Coverage Report

Created: 2026-07-14 23:39

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/storage/iterators.h
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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
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#include <cstddef>
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#include <memory>
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#include <set>
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#include "common/status.h"
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#include "core/block/block.h"
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#include "exprs/score_runtime.h"
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#include "exprs/vexpr.h"
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#include "io/io_common.h"
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#include "runtime/runtime_state.h"
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#include "storage/index/ann/ann_topn_runtime.h"
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#include "storage/olap_common.h"
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#include "storage/predicate/block_column_predicate.h"
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#include "storage/predicate/column_predicate.h"
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#include "storage/row_cursor.h"
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#include "storage/segment/row_ranges.h"
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#include "storage/tablet/tablet_schema.h"
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namespace doris {
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class Schema;
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class ColumnPredicate;
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struct IteratorRowRef;
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namespace segment_v2 {
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struct SubstreamIterator;
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}
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class StorageReadOptions {
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public:
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    struct KeyRange {
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        KeyRange()
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                : lower_key(nullptr),
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                  include_lower(false),
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                  upper_key(nullptr),
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0
                  include_upper(false) {}
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        KeyRange(const RowCursor* lower_key_, bool include_lower_, const RowCursor* upper_key_,
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                 bool include_upper_)
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                : lower_key(lower_key_),
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                  include_lower(include_lower_),
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                  upper_key(upper_key_),
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                  include_upper(include_upper_) {}
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        // the lower bound of the range, nullptr if not existed
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        const RowCursor* lower_key = nullptr;
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        // whether `lower_key` is included in the range
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        bool include_lower;
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        // the upper bound of the range, nullptr if not existed
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        const RowCursor* upper_key = nullptr;
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        // whether `upper_key` is included in the range
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        bool include_upper;
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        uint64_t get_digest(uint64_t seed) const {
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            if (lower_key != nullptr) {
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                auto key_str = lower_key->to_string();
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                seed = HashUtil::hash64(key_str.c_str(), key_str.size(), seed);
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                seed = HashUtil::hash64(&include_lower, sizeof(include_lower), seed);
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            }
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            if (upper_key != nullptr) {
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                auto key_str = upper_key->to_string();
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                seed = HashUtil::hash64(key_str.c_str(), key_str.size(), seed);
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                seed = HashUtil::hash64(&include_upper, sizeof(include_upper), seed);
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            }
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            return seed;
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        }
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    };
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    // reader's key ranges, empty if not existed.
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    // used by short key index to filter row blocks
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    std::vector<KeyRange> key_ranges;
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    // For unique-key merge-on-write, the effect is similar to delete_conditions
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    // that filters out rows that are deleted in realtime.
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    // For a particular row, if delete_bitmap.contains(rowid) means that row is
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    // marked deleted and invisible to user anymore.
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    // segment_id -> roaring::Roaring*
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    std::unordered_map<uint32_t, std::shared_ptr<roaring::Roaring>> delete_bitmap;
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    std::shared_ptr<AndBlockColumnPredicate> delete_condition_predicates =
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            AndBlockColumnPredicate::create_shared();
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    // reader's column predicate, nullptr if not existed
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    // used to fiter rows in row block
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    std::vector<std::shared_ptr<ColumnPredicate>> column_predicates;
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    std::unordered_map<int32_t, std::shared_ptr<AndBlockColumnPredicate>> col_id_to_predicates;
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    std::unordered_map<int32_t, std::vector<std::shared_ptr<const ColumnPredicate>>>
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            del_predicates_for_zone_map;
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    TPushAggOp::type push_down_agg_type_opt = TPushAggOp::NONE;
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    // Non-key columns whose predicates were proven always true by the segment zone map and then
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    // removed from column_predicates. SegmentIterator can skip reading these non-output columns,
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    // or COUNT_ON_INDEX columns, because the column values no longer affect filtering or counting.
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    std::set<uint32_t> zonemap_always_true_pred_cols;
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    // REQUIRED (null is not allowed)
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    OlapReaderStatistics* stats = nullptr;
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    bool use_page_cache = false;
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    uint32_t block_row_max = 4096 - 32; // see https://github.com/apache/doris/pull/11816
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    // Effective adaptive batch size byte budget.
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    size_t preferred_block_size_bytes = 8388608UL;
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    TabletSchemaSPtr tablet_schema = nullptr;
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    bool enable_unique_key_merge_on_write = false;
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    bool record_rowids = false;
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    std::vector<int> topn_filter_source_node_ids;
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    int topn_filter_target_node_id = -1;
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    // used for special optimization for query : ORDER BY key DESC LIMIT n
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    bool read_orderby_key_reverse = false;
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    // For rows with the same key, use ascending order (small-to-large) for tie-breakers.
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    // For example, use lower rowset version / segment id first.
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    bool use_insert_order_when_same = false;
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    int binlog_tso_idx = -1;
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    // columns for orderby keys
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    std::vector<uint32_t>* read_orderby_key_columns = nullptr;
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    io::IOContext io_ctx;
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    VExprContextSPtrs common_expr_ctxs_push_down;
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    const std::set<int32_t>* output_columns = nullptr;
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    // Extra storage key columns that are included only to keep the scan schema
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    // aligned with the storage key prefix. SegmentIterator can synthesize
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    // placeholders only after proving predicates, delete conditions, and
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    // expressions do not need their real values.
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    std::set<ColumnId> extra_columns;
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    // runtime state
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    RuntimeState* runtime_state = nullptr;
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    RowsetId rowset_id;
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    Version version;
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    TsoRange commit_tso;
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    int64_t tablet_id = 0;
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    // slots that cast may be eliminated in storage layer
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    std::map<std::string, DataTypePtr> target_cast_type_for_variants;
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    RowRanges row_ranges;
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    // Per-segment row budget pushed down from the scanner (topn or general
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    // limit). SegmentIterator applies it after predicate/common-expr filtering;
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    // _can_opt_limit_reads() only decides whether the pre-filter read can also
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    // be capped. 0 disables the optimization.
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    size_t read_limit = 0;
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    std::map<ColumnId, VExprContextSPtr> virtual_column_exprs;
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    std::shared_ptr<segment_v2::AnnTopNRuntime> ann_topn_runtime;
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    std::map<int32_t, TColumnAccessPaths> all_access_paths;
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    std::map<int32_t, TColumnAccessPaths> predicate_access_paths;
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    std::shared_ptr<ScoreRuntime> score_runtime;
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    CollectionStatisticsPtr collection_statistics;
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    // Cache for sparse column data to avoid redundant reads
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    // col_unique_id -> cached column_ptr
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    std::unordered_map<int32_t, ColumnPtr> sparse_column_cache;
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    uint64_t condition_cache_digest = 0;
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};
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struct CompactionSampleInfo {
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    int64_t bytes = 0;
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    int64_t rows = 0;
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    int64_t group_data_size = 0;
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    int64_t null_count = 0; // Number of NULL cells in this column group
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};
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struct BlockWithSameBit {
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    Block* block;
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    std::vector<bool>& same_bit;
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    bool empty() const { return block->rows() == 0; }
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};
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class RowwiseIterator;
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using RowwiseIteratorUPtr = std::unique_ptr<RowwiseIterator>;
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class RowwiseIterator {
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public:
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6.67k
    RowwiseIterator() = default;
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6.67k
    virtual ~RowwiseIterator() = default;
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    // Initialize this iterator and make it ready to read with
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    // input options.
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    // Input options may contain scan range in which this scan.
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    // Return Status::OK() if init successfully,
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    // Return other error otherwise
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    virtual Status init(const StorageReadOptions& opts) {
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        return Status::InternalError("to be implemented, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    virtual Status init(const StorageReadOptions& opts, CompactionSampleInfo* sample_info) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    // If there is any valid data, this function will load data
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    // into input batch with Status::OK() returned
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    // If there is no data to read, will return Status::EndOfFile.
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    // If other error happens, other error code will be returned.
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    virtual Status next_batch(Block* block) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    virtual Status next_batch(BlockWithSameBit* block_with_same_bit) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    virtual Status next_batch(BlockView* block_view) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    virtual Status next_row(IteratorRowRef* ref) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    virtual Status unique_key_next_row(IteratorRowRef* ref) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    virtual bool is_merge_iterator() const { return false; }
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    virtual Status current_block_row_locations(std::vector<RowLocation>* block_row_locations) {
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        return Status::InternalError("should not reach here, current class: " +
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                                     demangle(typeid(*this).name()));
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    }
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    // return schema for this Iterator
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    virtual const Schema& schema() const = 0;
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    // Return the data id such as segment id, used for keep the insert order when do
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    // merge sort in priority queue
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26.0k
    virtual uint64_t data_id() const { return 0; }
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    virtual void update_profile(RuntimeProfile* profile) {}
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    // return rows merged count by iterator
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    virtual uint64_t merged_rows() const { return 0; }
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    // return if it's an empty iterator
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3.00k
    virtual bool empty() const { return false; }
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};
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} // namespace doris