Coverage Report

Created: 2026-07-03 09:54

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/exec/scan/scanner.cpp
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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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#include "exec/scan/scanner.h"
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#include <glog/logging.h>
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#include "common/config.h"
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#include "common/status.h"
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#include "core/block/column_with_type_and_name.h"
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#include "core/column/column_nothing.h"
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#include "exec/operator/scan_operator.h"
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#include "exec/scan/scan_node.h"
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#include "exprs/vexpr_context.h"
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#include "runtime/descriptors.h"
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#include "runtime/runtime_profile.h"
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#include "util/concurrency_stats.h"
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#include "util/defer_op.h"
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namespace doris {
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Scanner::Scanner(RuntimeState* state, ScanLocalStateBase* local_state, int64_t limit,
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                 RuntimeProfile* profile)
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888k
        : _state(state),
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888k
          _local_state(local_state),
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888k
          _limit(limit),
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888k
          _profile(profile),
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888k
          _output_tuple_desc(_local_state->output_tuple_desc()),
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888k
          _output_row_descriptor(_local_state->_parent->output_row_descriptor()),
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888k
          _has_prepared(false) {
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888k
    _total_rf_num = cast_set<int>(_local_state->_helper.runtime_filter_nums());
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888k
    DorisMetrics::instance()->scanner_cnt->increment(1);
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888k
}
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887k
Status Scanner::init(RuntimeState* state, const VExprContextSPtrs& conjuncts) {
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    // All scanners share a remaining-limit counter so a LIMIT query can
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    // stop once enough rows have been collected across scanners.
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    // Key TopN scans have no ordinary scan LIMIT, so each scanner can
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    // independently produce its full local top-N.
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887k
    _shared_scan_limit = _local_state->shared_scan_limit_ptr();
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887k
    if (!conjuncts.empty()) {
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7.37k
        _conjuncts.resize(conjuncts.size());
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15.9k
        for (size_t i = 0; i != conjuncts.size(); ++i) {
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8.58k
            RETURN_IF_ERROR(conjuncts[i]->clone(state, _conjuncts[i]));
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8.58k
        }
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7.37k
    }
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887k
    const auto& projections = _local_state->_projections;
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887k
    if (!projections.empty()) {
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828k
        _projections.resize(projections.size());
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7.93M
        for (size_t i = 0; i != projections.size(); ++i) {
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7.10M
            RETURN_IF_ERROR(projections[i]->clone(state, _projections[i]));
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7.10M
        }
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828k
    }
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887k
    const auto& intermediate_projections = _local_state->_intermediate_projections;
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    if (!intermediate_projections.empty()) {
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11.2k
        _intermediate_projections.resize(intermediate_projections.size());
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        for (int i = 0; i < intermediate_projections.size(); i++) {
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15.7k
            _intermediate_projections[i].resize(intermediate_projections[i].size());
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            for (int j = 0; j < intermediate_projections[i].size(); j++) {
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78.2k
                RETURN_IF_ERROR(intermediate_projections[i][j]->clone(
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                        state, _intermediate_projections[i][j]));
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            }
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        }
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    }
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    return Status::OK();
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}
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Status Scanner::get_block_after_projects(RuntimeState* state, Block* block, bool* eos) {
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939k
    SCOPED_CONCURRENCY_COUNT(ConcurrencyStatsManager::instance().vscanner_get_block);
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939k
    auto& row_descriptor = _local_state->_parent->row_descriptor();
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939k
    if (_output_row_descriptor) {
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        _origin_block.clear_column_data(row_descriptor.num_materialized_slots());
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843k
        const auto min_batch_size = std::max(state->batch_size() / 2, 1);
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843k
        const auto block_max_bytes = state->preferred_block_size_bytes();
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1.06M
        while (_padding_block.rows() < min_batch_size && _padding_block.bytes() < block_max_bytes &&
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1.06M
               !*eos) {
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1.06M
            RETURN_IF_ERROR(get_block(state, &_origin_block, eos));
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1.06M
            if (*eos) {
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                // For the final block, merge any padding directly and return eos in this call.
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                // The merged tail can be larger than the target batch, but each source block is
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                // already bounded by the lower scanner.
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                RETURN_IF_ERROR(_merge_padding_block());
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                _origin_block.clear_column_data(row_descriptor.num_materialized_slots());
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                break;
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            }
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            if (_origin_block.rows() >= min_batch_size) {
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                break;
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            }
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            if (_origin_block.rows() + _padding_block.rows() <= state->batch_size() &&
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                _origin_block.bytes() + _padding_block.bytes() <= block_max_bytes) {
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                RETURN_IF_ERROR(_merge_padding_block());
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                _origin_block.clear_column_data(row_descriptor.num_materialized_slots());
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            } else {
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                if (_origin_block.rows() < _padding_block.rows()) {
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0
                    _padding_block.swap(_origin_block);
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                }
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                break;
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            }
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        }
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        if (_origin_block.empty() && !_padding_block.empty()) {
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            _padding_block.swap(_origin_block);
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        }
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        return _do_projections(&_origin_block, block);
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    } else {
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        return get_block(state, block, eos);
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    }
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}
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1.16M
Status Scanner::get_block(RuntimeState* state, Block* block, bool* eof) {
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    // only empty block should be here
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1.16M
    DCHECK(block->rows() == 0);
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    // Stop early if other scanners have already collected enough rows
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    // for the SQL LIMIT. Skipped when _shared_scan_limit is null (topn
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    // path or no LIMIT).
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1.16M
    if (_shared_scan_limit && _shared_scan_limit->load(std::memory_order_acquire) <= 0) {
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        *eof = true;
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        return Status::OK();
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    }
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    // scanner running time
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1.16M
    SCOPED_RAW_TIMER(&_per_scanner_timer);
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1.16M
    int64_t rows_read_threshold = _num_rows_read + config::doris_scanner_row_num;
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1.16M
    if (!block->mem_reuse()) {
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8.19M
        for (auto* const slot_desc : _output_tuple_desc->slots()) {
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8.19M
            block->insert(ColumnWithTypeAndName(slot_desc->get_empty_mutable_column(),
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8.19M
                                                slot_desc->get_data_type_ptr(),
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8.19M
                                                slot_desc->col_name()));
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8.19M
        }
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1.01M
    }
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1.16M
    {
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1.16M
        do {
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            // 1. Get input block from scanner
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1.16M
            {
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                // get block time
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1.16M
                SCOPED_TIMER(_local_state->_scan_timer);
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1.16M
                RETURN_IF_ERROR(_get_block_impl(state, block, eof));
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1.16M
                if (*eof) {
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881k
                    DCHECK(block->rows() == 0);
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                    break;
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                }
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                _num_rows_read += block->rows();
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                _num_byte_read += block->allocated_bytes();
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            }
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            // 2. Filter the output block finally.
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            {
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                SCOPED_TIMER(_local_state->_filter_timer);
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                RETURN_IF_ERROR(_filter_output_block(block));
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            }
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            // record rows return (after filter) for _limit check
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            _num_rows_return += block->rows();
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            // Publish progress to the shared counter so peer scanners can
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            // observe it. The counter may go negative when several scanners
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            // subtract concurrently; that is harmless because the operator's
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            // reached_limit() makes the final cut.
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282k
            if (_shared_scan_limit && block->rows() > 0) {
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                _shared_scan_limit->fetch_sub(block->rows(), std::memory_order_acq_rel);
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            }
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282k
        } while (!_should_stop && !state->is_cancelled() && block->rows() == 0 && !(*eof) &&
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282k
                 _num_rows_read < rows_read_threshold);
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1.16M
    }
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1.16M
    if (state->is_cancelled()) {
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        // TODO: Should return the specific ErrorStatus instead of just Cancelled.
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        return Status::Cancelled("cancelled");
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    }
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1.16M
    *eof = *eof || _should_stop;
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    // set eof to true if per scanner limit is reached
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    // currently for query: ORDER BY key LIMIT n
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1.16M
    *eof = *eof || (_limit > 0 && _num_rows_return >= _limit);
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1.16M
    *eof = *eof || (_shared_scan_limit && _shared_scan_limit->load(std::memory_order_acquire) <= 0);
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1.16M
    return Status::OK();
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1.16M
}
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280k
Status Scanner::_filter_output_block(Block* block) {
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    auto old_rows = block->rows();
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    Status st = VExprContext::filter_block(_conjuncts, block, block->columns());
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    _counter.num_rows_unselected += old_rows - block->rows();
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    return st;
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280k
}
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844k
Status Scanner::_do_projections(Block* origin_block, Block* output_block) {
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844k
    SCOPED_RAW_TIMER(&_per_scanner_timer);
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844k
    SCOPED_RAW_TIMER(&_projection_timer);
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844k
    const size_t rows = origin_block->rows();
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844k
    if (rows == 0) {
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635k
        return Status::OK();
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    }
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    Block input_block = *origin_block;
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208k
    std::vector<int> result_column_ids;
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208k
    for (auto& projections : _intermediate_projections) {
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22.7k
        result_column_ids.resize(projections.size());
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140k
        for (int i = 0; i < projections.size(); i++) {
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118k
            RETURN_IF_ERROR(projections[i]->execute(&input_block, &result_column_ids[i]));
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118k
        }
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22.7k
        input_block.shuffle_columns(result_column_ids);
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22.7k
    }
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208k
    DCHECK_EQ(rows, input_block.rows());
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208k
    auto scoped_mutable_block = VectorizedUtils::build_scoped_mutable_mem_reuse_block(
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208k
            output_block, *_output_row_descriptor);
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208k
    auto& mutable_block = scoped_mutable_block.mutable_block();
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208k
    auto& mutable_columns = mutable_block.mutable_columns();
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208k
    DCHECK_EQ(mutable_columns.size(), _projections.size());
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757k
    for (int i = 0; i < mutable_columns.size(); ++i) {
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550k
        ColumnPtr column_ptr;
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550k
        RETURN_IF_ERROR(_projections[i]->execute(&input_block, column_ptr));
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549k
        column_ptr = column_ptr->convert_to_full_column_if_const();
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549k
        if (mutable_columns[i]->is_nullable() != column_ptr->is_nullable()) {
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0
            throw Exception(ErrorCode::INTERNAL_ERROR, "Nullable mismatch");
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0
        }
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549k
        mutable_columns[i] = IColumn::mutate(std::move(column_ptr));
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549k
    }
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207k
    scoped_mutable_block.restore();
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    // origin columns was moved into output_block, so we need to set origin_block to empty columns
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207k
    auto empty_columns = origin_block->clone_empty_columns();
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207k
    origin_block->set_columns(std::move(empty_columns));
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207k
    DCHECK_EQ(output_block->rows(), rows);
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207k
    return Status::OK();
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208k
}
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940k
Status Scanner::try_append_late_arrival_runtime_filter() {
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940k
    if (_applied_rf_num == _total_rf_num) {
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904k
        return Status::OK();
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904k
    }
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940k
    DCHECK(_applied_rf_num < _total_rf_num);
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36.0k
    int arrived_rf_num = 0;
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36.0k
    RETURN_IF_ERROR(_local_state->update_late_arrival_runtime_filter(_state, arrived_rf_num));
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36.0k
    if (arrived_rf_num == _applied_rf_num) {
262
        // No newly arrived runtime filters, just return;
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1.56k
        return Status::OK();
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1.56k
    }
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    // avoid conjunct destroy in used by storage layer
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34.4k
    _conjuncts.clear();
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34.4k
    RETURN_IF_ERROR(_local_state->clone_conjunct_ctxs(_conjuncts));
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34.4k
    _applied_rf_num = arrived_rf_num;
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34.4k
    return Status::OK();
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34.4k
}
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893k
Status Scanner::close(RuntimeState* state) {
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893k
#ifndef BE_TEST
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893k
    COUNTER_UPDATE(_local_state->_scanner_wait_worker_timer, _scanner_wait_worker_timer);
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893k
#endif
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893k
    return Status::OK();
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893k
}
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893k
bool Scanner::_try_close() {
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893k
    bool expected = false;
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893k
    return _is_closed.compare_exchange_strong(expected, true);
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893k
}
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285
883k
void Scanner::_collect_profile_before_close() {
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883k
    COUNTER_UPDATE(_local_state->_scan_cpu_timer, _scan_cpu_timer);
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883k
    COUNTER_UPDATE(_local_state->_rows_read_counter, _num_rows_read);
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    // Update stats for load. See _should_update_load_counters() for why this is gated.
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883k
    if (_should_update_load_counters()) {
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3.01k
        _state->update_num_rows_load_filtered(_counter.num_rows_filtered);
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3.01k
        _state->update_num_rows_load_unselected(_counter.num_rows_unselected);
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3.01k
    }
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883k
}
295
296
940k
void Scanner::_update_scan_cpu_timer() {
297
940k
    int64_t cpu_time = _cpu_watch.elapsed_time();
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940k
    _scan_cpu_timer += cpu_time;
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941k
    if (_state && _state->get_query_ctx()) {
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940k
        _state->get_query_ctx()->resource_ctx()->cpu_context()->update_cpu_cost_ms(cpu_time);
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940k
    }
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940k
}
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} // namespace doris