
399
36
        };
400
40
        _sort_one_column(*_row_in_blocks, tie, cmp);
401
40
    }
402
15
    bool is_dup = (_keys_type == KeysType::DUP_KEYS);
403
    // sort extra round by _row_pos to make the sort stable
404
15
    auto iter = tie.iter();
405
18
    while (iter.next()) {
406
3
        pdqsort(std::next(_row_in_blocks->begin(), iter.left()),
407
3
                std::next(_row_in_blocks->begin(), iter.right()),
408
3
                [&is_dup](const std::shared_ptr<RowInBlock>& lhs,
409
3
                          const std::shared_ptr<RowInBlock>& rhs) -> bool {
410
3
                    return is_dup ? lhs->_row_pos > rhs->_row_pos : lhs->_row_pos < rhs->_row_pos;
411
3
                });
412
3
        same_keys_num += iter.right() - iter.left();
413
3
    }
414
    // merge new rows and old rows
415
15
    _vec_row_comparator->set_block(&_input_mutable_block);
416
15
    auto cmp_func = [this, is_dup, &same_keys_num](const std::shared_ptr<RowInBlock>& l,
417
15
                                                   const std::shared_ptr<RowInBlock>& r) -> bool {
418
0
        auto value = (*(this->_vec_row_comparator))(l.get(), r.get());
419
0
        if (value == 0) {
420
0
            same_keys_num++;
421
0
            return is_dup ? l->_row_pos > r->_row_pos : l->_row_pos < r->_row_pos;
422
0
        } else {
423
0
            return value < 0;
424
0
        }
425
0
    };
426
15
    auto new_row_it = std::next(_row_in_blocks->begin(), _last_sorted_pos);
427
15
    std::inplace_merge(_row_in_blocks->begin(), new_row_it, _row_in_blocks->end(), cmp_func);
428
15
    _last_sorted_pos = _row_in_blocks->size();
429
15
    return same_keys_num;
430
15
}
431
432
1
Status MemTable::_sort_by_cluster_keys() {
433
1
    SCOPED_RAW_TIMER(&_stat.sort_ns);
434
1
    _stat.sort_times++;
435
    // sort all rows
436
1
    Block in_block = _output_mutable_block.to_block();
437
1
    auto clone_block = in_block.clone_without_columns();
438
1
    MutableBlock mutable_block = MutableBlock::build_mutable_block(std::move(in_block));
439
1
    _output_mutable_block = MutableBlock::build_mutable_block(std::move(clone_block));
440
441
1
    DorisVector<std::shared_ptr<RowInBlock>> row_in_blocks;
442
1
    row_in_blocks.reserve(mutable_block.rows());
443
1
    if (_need_row_binlog_lsn) {
444
0
        DCHECK_EQ(_output_row_binlog_lsns.size(), mutable_block.rows());
445
0
    }
446
5
    for (size_t i = 0; i < mutable_block.rows(); i++) {
447
4
        row_in_blocks.emplace_back(
448
4
                _need_row_binlog_lsn ? std::make_shared<RowInBlock>(i, _output_row_binlog_lsns[i])
449
4
                                     : std::make_shared<RowInBlock>(i));
450
4
    }
451
1
    if (_need_row_binlog_lsn) {
452
0
        _output_row_binlog_lsns.clear();
453
0
        _output_row_binlog_lsns.reserve(mutable_block.rows());
454
0
    }
455
1
    Tie tie = Tie(0, mutable_block.rows());
456
457
2
    for (auto cid : _tablet_schema->cluster_key_uids()) {
458
2
        auto index = _tablet_schema->field_index(cid);
459
2
        if (index == -1) {
460
0
            return Status::InternalError("could not find cluster key column with unique_id=" +
461
0
                                         std::to_string(cid) + " in tablet schema");
462
0
        }
463
8
        auto cmp = [&](const RowInBlock* lhs, const RowInBlock* rhs) -> int {
464
8
            return mutable_block.compare_one_column(lhs->_row_pos, rhs->_row_pos, index, -1);
465
8
        };
466
2
        _sort_one_column(row_in_blocks, tie, cmp);
467
2
    }
468
469
    // sort extra round by _row_pos to make the sort stable
470
1
    auto iter = tie.iter();
471
1
    while (iter.next()) {
472
0
        pdqsort(std::next(row_in_blocks.begin(), iter.left()),
473
0
                std::next(row_in_blocks.begin(), iter.right()),
474
0
                [](const std::shared_ptr<RowInBlock>& lhs, const std::shared_ptr<RowInBlock>& rhs)
475
0
                        -> bool { return lhs->_row_pos < rhs->_row_pos; });
476
0
    }
477
478
1
    in_block = mutable_block.to_block();
479
1
    SCOPED_RAW_TIMER(&_stat.put_into_output_ns);
480
1
    DorisVector<uint32_t> row_pos_vec;
481
1
    DCHECK(in_block.rows() <= std::numeric_limits<int>::max());
482
1
    row_pos_vec.reserve(in_block.rows());
483
5
    for (int i = 0; i < row_in_blocks.size(); i++) {
484
4
        row_pos_vec.emplace_back(row_in_blocks[i]->_row_pos);
485
4
        _append_output_row_binlog_lsn(row_in_blocks[i].get());
486
4
    }
487
1
    std::vector<int> column_offset;
488
6
    for (int i = 0; i < _column_offset.size(); ++i) {
489
5
        column_offset.emplace_back(i);
490
5
    }
491
1
    return _output_mutable_block.add_rows(&in_block, row_pos_vec.data(),
492
1
                                          row_pos_vec.data() + in_block.rows(), &column_offset);
493
1
}
494
495
void MemTable::_sort_one_column(DorisVector<std::shared_ptr<RowInBlock>>& row_in_blocks, Tie& tie,
496
42
                                std::function<int(RowInBlock*, RowInBlock*)> cmp) {
497
42
    auto iter = tie.iter();
498
55
    while (iter.next()) {
499
13
        pdqsort(std::next(row_in_blocks.begin(), static_cast<int>(iter.left())),
500
13
                std::next(row_in_blocks.begin(), static_cast<int>(iter.right())),
501
24
                [&cmp](auto lhs, auto rhs) -> bool { return cmp(lhs.get(), rhs.get()) < 0; });
502
13
        tie[iter.left()] = 0;
503
33
        for (auto i = iter.left() + 1; i < iter.right(); i++) {
504
20
            tie[i] = (cmp(row_in_blocks[i - 1].get(), row_in_blocks[i].get()) == 0);
505
20
        }
506
13
    }
507
42
}
508
509
template <bool is_final>
510
6
void MemTable::_finalize_one_row(RowInBlock* row, MutableBlock& mutable_block, int row_pos) {
511
    // move key columns
512
18
    for (size_t i = 0; i < _tablet_schema->num_key_columns(); ++i) {
513
12
        _output_mutable_block.get_column_by_position(i)->insert_from(
514
12
                *mutable_block.get_column_by_position(i), row->_row_pos);
515
12
    }
516
6
    if (row->has_init_agg()) {
517
        // get value columns from agg_places
518
12
        for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
519
9
            auto function = _agg_functions[i];
520
9
            auto* agg_place = row->agg_places(i);
521
9
            auto* col_ptr = _output_mutable_block.get_column_by_position(i).get();
522
9
            function->insert_result_into(agg_place, *col_ptr);
523
524
9
            if constexpr (is_final) {
525
9
                function->destroy(agg_place);
526
9
            } else {
527
0
                function->reset(agg_place);
528
0
            }
529
9
        }
530
531
3
        if constexpr (is_final) {
532
3
            row->remove_init_agg();
533
3
        } else {
534
0
            for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
535
0
                auto function = _agg_functions[i];
536
0
                auto* agg_place = row->agg_places(i);
537
0
                auto* col_ptr = _output_mutable_block.get_column_by_position(i).get();
538
0
                function->add(agg_place, const_cast<const doris::IColumn**>(&col_ptr), row_pos,
539
0
                              _arena);
540
0
            }
541
0
        }
542
3
    } else {
543
        // move columns for rows do not need agg
544
12
        for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
545
9
            _output_mutable_block.get_column_by_position(i)->insert_from(
546
9
                    *mutable_block.get_column_by_position(i), row->_row_pos);
547
9
        }
548
3
    }
549
6
    _append_output_row_binlog_lsn(row);
550
6
    if constexpr (!is_final) {
551
0
        row->_row_pos = row_pos;
552
0
    }
553
6
}
Unexecuted instantiation: _ZN5doris8MemTable17_finalize_one_rowILb0EEEvPNS_10RowInBlockERNS_12MutableBlockEi
_ZN5doris8MemTable17_finalize_one_rowILb1EEEvPNS_10RowInBlockERNS_12MutableBlockEi
Line
Count
Source
510
6
void MemTable::_finalize_one_row(RowInBlock* row, MutableBlock& mutable_block, int row_pos) {
511
    // move key columns
512
18
    for (size_t i = 0; i < _tablet_schema->num_key_columns(); ++i) {
513
12
        _output_mutable_block.get_column_by_position(i)->insert_from(
514
12
                *mutable_block.get_column_by_position(i), row->_row_pos);
515
12
    }
516
6
    if (row->has_init_agg()) {
517
        // get value columns from agg_places
518
12
        for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
519
9
            auto function = _agg_functions[i];
520
9
            auto* agg_place = row->agg_places(i);
521
9
            auto* col_ptr = _output_mutable_block.get_column_by_position(i).get();
522
9
            function->insert_result_into(agg_place, *col_ptr);
523
524
9
            if constexpr (is_final) {
525
9
                function->destroy(agg_place);
526
            } else {
527
                function->reset(agg_place);
528
            }
529
9
        }
530
531
3
        if constexpr (is_final) {
532
3
            row->remove_init_agg();
533
        } else {
534
            for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
535
                auto function = _agg_functions[i];
536
                auto* agg_place = row->agg_places(i);
537
                auto* col_ptr = _output_mutable_block.get_column_by_position(i).get();
538
                function->add(agg_place, const_cast<const doris::IColumn**>(&col_ptr), row_pos,
539
                              _arena);
540
            }
541
        }
542
3
    } else {
543
        // move columns for rows do not need agg
544
12
        for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
545
9
            _output_mutable_block.get_column_by_position(i)->insert_from(
546
9
                    *mutable_block.get_column_by_position(i), row->_row_pos);
547
9
        }
548
3
    }
549
6
    _append_output_row_binlog_lsn(row);
550
    if constexpr (!is_final) {
551
        row->_row_pos = row_pos;
552
    }
553
6
}
554
555
3
void MemTable::_init_row_for_agg(RowInBlock* row, MutableBlock& mutable_block) {
556
3
    row->init_agg_places(_arena.aligned_alloc(_total_size_of_aggregate_states, 16),
557
3
                         _offsets_of_aggregate_states.data());
558
12
    for (auto cid = _tablet_schema->num_key_columns(); cid < _num_columns; cid++) {
559
9
        auto* col_ptr = mutable_block.mutable_columns()[cid].get();
560
9
        auto* data = row->agg_places(cid);
561
9
        _agg_functions[cid]->create(data);
562
9
        _agg_functions[cid]->add(data, const_cast<const doris::IColumn**>(&col_ptr), row->_row_pos,
563
9
                                 _arena);
564
9
    }
565
3
}
566
3
void MemTable::_clear_row_agg(RowInBlock* row) {
567
3
    if (row->has_init_agg()) {
568
0
        for (size_t i = _tablet_schema->num_key_columns(); i < _num_columns; ++i) {
569
0
            auto function = _agg_functions[i];
570
0
            auto* agg_place = row->agg_places(i);
571
0
            function->destroy(agg_place);
572
0
        }
573
0
        row->remove_init_agg();
574
0
    }
575
3
}
576
// only in `to_block` the `is_final` flag will be true, in other cases, it will be false
577
template <bool is_final, bool has_skip_bitmap_col>
578
3
void MemTable::_aggregate() {
579
3
    SCOPED_RAW_TIMER(&_stat.agg_ns);
580
3
    _stat.agg_times++;
581
3
    Block in_block = _input_mutable_block.to_block();
582
3
    std::unique_ptr<Block> empty_input_block = in_block.create_same_struct_block(0);
583
3
    MutableBlock mutable_block = MutableBlock::build_mutable_block(std::move(in_block));
584
3
    _vec_row_comparator->set_block(&mutable_block);
585
3
    DorisVector<std::shared_ptr<RowInBlock>> temp_row_in_blocks;
586
3
    temp_row_in_blocks.reserve(_last_sorted_pos);
587
    //only init agg if needed
588
589
3
    if constexpr (!has_skip_bitmap_col) {
590
3
        RowInBlock* prev_row = nullptr;
591
3
        int row_pos = -1;
592
9
        for (const auto& cur_row_ptr : *_row_in_blocks) {
593
9
            RowInBlock* cur_row = cur_row_ptr.get();
594
9
            if (!temp_row_in_blocks.empty() && (*_vec_row_comparator)(prev_row, cur_row) == 0) {
595
3
                if (!prev_row->has_init_agg()) {
596
3
                    _init_row_for_agg(prev_row, mutable_block);
597
3
                }
598
3
                _stat.merged_rows++;
599
3
                if (_tablet_schema->has_seq_map()) {
600
0
                    _aggregate_two_row_with_sequence_map(mutable_block, cur_row, prev_row);
601
3
                } else {
602
3
                    _aggregate_two_row_in_block<has_skip_bitmap_col>(mutable_block, cur_row,
603
3
                                                                     prev_row);
604
3
                }
605
606
                // Clean up aggregation state of the merged row to avoid memory leak
607
3
                if (cur_row) {
608
3
                    _clear_row_agg(cur_row);
609
3
                }
610
6
            } else {
611
6
                prev_row = cur_row;
612
6
                if (!temp_row_in_blocks.empty()) {
613
                    // The rows from the previous batch of _row_in_blocks have been merged into temp_row_in_blocks,
614
                    // now call finalize to write the aggregation results into _output_mutable_block.
615
3
                    _finalize_one_row<is_final>(temp_row_in_blocks.back().get(), mutable_block,
616
3
                                                row_pos);
617
3
                }
618
6
                temp_row_in_blocks.push_back(cur_row_ptr);
619
6
                row_pos++;
620
6
            }
621
9
        }
622
3
        if (!temp_row_in_blocks.empty()) {
623
            // finalize the last low
624
3
            _finalize_one_row<is_final>(temp_row_in_blocks.back().get(), mutable_block, row_pos);
625
3
        }
626
3
    } else {
627
0
        DCHECK(_delete_sign_col_idx != -1);
628
0
        if (_seq_col_idx_in_block == -1) {
629
0
            _aggregate_for_flexible_partial_update_without_seq_col<is_final>(mutable_block,
630
0
                                                                             temp_row_in_blocks);
631
0
        } else {
632
0
            _aggregate_for_flexible_partial_update_with_seq_col<is_final>(mutable_block,
633
0
                                                                          temp_row_in_blocks);
634
0
        }
635
0
    }
636
3
    if constexpr (!is_final) {
637
        // if is not final, we collect the agg results to input_block and then continue to insert
638
0
        _input_mutable_block.swap(_output_mutable_block);
639
        //TODO(weixang):opt here.
640
0
        _output_mutable_block = MutableBlock::build_mutable_block(std::move(*empty_input_block));
641
0
        _output_mutable_block.clear_column_data();
642
0
        _output_row_binlog_lsns.clear();
643
0
        *_row_in_blocks = temp_row_in_blocks;
644
0
        _last_sorted_pos = _row_in_blocks->size();
645
0
    }
646
3
}
Unexecuted instantiation: _ZN5doris8MemTable10_aggregateILb0ELb0EEEvv
Unexecuted instantiation: _ZN5doris8MemTable10_aggregateILb0ELb1EEEvv
_ZN5doris8MemTable10_aggregateILb1ELb0EEEvv
Line
Count
Source
578
3
void MemTable::_aggregate() {
579
3
    SCOPED_RAW_TIMER(&_stat.agg_ns);
580
3
    _stat.agg_times++;
581
3
    Block in_block = _input_mutable_block.to_block();
582
3
    std::unique_ptr<Block> empty_input_block = in_block.create_same_struct_block(0);
583
3
    MutableBlock mutable_block = MutableBlock::build_mutable_block(std::move(in_block));
584
3
    _vec_row_comparator->set_block(&mutable_block);
585
3
    DorisVector<std::shared_ptr<RowInBlock>> temp_row_in_blocks;
586
3
    temp_row_in_blocks.reserve(_last_sorted_pos);
587
    //only init agg if needed
588
589
3
    if constexpr (!has_skip_bitmap_col) {
590
3
        RowInBlock* prev_row = nullptr;
591
3
        int row_pos = -1;
592
9
        for (const auto& cur_row_ptr : *_row_in_blocks) {
593
9
            RowInBlock* cur_row = cur_row_ptr.get();
594
9
            if (!temp_row_in_blocks.empty() && (*_vec_row_comparator)(prev_row, cur_row) == 0) {
595
3
                if (!prev_row->has_init_agg()) {
596
3
                    _init_row_for_agg(prev_row, mutable_block);
597
3
                }
598
3
                _stat.merged_rows++;
599
3
                if (_tablet_schema->has_seq_map()) {
600
0
                    _aggregate_two_row_with_sequence_map(mutable_block, cur_row, prev_row);
601
3
                } else {
602
3
                    _aggregate_two_row_in_block<has_skip_bitmap_col>(mutable_block, cur_row,
603
3
                                                                     prev_row);
604
3
                }
605
606
                // Clean up aggregation state of the merged row to avoid memory leak
607
3
                if (cur_row) {
608
3
                    _clear_row_agg(cur_row);
609
3
                }
610
6
            } else {
611
6
                prev_row = cur_row;
612
6
                if (!temp_row_in_blocks.empty()) {
613
                    // The rows from the previous batch of _row_in_blocks have been merged into temp_row_in_blocks,
614
                    // now call finalize to write the aggregation results into _output_mutable_block.
615
3
                    _finalize_one_row<is_final>(temp_row_in_blocks.back().get(), mutable_block,
616
3
                                                row_pos);
617
3
                }
618
6
                temp_row_in_blocks.push_back(cur_row_ptr);
619
6
                row_pos++;
620
6
            }
621
9
        }
622
3
        if (!temp_row_in_blocks.empty()) {
623
            // finalize the last low
624
3
            _finalize_one_row<is_final>(temp_row_in_blocks.back().get(), mutable_block, row_pos);
625
3
        }
626
    } else {
627
        DCHECK(_delete_sign_col_idx != -1);
628
        if (_seq_col_idx_in_block == -1) {
629
            _aggregate_for_flexible_partial_update_without_seq_col<is_final>(mutable_block,
630
                                                                             temp_row_in_blocks);
631
        } else {
632
            _aggregate_for_flexible_partial_update_with_seq_col<is_final>(mutable_block,
633
                                                                          temp_row_in_blocks);
634
        }
635
    }
636
    if constexpr (!is_final) {
637
        // if is not final, we collect the agg results to input_block and then continue to insert
638
        _input_mutable_block.swap(_output_mutable_block);
639
        //TODO(weixang):opt here.
640
        _output_mutable_block = MutableBlock::build_mutable_block(std::move(*empty_input_block));
641
        _output_mutable_block.clear_column_data();
642
        _output_row_binlog_lsns.clear();
643
        *_row_in_blocks = temp_row_in_blocks;
644
        _last_sorted_pos = _row_in_blocks->size();
645
    }
646
3
}
Unexecuted instantiation: _ZN5doris8MemTable10_aggregateILb1ELb1EEEvv
647
648
template <bool is_final>
649
void MemTable::_aggregate_for_flexible_partial_update_without_seq_col(
650
0
        MutableBlock& mutable_block, DorisVector<std::shared_ptr<RowInBlock>>& temp_row_in_blocks) {
651
0
    std::shared_ptr<RowInBlock> prev_row {nullptr};
652
0
    int row_pos = -1;
653
0
    auto& skip_bitmaps =
654
0
            assert_cast<ColumnBitmap*>(mutable_block.mutable_columns()[_skip_bitmap_col_idx].get())
655
0
                    ->get_data();
656
0
    auto& delete_signs =
657
0
            assert_cast<ColumnInt8*>(mutable_block.mutable_columns()[_delete_sign_col_idx].get())
658
0
                    ->get_data();
659
0
    std::shared_ptr<RowInBlock> row_with_delete_sign {nullptr};
660
0
    std::shared_ptr<RowInBlock> row_without_delete_sign {nullptr};
661
662
0
    auto finalize_rows = [&]() {
663
0
        if (row_with_delete_sign != nullptr) {
664
0
            temp_row_in_blocks.push_back(row_with_delete_sign);
665
0
            _finalize_one_row<is_final>(row_with_delete_sign.get(), mutable_block, ++row_pos);
666
0
            row_with_delete_sign = nullptr;
667
0
        }
668
0
        if (row_without_delete_sign != nullptr) {
669
0
            temp_row_in_blocks.push_back(row_without_delete_sign);
670
0
            _finalize_one_row<is_final>(row_without_delete_sign.get(), mutable_block, ++row_pos);
671
0
            row_without_delete_sign = nullptr;
672
0
        }
673
        // _arena.clear();
674
0
    };
Unexecuted instantiation: _ZZN5doris8MemTable54_aggregate_for_flexible_partial_update_without_seq_colILb0EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEEENKUlvE_clEv
Unexecuted instantiation: _ZZN5doris8MemTable54_aggregate_for_flexible_partial_update_without_seq_colILb1EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEEENKUlvE_clEv
675
676
0
    auto add_row = [&](std::shared_ptr<RowInBlock> row, bool with_delete_sign) {
677
0
        if (with_delete_sign) {
678
0
            row_with_delete_sign = std::move(row);
679
0
        } else {
680
0
            row_without_delete_sign = std::move(row);
681
0
        }
682
0
    };
Unexecuted instantiation: _ZZN5doris8MemTable54_aggregate_for_flexible_partial_update_without_seq_colILb0EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEEENKUlS7_bE_clES7_b
Unexecuted instantiation: _ZZN5doris8MemTable54_aggregate_for_flexible_partial_update_without_seq_colILb1EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEEENKUlS7_bE_clES7_b
683
0
    for (const auto& cur_row_ptr : *_row_in_blocks) {
684
0
        RowInBlock* cur_row = cur_row_ptr.get();
685
0
        const BitmapValue& skip_bitmap = skip_bitmaps[cur_row->_row_pos];
686
0
        bool cur_row_has_delete_sign = (!skip_bitmap.contains(_delete_sign_col_unique_id) &&
687
0
                                        delete_signs[cur_row->_row_pos] != 0);
688
0
        prev_row =
689
0
                (row_with_delete_sign == nullptr) ? row_without_delete_sign : row_with_delete_sign;
690
        // compare keys, the keys of row_with_delete_sign and row_without_delete_sign is the same,
691
        // choose any of them if it's valid
692
0
        if (prev_row != nullptr && (*_vec_row_comparator)(prev_row.get(), cur_row) == 0) {
693
0
            if (cur_row_has_delete_sign) {
694
0
                if (row_without_delete_sign != nullptr) {
695
                    // if there exits row without delete sign, remove it first
696
0
                    _merge_row_binlog_lsn(row_without_delete_sign.get(), cur_row);
697
0
                    _clear_row_agg(row_without_delete_sign.get());
698
0
                    _stat.merged_rows++;
699
0
                    row_without_delete_sign = nullptr;
700
0
                }
701
                // and then unconditionally replace the previous row
702
0
                prev_row = row_with_delete_sign;
703
0
            } else {
704
0
                prev_row = row_without_delete_sign;
705
0
            }
706
707
0
            if (prev_row == nullptr) {
708
0
                add_row(cur_row_ptr, cur_row_has_delete_sign);
709
0
            } else {
710
0
                if (!prev_row->has_init_agg()) {
711
0
                    _init_row_for_agg(prev_row.get(), mutable_block);
712
0
                }
713
0
                _stat.merged_rows++;
714
0
                _aggregate_two_row_in_block<true>(mutable_block, cur_row, prev_row.get());
715
0
            }
716
0
        } else {
717
0
            finalize_rows();
718
0
            add_row(cur_row_ptr, cur_row_has_delete_sign);
719
0
        }
720
0
    }
721
    // finalize the last lows
722
0
    finalize_rows();
723
0
}
Unexecuted instantiation: _ZN5doris8MemTable54_aggregate_for_flexible_partial_update_without_seq_colILb0EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEE
Unexecuted instantiation: _ZN5doris8MemTable54_aggregate_for_flexible_partial_update_without_seq_colILb1EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEE
724
725
template <bool is_final>
726
void MemTable::_aggregate_for_flexible_partial_update_with_seq_col(
727
0
        MutableBlock& mutable_block, DorisVector<std::shared_ptr<RowInBlock>>& temp_row_in_blocks) {
728
    // For flexible partial update, when table has sequence column, we don't do any aggregation
729
    // in memtable. These duplicate rows will be aggregated in VerticalSegmentWriter
730
0
    int row_pos = -1;
731
0
    for (const auto& row_ptr : *_row_in_blocks) {
732
0
        RowInBlock* row = row_ptr.get();
733
0
        temp_row_in_blocks.push_back(row_ptr);
734
0
        _finalize_one_row<is_final>(row, mutable_block, ++row_pos);
735
0
    }
736
0
}
Unexecuted instantiation: _ZN5doris8MemTable51_aggregate_for_flexible_partial_update_with_seq_colILb0EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEE
Unexecuted instantiation: _ZN5doris8MemTable51_aggregate_for_flexible_partial_update_with_seq_colILb1EEEvRNS_12MutableBlockERSt6vectorISt10shared_ptrINS_10RowInBlockEENS_18CustomStdAllocatorIS7_NS_9AllocatorILb0ELb0ELb0ENS_22DefaultMemoryAllocatorELb1EEEEEE
737
738
0
void MemTable::shrink_memtable_by_agg() {
739
0
    SCOPED_SWITCH_THREAD_MEM_TRACKER_LIMITER(
740
0
            _resource_ctx->memory_context()->mem_tracker()->write_tracker());
741
0
    SCOPED_CONSUME_MEM_TRACKER(_mem_tracker);
742
0
    if (_keys_type == KeysType::DUP_KEYS) {
743
0
        return;
744
0
    }
745
0
    size_t same_keys_num = _sort();
746
0
    if (same_keys_num != 0) {
747
0
        (_skip_bitmap_col_idx == -1) ? _aggregate<false, false>() : _aggregate<false, true>();
748
0
    }
749
0
    _last_agg_pos = memory_usage();
750
0
}
751
752
21
bool MemTable::need_flush() const {
753
21
    DBUG_EXECUTE_IF("MemTable.need_flush", { return true; });
754
21
    auto max_size = _adaptive_write_buffer_size();
755
21
    if (_partial_update_mode == UniqueKeyUpdateModePB::UPDATE_FIXED_COLUMNS) {
756
0
        auto update_columns_size = _num_columns;
757
0
        auto min_buffer_size = config::min_write_buffer_size_for_partial_update;
758
0
        max_size = max_size * update_columns_size / _tablet_schema->num_columns();
759
0
        max_size = max_size > min_buffer_size ? max_size : min_buffer_size;
760
0
    }
761
762
21
    if (memory_usage() >= max_size) {
763
0
        g_flush_cuz_memtable_full << 1;
764
0
        return true;
765
0
    }
766
21
    return false;
767
21
}
768
769
21
int64_t MemTable::_adaptive_write_buffer_size() const {
770
21
    if (!config::enable_adaptive_write_buffer_size) [[unlikely]] {
771
0
        return config::write_buffer_size;
772
0
    }
773
21
    auto* memtable_limiter = ExecEnv::GetInstance()->memtable_memory_limiter();
774
21
    int64_t memtable_mem =
775
21
            (memtable_limiter != nullptr && memtable_limiter->mem_tracker() != nullptr)
776
21
                    ? memtable_limiter->mem_tracker()->consumption()
777
21
                    : 0;
778
21
    int64_t factor = 4;
779
    // Memory usage intervals:
780
    // (80 %, 100 %] → 1× buffer
781
    // (50 %, 80 %]  → 2× buffer
782
    // [0 %, 50 %]   → 4× buffer
783
21
    if (memtable_mem > (_load_mem_limit * 4) / 5) { // > 80 %
784
0
        factor = 1;
785
21
    } else if (memtable_mem > _load_mem_limit / 2) { // > 50 %
786
0
        factor = 2;
787
0
    }
788
21
    return config::write_buffer_size * factor;
789
21
}
790
791
21
bool MemTable::need_agg() const {
792
21
    if (_keys_type == KeysType::AGG_KEYS) {
793
5
        auto max_size = _last_agg_pos + config::write_buffer_size_for_agg;
794
5
        return memory_usage() >= max_size;
795
5
    }
796
16
    return false;
797
21
}
798
799
0
size_t MemTable::get_flush_reserve_memory_size() const {
800
0
    if (_keys_type == KeysType::DUP_KEYS && _tablet_schema->num_key_columns() == 0) {
801
0
        return 0; // no need to reserve
802
0
    }
803
0
    return static_cast<size_t>(static_cast<double>(_input_mutable_block.allocated_bytes()) * 1.2);
804
0
}
805
806
15
Status MemTable::_to_block(std::unique_ptr<Block>* res) {
807
15
    _output_row_binlog_lsns.clear();
808
15
    size_t same_keys_num = _sort();
809
15
    if (_keys_type == KeysType::DUP_KEYS || same_keys_num == 0) {
810
12
        if (_keys_type == KeysType::DUP_KEYS && _tablet_schema->num_key_columns() == 0) {
811
0
            _output_mutable_block.swap(_input_mutable_block);
812
0
            if (_need_row_binlog_lsn) {
813
0
                _output_row_binlog_lsns.reserve(_row_in_blocks->size());
814
0
                for (const auto& row : *_row_in_blocks) {
815
0
                    _append_output_row_binlog_lsn(row.get());
816
0
                }
817
0
            }
818
12
        } else {
819
12
            Block in_block = _input_mutable_block.to_block();
820
12
            RETURN_IF_ERROR(_put_into_output(in_block));
821
12
        }
822
12
    } else {
823
3
        (_skip_bitmap_col_idx == -1) ? _aggregate<true, false>() : _aggregate<true, true>();
824
3
    }
825
15
    if (_keys_type == KeysType::UNIQUE_KEYS && _enable_unique_key_mow &&
826
15
        !_tablet_schema->cluster_key_uids().empty()) {
827
1
        if (_partial_update_mode != UniqueKeyUpdateModePB::UPSERT) {
828
0
            return Status::InternalError(
829
0
                    "Partial update for mow with cluster keys is not supported");
830
0
        }
831
1
        RETURN_IF_ERROR(_sort_by_cluster_keys());
832
1
    }
833
15
    if (_need_row_binlog_lsn) {
834
3
        DCHECK_EQ(_output_row_binlog_lsns.size(), _output_mutable_block.rows());
835
3
    }
836
15
    _input_mutable_block.clear();
837
15
    *res = Block::create_unique(_output_mutable_block.to_block());
838
15
    return Status::OK();
839
15
}
840
841
15
Status MemTable::to_block(std::unique_ptr<Block>* res) {
842
15
    RETURN_IF_ERROR_OR_CATCH_EXCEPTION(_to_block(res));
843
15
    return Status::OK();
844
15
}
845
846
} // namespace doris