be/src/exec/exchange/exchange_writer.cpp

Source
// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements.  See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership.  The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License.  You may obtain a copy of the License at
//
//   http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied.  See the License for the
// specific language governing permissions and limitations
// under the License.

#include "exec/exchange/exchange_writer.h"

#include <glog/logging.h>

#include <algorithm>
#include <cstdint>
#include <vector>

#include "common/logging.h"
#include "common/status.h"
#include "core/assert_cast.h"
#include "core/block/block.h"
#include "exec/operator/exchange_sink_operator.h"
#include "exec/sink/tablet_sink_hash_partitioner.h"

namespace doris {

ExchangeWriterBase::ExchangeWriterBase(ExchangeSinkLocalState& local_state)
        : _local_state(local_state), _partitioner(local_state.partitioner()) {}

template <typename ChannelPtrType>
Status ExchangeWriterBase::_handle_eof_channel(RuntimeState* state, ChannelPtrType channel,
                                               Status st) const {
    channel->set_receiver_eof(st);
    // Channel will not send RPC to the downstream when eof, so close channel by OK status.
    return channel->close(state);
}

// NOLINTBEGIN(readability-function-cognitive-complexity)
Status ExchangeWriterBase::_add_rows_impl(RuntimeState* state,
                                          std::vector<std::shared_ptr<Channel>>& channels,
                                          size_t channel_count, Block* block, bool eos) {
    Status status = Status::OK();
    uint32_t offset = 0;
    for (size_t i = 0; i < channel_count; ++i) {
        uint32_t size = _channel_rows_histogram[i];
        if (!channels[i]->is_receiver_eof() && size > 0) {
            VLOG_DEBUG << fmt::format("partition {} of {}, block:\n{}, start: {}, size: {}", i,
                                      channel_count, block->dump_data(), offset, size);
            status = channels[i]->add_rows(block, _origin_row_idx.data(), offset, size, false);
            HANDLE_CHANNEL_STATUS(state, channels[i], status);
        }
        offset += size;
    }
    if (eos) {
        for (int i = 0; i < channel_count; ++i) {
            if (!channels[i]->is_receiver_eof()) {
                VLOG_DEBUG << fmt::format("EOS partition {} of {}, block:\n{}", i, channel_count,
                                          block->dump_data());
                status = channels[i]->add_rows(block, _origin_row_idx.data(), 0, 0, true);
                HANDLE_CHANNEL_STATUS(state, channels[i], status);
            }
        }
    }
    return Status::OK();
}
// NOLINTEND(readability-function-cognitive-complexity)

Status ExchangeOlapWriter::write(RuntimeState* state, Block* block, bool eos) {
    Block prior_block;
    auto* tablet_partitioner = assert_cast<TabletSinkHashPartitioner*>(_partitioner);
    RETURN_IF_ERROR(tablet_partitioner->try_cut_in_line(prior_block));
    if (!prior_block.empty()) {
        // prior_block (batching rows) cuts in line, deal it first.
        RETURN_IF_ERROR(_write_impl(state, &prior_block));
        tablet_partitioner->finish_cut_in_line();
    }

    RETURN_IF_ERROR(_write_impl(state, block));

    // all data wrote. consider batched rows before eos.
    if (eos) {
        // get all batched rows
        tablet_partitioner->mark_last_block();
        Block final_batching_block;
        RETURN_IF_ERROR(tablet_partitioner->try_cut_in_line(final_batching_block));
        if (!final_batching_block.empty()) {
            RETURN_IF_ERROR(_write_impl(state, &final_batching_block, true));
        } else {
            // No batched rows, send empty block with eos signal.
            Block empty_block = block->clone_empty();
            RETURN_IF_ERROR(_write_impl(state, &empty_block, true));
        }
    }
    return Status::OK();
}

Status ExchangeOlapWriter::_write_impl(RuntimeState* state, Block* block, bool eos) {
    auto rows = block->rows();
    auto* tablet_partitioner = assert_cast<TabletSinkHashPartitioner*>(_partitioner);
    {
        SCOPED_TIMER(_local_state.split_block_hash_compute_timer());
        RETURN_IF_ERROR(tablet_partitioner->do_partitioning(state, block));
    }
    {
        SCOPED_TIMER(_local_state.distribute_rows_into_channels_timer());
        const auto& channel_ids = tablet_partitioner->get_channel_ids();
        const auto invalid_val = tablet_partitioner->invalid_sentinel();
        DCHECK_EQ(channel_ids.size(), rows);

        // decrease not sinked rows this time
        COUNTER_UPDATE(_local_state.rows_input_counter(),
                       -1LL * std::ranges::count(channel_ids, invalid_val));

        RETURN_IF_ERROR(_channel_add_rows(state, _local_state.channels,
                                          _local_state.channels.size(), channel_ids, rows, block,
                                          eos, invalid_val));
    }
    return Status::OK();
}

Status ExchangeTrivialWriter::write(RuntimeState* state, Block* block, bool eos) {
    {
        SCOPED_TIMER(_local_state.split_block_hash_compute_timer());
        RETURN_IF_ERROR(_partitioner->do_partitioning(state, block));
    }
    {
        auto rows = block->rows();
        SCOPED_TIMER(_local_state.distribute_rows_into_channels_timer());
        const auto& channel_ids = _partitioner->get_channel_ids();

        RETURN_IF_ERROR(_channel_add_rows(state, _local_state.channels,
                                          _local_state.channels.size(), channel_ids, rows, block,
                                          eos));
    }

    return Status::OK();
}

Status ExchangeOlapWriter::_channel_add_rows(RuntimeState* state,
                                             std::vector<std::shared_ptr<Channel>>& channels,
                                             size_t channel_count,
                                             const std::vector<HashValType>& channel_ids,
                                             size_t rows, Block* block, bool eos,
                                             HashValType invalid_val) {
    size_t effective_rows = 0;
    effective_rows =
            std::ranges::count_if(channel_ids, [=](int64_t cid) { return cid != invalid_val; });

    // row index will skip all skipped rows.
    _origin_row_idx.resize(effective_rows);
    _channel_rows_histogram.assign(channel_count, 0U);
    _channel_pos_offsets.resize(channel_count);
    for (size_t i = 0; i < rows; ++i) {
        if (channel_ids[i] == invalid_val) {
            continue;
        }
        auto cid = channel_ids[i];
        _channel_rows_histogram[cid]++;
    }
    _channel_pos_offsets[0] = 0;
    for (size_t i = 1; i < channel_count; ++i) {
        _channel_pos_offsets[i] = _channel_pos_offsets[i - 1] + _channel_rows_histogram[i - 1];
    }
    for (uint32_t i = 0; i < rows; ++i) {
        if (channel_ids[i] == invalid_val) {
            continue;
        }
        auto cid = channel_ids[i];
        auto pos = _channel_pos_offsets[cid]++;
        _origin_row_idx[pos] = i;
    }

    return _add_rows_impl(state, channels, channel_count, block, eos);
}

Status ExchangeTrivialWriter::_channel_add_rows(RuntimeState* state,
                                                std::vector<std::shared_ptr<Channel>>& channels,
                                                size_t channel_count,
                                                const std::vector<HashValType>& channel_ids,
                                                size_t rows, Block* block, bool eos) {
    _origin_row_idx.resize(rows);
    _channel_rows_histogram.assign(channel_count, 0U);
    _channel_pos_offsets.resize(channel_count);
    for (size_t i = 0; i < rows; ++i) {
        _channel_rows_histogram[channel_ids[i]]++;
    }
    _channel_pos_offsets[0] = 0;
    for (size_t i = 1; i < channel_count; ++i) {
        _channel_pos_offsets[i] = _channel_pos_offsets[i - 1] + _channel_rows_histogram[i - 1];
    }
    for (uint32_t i = 0; i < rows; i++) {
        auto cid = channel_ids[i];
        auto pos = _channel_pos_offsets[cid]++;
        _origin_row_idx[pos] = i;
    }

    return _add_rows_impl(state, channels, channel_count, block, eos);
}

} // namespace doris

Coverage Report

Created: 2026-05-19 15:24

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 "exec/exchange/exchange_writer.h"
19
20		#include <glog/logging.h>
21
22		#include <algorithm>
23		#include <cstdint>
24		#include <vector>
25
26		#include "common/logging.h"
27		#include "common/status.h"
28		#include "core/assert_cast.h"
29		#include "core/block/block.h"
30		#include "exec/operator/exchange_sink_operator.h"
31		#include "exec/sink/tablet_sink_hash_partitioner.h"
32
33		namespace doris {
34
35		ExchangeWriterBase::ExchangeWriterBase(ExchangeSinkLocalState& local_state)
36	712k	: _local_state(local_state), _partitioner(local_state.partitioner()) {}
37
38		template <typename ChannelPtrType>
39		Status ExchangeWriterBase::_handle_eof_channel(RuntimeState* state, ChannelPtrType channel,
40	89.7k	Status st) const {
41	89.7k	channel->set_receiver_eof(st);
42		// Channel will not send RPC to the downstream when eof, so close channel by OK status.
43	89.7k	return channel->close(state);
44	89.7k	}
45
46		// NOLINTBEGIN(readability-function-cognitive-complexity)
47		Status ExchangeWriterBase::_add_rows_impl(RuntimeState* state,
48		std::vector<std::shared_ptr<Channel>>& channels,
49	222k	size_t channel_count, Block* block, bool eos) {
50	222k	Status status = Status::OK();
51	222k	uint32_t offset = 0;
52	2.62M	for (size_t i = 0; i < channel_count; ++i) {
53	2.40M	uint32_t size = _channel_rows_histogram[i];
54	2.40M	if (!channels[i]->is_receiver_eof() && size > 0) {
55	64.3k	VLOG_DEBUG << fmt::format("partition {} of {}, block:\n{}, start: {}, size: {}", i,
56	0	channel_count, block->dump_data(), offset, size);
57	64.3k	status = channels[i]->add_rows(block, _origin_row_idx.data(), offset, size, false);
58	64.3k	HANDLE_CHANNEL_STATUS(state, channels[i], status);
59	64.3k	}
60	2.40M	offset += size;
61	2.40M	}
62	222k	if (eos) {
63	2.42M	for (int i = 0; i < channel_count; ++i) {
64	2.22M	if (!channels[i]->is_receiver_eof()) {
65	18.4E	VLOG_DEBUG << fmt::format("EOS partition {} of {}, block:\n{}", i, channel_count,
66	18.4E	block->dump_data());
67	2.22M	status = channels[i]->add_rows(block, _origin_row_idx.data(), 0, 0, true);
68	2.22M	HANDLE_CHANNEL_STATUS(state, channels[i], status);
69	2.22M	}
70	2.21M	}
71	213k	}
72	222k	return Status::OK();
73	222k	}
74		// NOLINTEND(readability-function-cognitive-complexity)
75
76	948	Status ExchangeOlapWriter::write(RuntimeState* state, Block* block, bool eos) {
77	948	Block prior_block;
78	948	auto* tablet_partitioner = assert_cast<TabletSinkHashPartitioner*>(_partitioner);
79	948	RETURN_IF_ERROR(tablet_partitioner->try_cut_in_line(prior_block));
80	948	if (!prior_block.empty()) {
81		// prior_block (batching rows) cuts in line, deal it first.
82	0	RETURN_IF_ERROR(_write_impl(state, &prior_block));
83	0	tablet_partitioner->finish_cut_in_line();
84	0	}
85
86	948	RETURN_IF_ERROR(_write_impl(state, block));
87
88		// all data wrote. consider batched rows before eos.
89	948	if (eos) {
90		// get all batched rows
91	864	tablet_partitioner->mark_last_block();
92	864	Block final_batching_block;
93	864	RETURN_IF_ERROR(tablet_partitioner->try_cut_in_line(final_batching_block));
94	864	if (!final_batching_block.empty()) {
95	0	RETURN_IF_ERROR(_write_impl(state, &final_batching_block, true));
96	864	} else {
97		// No batched rows, send empty block with eos signal.
98	864	Block empty_block = block->clone_empty();
99	864	RETURN_IF_ERROR(_write_impl(state, &empty_block, true));
100	864	}
101	864	}
102	948	return Status::OK();
103	948	}
104
105	1.81k	Status ExchangeOlapWriter::_write_impl(RuntimeState* state, Block* block, bool eos) {
106	1.81k	auto rows = block->rows();
107	1.81k	auto* tablet_partitioner = assert_cast<TabletSinkHashPartitioner*>(_partitioner);
108	1.81k	{
109	1.81k	SCOPED_TIMER(_local_state.split_block_hash_compute_timer());
110	1.81k	RETURN_IF_ERROR(tablet_partitioner->do_partitioning(state, block));
111	1.81k	}
112	1.81k	{
113	1.81k	SCOPED_TIMER(_local_state.distribute_rows_into_channels_timer());
114	1.81k	const auto& channel_ids = tablet_partitioner->get_channel_ids();
115	1.81k	const auto invalid_val = tablet_partitioner->invalid_sentinel();
116	1.81k	DCHECK_EQ(channel_ids.size(), rows);
117
118		// decrease not sinked rows this time
119	1.81k	COUNTER_UPDATE(_local_state.rows_input_counter(),
120	1.81k	-1LL * std::ranges::count(channel_ids, invalid_val));
121
122	1.81k	RETURN_IF_ERROR(_channel_add_rows(state, _local_state.channels,
123	1.81k	_local_state.channels.size(), channel_ids, rows, block,
124	1.81k	eos, invalid_val));
125	1.81k	}
126	1.81k	return Status::OK();
127	1.81k	}
128
129	219k	Status ExchangeTrivialWriter::write(RuntimeState* state, Block* block, bool eos) {
130	219k	{
131	219k	SCOPED_TIMER(_local_state.split_block_hash_compute_timer());
132	219k	RETURN_IF_ERROR(_partitioner->do_partitioning(state, block));
133	219k	}
134	219k	{
135	219k	auto rows = block->rows();
136	219k	SCOPED_TIMER(_local_state.distribute_rows_into_channels_timer());
137	219k	const auto& channel_ids = _partitioner->get_channel_ids();
138
139	219k	RETURN_IF_ERROR(_channel_add_rows(state, _local_state.channels,
140	219k	_local_state.channels.size(), channel_ids, rows, block,
141	219k	eos));
142	219k	}
143
144	219k	return Status::OK();
145	219k	}
146
147		Status ExchangeOlapWriter::_channel_add_rows(RuntimeState* state,
148		std::vector<std::shared_ptr<Channel>>& channels,
149		size_t channel_count,
150		const std::vector<HashValType>& channel_ids,
151		size_t rows, Block* block, bool eos,
152	1.82k	HashValType invalid_val) {
153	1.82k	size_t effective_rows = 0;
154	1.82k	effective_rows =
155	1.82k	std::ranges::count_if(channel_ids, [=](int64_t cid) { return cid != invalid_val; });
156
157		// row index will skip all skipped rows.
158	1.82k	_origin_row_idx.resize(effective_rows);
159	1.82k	_channel_rows_histogram.assign(channel_count, 0U);
160	1.82k	_channel_pos_offsets.resize(channel_count);
161	1.95k	for (size_t i = 0; i < rows; ++i) {
162	130	if (channel_ids[i] == invalid_val) {
163	2	continue;
164	2	}
165	128	auto cid = channel_ids[i];
166	128	_channel_rows_histogram[cid]++;
167	128	}
168	1.82k	_channel_pos_offsets[0] = 0;
169	14.5k	for (size_t i = 1; i < channel_count; ++i) {
170	12.7k	_channel_pos_offsets[i] = _channel_pos_offsets[i - 1] + _channel_rows_histogram[i - 1];
171	12.7k	}
172	1.95k	for (uint32_t i = 0; i < rows; ++i) {
173	130	if (channel_ids[i] == invalid_val) {
174	2	continue;
175	2	}
176	128	auto cid = channel_ids[i];
177	128	auto pos = _channel_pos_offsets[cid]++;
178	128	_origin_row_idx[pos] = i;
179	128	}
180
181	1.82k	return _add_rows_impl(state, channels, channel_count, block, eos);
182	1.82k	}
183
184		Status ExchangeTrivialWriter::_channel_add_rows(RuntimeState* state,
185		std::vector<std::shared_ptr<Channel>>& channels,
186		size_t channel_count,
187		const std::vector<HashValType>& channel_ids,
188	219k	size_t rows, Block* block, bool eos) {
189	219k	_origin_row_idx.resize(rows);
190	219k	_channel_rows_histogram.assign(channel_count, 0U);
191	219k	_channel_pos_offsets.resize(channel_count);
192	17.3M	for (size_t i = 0; i < rows; ++i) {
193	17.1M	_channel_rows_histogram[channel_ids[i]]++;
194	17.1M	}
195	219k	_channel_pos_offsets[0] = 0;
196	2.39M	for (size_t i = 1; i < channel_count; ++i) {
197	2.17M	_channel_pos_offsets[i] = _channel_pos_offsets[i - 1] + _channel_rows_histogram[i - 1];
198	2.17M	}
199	17.3M	for (uint32_t i = 0; i < rows; i++) {
200	17.1M	auto cid = channel_ids[i];
201	17.1M	auto pos = _channel_pos_offsets[cid]++;
202	17.1M	_origin_row_idx[pos] = i;
203	17.1M	}
204
205	219k	return _add_rows_impl(state, channels, channel_count, block, eos);
206	219k	}
207
208		} // namespace doris