Coverage Report

Created: 2026-07-17 14:16

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/format_v2/table_reader.h
Line
Count
Source
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#pragma once
19
20
#include <bvar/status.h>
21
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#include <algorithm>
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#include <exception>
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#include <map>
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#include <memory>
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#include <optional>
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#include <string>
28
#include <string_view>
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#include <utility>
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#include <vector>
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32
#include "common/cast_set.h"
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#include "common/exception.h"
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#include "common/logging.h"
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#include "common/status.h"
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#include "core/assert_cast.h"
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#include "core/block/block.h"
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#include "core/column/column_array.h"
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#include "core/column/column_const.h"
40
#include "core/column/column_map.h"
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#include "core/column/column_nullable.h"
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#include "core/column/column_struct.h"
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#include "core/column/column_vector.h"
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#include "core/data_type/data_type.h"
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#include "core/data_type/data_type_array.h"
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#include "core/data_type/data_type_map.h"
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#include "core/data_type/data_type_nullable.h"
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#include "core/data_type/data_type_number.h"
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#include "core/data_type/data_type_string.h"
50
#include "core/data_type/data_type_struct.h"
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#include "core/field.h"
52
#include "exec/common/stringop_substring.h"
53
#include "exprs/vexpr.h"
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#include "exprs/vexpr_context.h"
55
#include "exprs/vexpr_fwd.h"
56
#include "exprs/vslot_ref.h"
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#include "format/table/deletion_vector.h"
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#include "format_v2/column_data.h"
59
#include "format_v2/column_mapper.h"
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#include "format_v2/expr/cast.h"
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#include "format_v2/expr/delete_predicate.h"
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#include "format_v2/file_reader.h"
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#include "format_v2/parquet/reader/column_reader.h"
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#include "format_v2/schema_projection.h"
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#include "gen_cpp/PlanNodes_types.h"
66
#include "io/io_common.h"
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#include "runtime/descriptors.h"
68
#include "storage/segment/condition_cache.h"
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namespace doris {
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class Block;
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struct DeleteFileDesc;
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class RuntimeState;
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} // namespace doris
75
76
namespace doris::format {
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using DeleteRows = std::vector<int64_t>;
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// Row-level predicates on table/global schema. They are rewritten to file-local expressions when
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// possible, and remain the source of row-level filtering after localization.
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struct TableFilter {
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    VExprContextSPtr conjunct;
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    std::vector<GlobalIndex> global_indices;
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};
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struct ScanTask {
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125
    virtual ~ScanTask() = default;
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    std::unique_ptr<io::FileDescription> data_file;
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};
92
93
struct ProjectedColumnBuildContext {
94
    const TFileScanRangeParams* scan_params = nullptr;
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    const TFileRangeDesc* range = nullptr;
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    RuntimeState* runtime_state = nullptr;
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    std::optional<ColumnDefinition> schema_column = std::nullopt;
98
    size_t next_file_column_idx = 0;
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};
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struct ReadProfile {
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    RuntimeProfile::Counter* num_delete_files = nullptr;
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    RuntimeProfile::Counter* num_delete_rows = nullptr;
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    RuntimeProfile::Counter* parse_delete_file_time = nullptr;
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    RuntimeProfile::Counter* decoded_dv_cache_hit_count = nullptr;
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    RuntimeProfile::Counter* decoded_dv_cache_miss_count = nullptr;
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    RuntimeProfile::Counter* dv_file_cache_hit_count = nullptr;
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    RuntimeProfile::Counter* dv_file_cache_miss_count = nullptr;
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    RuntimeProfile::Counter* dv_file_cache_peer_read_count = nullptr;
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    RuntimeProfile::Counter* exec_timer = nullptr;
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    RuntimeProfile::Counter* prepare_split_timer = nullptr;
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    RuntimeProfile::Counter* finalize_timer = nullptr;
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    RuntimeProfile::Counter* create_reader_timer = nullptr;
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    RuntimeProfile::Counter* pushdown_agg_timer = nullptr;
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    RuntimeProfile::Counter* open_reader_timer = nullptr;
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    RuntimeProfile::Counter* runtime_filter_partition_prune_timer = nullptr;
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    RuntimeProfile::Counter* runtime_filter_partition_pruned_range_counter = nullptr;
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};
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120
struct TableReadOptions {
121
    // Columns need to be read from file and output by table reader. They are all in table/global
122
    // schema semantics.
123
    const std::vector<ColumnDefinition> projected_columns;
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    // All complex conjuncts from scan operator
125
    const VExprContextSPtrs conjuncts;
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    // File format of the underlying data files, needed for reader initialization and reader-level
127
    // filter pushdown.
128
    const FileFormat format;
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    TFileScanRangeParams* scan_params;
130
    std::shared_ptr<io::IOContext> io_ctx;
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    RuntimeState* runtime_state;
132
    RuntimeProfile* scanner_profile;
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    // File formats without complete self-describing metadata, such as CSV, Text, and JSON, need
134
    // the FE-planned physical file slots to build their file-local schema and deserialize values.
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    const std::vector<SlotDescriptor*>* file_slot_descs = nullptr;
136
    // Push-down aggregate type.
137
    const TPushAggOp::type push_down_agg_type = TPushAggOp::type::NONE;
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    // Initial digest of predicates available during scanner open. Scanner-driven splits override it
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    // with SplitReadOptions::condition_cache_digest after collecting late-arrival runtime filters.
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    // A zero digest disables condition cache.
141
    uint64_t condition_cache_digest = 0;
142
};
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struct SplitReadOptions {
145
    // Split-level information for reader initialization, which may include file path, partition values, delete file info, etc. The content is table format specific and opaque to table reader base class; it's the responsibility of the concrete table reader implementation to parse necessary information for reader initialization and filter pushdown.
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    std::map<std::string, Field> partition_values;
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    // Latest scanner conjuncts rewritten to table/global column indices. Runtime filters may
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    // arrive after TableReader::init(), so scanner-driven splits replace the initial snapshot.
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    // nullopt preserves the initial snapshot for standalone TableReader callers.
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    std::optional<VExprContextSPtrs> conjuncts;
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    // Independent clones used for partition pruning because evaluation prepares and opens them
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    // against a synthetic partition block before the file reader opens its row-level conjuncts.
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    VExprContextSPtrs partition_prune_conjuncts;
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    // Table-level COUNT may emit one metadata-derived batch and resume on a later scheduler turn.
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    // It is safe only after every runtime filter assigned to the scanner has arrived; otherwise a
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    // filter could arrive after synthetic rows have already been returned and those rows cannot be
157
    // retracted. Standalone TableReader callers have no scanner runtime-filter lifecycle.
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    bool all_runtime_filters_applied = true;
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    // Digest for the exact scanner conjunct snapshot attached to this split. FileScannerV2 rebuilds
160
    // it after collecting late-arrival RFs, so different RF payloads cannot share a cache entry. A
161
    // zero value explicitly disables condition cache for this split.
162
    std::optional<uint64_t> condition_cache_digest;
163
    ShardedKVCache* cache = nullptr;
164
    TFileRangeDesc current_range;
165
    FileFormat current_split_format = FileFormat::PARQUET;
166
    std::optional<GlobalRowIdContext> global_rowid_context;
167
};
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// Base class for table-level readers.
170
// This layer owns common table-level orchestration, such as split iteration, dynamic partition
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// pruning, delete handling and conversion from file-local blocks to table-schema blocks. Concrete
172
// table-format readers only need to provide format-specific hooks for opening readers and parsing
173
// split metadata.
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class TableReader {
175
public:
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    virtual ~TableReader() = default;
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    // Initialize common runtime options for the table reader. Subclasses may call this from their
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    // own init(options); table-format schema and split metadata are provided later per split.
180
    virtual Status init(TableReadOptions&& options);
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182
    // FileScannerV2 adjusts this before each get_block() using an adaptive bytes-per-row estimate.
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    // Store it here as well as forwarding to the current reader so newly opened split readers start
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    // with the latest predicted batch size.
185
10
    virtual void set_batch_size(size_t batch_size) {
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10
        _batch_size = std::max<size_t>(1, batch_size);
187
10
        if (_data_reader.reader != nullptr) {
188
0
            _data_reader.reader->set_batch_size(_batch_size);
189
0
        }
190
10
    }
191
192
#ifdef BE_TEST
193
9
    size_t TEST_batch_size() const { return _batch_size; }
194
4
    bool TEST_current_data_file_is_immutable() const {
195
4
        DORIS_CHECK(_current_task != nullptr);
196
4
        DORIS_CHECK(_current_task->data_file != nullptr);
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4
        DORIS_CHECK(_current_file_description.has_value());
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4
        DORIS_CHECK(_current_task->data_file->is_immutable ==
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4
                    _current_file_description->is_immutable);
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4
        return _current_task->data_file->is_immutable;
201
4
    }
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#endif
203
204
    // Prepare for reading a new split/task.
205
    // 1. Pass a new split/task to reader, which will be used in subsequent open_reader() to initialize the underlying file reader.
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    // 2. Parse delete predicates from split/task information, which will be used for later dynamic filtering and delete handling.
207
    virtual Status prepare_split(const SplitReadOptions& options);
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209
62
    virtual bool current_split_pruned() const { return _current_split_pruned; }
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    // Discard the active split after the caller decides an error is ignorable, for example a
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    // stale external-table file listing that returns NOT_FOUND. The next prepare_split() must start
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    // with no concrete reader or split-local state left from the failed split.
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1
    virtual Status abort_split() {
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1
        if (_data_reader.reader != nullptr) {
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1
            RETURN_IF_ERROR(close_current_reader());
217
1
        } else {
218
0
            _current_task.reset();
219
0
            _current_file_description.reset();
220
0
        }
221
1
        _delete_rows = nullptr;
222
1
        _remaining_table_level_count = -1;
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1
        _current_split_pruned = false;
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1
        return Status::OK();
225
1
    }
226
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    // Public entry point for reading a table-schema block. The base class opens the current reader,
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    // advances across EOF, and closes exhausted readers. Subclasses provide protected hooks for
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    // table-format-specific behavior.
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132
    virtual Status get_block(Block* block, bool* eos) {
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132
        SCOPED_TIMER(_profile.exec_timer);
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132
        DORIS_CHECK(block->columns() == _projected_columns.size());
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132
        block->clear_column_data(_projected_columns.size());
234
235
163
        while (true) {
236
163
            if (*eos) {
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0
                return Status::OK();
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0
            }
239
163
            if (_io_ctx != nullptr && _io_ctx->should_stop) {
240
0
                *eos = true;
241
0
                return Status::OK();
242
0
            }
243
163
            if (!_data_reader.reader) {
244
137
                if (_is_table_level_count_active()) {
245
6
                    RETURN_IF_ERROR(_read_table_level_count(block, eos));
246
6
                    return Status::OK();
247
6
                }
248
131
                RETURN_IF_ERROR(create_next_reader(eos));
249
130
                if (!_data_reader.reader) {
250
33
                    DCHECK(*eos);
251
33
                    return Status::OK();
252
33
                }
253
130
            }
254
255
            // Materialize a reduced row set for upper aggregate operators when aggregate
256
            // pushdown can be applied. This is not the final aggregate result: COUNT emits
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            // `count` default rows for the upper COUNT(*), and MIN/MAX emits two rows containing
258
            // file-level min/max values for the upper MIN/MAX.
259
123
            if (!_aggregate_pushdown_tried) {
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97
                SCOPED_TIMER(_profile.pushdown_agg_timer);
261
97
                bool pushed_down = false;
262
97
                const auto status = _try_materialize_aggregate_pushdown_rows(block, &pushed_down);
263
97
                if (!status.ok()) {
264
1
                    if (_io_ctx != nullptr && _io_ctx->should_stop &&
265
1
                        status.is<ErrorCode::END_OF_FILE>()) {
266
1
                        *eos = true;
267
1
                        return Status::OK();
268
1
                    }
269
0
                    return status;
270
1
                }
271
96
                if (pushed_down) {
272
6
                    return Status::OK();
273
6
                }
274
96
            }
275
276
116
            bool current_eof = false;
277
116
            _data_reader.block_template.clear_column_data(
278
116
                    cast_set<int64_t>(_data_reader.file_block_layout.size()));
279
116
            size_t current_rows = 0;
280
116
            RETURN_IF_ERROR(_data_reader.reader->get_block(&_data_reader.block_template,
281
116
                                                           &current_rows, &current_eof));
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116
            const bool stopped_during_read = _io_ctx != nullptr && _io_ctx->should_stop;
283
116
            if (current_rows == 0) {
284
31
                if (current_eof) {
285
31
                    _current_reader_reached_eof = !stopped_during_read;
286
31
                    RETURN_IF_ERROR(close_current_reader());
287
31
                }
288
31
                continue;
289
31
            }
290
116
            DCHECK_EQ(_data_reader.block_template.columns(), _data_reader.file_block_layout.size())
291
0
                    << _data_reader.block_template.dump_structure();
292
85
#ifndef NDEBUG
293
85
            RETURN_IF_ERROR(_check_file_block_columns("after file reader get_block", current_rows));
294
85
#endif
295
85
            DORIS_CHECK(block->columns() == _data_reader.column_mapper->mappings().size());
296
85
            RETURN_IF_ERROR(finalize_chunk(block, current_rows));
297
85
#ifndef NDEBUG
298
85
            RETURN_IF_ERROR(
299
85
                    _check_table_block_columns("after finalize_chunk", block, current_rows));
300
85
#endif
301
85
            if (current_eof) {
302
15
                _current_reader_reached_eof = !stopped_during_read;
303
15
                RETURN_IF_ERROR(close_current_reader());
304
15
            }
305
85
            return Status::OK();
306
85
        }
307
132
    }
308
309
    // Close the table reader and the currently active file reader. Subclasses that hold additional
310
    // table-format resources should override this and call TableReader::close() first.
311
102
    virtual Status close() {
312
102
        if (_data_reader.reader) {
313
44
            RETURN_IF_ERROR(close_current_reader());
314
44
        }
315
102
        _current_task.reset();
316
102
        _current_file_description.reset();
317
102
        _remaining_table_level_count = -1;
318
102
        return Status::OK();
319
102
    }
320
321
4
    int64_t condition_cache_hit_count() const { return _condition_cache_hit_count; }
322
323
    virtual std::string debug_string() const;
324
325
    virtual Status annotate_projected_column(const TFileScanSlotInfo& slot_info,
326
                                             ProjectedColumnBuildContext* context,
327
                                             ColumnDefinition* column) const;
328
329
0
    virtual Status validate_projected_columns(const ProjectedColumnBuildContext& context) const {
330
0
        (void)context;
331
0
        return Status::OK();
332
0
    }
333
334
protected:
335
    // TableReader keeps the active file description both in the scan task and separately for
336
    // creating the physical reader. Table-format readers must update both copies when their
337
    // snapshot protocol guarantees that a file path is never overwritten with different bytes.
338
    // This guarantee lets readers safely build cache keys without mtime; it must not be used for
339
    // ordinary Hive/TVF files whose paths may be overwritten in place.
340
58
    void mark_current_data_file_immutable() {
341
58
        DORIS_CHECK(_current_task != nullptr);
342
58
        DORIS_CHECK(_current_task->data_file != nullptr);
343
58
        DORIS_CHECK(_current_file_description.has_value());
344
58
        _current_task->data_file->is_immutable = true;
345
58
        _current_file_description->is_immutable = true;
346
58
    }
347
348
    std::optional<ColumnDefinition> _find_current_table_column_by_field_id(int32_t field_id,
349
                                                                           DataTypePtr type) const;
350
351
    // Parse deletion vector information from table format specific file description.
352
    virtual Status _parse_deletion_vector_file(const TTableFormatFileDesc& t_desc,
353
69
                                               DeleteFileDesc* desc, bool* has_delete_file) {
354
69
        *has_delete_file = false;
355
69
        return Status::OK();
356
69
    }
357
358
    // Advance to the next reader. This closes the current reader first and then opens the next
359
    // concrete reader. Subclasses should not duplicate this loop.
360
    Status create_next_reader(bool* eos);
361
    virtual Status create_file_reader(std::unique_ptr<FileReader>* reader);
362
58
    virtual TableColumnMappingMode mapping_mode() const { return TableColumnMappingMode::BY_NAME; }
363
97
    virtual Status annotate_file_schema(std::vector<ColumnDefinition>* file_schema) {
364
97
        DORIS_CHECK(file_schema != nullptr);
365
97
        return Status::OK();
366
97
    }
367
368
    // Open the concrete reader for the current split/task and build the file-local scan request.
369
98
    virtual Status open_reader() {
370
98
        SCOPED_TIMER(_profile.open_reader_timer);
371
        // 1. Get file schema and create column mapping.
372
98
        std::vector<ColumnDefinition> file_schema;
373
98
        RETURN_IF_ERROR(_data_reader.reader->get_schema(&file_schema));
374
        // For Paimon/Hudi, FE can provide field ids through `history_schema_info`. Annotate the
375
        // file schema before column mapping when the table format maps columns by field id.
376
98
        RETURN_IF_ERROR(annotate_file_schema(&file_schema));
377
98
        _data_reader.file_schema = file_schema;
378
98
        _mapper_options.mode = mapping_mode();
379
380
98
        _data_reader.column_mapper = _data_reader.reader->create_column_mapper(_mapper_options);
381
98
        DORIS_CHECK(_data_reader.column_mapper != nullptr);
382
98
        RETURN_IF_ERROR(_data_reader.column_mapper->create_mapping(_projected_columns,
383
98
                                                                   _partition_values, file_schema));
384
98
        DORIS_CHECK(_data_reader.column_mapper->mappings().size() == _projected_columns.size());
385
386
        // 2. Build table filters based on conjuncts and column predicates.
387
98
        RETURN_IF_ERROR(_build_table_filters_from_conjuncts());
388
389
        // 3. Create file scan request based on column mapping and table filters, then open file
390
        // reader with the request. File scan request carries row-level expression filters and
391
        // file-level pruning hints. Only expression filters decide returned rows.
392
98
        auto file_request = std::make_shared<FileScanRequest>();
393
98
        RETURN_IF_ERROR(_data_reader.column_mapper->create_scan_request(
394
98
                _table_filters, _projected_columns, file_request.get(), _runtime_state));
395
98
        bool constant_filter_pruned_split = false;
396
98
        RETURN_IF_ERROR(_evaluate_constant_filters(&constant_filter_pruned_split));
397
98
        if (constant_filter_pruned_split) {
398
1
            RETURN_IF_ERROR(close_current_reader());
399
1
            return Status::OK();
400
1
        }
401
97
        RETURN_IF_ERROR(customize_file_scan_request(file_request.get()));
402
97
        RETURN_IF_ERROR(_open_local_filter_exprs(*file_request));
403
97
        _data_reader.file_block_layout.clear();
404
97
        _data_reader.block_template.clear();
405
97
        _data_reader.file_block_layout.resize(file_request->local_positions.size());
406
407
        // 4. Build file block layout from file schema and column mapping. The layout describes
408
        // the block returned by file reader before table-column materialization.
409
133
        for (const auto& [file_column_id, block_position] : file_request->local_positions) {
410
133
            DORIS_CHECK(block_position.value() < _data_reader.file_block_layout.size());
411
133
            const auto* field = _find_column_definition(_data_reader.file_schema, file_column_id);
412
133
            DORIS_CHECK(field != nullptr);
413
414
133
            ColumnDefinition projected_field;
415
133
            {
416
133
                auto it = std::find_if(
417
133
                        file_request->non_predicate_columns.begin(),
418
133
                        file_request->non_predicate_columns.end(),
419
133
                        [&](const LocalColumnIndex& p) { return p.column_id() == file_column_id; });
420
133
                if (it != file_request->non_predicate_columns.end()) {
421
77
                    RETURN_IF_ERROR(project_column_definition(*field, *it, &projected_field));
422
77
                }
423
133
            }
424
133
            {
425
133
                auto it = std::find_if(
426
133
                        file_request->predicate_columns.begin(),
427
133
                        file_request->predicate_columns.end(),
428
133
                        [&](const LocalColumnIndex& p) { return p.column_id() == file_column_id; });
429
133
                if (it != file_request->predicate_columns.end()) {
430
56
                    RETURN_IF_ERROR(project_column_definition(*field, *it, &projected_field));
431
56
                }
432
133
            }
433
133
            _data_reader.file_block_layout[block_position.value()] = {
434
133
                    .file_column_id = file_column_id,
435
133
                    .name = projected_field.name,
436
133
                    .type = projected_field.type,
437
133
            };
438
133
            DORIS_CHECK(_data_reader.file_block_layout[block_position.value()].type != nullptr);
439
133
        }
440
441
        // 5. Prepare block template from file block layout. The block template stores the block
442
        // returned by file reader before table-column materialization.
443
97
        _data_reader.block_template.reserve(_data_reader.file_block_layout.size());
444
133
        for (const auto& column : _data_reader.file_block_layout) {
445
133
            _data_reader.block_template.insert(
446
133
                    {column.type->create_column(), column.type, column.name});
447
133
        }
448
97
        if (VLOG_DEBUG_IS_ON) {
449
0
            VLOG_DEBUG << "TableReader debug: " << debug_string();
450
0
        }
451
97
        RETURN_IF_ERROR(_open_mapping_exprs());
452
97
        RETURN_IF_ERROR(_data_reader.reader->open(file_request));
453
97
        RETURN_IF_ERROR(_init_reader_condition_cache(*file_request));
454
97
        return Status::OK();
455
97
    }
456
457
    Status _build_table_filters_from_conjuncts();
458
    Status _evaluate_partition_prune_conjuncts(const VExprContextSPtrs& conjuncts,
459
                                               bool* can_filter_all);
460
    static bool _is_safe_to_pre_execute(const VExprContextSPtr& conjunct);
461
    Status _build_partition_prune_block(Block* block) const;
462
    Status _open_local_filter_exprs(const FileScanRequest& file_request);
463
    Status _init_reader_condition_cache(const FileScanRequest& file_request);
464
    void _finalize_reader_condition_cache();
465
    bool _should_enable_condition_cache(const FileScanRequest& file_request) const;
466
467
98
    Status _evaluate_constant_filters(bool* can_filter_all) {
468
98
        DORIS_CHECK(can_filter_all != nullptr);
469
98
        DORIS_CHECK_LE(_constant_pruning_safe_filter_count, _table_filters.size());
470
98
        *can_filter_all = false;
471
        // The bound was derived from the original `_conjuncts` order, which includes slotless
472
        // expressions omitted from `_table_filters`. Iterating only this prefix therefore cannot
473
        // skip an unsafe row-level predicate and pre-execute a later constant predicate.
474
126
        for (size_t i = 0; i < _constant_pruning_safe_filter_count; ++i) {
475
29
            const auto& table_filter = _table_filters[i];
476
29
            if (table_filter.conjunct == nullptr) {
477
0
                continue;
478
0
            }
479
29
            DORIS_CHECK(_is_safe_to_pre_execute(table_filter.conjunct));
480
            // RuntimeFilterExpr does not implement execute_column_impl(); it is evaluated by the
481
            // row-level filter path through execute_filter(). Constant split pruning uses
482
            // VExprContext::execute() on a one-row synthetic block, so runtime filters must not be
483
            // pre-executed here even when their referenced slot maps to a constant value.
484
29
            if (table_filter.conjunct->root()->is_rf_wrapper() ||
485
29
                !_table_filter_has_only_constant_entries(table_filter)) {
486
27
                continue;
487
27
            }
488
2
            Block eval_block;
489
2
            RETURN_IF_ERROR(_build_constant_filter_block(table_filter, &eval_block));
490
2
            RowDescriptor row_desc;
491
2
            RETURN_IF_ERROR(table_filter.conjunct->prepare(_runtime_state, row_desc));
492
2
            RETURN_IF_ERROR(table_filter.conjunct->open(_runtime_state));
493
2
            int result_column_id = -1;
494
2
            RETURN_IF_ERROR(table_filter.conjunct->execute(&eval_block, &result_column_id));
495
2
            DORIS_CHECK(result_column_id >= 0);
496
2
            if (_filter_result_filters_all(eval_block.get_by_position(result_column_id).column)) {
497
1
                *can_filter_all = true;
498
1
                return Status::OK();
499
1
            }
500
2
        }
501
97
        return Status::OK();
502
98
    }
503
504
24
    bool _table_filter_has_only_constant_entries(const TableFilter& table_filter) const {
505
24
        const auto& filter_entries = _data_reader.column_mapper->filter_entries();
506
24
        for (const auto global_index : table_filter.global_indices) {
507
24
            const auto entry_it = filter_entries.find(global_index);
508
24
            if (entry_it == filter_entries.end() || !entry_it->second.is_constant()) {
509
22
                return false;
510
22
            }
511
24
        }
512
2
        return !table_filter.global_indices.empty();
513
24
    }
514
515
2
    Status _build_constant_filter_block(const TableFilter& table_filter, Block* eval_block) {
516
2
        DORIS_CHECK(eval_block != nullptr);
517
2
        eval_block->clear();
518
2
        const auto& mappings = _data_reader.column_mapper->mappings();
519
2
        const auto& filter_entries = _data_reader.column_mapper->filter_entries();
520
2
        DORIS_CHECK(mappings.size() == _projected_columns.size());
521
4
        for (size_t column_idx = 0; column_idx < mappings.size(); ++column_idx) {
522
2
            const auto global_index = GlobalIndex(column_idx);
523
2
            const auto& mapping = mappings[column_idx];
524
2
            const auto entry_it = filter_entries.find(global_index);
525
2
            const bool referenced_by_filter =
526
2
                    std::find(table_filter.global_indices.begin(),
527
2
                              table_filter.global_indices.end(),
528
2
                              global_index) != table_filter.global_indices.end();
529
2
            if (referenced_by_filter && entry_it != filter_entries.end() &&
530
2
                entry_it->second.is_constant()) {
531
2
                ColumnPtr constant_column;
532
2
                RETURN_IF_ERROR(_materialize_constant_filter_column(
533
2
                        entry_it->second.constant_index(), &constant_column));
534
2
                eval_block->insert({std::move(constant_column), mapping.table_type,
535
2
                                    mapping.table_column_name});
536
2
            } else {
537
0
                eval_block->insert({mapping.table_type->create_column_const_with_default_value(1),
538
0
                                    mapping.table_type, mapping.table_column_name});
539
0
            }
540
2
        }
541
2
        return Status::OK();
542
2
    }
543
544
2
    Status _materialize_constant_filter_column(ConstantIndex constant_index, ColumnPtr* column) {
545
2
        DORIS_CHECK(column != nullptr);
546
2
        const auto& constant_entry = _data_reader.column_mapper->constant_map().get(constant_index);
547
2
        DORIS_CHECK(constant_entry.expr != nullptr);
548
2
        DORIS_CHECK(constant_entry.type != nullptr);
549
2
        RowDescriptor row_desc;
550
2
        RETURN_IF_ERROR(constant_entry.expr->prepare(_runtime_state, row_desc));
551
2
        RETURN_IF_ERROR(constant_entry.expr->open(_runtime_state));
552
2
        Block eval_block;
553
2
        eval_block.insert({constant_entry.type->create_column_const_with_default_value(1),
554
2
                           constant_entry.type, "__table_reader_constant_filter"});
555
2
        int result_column_id = -1;
556
2
        RETURN_IF_ERROR(constant_entry.expr->execute(&eval_block, &result_column_id));
557
2
        DORIS_CHECK(result_column_id >= 0);
558
2
        *column = eval_block.get_by_position(result_column_id).column;
559
2
        DORIS_CHECK((*column)->size() == 1);
560
2
        return Status::OK();
561
2
    }
562
563
2
    static bool _filter_result_filters_all(const ColumnPtr& filter_column) {
564
2
        DORIS_CHECK(filter_column.get() != nullptr);
565
2
        DORIS_CHECK(filter_column->size() == 1);
566
2
        return !filter_column->get_bool(0);
567
2
    }
568
569
98
    virtual Status customize_file_scan_request(FileScanRequest* file_request) {
570
98
        return _append_delete_predicate(file_request);
571
98
    }
572
573
310
    bool _is_table_level_count_active() const { return _remaining_table_level_count >= 0; }
574
575
7
    Status _materialize_count_rows(size_t rows, Block* block) const {
576
7
        DORIS_CHECK(block != nullptr);
577
7
        DORIS_CHECK(block->columns() > 0 || rows == 0);
578
14
        for (size_t column_idx = 0; column_idx < block->columns(); ++column_idx) {
579
7
            auto column = block->get_by_position(column_idx).type->create_column();
580
7
            column->resize(rows);
581
7
            block->replace_by_position(column_idx, std::move(column));
582
7
        }
583
7
        return Status::OK();
584
7
    }
585
586
6
    Status _read_table_level_count(Block* block, bool* eos) {
587
6
        DORIS_CHECK(block != nullptr);
588
6
        DORIS_CHECK(eos != nullptr);
589
6
        DORIS_CHECK(_push_down_agg_type == TPushAggOp::type::COUNT);
590
6
        DORIS_CHECK(_remaining_table_level_count >= 0);
591
6
        if (_remaining_table_level_count == 0) {
592
2
            _remaining_table_level_count = -1;
593
2
            _current_task.reset();
594
2
            *eos = true;
595
2
            return Status::OK();
596
2
        }
597
598
4
        const int64_t batch_size = _runtime_state == nullptr
599
4
                                           ? _remaining_table_level_count
600
4
                                           : static_cast<int64_t>(_runtime_state->batch_size());
601
4
        const auto rows = std::min(_remaining_table_level_count, batch_size);
602
4
        RETURN_IF_ERROR(_materialize_count_rows(cast_set<size_t>(rows), block));
603
4
        _remaining_table_level_count -= rows;
604
4
        *eos = false;
605
4
        return Status::OK();
606
4
    }
607
608
    void _append_file_scan_column(FileScanRequest* request, LocalColumnId column_id,
609
44
                                  std::vector<LocalColumnIndex>* scan_columns) {
610
44
        DORIS_CHECK(request != nullptr);
611
44
        DORIS_CHECK(scan_columns != nullptr);
612
44
        FileScanRequestBuilder builder(request);
613
44
        Status status;
614
44
        if (scan_columns == &request->predicate_columns) {
615
33
            status = builder.add_predicate_column(column_id);
616
33
        } else {
617
11
            DORIS_CHECK(scan_columns == &request->non_predicate_columns);
618
11
            status = builder.add_non_predicate_column(column_id);
619
11
        }
620
44
        DORIS_CHECK(status.ok()) << status.to_string();
621
44
        if (column_id == LocalColumnId(ROW_POSITION_COLUMN_ID) &&
622
44
            _find_column_definition(_data_reader.file_schema, column_id) == nullptr) {
623
23
            _data_reader.file_schema.push_back(row_position_column_definition());
624
23
        }
625
44
    }
626
627
    // Append DeletePredicate to file scan request if there are deletes. The predicate will be evaluated in file reader level and filter out deleted rows before returning data to table reader.
628
98
    Status _append_delete_predicate(FileScanRequest* request) {
629
98
        DORIS_CHECK(request != nullptr);
630
98
        if ((_delete_rows == nullptr || _delete_rows->empty()) &&
631
98
            (_deletion_vector == nullptr || _deletion_vector->isEmpty())) {
632
82
            return Status::OK();
633
82
        }
634
16
        const auto row_position_column_id = LocalColumnId(ROW_POSITION_COLUMN_ID);
635
16
        _append_file_scan_column(request, row_position_column_id, &request->predicate_columns);
636
637
16
        const auto block_position = request->local_positions.at(row_position_column_id);
638
16
        auto append_predicate = [&](auto& deleted_rows) {
639
16
            auto delete_predicate = std::make_shared<DeletePredicate>(deleted_rows);
640
16
            delete_predicate->add_child(VSlotRef::create_shared(
641
16
                    cast_set<int>(block_position.value()), cast_set<int>(block_position.value()),
642
16
                    -1, std::make_shared<DataTypeInt64>(), ROW_POSITION_COLUMN_NAME));
643
16
            request->delete_conjuncts.push_back(
644
16
                    VExprContext::create_shared(std::move(delete_predicate)));
645
16
        };
_ZZN5doris6format11TableReader24_append_delete_predicateEPNS0_15FileScanRequestEENKUlRT_E_clISt6vectorIlSaIlEEEEDaS5_
Line
Count
Source
638
12
        auto append_predicate = [&](auto& deleted_rows) {
639
12
            auto delete_predicate = std::make_shared<DeletePredicate>(deleted_rows);
640
12
            delete_predicate->add_child(VSlotRef::create_shared(
641
12
                    cast_set<int>(block_position.value()), cast_set<int>(block_position.value()),
642
12
                    -1, std::make_shared<DataTypeInt64>(), ROW_POSITION_COLUMN_NAME));
643
12
            request->delete_conjuncts.push_back(
644
12
                    VExprContext::create_shared(std::move(delete_predicate)));
645
12
        };
_ZZN5doris6format11TableReader24_append_delete_predicateEPNS0_15FileScanRequestEENKUlRT_E_clIN7roaring12Roaring64MapEEEDaS5_
Line
Count
Source
638
4
        auto append_predicate = [&](auto& deleted_rows) {
639
4
            auto delete_predicate = std::make_shared<DeletePredicate>(deleted_rows);
640
4
            delete_predicate->add_child(VSlotRef::create_shared(
641
4
                    cast_set<int>(block_position.value()), cast_set<int>(block_position.value()),
642
4
                    -1, std::make_shared<DataTypeInt64>(), ROW_POSITION_COLUMN_NAME));
643
4
            request->delete_conjuncts.push_back(
644
4
                    VExprContext::create_shared(std::move(delete_predicate)));
645
4
        };
646
16
        if (_delete_rows != nullptr && !_delete_rows->empty()) {
647
12
            append_predicate(*_delete_rows);
648
12
        }
649
16
        if (_deletion_vector != nullptr && !_deletion_vector->isEmpty()) {
650
4
            append_predicate(*_deletion_vector);
651
4
        }
652
16
        return Status::OK();
653
98
    }
654
655
    // Close the current concrete reader. This hook is called by both create_next_reader() and
656
    // close(), so it should remain idempotent.
657
98
    virtual Status close_current_reader() {
658
98
        _finalize_reader_condition_cache();
659
98
        RETURN_IF_ERROR(_data_reader.reader->close());
660
98
        _data_reader.reader.reset();
661
98
        if (_data_reader.column_mapper != nullptr) {
662
97
            _data_reader.column_mapper->clear();
663
97
            _data_reader.column_mapper.reset();
664
97
        }
665
98
        _table_filters.clear();
666
98
        _constant_pruning_safe_filter_count = 0;
667
98
        _data_reader.file_schema.clear();
668
98
        _data_reader.file_block_layout.clear();
669
98
        _data_reader.block_template.clear();
670
98
        _current_task.reset();
671
98
        _current_file_description.reset();
672
98
        _current_reader_reached_eof = false;
673
98
        return Status::OK();
674
98
    }
675
676
2
    void _record_scan_rows(size_t rows) {
677
2
        if (_io_ctx != nullptr && _io_ctx->file_reader_stats != nullptr) {
678
2
            _io_ctx->file_reader_stats->read_rows += rows;
679
2
        }
680
2
    }
681
682
    // Finalize file-local block to table/global schema block.
683
85
    Status finalize_chunk(Block* block, const size_t rows) {
684
85
        SCOPED_TIMER(_profile.finalize_timer);
685
85
        size_t idx = 0;
686
116
        for (const auto& mapping : _data_reader.column_mapper->mappings()) {
687
116
            ColumnPtr column;
688
116
            RETURN_IF_ERROR(_materialize_mapping_column(mapping, &_data_reader.block_template, rows,
689
116
                                                        &column));
690
116
            block->replace_by_position(idx, IColumn::mutate(std::move(column)));
691
116
            idx++;
692
116
        }
693
85
        RETURN_IF_ERROR(materialize_virtual_columns(block));
694
        // Enforce CHAR/VARCHAR length declared by the table schema after all file-to-table
695
        // materialization has finished.
696
85
        RETURN_IF_ERROR(_truncate_char_or_varchar_columns(block));
697
85
        return Status::OK();
698
85
    }
699
700
    // Materialize virtual columns in the table block, such as Iceberg _row_id and
701
    // _last_updated_sequence_number. This runs after normal column materialization so finalize
702
    // expressions can reference those virtual columns.
703
52
    virtual Status materialize_virtual_columns(Block* table_block) { return Status::OK(); }
704
705
#ifndef NDEBUG
706
85
    Status _check_file_block_columns(std::string_view stage, size_t rows) {
707
85
        DORIS_CHECK(_data_reader.block_template.columns() == _data_reader.file_block_layout.size());
708
205
        for (size_t idx = 0; idx < _data_reader.block_template.columns(); ++idx) {
709
120
            const auto& file_block_column = _data_reader.file_block_layout[idx];
710
120
            const auto& column_with_type = _data_reader.block_template.get_by_position(idx);
711
120
            const auto* column = column_with_type.column.get();
712
120
            try {
713
120
                if (column == nullptr) {
714
0
                    auto st = Status::InternalError(
715
0
                            "Invalid file block column {} at {}: file_column_id={}, name='{}', "
716
0
                            "type={}, column=null, expected_rows={}, reader={}",
717
0
                            idx, stage, file_block_column.file_column_id.value(),
718
0
                            file_block_column.name,
719
0
                            file_block_column.type == nullptr ? "null"
720
0
                                                              : file_block_column.type->get_name(),
721
0
                            rows, debug_string());
722
0
                    LOG(WARNING) << st;
723
0
                    return st;
724
0
                }
725
120
                column->sanity_check();
726
120
                auto st = column_with_type.check_type_and_column_match();
727
120
                if (!st.ok()) {
728
0
                    auto contextual_status = Status::InternalError(
729
0
                            "Invalid file block column {} at {}: file_column_id={}, name='{}', "
730
0
                            "type={}, column={}, column_size={}, expected_rows={}, error={}, "
731
0
                            "reader={}",
732
0
                            idx, stage, file_block_column.file_column_id.value(),
733
0
                            file_block_column.name,
734
0
                            file_block_column.type == nullptr ? "null"
735
0
                                                              : file_block_column.type->get_name(),
736
0
                            column->get_name(), column->size(), rows, st.to_string(),
737
0
                            debug_string());
738
0
                    LOG(WARNING) << contextual_status;
739
0
                    return contextual_status;
740
0
                }
741
120
            } catch (const Exception& e) {
742
0
                auto st = Status::InternalError(
743
0
                        "Invalid file block column {} at {}: file_column_id={}, name='{}', "
744
0
                        "type={}, column={}, column_size={}, expected_rows={}, error={}, "
745
0
                        "reader={}",
746
0
                        idx, stage, file_block_column.file_column_id.value(),
747
0
                        file_block_column.name,
748
0
                        file_block_column.type == nullptr ? "null"
749
0
                                                          : file_block_column.type->get_name(),
750
0
                        column == nullptr ? "null" : column->get_name(),
751
0
                        column == nullptr ? 0 : column->size(), rows, e.to_string(),
752
0
                        debug_string());
753
0
                LOG(WARNING) << st;
754
0
                return st;
755
0
            } catch (const std::exception& e) {
756
0
                auto st = Status::InternalError(
757
0
                        "Invalid file block column {} at {}: file_column_id={}, name='{}', "
758
0
                        "type={}, column={}, column_size={}, expected_rows={}, error={}, "
759
0
                        "reader={}",
760
0
                        idx, stage, file_block_column.file_column_id.value(),
761
0
                        file_block_column.name,
762
0
                        file_block_column.type == nullptr ? "null"
763
0
                                                          : file_block_column.type->get_name(),
764
0
                        column == nullptr ? "null" : column->get_name(),
765
0
                        column == nullptr ? 0 : column->size(), rows, e.what(), debug_string());
766
0
                LOG(WARNING) << st;
767
0
                return st;
768
0
            }
769
120
        }
770
85
        return Status::OK();
771
85
    }
772
773
85
    Status _check_table_block_columns(std::string_view stage, const Block* block, size_t rows) {
774
85
        DORIS_CHECK(block != nullptr);
775
85
        DORIS_CHECK(block->columns() == _data_reader.column_mapper->mappings().size());
776
201
        for (size_t idx = 0; idx < block->columns(); ++idx) {
777
116
            const auto& mapping = _data_reader.column_mapper->mappings()[idx];
778
116
            const auto& column_with_type = block->get_by_position(idx);
779
116
            const auto* column = column_with_type.column.get();
780
116
            try {
781
116
                if (column == nullptr) {
782
0
                    auto st = Status::InternalError(
783
0
                            "Invalid table block column {} at {}: table_column='{}', "
784
0
                            "global_index={}, type={}, column=null, expected_rows={}, mapping={}",
785
0
                            idx, stage, mapping.table_column_name, mapping.global_index.value(),
786
0
                            mapping.table_type == nullptr ? "null" : mapping.table_type->get_name(),
787
0
                            rows, mapping.debug_string());
788
0
                    LOG(WARNING) << st;
789
0
                    return st;
790
0
                }
791
116
                column->sanity_check();
792
116
                auto st = column_with_type.check_type_and_column_match();
793
116
                if (!st.ok()) {
794
0
                    auto contextual_status = Status::InternalError(
795
0
                            "Invalid table block column {} at {}: table_column='{}', "
796
0
                            "global_index={}, type={}, column={}, column_size={}, "
797
0
                            "expected_rows={}, error={}, mapping={}",
798
0
                            idx, stage, mapping.table_column_name, mapping.global_index.value(),
799
0
                            mapping.table_type == nullptr ? "null" : mapping.table_type->get_name(),
800
0
                            column->get_name(), column->size(), rows, st.to_string(),
801
0
                            mapping.debug_string());
802
0
                    LOG(WARNING) << contextual_status;
803
0
                    return contextual_status;
804
0
                }
805
116
            } catch (const Exception& e) {
806
0
                auto st = Status::InternalError(
807
0
                        "Invalid table block column {} at {}: table_column='{}', global_index={}, "
808
0
                        "type={}, column={}, column_size={}, expected_rows={}, error={}, "
809
0
                        "mapping={}",
810
0
                        idx, stage, mapping.table_column_name, mapping.global_index.value(),
811
0
                        mapping.table_type == nullptr ? "null" : mapping.table_type->get_name(),
812
0
                        column == nullptr ? "null" : column->get_name(),
813
0
                        column == nullptr ? 0 : column->size(), rows, e.to_string(),
814
0
                        mapping.debug_string());
815
0
                LOG(WARNING) << st;
816
0
                return st;
817
0
            } catch (const std::exception& e) {
818
0
                auto st = Status::InternalError(
819
0
                        "Invalid table block column {} at {}: table_column='{}', global_index={}, "
820
0
                        "type={}, column={}, column_size={}, expected_rows={}, error={}, "
821
0
                        "mapping={}",
822
0
                        idx, stage, mapping.table_column_name, mapping.global_index.value(),
823
0
                        mapping.table_type == nullptr ? "null" : mapping.table_type->get_name(),
824
0
                        column == nullptr ? "null" : column->get_name(),
825
0
                        column == nullptr ? 0 : column->size(), rows, e.what(),
826
0
                        mapping.debug_string());
827
0
                LOG(WARNING) << st;
828
0
                return st;
829
0
            }
830
116
        }
831
85
        return Status::OK();
832
85
    }
833
#endif
834
835
85
    Status _truncate_char_or_varchar_columns(Block* block) {
836
85
        DORIS_CHECK(block != nullptr);
837
85
        if (_runtime_state == nullptr ||
838
85
            !_runtime_state->query_options().truncate_char_or_varchar_columns) {
839
85
            return Status::OK();
840
85
        }
841
0
        DORIS_CHECK(block->columns() == _data_reader.column_mapper->mappings().size());
842
0
        for (size_t idx = 0; idx < _data_reader.column_mapper->mappings().size(); ++idx) {
843
0
            const auto& mapping = _data_reader.column_mapper->mappings()[idx];
844
0
            if (!_should_truncate_char_or_varchar_column(mapping)) {
845
0
                continue;
846
0
            }
847
0
            const auto target_len =
848
0
                    assert_cast<const DataTypeString*>(remove_nullable(mapping.table_type).get())
849
0
                            ->len();
850
0
            _truncate_char_or_varchar_column(block, idx, target_len);
851
0
        }
852
0
        return Status::OK();
853
85
    }
854
855
    // Return true when the table schema has a bounded CHAR/VARCHAR length that is stricter than
856
    // the file-side type. Examples:
857
    // - table VARCHAR(10), file VARCHAR(20): truncate to 10;
858
    // - table VARCHAR(10), file STRING: truncate to 10 because STRING has no declared bound;
859
    // - table STRING, any file type: no truncation because the target has no bound.
860
5
    static bool _should_truncate_char_or_varchar_column(const ColumnMapping& mapping) {
861
5
        if (mapping.table_type == nullptr) {
862
0
            return false;
863
0
        }
864
5
        const auto table_type = remove_nullable(mapping.table_type);
865
5
        const auto primitive_type = table_type->get_primitive_type();
866
5
        if (primitive_type != TYPE_VARCHAR && primitive_type != TYPE_CHAR) {
867
1
            return false;
868
1
        }
869
4
        const auto target_len = assert_cast<const DataTypeString*>(table_type.get())->len();
870
4
        if (target_len <= 0) {
871
0
            return false;
872
0
        }
873
4
        if (mapping.file_type == nullptr) {
874
0
            return true;
875
0
        }
876
4
        const auto file_type = remove_nullable(mapping.file_type);
877
4
        DORIS_CHECK(file_type != nullptr);
878
4
        int file_len = -1;
879
4
        if (file_type->get_primitive_type() == TYPE_VARCHAR ||
880
4
            file_type->get_primitive_type() == TYPE_CHAR ||
881
4
            file_type->get_primitive_type() == TYPE_STRING) {
882
3
            file_len = assert_cast<const DataTypeString*>(file_type.get())->len();
883
3
        }
884
885
4
        return file_len < 0 || target_len < file_len;
886
4
    }
887
888
    // Truncate a materialized CHAR/VARCHAR column in place by reusing the vectorized substring
889
    // implementation: substring(column, 1, len). Nullable columns are unwrapped before substring
890
    // execution and wrapped back with the original null map afterward, because substring operates
891
    // on the nested string payload only.
892
1
    static void _truncate_char_or_varchar_column(Block* block, size_t idx, int len) {
893
1
        DORIS_CHECK(block != nullptr);
894
1
        auto int_type = std::make_shared<DataTypeInt32>();
895
1
        const auto num_columns_without_result = cast_set<uint32_t>(block->columns());
896
1
        auto& target = block->get_by_position(idx);
897
1
        const bool is_nullable = target.type->is_nullable();
898
1
        ColumnPtr input_column = target.column;
899
1
        ColumnPtr null_map_column;
900
1
        if (is_nullable) {
901
1
            const auto* nullable_column = assert_cast<const ColumnNullable*>(target.column.get());
902
1
            input_column = nullable_column->get_nested_column_ptr();
903
1
            null_map_column = nullable_column->get_null_map_column_ptr();
904
1
        }
905
1
        block->replace_by_position(idx, std::move(input_column));
906
1
        block->insert({int_type->create_column_const(block->rows(), to_field<TYPE_INT>(1)),
907
1
                       int_type, "const 1"});
908
1
        block->insert({int_type->create_column_const(block->rows(), to_field<TYPE_INT>(len)),
909
1
                       int_type, "const len"});
910
1
        block->insert({nullptr, std::make_shared<DataTypeString>(), "result"});
911
912
1
        ColumnNumbers temp_arguments(3);
913
1
        temp_arguments[0] = cast_set<uint32_t>(idx);
914
1
        temp_arguments[1] = num_columns_without_result;
915
1
        temp_arguments[2] = num_columns_without_result + 1;
916
1
        const uint32_t result_column_id = num_columns_without_result + 2;
917
1
        SubstringUtil::substring_execute(*block, temp_arguments, result_column_id, block->rows());
918
919
1
        ColumnPtr result_column = block->get_by_position(result_column_id).column;
920
1
        if (is_nullable) {
921
1
            result_column = ColumnNullable::create(std::move(result_column), null_map_column);
922
1
        }
923
1
        block->replace_by_position(idx, std::move(result_column));
924
1
        block->erase_tail(num_columns_without_result);
925
1
    }
926
927
97
    Status _try_materialize_aggregate_pushdown_rows(Block* block, bool* pushed_down) {
928
97
        DORIS_CHECK(block != nullptr);
929
97
        DORIS_CHECK(pushed_down != nullptr);
930
97
        *pushed_down = false;
931
97
        block->clear_column_data(_projected_columns.size());
932
97
        _aggregate_pushdown_tried = true;
933
97
        if (!_supports_aggregate_pushdown(_push_down_agg_type)) {
934
89
            return Status::OK();
935
89
        }
936
937
8
        FileAggregateRequest file_request;
938
8
        RETURN_IF_ERROR(_build_file_aggregate_request(_push_down_agg_type, &file_request));
939
8
        FileAggregateResult file_result;
940
8
        const auto status = _data_reader.reader->get_aggregate_result(file_request, &file_result);
941
8
        if (status.is<ErrorCode::NOT_IMPLEMENTED_ERROR>()) {
942
1
            return Status::OK();
943
1
        }
944
7
        RETURN_IF_ERROR(status);
945
6
        RETURN_IF_ERROR(
946
6
                _materialize_aggregate_pushdown_rows(_push_down_agg_type, file_result, block));
947
6
        *pushed_down = true;
948
6
        RETURN_IF_ERROR(close_current_reader());
949
6
        return Status::OK();
950
6
    }
951
952
105
    virtual bool _supports_aggregate_pushdown(TPushAggOp::type agg_type) const {
953
        // Only COUNT and MIN/MAX can be push down.
954
105
        if (agg_type != TPushAggOp::type::COUNT && agg_type != TPushAggOp::type::MINMAX) {
955
75
            return false;
956
75
        }
957
        // Aggregate pushdown returns reduced synthetic rows and may close the physical reader
958
        // before the next scheduler turn. If a runtime filter is still pending, those rows could
959
        // escape before the filter arrives and cannot later be reconstructed from real file rows.
960
        // This is the same irreversibility constraint as table-level metadata COUNT, and applies
961
        // to COUNT and MIN/MAX for Parquet/ORC as well as COUNT for text readers.
962
30
        if (!_all_runtime_filters_applied_for_split) {
963
2
            return false;
964
2
        }
965
        // Scanner owns the original conjunct list and evaluates it after TableReader finalizes
966
        // rows. Even a slotless conjunct that cannot become a TableFilter must see every source
967
        // row before an aggregate reduces the stream to synthetic COUNT/MINMAX rows.
968
28
        if (!_conjuncts.empty()) {
969
5
            return false;
970
5
        }
971
        // Only support aggregate pushdown when there is no delete or filter, so
972
        // the reduced rows consumed by the upper aggregate remain semantically equivalent to a
973
        // normal scan.
974
23
        if ((_delete_rows != nullptr && !_delete_rows->empty()) ||
975
23
            (_deletion_vector != nullptr && !_deletion_vector->isEmpty())) {
976
3
            return false;
977
3
        }
978
20
        if (!_table_filters.empty()) {
979
0
            return false;
980
0
        }
981
20
        if (agg_type == TPushAggOp::type::COUNT) {
982
9
            return true;
983
9
        }
984
        // For MIN/MAX, only support direct file-to-table column mappings. The two emitted rows
985
        // must be enough for the upper MIN/MAX aggregate without evaluating default expressions or
986
        // virtual columns.
987
13
        for (const auto& mapping : _data_reader.column_mapper->mappings()) {
988
13
            if (!mapping.file_local_id.has_value() ||
989
13
                mapping.virtual_column_type != TableVirtualColumnType::INVALID ||
990
13
                mapping.default_expr != nullptr || mapping.file_type == nullptr ||
991
13
                mapping.table_type == nullptr) {
992
1
                return false;
993
1
            }
994
12
            if (!_can_push_down_minmax_for_mapping(mapping)) {
995
2
                return false;
996
2
            }
997
12
        }
998
8
        return true;
999
11
    }
1000
1001
115
    static ColumnPtr _detach_column(ColumnPtr column) {
1002
115
        DORIS_CHECK(column.get() != nullptr);
1003
115
        return IColumn::mutate(std::move(column));
1004
115
    }
1005
1006
62
    static Status _align_column_nullability(ColumnPtr* column, const DataTypePtr& table_type) {
1007
62
        DORIS_CHECK(column != nullptr);
1008
62
        DORIS_CHECK(column->get() != nullptr);
1009
62
        DORIS_CHECK(table_type != nullptr);
1010
        // Must return non-const column
1011
62
        *column = (*column)->convert_to_full_column_if_const();
1012
62
        if (table_type->is_nullable()) {
1013
25
            const auto& nested_type =
1014
25
                    assert_cast<const DataTypeNullable&>(*table_type).get_nested_type();
1015
25
            if (!(*column)->is_nullable()) {
1016
2
                RETURN_IF_ERROR(_align_column_nullability(column, nested_type));
1017
2
                *column = make_nullable(*column);
1018
2
                return Status::OK();
1019
2
            }
1020
23
            const auto& nullable_column = assert_cast<const ColumnNullable&>(**column);
1021
23
            ColumnPtr nested_column = nullable_column.get_nested_column_ptr();
1022
23
            RETURN_IF_ERROR(_align_column_nullability(&nested_column, nested_type));
1023
23
            *column = ColumnNullable::create(nested_column,
1024
23
                                             nullable_column.get_null_map_column_ptr());
1025
23
            return Status::OK();
1026
23
        }
1027
37
        if ((*column)->is_nullable()) {
1028
0
            const auto& nullable_column = assert_cast<const ColumnNullable&>(**column);
1029
0
            if (nullable_column.has_null()) {
1030
0
                return Status::InternalError(
1031
0
                        "Default expression produced NULL for non-nullable table column");
1032
0
            }
1033
0
            ColumnPtr nested_column = nullable_column.get_nested_column_ptr();
1034
0
            RETURN_IF_ERROR(_align_column_nullability(&nested_column, table_type));
1035
0
            *column = nested_column;
1036
0
            return Status::OK();
1037
0
        }
1038
37
        if (const auto* array_type = typeid_cast<const DataTypeArray*>(table_type.get())) {
1039
1
            const auto& array_column = assert_cast<const ColumnArray&>(**column);
1040
1
            ColumnPtr nested_column = array_column.get_data_ptr();
1041
1
            RETURN_IF_ERROR(
1042
1
                    _align_column_nullability(&nested_column, array_type->get_nested_type()));
1043
1
            *column = ColumnArray::create(nested_column, array_column.get_offsets_ptr());
1044
1
            return Status::OK();
1045
1
        }
1046
36
        if (const auto* map_type = typeid_cast<const DataTypeMap*>(table_type.get())) {
1047
0
            const auto& map_column = assert_cast<const ColumnMap&>(**column);
1048
0
            ColumnPtr key_column = map_column.get_keys_ptr();
1049
0
            ColumnPtr value_column = map_column.get_values_ptr();
1050
0
            RETURN_IF_ERROR(_align_column_nullability(&key_column, map_type->get_key_type()));
1051
0
            RETURN_IF_ERROR(_align_column_nullability(&value_column, map_type->get_value_type()));
1052
0
            *column = ColumnMap::create(key_column, value_column, map_column.get_offsets_ptr());
1053
0
            return Status::OK();
1054
0
        }
1055
36
        if (const auto* struct_type = typeid_cast<const DataTypeStruct*>(table_type.get())) {
1056
5
            const auto& struct_column = assert_cast<const ColumnStruct&>(**column);
1057
5
            Columns columns = struct_column.get_columns_copy();
1058
5
            DORIS_CHECK(columns.size() == struct_type->get_elements().size());
1059
16
            for (size_t i = 0; i < columns.size(); ++i) {
1060
11
                RETURN_IF_ERROR(
1061
11
                        _align_column_nullability(&columns[i], struct_type->get_element(i)));
1062
11
            }
1063
5
            *column = ColumnStruct::create(columns);
1064
5
            return Status::OK();
1065
5
        }
1066
31
        return Status::OK();
1067
36
    }
1068
1069
    static Status _execute_default_expr_without_root_type_check(
1070
            const VExprContextSPtr& default_expr, const Block* block,
1071
7
            ColumnWithTypeAndName* result_data) {
1072
7
        DORIS_CHECK(default_expr != nullptr);
1073
7
        DORIS_CHECK(block != nullptr);
1074
7
        DORIS_CHECK(result_data != nullptr);
1075
7
        ColumnPtr result_column;
1076
7
        Status st;
1077
7
        RETURN_IF_CATCH_EXCEPTION({
1078
7
            st = default_expr->root()->execute_column_impl(default_expr.get(), block, nullptr,
1079
7
                                                           block->rows(), result_column);
1080
7
        });
1081
7
        RETURN_IF_ERROR(st);
1082
7
        DORIS_CHECK(result_column.get() != nullptr);
1083
7
        if (result_column->size() != block->rows()) {
1084
0
            return Status::InternalError(
1085
0
                    "Default expr {} return column size {} not equal to expected size {}",
1086
0
                    default_expr->expr_name(), result_column->size(), block->rows());
1087
0
        }
1088
7
        result_data->column = result_column;
1089
7
        result_data->type = default_expr->execute_type(block);
1090
7
        result_data->name = default_expr->expr_name();
1091
7
        return Status::OK();
1092
7
    }
1093
1094
    Status _cast_column_to_type(ColumnPtr* column, const DataTypePtr& file_type,
1095
                                const DataTypePtr& table_type,
1096
1
                                const std::string& column_name) const {
1097
1
        DORIS_CHECK(column != nullptr);
1098
1
        DORIS_CHECK(column->get() != nullptr);
1099
1
        DORIS_CHECK(file_type != nullptr);
1100
1
        DORIS_CHECK(table_type != nullptr);
1101
1
        if (file_type->equals(*table_type)) {
1102
0
            return Status::OK();
1103
0
        }
1104
1105
1
        DataTypePtr input_type = file_type;
1106
        // Cast wrappers unwrap nullable inputs according to the declared input type, so keep the
1107
        // root nullability of the declared type aligned with the actual column shape.
1108
1
        if ((*column)->is_nullable() && !input_type->is_nullable()) {
1109
0
            input_type = make_nullable(input_type);
1110
1
        } else if (!(*column)->is_nullable() && input_type->is_nullable()) {
1111
1
            input_type = remove_nullable(input_type);
1112
1
        }
1113
1
        Block cast_block;
1114
1
        cast_block.insert({*column, input_type, column_name});
1115
1
        auto slot_ref = VSlotRef::create_shared(0, 0, -1, input_type, column_name);
1116
1
        auto cast_expr = Cast::create_shared(table_type);
1117
1
        cast_expr->add_child(std::move(slot_ref));
1118
1
        auto cast_ctx = VExprContext::create_shared(std::move(cast_expr));
1119
1
        RowDescriptor row_desc;
1120
1
        RETURN_IF_ERROR(cast_ctx->prepare(_runtime_state, row_desc));
1121
1
        RETURN_IF_ERROR(cast_ctx->open(_runtime_state));
1122
1
        ColumnPtr cast_column;
1123
1
        RETURN_IF_ERROR(cast_ctx->execute(&cast_block, cast_column));
1124
1
        *column = std::move(cast_column);
1125
1
        return Status::OK();
1126
1
    }
1127
1128
    Status _materialize_present_child_mapping_column(const ColumnMapping& mapping,
1129
                                                     const ColumnPtr& file_column,
1130
18
                                                     const size_t rows, ColumnPtr* column) {
1131
18
        DORIS_CHECK(column != nullptr);
1132
18
        DORIS_CHECK(mapping.file_type != nullptr);
1133
18
        DORIS_CHECK(mapping.table_type != nullptr);
1134
18
        *column = file_column;
1135
18
        if (!mapping.is_trivial) {
1136
5
            if (!mapping.child_mappings.empty()) {
1137
5
                RETURN_IF_ERROR(
1138
5
                        _materialize_complex_mapping_column(mapping, *column, rows, column));
1139
5
            } else {
1140
0
                RETURN_IF_ERROR(_cast_column_to_type(column, mapping.file_type, mapping.table_type,
1141
0
                                                     mapping.file_column_name));
1142
0
            }
1143
5
        }
1144
18
        RETURN_IF_ERROR(_align_column_nullability(column, mapping.table_type));
1145
18
        return Status::OK();
1146
18
    }
1147
1148
    Status _materialize_mapping_column(const ColumnMapping& mapping, Block* current_block,
1149
120
                                       const size_t rows, ColumnPtr* column) {
1150
120
        if (!mapping.is_trivial && mapping.file_local_id.has_value() &&
1151
120
            !mapping.child_mappings.empty()) {
1152
5
            DCHECK(mapping.projection != nullptr);
1153
5
            int res_id;
1154
5
            auto st = mapping.projection->execute(current_block, &res_id);
1155
5
            if (!st.ok()) {
1156
0
                return Status::InternalError(
1157
0
                        "Failed to execute complex mapping projection for table column '{}' "
1158
0
                        "(global_index={}, file_local_id={}, rows={}): {}, mapping={}",
1159
0
                        mapping.table_column_name, mapping.global_index.value(),
1160
0
                        *mapping.file_local_id, rows, st.to_string(), mapping.debug_string());
1161
0
            }
1162
5
            ColumnPtr result_column = current_block->get_by_position(res_id).column;
1163
5
            RETURN_IF_ERROR(
1164
5
                    _materialize_complex_mapping_column(mapping, result_column, rows, column));
1165
5
            return Status::OK();
1166
5
        }
1167
115
        if (mapping.projection != nullptr) {
1168
95
            int res_id;
1169
95
            auto st = mapping.projection->execute(current_block, &res_id);
1170
95
            if (!st.ok()) {
1171
0
                std::string file_local_id = "null";
1172
0
                if (mapping.file_local_id.has_value()) {
1173
0
                    file_local_id = std::to_string(*mapping.file_local_id);
1174
0
                }
1175
0
                return Status::InternalError(
1176
0
                        "Failed to execute mapping projection for table column '{}' "
1177
0
                        "(global_index={}, file_local_id={}, rows={}): {}, mapping={}",
1178
0
                        mapping.table_column_name, mapping.global_index.value(), file_local_id,
1179
0
                        rows, st.to_string(), mapping.debug_string());
1180
0
            }
1181
95
            ColumnPtr result_column = current_block->get_by_position(res_id).column;
1182
95
            *column = _detach_column(std::move(result_column));
1183
95
            return Status::OK();
1184
95
        }
1185
20
        if (mapping.default_expr != nullptr) {
1186
7
            if (current_block->rows() == rows) {
1187
0
                ColumnWithTypeAndName result;
1188
0
                RETURN_IF_ERROR(_execute_default_expr_without_root_type_check(
1189
0
                        mapping.default_expr, current_block, &result));
1190
0
                ColumnPtr result_column = result.column;
1191
0
                RETURN_IF_ERROR(_align_column_nullability(&result_column, mapping.table_type));
1192
0
                *column = _detach_column(std::move(result_column));
1193
7
            } else {
1194
7
                DORIS_CHECK(mapping.constant_index.has_value());
1195
7
                Block eval_block;
1196
7
                eval_block.insert({mapping.table_type->create_column_const_with_default_value(rows),
1197
7
                                   mapping.table_type, "__table_reader_const_rows"});
1198
7
                ColumnWithTypeAndName result;
1199
7
                RETURN_IF_ERROR(_execute_default_expr_without_root_type_check(
1200
7
                        mapping.default_expr, &eval_block, &result));
1201
7
                ColumnPtr result_column = result.column;
1202
7
                RETURN_IF_ERROR(_align_column_nullability(&result_column, mapping.table_type));
1203
7
                *column = _detach_column(std::move(result_column));
1204
7
            }
1205
7
            return Status::OK();
1206
7
        }
1207
13
        ColumnPtr result_column = mapping.table_type->create_column_const_with_default_value(rows);
1208
13
        *column = _detach_column(std::move(result_column));
1209
13
        return Status::OK();
1210
20
    }
1211
1212
    Status _materialize_complex_mapping_column(const ColumnMapping& mapping,
1213
                                               const ColumnPtr& file_column, const size_t rows,
1214
10
                                               ColumnPtr* column) {
1215
10
        DORIS_CHECK(mapping.table_type != nullptr);
1216
10
        DORIS_CHECK(file_column.get() != nullptr);
1217
10
        const auto table_type = remove_nullable(mapping.table_type);
1218
10
        switch (table_type->get_primitive_type()) {
1219
7
        case TYPE_STRUCT:
1220
7
            RETURN_IF_ERROR(_materialize_struct_mapping_column(mapping, file_column, rows, column));
1221
7
            break;
1222
7
        case TYPE_ARRAY:
1223
2
            RETURN_IF_ERROR(_materialize_array_mapping_column(mapping, file_column, rows, column));
1224
2
            break;
1225
2
        case TYPE_MAP:
1226
1
            RETURN_IF_ERROR(_materialize_map_mapping_column(mapping, file_column, rows, column));
1227
1
            break;
1228
1
        default:
1229
0
            *column = _detach_column(file_column);
1230
0
            break;
1231
10
        }
1232
10
        return Status::OK();
1233
10
    }
1234
1235
    static std::vector<const ColumnMapping*> _present_child_mappings_in_file_order(
1236
7
            const std::vector<ColumnMapping>& child_mappings) {
1237
7
        std::vector<const ColumnMapping*> result;
1238
7
        result.reserve(child_mappings.size());
1239
16
        for (const auto& child_mapping : child_mappings) {
1240
16
            if (child_mapping.file_local_id.has_value()) {
1241
11
                result.push_back(&child_mapping);
1242
11
            }
1243
16
        }
1244
7
        std::ranges::sort(result, [](const ColumnMapping* lhs, const ColumnMapping* rhs) {
1245
6
            DORIS_CHECK(lhs->file_local_id.has_value());
1246
6
            DORIS_CHECK(rhs->file_local_id.has_value());
1247
6
            return *lhs->file_local_id < *rhs->file_local_id;
1248
6
        });
1249
7
        return result;
1250
7
    }
1251
1252
    static size_t _file_child_ordinal_for_mapping(
1253
            const ColumnMapping& mapping, const ColumnMapping& child_mapping,
1254
11
            const std::vector<const ColumnMapping*>& file_ordered_children) {
1255
11
        DORIS_CHECK(child_mapping.file_local_id.has_value());
1256
11
        if (!mapping.projected_file_children.empty()) {
1257
7
            const auto child_it = std::ranges::find_if(
1258
10
                    mapping.projected_file_children, [&](const ColumnDefinition& file_child) {
1259
10
                        return file_child.file_local_id() == *child_mapping.file_local_id;
1260
10
                    });
1261
7
            DORIS_CHECK(child_it != mapping.projected_file_children.end());
1262
7
            return static_cast<size_t>(
1263
7
                    std::distance(mapping.projected_file_children.begin(), child_it));
1264
7
        }
1265
4
        const auto child_it = std::ranges::find(file_ordered_children, &child_mapping);
1266
4
        DORIS_CHECK(child_it != file_ordered_children.end());
1267
4
        return static_cast<size_t>(std::distance(file_ordered_children.begin(), child_it));
1268
11
    }
1269
1270
    static std::vector<const ColumnMapping*> _child_mappings_in_table_type_order(
1271
7
            const ColumnMapping& mapping, const DataTypeStruct& table_type) {
1272
7
        std::vector<const ColumnMapping*> result;
1273
7
        result.reserve(mapping.child_mappings.size());
1274
23
        for (size_t child_idx = 0; child_idx < table_type.get_elements().size(); ++child_idx) {
1275
16
            const auto& child_name = table_type.get_element_name(child_idx);
1276
16
            const auto child_it = std::ranges::find_if(
1277
28
                    mapping.child_mappings, [&](const ColumnMapping& child_mapping) {
1278
28
                        return child_mapping.table_column_name == child_name;
1279
28
                    });
1280
16
            DORIS_CHECK(child_it != mapping.child_mappings.end())
1281
0
                    << mapping.debug_string() << ", table_child_name=" << child_name;
1282
16
            result.push_back(&*child_it);
1283
16
        }
1284
7
        return result;
1285
7
    }
1286
1287
    static const IColumn* _nested_column_if_nullable(const ColumnPtr& column,
1288
12
                                                     const NullMap** null_map) {
1289
12
        DORIS_CHECK(column.get() != nullptr);
1290
12
        if (const auto* nullable_column = check_and_get_column<ColumnNullable>(*column)) {
1291
8
            if (null_map != nullptr) {
1292
8
                *null_map = &nullable_column->get_null_map_data();
1293
8
            }
1294
8
            return &nullable_column->get_nested_column();
1295
8
        }
1296
4
        return column.get();
1297
12
    }
1298
1299
    Status _materialize_struct_mapping_column(const ColumnMapping& mapping,
1300
                                              const ColumnPtr& file_column, const size_t rows,
1301
7
                                              ColumnPtr* column) {
1302
7
        DORIS_CHECK(mapping.table_type != nullptr);
1303
7
        const auto* table_type =
1304
7
                assert_cast<const DataTypeStruct*>(remove_nullable(mapping.table_type).get());
1305
7
        const auto full_file_column = file_column->convert_to_full_column_if_const();
1306
7
        const NullMap* parent_null_map = nullptr;
1307
7
        const auto* nested_file_column =
1308
7
                _nested_column_if_nullable(full_file_column, &parent_null_map);
1309
7
        const auto* file_struct = assert_cast<const ColumnStruct*>(nested_file_column);
1310
7
        DORIS_CHECK(table_type->get_elements().size() == mapping.child_mappings.size());
1311
1312
7
        Columns child_columns;
1313
7
        child_columns.reserve(mapping.child_mappings.size());
1314
7
        const auto file_ordered_children =
1315
7
                _present_child_mappings_in_file_order(mapping.child_mappings);
1316
7
        const auto table_ordered_children =
1317
7
                _child_mappings_in_table_type_order(mapping, *table_type);
1318
16
        for (const auto* child_mapping : table_ordered_children) {
1319
16
            DORIS_CHECK(child_mapping != nullptr);
1320
16
            if (!child_mapping->file_local_id.has_value()) {
1321
5
                child_columns.push_back(
1322
5
                        child_mapping->table_type->create_column_const_with_default_value(rows)
1323
5
                                ->convert_to_full_column_if_const());
1324
5
                continue;
1325
5
            }
1326
11
            const auto file_child_idx =
1327
11
                    _file_child_ordinal_for_mapping(mapping, *child_mapping, file_ordered_children);
1328
11
            DORIS_CHECK(file_child_idx < file_struct->get_columns().size());
1329
11
            ColumnPtr child_column = file_struct->get_column_ptr(file_child_idx);
1330
11
            RETURN_IF_ERROR(_materialize_present_child_mapping_column(*child_mapping, child_column,
1331
11
                                                                      rows, &child_column));
1332
11
            child_columns.push_back(std::move(child_column));
1333
11
        }
1334
7
        MutableColumns mutable_child_columns;
1335
7
        mutable_child_columns.reserve(child_columns.size());
1336
16
        for (auto& child_column : child_columns) {
1337
16
            mutable_child_columns.push_back(IColumn::mutate(std::move(child_column)));
1338
16
        }
1339
7
        auto result = ColumnStruct::create(std::move(mutable_child_columns));
1340
7
        if (mapping.table_type->is_nullable()) {
1341
5
            auto null_map = ColumnUInt8::create();
1342
5
            auto& null_map_data = null_map->get_data();
1343
5
            null_map_data.resize(rows);
1344
5
            if (parent_null_map != nullptr) {
1345
5
                DORIS_CHECK(parent_null_map->size() == rows);
1346
5
                null_map_data.assign(parent_null_map->begin(), parent_null_map->end());
1347
5
            } else {
1348
0
                std::fill(null_map_data.begin(), null_map_data.end(), 0);
1349
0
            }
1350
5
            *column = ColumnNullable::create(std::move(result), std::move(null_map));
1351
5
        } else {
1352
2
            *column = std::move(result);
1353
2
        }
1354
7
        return Status::OK();
1355
7
    }
1356
1357
    Status _materialize_array_mapping_column(const ColumnMapping& mapping,
1358
                                             const ColumnPtr& file_column, const size_t rows,
1359
2
                                             ColumnPtr* column) {
1360
2
        DORIS_CHECK(mapping.child_mappings.size() == 1);
1361
2
        const auto full_file_column = file_column->convert_to_full_column_if_const();
1362
2
        const NullMap* parent_null_map = nullptr;
1363
2
        const auto* nested_file_column =
1364
2
                _nested_column_if_nullable(full_file_column, &parent_null_map);
1365
2
        const auto* file_array = assert_cast<const ColumnArray*>(nested_file_column);
1366
2
        ColumnPtr nested_column = file_array->get_data_ptr();
1367
2
        const auto& element_mapping = mapping.child_mappings[0];
1368
2
        RETURN_IF_ERROR(_materialize_present_child_mapping_column(
1369
2
                element_mapping, nested_column, nested_column->size(), &nested_column));
1370
2
        auto offsets_column = file_array->get_offsets_ptr()->convert_to_full_column_if_const();
1371
2
        auto result = ColumnArray::create(IColumn::mutate(std::move(nested_column)),
1372
2
                                          IColumn::mutate(std::move(offsets_column)));
1373
2
        if (mapping.table_type->is_nullable()) {
1374
2
            auto null_map = ColumnUInt8::create();
1375
2
            auto& null_map_data = null_map->get_data();
1376
2
            null_map_data.resize(rows);
1377
2
            if (parent_null_map != nullptr) {
1378
2
                DORIS_CHECK(parent_null_map->size() == rows);
1379
2
                null_map_data.assign(parent_null_map->begin(), parent_null_map->end());
1380
2
            } else {
1381
0
                std::fill(null_map_data.begin(), null_map_data.end(), 0);
1382
0
            }
1383
2
            *column = ColumnNullable::create(std::move(result), std::move(null_map));
1384
2
        } else {
1385
0
            *column = std::move(result);
1386
0
        }
1387
2
        return Status::OK();
1388
2
    }
1389
1390
    Status _materialize_map_mapping_column(const ColumnMapping& mapping,
1391
                                           const ColumnPtr& file_column, const size_t rows,
1392
3
                                           ColumnPtr* column) {
1393
3
        const auto full_file_column = file_column->convert_to_full_column_if_const();
1394
3
        const NullMap* parent_null_map = nullptr;
1395
3
        const auto* nested_file_column =
1396
3
                _nested_column_if_nullable(full_file_column, &parent_null_map);
1397
3
        const auto* file_map = assert_cast<const ColumnMap*>(nested_file_column);
1398
3
        ColumnPtr key_column = file_map->get_keys_ptr();
1399
3
        ColumnPtr value_column = file_map->get_values_ptr();
1400
1401
3
        const ColumnMapping* key_mapping = nullptr;
1402
3
        const ColumnMapping* value_mapping = nullptr;
1403
5
        for (const auto& child_mapping : mapping.child_mappings) {
1404
5
            if (!child_mapping.file_local_id.has_value()) {
1405
0
                continue;
1406
0
            }
1407
5
            if (*child_mapping.file_local_id == 0) {
1408
2
                key_mapping = &child_mapping;
1409
3
            } else if (*child_mapping.file_local_id == 1) {
1410
3
                value_mapping = &child_mapping;
1411
3
            }
1412
5
        }
1413
1414
3
        if (key_mapping != nullptr) {
1415
2
            RETURN_IF_ERROR(_materialize_present_child_mapping_column(
1416
2
                    *key_mapping, key_column, key_column->size(), &key_column));
1417
2
        }
1418
3
        if (value_mapping != nullptr) {
1419
3
            RETURN_IF_ERROR(_materialize_present_child_mapping_column(
1420
3
                    *value_mapping, value_column, value_column->size(), &value_column));
1421
3
        }
1422
3
        auto offsets_column = file_map->get_offsets_ptr()->convert_to_full_column_if_const();
1423
3
        auto result = ColumnMap::create(IColumn::mutate(std::move(key_column)),
1424
3
                                        IColumn::mutate(std::move(value_column)),
1425
3
                                        IColumn::mutate(std::move(offsets_column)));
1426
3
        if (mapping.table_type->is_nullable()) {
1427
1
            auto null_map = ColumnUInt8::create();
1428
1
            auto& null_map_data = null_map->get_data();
1429
1
            null_map_data.resize(rows);
1430
1
            if (parent_null_map != nullptr) {
1431
1
                DORIS_CHECK(parent_null_map->size() == rows);
1432
1
                null_map_data.assign(parent_null_map->begin(), parent_null_map->end());
1433
1
            } else {
1434
0
                std::fill(null_map_data.begin(), null_map_data.end(), 0);
1435
0
            }
1436
1
            *column = ColumnNullable::create(std::move(result), std::move(null_map));
1437
2
        } else {
1438
2
            *column = std::move(result);
1439
2
        }
1440
3
        return Status::OK();
1441
3
    }
1442
1443
97
    Status _open_mapping_exprs() {
1444
97
        RowDescriptor row_desc;
1445
129
        for (const auto& mapping : _data_reader.column_mapper->mappings()) {
1446
129
            if (mapping.projection != nullptr) {
1447
109
                RETURN_IF_ERROR(mapping.projection->prepare(_runtime_state, row_desc));
1448
109
                RETURN_IF_ERROR(mapping.projection->open(_runtime_state));
1449
109
            }
1450
129
            if (mapping.default_expr != nullptr) {
1451
7
                RETURN_IF_ERROR(mapping.default_expr->prepare(_runtime_state, row_desc));
1452
7
                RETURN_IF_ERROR(mapping.default_expr->open(_runtime_state));
1453
7
            }
1454
129
        }
1455
97
        return Status::OK();
1456
97
    }
1457
1458
    Status _build_file_aggregate_request(TPushAggOp::type agg_type,
1459
8
                                         FileAggregateRequest* request) const {
1460
8
        DORIS_CHECK(request != nullptr);
1461
8
        DORIS_CHECK(_supports_aggregate_pushdown(agg_type));
1462
8
        request->agg_type = agg_type;
1463
8
        request->columns.clear();
1464
8
        if (agg_type == TPushAggOp::type::COUNT) {
1465
            // COUNT pushdown historically meant COUNT(*) and therefore carried no columns. For
1466
            // complex COUNT(col), materializing the full MAP/LIST/STRUCT value only to test the
1467
            // top-level NULL bit can be extremely expensive. When the scan projects exactly one
1468
            // directly-mapped complex column, pass that file column to the reader so formats such
1469
            // as Parquet can count the column shape from metadata/levels without decoding payload
1470
            // values like MAP value strings. Other COUNT cases stay on the existing row-count path
1471
            // to avoid changing count(*) semantics.
1472
4
            if (_data_reader.column_mapper->mappings().size() == 1) {
1473
4
                const auto& mapping = _data_reader.column_mapper->mappings()[0];
1474
4
                if (mapping.file_local_id.has_value() && mapping.file_type != nullptr &&
1475
4
                    is_complex_type(remove_nullable(mapping.file_type)->get_primitive_type()) &&
1476
4
                    mapping.virtual_column_type == TableVirtualColumnType::INVALID &&
1477
4
                    mapping.default_expr == nullptr) {
1478
0
                    FileAggregateRequest::Column column;
1479
0
                    column.projection =
1480
0
                            LocalColumnIndex::top_level(LocalColumnId(*mapping.file_local_id));
1481
0
                    request->columns.push_back(std::move(column));
1482
0
                }
1483
4
            }
1484
4
            return Status::OK();
1485
4
        }
1486
4
        request->columns.reserve(_data_reader.column_mapper->mappings().size());
1487
5
        for (const auto& mapping : _data_reader.column_mapper->mappings()) {
1488
5
            DORIS_CHECK(mapping.file_local_id.has_value());
1489
5
            FileAggregateRequest::Column column;
1490
5
            column.projection = LocalColumnIndex::top_level(LocalColumnId(*mapping.file_local_id));
1491
5
            if (!mapping.child_mappings.empty()) {
1492
1
                RETURN_IF_ERROR(build_aggregate_projection(mapping, &column.projection));
1493
1
            }
1494
5
            request->columns.push_back(std::move(column));
1495
5
        }
1496
4
        return Status::OK();
1497
4
    }
1498
1499
    Status _materialize_aggregate_pushdown_rows(TPushAggOp::type agg_type,
1500
                                                const FileAggregateResult& file_result,
1501
6
                                                Block* block) {
1502
6
        if (agg_type == TPushAggOp::type::COUNT) {
1503
            // COUNT pushdown is not a final count value. It emits `count` default rows so the
1504
            // upper COUNT(*) aggregate can count them and produce the final result, including
1505
            // zero rows when count is 0.
1506
3
            DORIS_CHECK(file_result.count >= 0);
1507
3
            return _materialize_count_rows(cast_set<size_t>(file_result.count), block);
1508
3
        }
1509
        // MIN/MAX pushdown emits two rows, min first and max second, for each projected column.
1510
        // The upper MIN/MAX aggregate consumes those two rows to produce the final aggregate value.
1511
3
        DORIS_CHECK(file_result.columns.size() == _data_reader.column_mapper->mappings().size());
1512
3
        DORIS_CHECK(block->columns() == _data_reader.column_mapper->mappings().size());
1513
3
        Block file_block;
1514
3
        file_block.reserve(_data_reader.file_block_layout.size());
1515
4
        for (const auto& column : _data_reader.file_block_layout) {
1516
4
            file_block.insert({column.type->create_column(), column.type, column.name});
1517
4
        }
1518
7
        for (size_t column_idx = 0; column_idx < file_result.columns.size(); ++column_idx) {
1519
4
            const auto& result_column = file_result.columns[column_idx];
1520
4
            if (!result_column.has_min || !result_column.has_max) {
1521
0
                return Status::NotSupported("Missing min/max aggregate result for column {}",
1522
0
                                            _projected_columns[column_idx].name);
1523
0
            }
1524
4
            bool found_file_column = false;
1525
5
            for (size_t block_position = 0; block_position < _data_reader.file_block_layout.size();
1526
5
                 ++block_position) {
1527
5
                if (_data_reader.file_block_layout[block_position].file_column_id ==
1528
5
                    file_result.columns[column_idx].projection.column_id()) {
1529
4
                    found_file_column = true;
1530
4
                    auto column = file_block.get_by_position(block_position)
1531
4
                                          .type->create_column()
1532
4
                                          ->assert_mutable();
1533
4
                    RETURN_IF_ERROR(_insert_aggregate_projection_value(
1534
4
                            file_result.columns[column_idx].projection, result_column.min_value,
1535
4
                            column.get()));
1536
4
                    RETURN_IF_ERROR(_insert_aggregate_projection_value(
1537
4
                            file_result.columns[column_idx].projection, result_column.max_value,
1538
4
                            column.get()));
1539
4
                    file_block.replace_by_position(block_position, std::move(column));
1540
4
                    break;
1541
4
                }
1542
5
            }
1543
4
            DORIS_CHECK(found_file_column);
1544
4
        }
1545
7
        for (size_t column_idx = 0; column_idx < _data_reader.column_mapper->mappings().size();
1546
4
             ++column_idx) {
1547
4
            ColumnPtr table_column;
1548
4
            RETURN_IF_ERROR(
1549
4
                    _materialize_mapping_column(_data_reader.column_mapper->mappings()[column_idx],
1550
4
                                                &file_block, 2, &table_column));
1551
4
            block->replace_by_position(column_idx, std::move(table_column));
1552
4
        }
1553
3
        return Status::OK();
1554
3
    }
1555
1556
    struct FileBlockColumn {
1557
        LocalColumnId file_column_id = LocalColumnId::invalid();
1558
        std::string name;
1559
        DataTypePtr type;
1560
    };
1561
1562
    struct DataReader {
1563
        std::unique_ptr<FileReader> reader;
1564
        std::unique_ptr<TableColumnMapper> column_mapper;
1565
        // Schema of the data file, also including virtual column (row position).
1566
        std::vector<ColumnDefinition> file_schema;
1567
        // Layout of the block returned by file reader, determined by column mapping and file
1568
        // schema. It is used for file reader to materialize columns into correct type and position.
1569
        std::vector<FileBlockColumn> file_block_layout;
1570
        Block block_template;
1571
    };
1572
    DataReader _data_reader;
1573
    std::vector<ColumnDefinition> _projected_columns;
1574
    std::unique_ptr<ScanTask> _current_task;
1575
    std::optional<io::FileDescription> _current_file_description;
1576
    // Range-level compression has higher priority than scan-param compression. TVF/load can keep
1577
    // the logical format as CSV/TEXT while carrying the concrete compression such as GZ or LZO on
1578
    // each TFileRangeDesc, matching the old FileScanner reader contract.
1579
    TFileCompressType::type _current_range_compress_type = TFileCompressType::UNKNOWN;
1580
    std::optional<TUniqueId> _current_range_load_id;
1581
    TFileRangeDesc _current_file_range_desc;
1582
    std::shared_ptr<io::FileSystemProperties> _system_properties;
1583
    // partition key -> value
1584
    std::map<std::string, Field> _partition_values;
1585
    // Predicates built from scan conjuncts before file-level localization.
1586
    std::vector<TableFilter> _table_filters;
1587
    // Number of localized filters before the first unsafe conjunct in the original row-level
1588
    // order. This differs from scanning `_table_filters` for safety because slotless predicates are
1589
    // intentionally absent from that vector but must still act as ordering barriers.
1590
    size_t _constant_pruning_safe_filter_count = 0;
1591
    VExprContextSPtrs _conjuncts;
1592
    ReadProfile _profile;
1593
    // Parsed from row-position based delete files, including position delete and deletion vector.
1594
    DeleteRows* _delete_rows = nullptr;
1595
    DeletionVector* _deletion_vector = nullptr;
1596
    TFileScanRangeParams* _scan_params;
1597
    std::shared_ptr<io::IOContext> _io_ctx;
1598
    RuntimeState* _runtime_state;
1599
    RuntimeProfile* _scanner_profile;
1600
    const std::vector<SlotDescriptor*>* _file_slot_descs = nullptr;
1601
    FileFormat _format;
1602
    TPushAggOp::type _push_down_agg_type = TPushAggOp::type::NONE;
1603
    size_t _batch_size = 0;
1604
    uint64_t _initial_condition_cache_digest = 0;
1605
    uint64_t _condition_cache_digest = 0;
1606
    // True only when prepare_split() received a digest for the exact conjunct snapshot used by
1607
    // this split. Standalone callers that only supplied TableReadOptions::condition_cache_digest
1608
    // keep the conservative runtime-filter guard.
1609
    bool _condition_cache_digest_covers_current_split = false;
1610
    segment_v2::ConditionCache::ExternalCacheKey _condition_cache_key;
1611
    std::shared_ptr<std::vector<bool>> _condition_cache;
1612
    std::shared_ptr<ConditionCacheContext> _condition_cache_ctx;
1613
    int64_t _condition_cache_hit_count = 0;
1614
    bool _current_reader_reached_eof = false;
1615
    int64_t _remaining_table_level_count = -1;
1616
    // Snapshot supplied by FileScannerV2 for the active split. It gates every shortcut that emits
1617
    // irreversible aggregate rows, not only the table-level row-count shortcut in prepare_split().
1618
    bool _all_runtime_filters_applied_for_split = true;
1619
    std::optional<GlobalRowIdContext> _global_rowid_context;
1620
    bool _aggregate_pushdown_tried = false;
1621
    bool _current_split_pruned = false;
1622
    TableColumnMapperOptions _mapper_options;
1623
1624
private:
1625
    static const ColumnDefinition* _find_column_definition(
1626
158
            const std::vector<ColumnDefinition>& schema, LocalColumnId column_id) {
1627
285
        for (const auto& field : schema) {
1628
285
            if (field.file_local_id() == column_id.value()) {
1629
135
                return &field;
1630
135
            }
1631
285
        }
1632
23
        return nullptr;
1633
158
    }
1634
1635
14
    static bool _can_push_down_minmax_for_mapping(const ColumnMapping& mapping) {
1636
14
        if (mapping.child_mappings.empty()) {
1637
            // Direct mappings use a slot-ref projection to materialize the file column. The
1638
            // projection does not transform ordering; casts and other conversions are already
1639
            // represented by a non-trivial mapping and must fall back to row scanning.
1640
11
            return mapping.is_trivial;
1641
11
        }
1642
3
        const auto primitive_type = remove_nullable(mapping.file_type)->get_primitive_type();
1643
3
        if (primitive_type != TYPE_STRUCT) {
1644
1
            return false;
1645
1
        }
1646
2
        size_t mapped_children = 0;
1647
2
        const ColumnMapping* mapped_child = nullptr;
1648
2
        for (const auto& child_mapping : mapping.child_mappings) {
1649
2
            if (!child_mapping.file_local_id.has_value()) {
1650
0
                continue;
1651
0
            }
1652
2
            ++mapped_children;
1653
2
            mapped_child = &child_mapping;
1654
2
        }
1655
2
        return mapped_children == 1 && mapped_child != nullptr &&
1656
2
               _can_push_down_minmax_for_mapping(*mapped_child);
1657
3
    }
1658
1659
    static Status build_aggregate_projection(const ColumnMapping& mapping,
1660
2
                                             LocalColumnIndex* projection) {
1661
2
        DORIS_CHECK(projection != nullptr);
1662
2
        DORIS_CHECK(mapping.file_local_id.has_value());
1663
2
        *projection = LocalColumnIndex::local(*mapping.file_local_id);
1664
2
        projection->children.clear();
1665
2
        projection->project_all_children = true;
1666
2
        if (mapping.child_mappings.empty()) {
1667
1
            return Status::OK();
1668
1
        }
1669
1
        projection->project_all_children = false;
1670
1
        for (const auto& child_mapping : mapping.child_mappings) {
1671
1
            if (!child_mapping.file_local_id.has_value()) {
1672
0
                continue;
1673
0
            }
1674
1
            LocalColumnIndex child_projection;
1675
1
            RETURN_IF_ERROR(build_aggregate_projection(child_mapping, &child_projection));
1676
1
            projection->children.push_back(std::move(child_projection));
1677
1
        }
1678
1
        DORIS_CHECK(projection->children.size() == 1);
1679
1
        return Status::OK();
1680
1
    }
1681
1682
    static Status _insert_aggregate_projection_value(const LocalColumnIndex& projection,
1683
20
                                                     const Field& value, IColumn* column) {
1684
20
        DORIS_CHECK(column != nullptr);
1685
20
        if (auto* nullable_column = check_and_get_column<ColumnNullable>(*column)) {
1686
10
            RETURN_IF_ERROR(_insert_aggregate_projection_value(
1687
10
                    projection, value, &nullable_column->get_nested_column()));
1688
10
            nullable_column->get_null_map_data().push_back(0);
1689
10
            return Status::OK();
1690
10
        }
1691
10
        if (projection.project_all_children || projection.children.empty()) {
1692
8
            column->insert(value);
1693
8
            return Status::OK();
1694
8
        }
1695
2
        auto* struct_column = assert_cast<ColumnStruct*>(column);
1696
2
        DORIS_CHECK(projection.children.size() == 1);
1697
2
        const auto& child_projection = projection.children[0];
1698
2
        DORIS_CHECK(struct_column->get_columns().size() == 1);
1699
2
        RETURN_IF_ERROR(_insert_aggregate_projection_value(child_projection, value,
1700
2
                                                           &struct_column->get_column(0)));
1701
2
        return Status::OK();
1702
2
    }
1703
1704
    // Parse a DV into its compressed bitmap. Position delete files continue to use _delete_rows.
1705
    Status _parse_delete_predicates(const SplitReadOptions& options);
1706
};
1707
1708
} // namespace doris::format