be/src/exec/sink/viceberg_merge_sink.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/sink/viceberg_merge_sink.h"

#include <fmt/format.h>

#include "common/consts.h"
#include "common/exception.h"
#include "common/logging.h"
#include "core/block/block.h"
#include "core/column/column_nullable.h"
#include "core/column/column_vector.h"
#include "exec/sink/sink_common.h"
#include "exec/sink/viceberg_delete_sink.h"
#include "exec/sink/writer/iceberg/viceberg_table_writer.h"
#include "exprs/vexpr_context.h"
#include "format/table/iceberg/schema.h"
#include "format/table/iceberg/schema_parser.h"
#include "runtime/runtime_state.h"
#include "util/string_util.h"

namespace doris {

namespace {} // namespace

VIcebergMergeSink::VIcebergMergeSink(const TDataSink& t_sink, const VExprContextSPtrs& output_exprs,
                                     std::shared_ptr<Dependency> dep,
                                     std::shared_ptr<Dependency> fin_dep)
        : AsyncResultWriter(output_exprs, dep, fin_dep), _t_sink(t_sink) {
    DCHECK(_t_sink.__isset.iceberg_merge_sink);
}

VIcebergMergeSink::~VIcebergMergeSink() = default;

Status VIcebergMergeSink::init_properties(ObjectPool* pool, const RowDescriptor& row_desc) {
    RETURN_IF_ERROR(_build_inner_sinks());

    _table_writer = std::make_unique<VIcebergTableWriter>(_table_sink, _table_output_expr_ctxs,
                                                          nullptr, nullptr);
    _delete_writer = std::make_unique<VIcebergDeleteSink>(_delete_sink, _delete_output_expr_ctxs,
                                                          nullptr, nullptr);
    RETURN_IF_ERROR(_table_writer->init_properties(pool, row_desc));
    RETURN_IF_ERROR(_delete_writer->init_properties(pool));
    return Status::OK();
}

Status VIcebergMergeSink::open(RuntimeState* state, RuntimeProfile* profile) {
    _state = state;

    _written_rows_counter = ADD_COUNTER(profile, "RowsWritten", TUnit::UNIT);
    _insert_rows_counter = ADD_COUNTER(profile, "InsertRows", TUnit::UNIT);
    _delete_rows_counter = ADD_COUNTER(profile, "DeleteRows", TUnit::UNIT);
    _send_data_timer = ADD_TIMER(profile, "SendDataTime");
    _open_timer = ADD_TIMER(profile, "OpenTime");
    _close_timer = ADD_TIMER(profile, "CloseTime");

    SCOPED_TIMER(_open_timer);

    RETURN_IF_ERROR(_prepare_output_layout());

    RuntimeProfile* table_profile = profile->create_child("IcebergMergeTableWriter", true, true);
    RuntimeProfile* delete_profile = profile->create_child("IcebergMergeDeleteWriter", true, true);

    RETURN_IF_ERROR(_table_writer->open(state, table_profile));
    RETURN_IF_ERROR(_delete_writer->open(state, delete_profile));

    return Status::OK();
}

Status VIcebergMergeSink::write(RuntimeState* state, Block& block) {
    SCOPED_TIMER(_send_data_timer);
    if (block.rows() == 0) {
        return Status::OK();
    }

    Block output_block;
    RETURN_IF_ERROR(_projection_block(block, &output_block));
    if (output_block.rows() == 0) {
        return Status::OK();
    }

    _row_count += output_block.rows();

    if (_operation_idx < 0 || _row_id_idx < 0) {
        return Status::InternalError("Iceberg merge sink missing operation/row_id columns");
    }

    const auto& op_column = output_block.get_by_position(_operation_idx).column;
    const auto* op_data = remove_nullable(op_column).get();

    IColumn::Filter delete_filter(output_block.rows(), 0);
    IColumn::Filter insert_filter(output_block.rows(), 0);
    bool has_delete = false;
    bool has_insert = false;
    size_t delete_rows = 0;
    size_t insert_rows = 0;

    for (size_t i = 0; i < output_block.rows(); ++i) {
        int8_t op = static_cast<int8_t>(op_data->get_int(i));
        bool delete_op = is_delete_op(op);
        bool insert_op = is_insert_op(op);
        if (!delete_op && !insert_op) {
            return Status::InternalError("Unknown Iceberg merge operation {}", op);
        }
        if (delete_op) {
            delete_filter[i] = 1;
            has_delete = true;
            ++_delete_row_count;
            ++delete_rows;
        }
        if (insert_op) {
            insert_filter[i] = 1;
            has_insert = true;
            ++_insert_row_count;
            ++insert_rows;
        }
    }

    bool skip_io = false;
#ifdef BE_TEST
    skip_io = _skip_io;
#endif

    if (has_delete && !skip_io) {
        Block delete_block = output_block;
        std::vector<int> delete_indices {_row_id_idx};
        delete_block.erase_not_in(delete_indices);
        Block::filter_block_internal(&delete_block, delete_filter);
        RETURN_IF_ERROR(_delete_writer->write(state, delete_block));
    }

    if (has_insert && !skip_io) {
        if (_data_column_indices.empty()) {
            return Status::InternalError("Iceberg merge sink has no data columns for insert");
        }
        Block insert_block = output_block;
        insert_block.erase_not_in(_data_column_indices);
        Block::filter_block_internal(&insert_block, insert_filter);
        RETURN_IF_ERROR(_table_writer->write_prepared_block(insert_block));
    }

    if (_written_rows_counter != nullptr) {
        COUNTER_UPDATE(_written_rows_counter, output_block.rows());
    }
    if (_insert_rows_counter != nullptr) {
        COUNTER_UPDATE(_insert_rows_counter, insert_rows);
    }
    if (_delete_rows_counter != nullptr) {
        COUNTER_UPDATE(_delete_rows_counter, delete_rows);
    }

    return Status::OK();
}

Status VIcebergMergeSink::close(Status close_status) {
    SCOPED_TIMER(_close_timer);

    if (!close_status.ok()) {
        LOG(WARNING) << fmt::format("VIcebergMergeSink close with error: {}",
                                    close_status.to_string());
        if (_table_writer) {
            static_cast<void>(_table_writer->close(close_status));
        }
        if (_delete_writer) {
            static_cast<void>(_delete_writer->close(close_status));
        }
        return close_status;
    }

    Status table_status = Status::OK();
    Status delete_status = Status::OK();
    if (_table_writer) {
        table_status = _table_writer->close(close_status);
    }
    if (_delete_writer) {
        delete_status = _delete_writer->close(close_status);
    }

    if (_written_rows_counter != nullptr) {
        COUNTER_SET(_written_rows_counter, static_cast<int64_t>(_row_count));
    }
    if (_insert_rows_counter != nullptr) {
        COUNTER_SET(_insert_rows_counter, static_cast<int64_t>(_insert_row_count));
    }
    if (_delete_rows_counter != nullptr) {
        COUNTER_SET(_delete_rows_counter, static_cast<int64_t>(_delete_row_count));
    }

    if (!table_status.ok()) {
        return table_status;
    }
    return delete_status;
}

Status VIcebergMergeSink::_build_inner_sinks() {
    if (!_t_sink.__isset.iceberg_merge_sink) {
        return Status::InternalError("Missing iceberg merge sink config");
    }

    const auto& merge_sink = _t_sink.iceberg_merge_sink;

    TIcebergTableSink table_sink;
    if (merge_sink.__isset.db_name) {
        table_sink.__set_db_name(merge_sink.db_name);
    }
    if (merge_sink.__isset.tb_name) {
        table_sink.__set_tb_name(merge_sink.tb_name);
    }
    if (merge_sink.__isset.schema_json) {
        table_sink.__set_schema_json(merge_sink.schema_json);
    }
    if (merge_sink.__isset.partition_specs_json) {
        table_sink.__set_partition_specs_json(merge_sink.partition_specs_json);
    }
    if (merge_sink.__isset.partition_spec_id) {
        table_sink.__set_partition_spec_id(merge_sink.partition_spec_id);
    }
    if (merge_sink.__isset.sort_fields) {
        table_sink.__set_sort_fields(merge_sink.sort_fields);
    }
    if (merge_sink.__isset.file_format) {
        table_sink.__set_file_format(merge_sink.file_format);
    }
    if (merge_sink.__isset.compression_type) {
        table_sink.__set_compression_type(merge_sink.compression_type);
    }
    if (merge_sink.__isset.output_path) {
        table_sink.__set_output_path(merge_sink.output_path);
    }
    if (merge_sink.__isset.original_output_path) {
        table_sink.__set_original_output_path(merge_sink.original_output_path);
    }
    if (merge_sink.__isset.hadoop_config) {
        table_sink.__set_hadoop_config(merge_sink.hadoop_config);
    }
    if (merge_sink.__isset.file_type) {
        table_sink.__set_file_type(merge_sink.file_type);
    }
    if (merge_sink.__isset.broker_addresses) {
        table_sink.__set_broker_addresses(merge_sink.broker_addresses);
    }
    _table_sink.__set_type(TDataSinkType::ICEBERG_TABLE_SINK);
    _table_sink.__set_iceberg_table_sink(table_sink);

    TIcebergDeleteSink delete_sink;
    if (merge_sink.__isset.db_name) {
        delete_sink.__set_db_name(merge_sink.db_name);
    }
    if (merge_sink.__isset.tb_name) {
        delete_sink.__set_tb_name(merge_sink.tb_name);
    }
    if (merge_sink.__isset.delete_type) {
        delete_sink.__set_delete_type(merge_sink.delete_type);
    }
    if (merge_sink.__isset.file_format) {
        delete_sink.__set_file_format(merge_sink.file_format);
    }
    if (merge_sink.__isset.compression_type) {
        delete_sink.__set_compress_type(merge_sink.compression_type);
    }
    if (merge_sink.__isset.output_path) {
        delete_sink.__set_output_path(merge_sink.output_path);
    }
    if (merge_sink.__isset.table_location) {
        delete_sink.__set_table_location(merge_sink.table_location);
    }
    if (merge_sink.__isset.hadoop_config) {
        delete_sink.__set_hadoop_config(merge_sink.hadoop_config);
    }
    if (merge_sink.__isset.file_type) {
        delete_sink.__set_file_type(merge_sink.file_type);
    }
    if (merge_sink.__isset.partition_spec_id_for_delete) {
        delete_sink.__set_partition_spec_id(merge_sink.partition_spec_id_for_delete);
    }
    if (merge_sink.__isset.partition_data_json_for_delete) {
        delete_sink.__set_partition_data_json(merge_sink.partition_data_json_for_delete);
    }
    if (merge_sink.__isset.broker_addresses) {
        delete_sink.__set_broker_addresses(merge_sink.broker_addresses);
    }
    if (merge_sink.__isset.format_version) {
        delete_sink.__set_format_version(merge_sink.format_version);
    }
    if (merge_sink.__isset.rewritable_delete_file_sets) {
        delete_sink.__set_rewritable_delete_file_sets(merge_sink.rewritable_delete_file_sets);
    }
    _delete_sink.__set_type(TDataSinkType::ICEBERG_DELETE_SINK);
    _delete_sink.__set_iceberg_delete_sink(delete_sink);

    return Status::OK();
}

Status VIcebergMergeSink::_prepare_output_layout() {
    if (_vec_output_expr_ctxs.empty()) {
        return Status::InternalError("Iceberg merge sink has empty output expressions");
    }

    std::string row_id_name = doris::to_lower(BeConsts::ICEBERG_ROWID_COL);
    std::string op_name = doris::to_lower(kOperationColumnName);

    _operation_idx = -1;
    _row_id_idx = -1;
    for (size_t i = 0; i < _vec_output_expr_ctxs.size(); ++i) {
        std::string expr_name = doris::to_lower(_vec_output_expr_ctxs[i]->expr_name());
        if (_operation_idx < 0 && expr_name == op_name) {
            _operation_idx = static_cast<int>(i);
        } else if (_row_id_idx < 0 && expr_name == row_id_name) {
            _row_id_idx = static_cast<int>(i);
        }
    }

    if (_operation_idx < 0) {
        return Status::InternalError("Iceberg merge sink missing operation column");
    }
    if (_row_id_idx < 0) {
        return Status::InternalError("Iceberg merge sink missing row_id column");
    }

    _data_column_indices.clear();
    _table_output_expr_ctxs.clear();
    for (size_t i = 0; i < _vec_output_expr_ctxs.size(); ++i) {
        if (static_cast<int>(i) == _operation_idx || static_cast<int>(i) == _row_id_idx) {
            continue;
        }
        _data_column_indices.push_back(static_cast<int>(i));
        _table_output_expr_ctxs.emplace_back(_vec_output_expr_ctxs[i]);
    }

    return Status::OK();
}

} // namespace doris

Coverage Report

Created: 2026-04-13 15:16

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/sink/viceberg_merge_sink.h"
19
20		#include <fmt/format.h>
21
22		#include "common/consts.h"
23		#include "common/exception.h"
24		#include "common/logging.h"
25		#include "core/block/block.h"
26		#include "core/column/column_nullable.h"
27		#include "core/column/column_vector.h"
28		#include "exec/sink/sink_common.h"
29		#include "exec/sink/viceberg_delete_sink.h"
30		#include "exec/sink/writer/iceberg/viceberg_table_writer.h"
31		#include "exprs/vexpr_context.h"
32		#include "format/table/iceberg/schema.h"
33		#include "format/table/iceberg/schema_parser.h"
34		#include "runtime/runtime_state.h"
35		#include "util/string_util.h"
36
37		namespace doris {
38
39		namespace {} // namespace
40
41		VIcebergMergeSink::VIcebergMergeSink(const TDataSink& t_sink, const VExprContextSPtrs& output_exprs,
42		std::shared_ptr<Dependency> dep,
43		std::shared_ptr<Dependency> fin_dep)
44	6	: AsyncResultWriter(output_exprs, dep, fin_dep), _t_sink(t_sink) {
45	6	DCHECK(_t_sink.__isset.iceberg_merge_sink);
46	6	}
47
48	6	VIcebergMergeSink::~VIcebergMergeSink() = default;
49
50	6	Status VIcebergMergeSink::init_properties(ObjectPool* pool, const RowDescriptor& row_desc) {
51	6	RETURN_IF_ERROR(_build_inner_sinks());
52
53	6	_table_writer = std::make_unique<VIcebergTableWriter>(_table_sink, _table_output_expr_ctxs,
54	6	nullptr, nullptr);
55	6	_delete_writer = std::make_unique<VIcebergDeleteSink>(_delete_sink, _delete_output_expr_ctxs,
56	6	nullptr, nullptr);
57	6	RETURN_IF_ERROR(_table_writer->init_properties(pool, row_desc));
58	6	RETURN_IF_ERROR(_delete_writer->init_properties(pool));
59	6	return Status::OK();
60	6	}
61
62	6	Status VIcebergMergeSink::open(RuntimeState* state, RuntimeProfile* profile) {
63	6	_state = state;
64
65	6	_written_rows_counter = ADD_COUNTER(profile, "RowsWritten", TUnit::UNIT);
66	6	_insert_rows_counter = ADD_COUNTER(profile, "InsertRows", TUnit::UNIT);
67	6	_delete_rows_counter = ADD_COUNTER(profile, "DeleteRows", TUnit::UNIT);
68	6	_send_data_timer = ADD_TIMER(profile, "SendDataTime");
69	6	_open_timer = ADD_TIMER(profile, "OpenTime");
70	6	_close_timer = ADD_TIMER(profile, "CloseTime");
71
72	6	SCOPED_TIMER(_open_timer);
73
74	6	RETURN_IF_ERROR(_prepare_output_layout());
75
76	4	RuntimeProfile* table_profile = profile->create_child("IcebergMergeTableWriter", true, true);
77	4	RuntimeProfile* delete_profile = profile->create_child("IcebergMergeDeleteWriter", true, true);
78
79	4	RETURN_IF_ERROR(_table_writer->open(state, table_profile));
80	3	RETURN_IF_ERROR(_delete_writer->open(state, delete_profile));
81
82	3	return Status::OK();
83	3	}
84
85	3	Status VIcebergMergeSink::write(RuntimeState* state, Block& block) {
86	3	SCOPED_TIMER(_send_data_timer);
87	3	if (block.rows() == 0) {
88	0	return Status::OK();
89	0	}
90
91	3	Block output_block;
92	3	RETURN_IF_ERROR(_projection_block(block, &output_block));
93	3	if (output_block.rows() == 0) {
94	0	return Status::OK();
95	0	}
96
97	3	_row_count += output_block.rows();
98
99	3	if (_operation_idx < 0 \|\| _row_id_idx < 0) {
100	0	return Status::InternalError("Iceberg merge sink missing operation/row_id columns");
101	0	}
102
103	3	const auto& op_column = output_block.get_by_position(_operation_idx).column;
104	3	const auto* op_data = remove_nullable(op_column).get();
105
106	3	IColumn::Filter delete_filter(output_block.rows(), 0);
107	3	IColumn::Filter insert_filter(output_block.rows(), 0);
108	3	bool has_delete = false;
109	3	bool has_insert = false;
110	3	size_t delete_rows = 0;
111	3	size_t insert_rows = 0;
112
113	8	for (size_t i = 0; i < output_block.rows(); ++i) {
114	6	int8_t op = static_cast<int8_t>(op_data->get_int(i));
115	6	bool delete_op = is_delete_op(op);
116	6	bool insert_op = is_insert_op(op);
117	6	if (!delete_op && !insert_op) {
118	1	return Status::InternalError("Unknown Iceberg merge operation {}", op);
119	1	}
120	5	if (delete_op) {
121	3	delete_filter[i] = 1;
122	3	has_delete = true;
123	3	++_delete_row_count;
124	3	++delete_rows;
125	3	}
126	5	if (insert_op) {
127	3	insert_filter[i] = 1;
128	3	has_insert = true;
129	3	++_insert_row_count;
130	3	++insert_rows;
131	3	}
132	5	}
133
134	2	bool skip_io = false;
135	2	#ifdef BE_TEST
136	2	skip_io = _skip_io;
137	2	#endif
138
139	2	if (has_delete && !skip_io) {
140	0	Block delete_block = output_block;
141	0	std::vector<int> delete_indices {_row_id_idx};
142	0	delete_block.erase_not_in(delete_indices);
143	0	Block::filter_block_internal(&delete_block, delete_filter);
144	0	RETURN_IF_ERROR(_delete_writer->write(state, delete_block));
145	0	}
146
147	2	if (has_insert && !skip_io) {
148	0	if (_data_column_indices.empty()) {
149	0	return Status::InternalError("Iceberg merge sink has no data columns for insert");
150	0	}
151	0	Block insert_block = output_block;
152	0	insert_block.erase_not_in(_data_column_indices);
153	0	Block::filter_block_internal(&insert_block, insert_filter);
154	0	RETURN_IF_ERROR(_table_writer->write_prepared_block(insert_block));
155	0	}
156
157	2	if (_written_rows_counter != nullptr) {
158	2	COUNTER_UPDATE(_written_rows_counter, output_block.rows());
159	2	}
160	2	if (_insert_rows_counter != nullptr) {
161	2	COUNTER_UPDATE(_insert_rows_counter, insert_rows);
162	2	}
163	2	if (_delete_rows_counter != nullptr) {
164	2	COUNTER_UPDATE(_delete_rows_counter, delete_rows);
165	2	}
166
167	2	return Status::OK();
168	2	}
169
170	2	Status VIcebergMergeSink::close(Status close_status) {
171	2	SCOPED_TIMER(_close_timer);
172
173	2	if (!close_status.ok()) {
174	0	LOG(WARNING) << fmt::format("VIcebergMergeSink close with error: {}",
175	0	close_status.to_string());
176	0	if (_table_writer) {
177	0	static_cast<void>(_table_writer->close(close_status));
178	0	}
179	0	if (_delete_writer) {
180	0	static_cast<void>(_delete_writer->close(close_status));
181	0	}
182	0	return close_status;
183	0	}
184
185	2	Status table_status = Status::OK();
186	2	Status delete_status = Status::OK();
187	2	if (_table_writer) {
188	2	table_status = _table_writer->close(close_status);
189	2	}
190	2	if (_delete_writer) {
191	2	delete_status = _delete_writer->close(close_status);
192	2	}
193
194	2	if (_written_rows_counter != nullptr) {
195	2	COUNTER_SET(_written_rows_counter, static_cast<int64_t>(_row_count));
196	2	}
197	2	if (_insert_rows_counter != nullptr) {
198	2	COUNTER_SET(_insert_rows_counter, static_cast<int64_t>(_insert_row_count));
199	2	}
200	2	if (_delete_rows_counter != nullptr) {
201	2	COUNTER_SET(_delete_rows_counter, static_cast<int64_t>(_delete_row_count));
202	2	}
203
204	2	if (!table_status.ok()) {
205	0	return table_status;
206	0	}
207	2	return delete_status;
208	2	}
209
210	6	Status VIcebergMergeSink::_build_inner_sinks() {
211	6	if (!_t_sink.__isset.iceberg_merge_sink) {
212	0	return Status::InternalError("Missing iceberg merge sink config");
213	0	}
214
215	6	const auto& merge_sink = _t_sink.iceberg_merge_sink;
216
217	6	TIcebergTableSink table_sink;
218	6	if (merge_sink.__isset.db_name) {
219	6	table_sink.__set_db_name(merge_sink.db_name);
220	6	}
221	6	if (merge_sink.__isset.tb_name) {
222	6	table_sink.__set_tb_name(merge_sink.tb_name);
223	6	}
224	6	if (merge_sink.__isset.schema_json) {
225	6	table_sink.__set_schema_json(merge_sink.schema_json);
226	6	}
227	6	if (merge_sink.__isset.partition_specs_json) {
228	0	table_sink.__set_partition_specs_json(merge_sink.partition_specs_json);
229	0	}
230	6	if (merge_sink.__isset.partition_spec_id) {
231	6	table_sink.__set_partition_spec_id(merge_sink.partition_spec_id);
232	6	}
233	6	if (merge_sink.__isset.sort_fields) {
234	0	table_sink.__set_sort_fields(merge_sink.sort_fields);
235	0	}
236	6	if (merge_sink.__isset.file_format) {
237	6	table_sink.__set_file_format(merge_sink.file_format);
238	6	}
239	6	if (merge_sink.__isset.compression_type) {
240	6	table_sink.__set_compression_type(merge_sink.compression_type);
241	6	}
242	6	if (merge_sink.__isset.output_path) {
243	6	table_sink.__set_output_path(merge_sink.output_path);
244	6	}
245	6	if (merge_sink.__isset.original_output_path) {
246	6	table_sink.__set_original_output_path(merge_sink.original_output_path);
247	6	}
248	6	if (merge_sink.__isset.hadoop_config) {
249	0	table_sink.__set_hadoop_config(merge_sink.hadoop_config);
250	0	}
251	6	if (merge_sink.__isset.file_type) {
252	6	table_sink.__set_file_type(merge_sink.file_type);
253	6	}
254	6	if (merge_sink.__isset.broker_addresses) {
255	0	table_sink.__set_broker_addresses(merge_sink.broker_addresses);
256	0	}
257	6	_table_sink.__set_type(TDataSinkType::ICEBERG_TABLE_SINK);
258	6	_table_sink.__set_iceberg_table_sink(table_sink);
259
260	6	TIcebergDeleteSink delete_sink;
261	6	if (merge_sink.__isset.db_name) {
262	6	delete_sink.__set_db_name(merge_sink.db_name);
263	6	}
264	6	if (merge_sink.__isset.tb_name) {
265	6	delete_sink.__set_tb_name(merge_sink.tb_name);
266	6	}
267	6	if (merge_sink.__isset.delete_type) {
268	6	delete_sink.__set_delete_type(merge_sink.delete_type);
269	6	}
270	6	if (merge_sink.__isset.file_format) {
271	6	delete_sink.__set_file_format(merge_sink.file_format);
272	6	}
273	6	if (merge_sink.__isset.compression_type) {
274	6	delete_sink.__set_compress_type(merge_sink.compression_type);
275	6	}
276	6	if (merge_sink.__isset.output_path) {
277	6	delete_sink.__set_output_path(merge_sink.output_path);
278	6	}
279	6	if (merge_sink.__isset.table_location) {
280	6	delete_sink.__set_table_location(merge_sink.table_location);
281	6	}
282	6	if (merge_sink.__isset.hadoop_config) {
283	0	delete_sink.__set_hadoop_config(merge_sink.hadoop_config);
284	0	}
285	6	if (merge_sink.__isset.file_type) {
286	6	delete_sink.__set_file_type(merge_sink.file_type);
287	6	}
288	6	if (merge_sink.__isset.partition_spec_id_for_delete) {
289	6	delete_sink.__set_partition_spec_id(merge_sink.partition_spec_id_for_delete);
290	6	}
291	6	if (merge_sink.__isset.partition_data_json_for_delete) {
292	0	delete_sink.__set_partition_data_json(merge_sink.partition_data_json_for_delete);
293	0	}
294	6	if (merge_sink.__isset.broker_addresses) {
295	0	delete_sink.__set_broker_addresses(merge_sink.broker_addresses);
296	0	}
297	6	if (merge_sink.__isset.format_version) {
298	0	delete_sink.__set_format_version(merge_sink.format_version);
299	0	}
300	6	if (merge_sink.__isset.rewritable_delete_file_sets) {
301	0	delete_sink.__set_rewritable_delete_file_sets(merge_sink.rewritable_delete_file_sets);
302	0	}
303	6	_delete_sink.__set_type(TDataSinkType::ICEBERG_DELETE_SINK);
304	6	_delete_sink.__set_iceberg_delete_sink(delete_sink);
305
306	6	return Status::OK();
307	6	}
308
309	6	Status VIcebergMergeSink::_prepare_output_layout() {
310	6	if (_vec_output_expr_ctxs.empty()) {
311	0	return Status::InternalError("Iceberg merge sink has empty output expressions");
312	0	}
313
314	6	std::string row_id_name = doris::to_lower(BeConsts::ICEBERG_ROWID_COL);
315	6	std::string op_name = doris::to_lower(kOperationColumnName);
316
317	6	_operation_idx = -1;
318	6	_row_id_idx = -1;
319	28	for (size_t i = 0; i < _vec_output_expr_ctxs.size(); ++i) {
320	22	std::string expr_name = doris::to_lower(_vec_output_expr_ctxs[i]->expr_name());
321	22	if (_operation_idx < 0 && expr_name == op_name) {
322	5	_operation_idx = static_cast<int>(i);
323	17	} else if (_row_id_idx < 0 && expr_name == row_id_name) {
324	5	_row_id_idx = static_cast<int>(i);
325	5	}
326	22	}
327
328	6	if (_operation_idx < 0) {
329	1	return Status::InternalError("Iceberg merge sink missing operation column");
330	1	}
331	5	if (_row_id_idx < 0) {
332	1	return Status::InternalError("Iceberg merge sink missing row_id column");
333	1	}
334
335	4	_data_column_indices.clear();
336	4	_table_output_expr_ctxs.clear();
337	20	for (size_t i = 0; i < _vec_output_expr_ctxs.size(); ++i) {
338	16	if (static_cast<int>(i) == _operation_idx \|\| static_cast<int>(i) == _row_id_idx) {
339	8	continue;
340	8	}
341	8	_data_column_indices.push_back(static_cast<int>(i));
342	8	_table_output_expr_ctxs.emplace_back(_vec_output_expr_ctxs[i]);
343	8	}
344
345	4	return Status::OK();
346	5	}
347
348		} // namespace doris