Coverage Report

Created: 2026-07-07 22:17

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/storage/segment/bitshuffle_page.h
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1
// Licensed to the Apache Software Foundation (ASF) under one
2
// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
4
// regarding copyright ownership.  The ASF licenses this file
5
// to you under the Apache License, Version 2.0 (the
6
// "License"); you may not use this file except in compliance
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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
10
//
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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
13
// "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 <glog/logging.h>
21
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#include <algorithm>
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#include <cstddef>
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#include <cstdint>
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#include <cstring>
26
#include <ostream>
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#include <type_traits>
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29
#include "common/cast_set.h"
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#include "common/compiler_util.h" // IWYU pragma: keep
31
#include "common/status.h"
32
#include "core/column/column.h"
33
#include "core/data_type/data_type.h"
34
#include "core/types.h"
35
#include "storage/olap_common.h"
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#include "storage/segment/bitshuffle_wrapper.h"
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#include "storage/segment/common.h"
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#include "storage/segment/options.h"
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#include "storage/segment/page_builder.h"
40
#include "storage/segment/page_decoder.h"
41
#include "storage/types.h"
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#include "util/alignment.h"
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#include "util/coding.h"
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#include "util/faststring.h"
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#include "util/slice.h"
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47
namespace doris {
48
namespace segment_v2 {
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enum { BITSHUFFLE_PAGE_HEADER_SIZE = 16 };
51
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void warn_with_bitshuffle_error(int64_t val);
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54
// BitshufflePageBuilder bitshuffles and compresses the bits of fixed
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// size type blocks with lz4.
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//
57
// The page format is as follows:
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//
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// 1. Header: (16 bytes total)
60
//
61
//    <num_elements> [32-bit]
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//      The number of elements encoded in the page.
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//
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//    <compressed_size> [32-bit]
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//      The post-compression size of the page, including this header.
66
//
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//    <padded_num_elements> [32-bit]
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//      Padding is needed to meet the requirements of the bitshuffle
69
//      library such that the input/output is a multiple of 8. Some
70
//      ignored elements are appended to the end of the page if necessary
71
//      to meet this requirement.
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//
73
//      This header field is the post-padding element count.
74
//
75
//    <elem_size_bytes> [32-bit]
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//      The size of the elements, in bytes, as actually encoded. In the
77
//      case that all of the data in a page can fit into a smaller
78
//      integer type, then we may choose to encode that smaller type
79
//      to save CPU costs.
80
//
81
//      This is currently only implemented in the UINT32 page type.
82
//
83
//   NOTE: all on-disk ints are encoded little-endian
84
//
85
// 2. Element data
86
//
87
//    The header is followed by the bitshuffle-compressed element data.
88
//
89
template <FieldType Type>
90
class BitshufflePageBuilder : public PageBuilderHelper<BitshufflePageBuilder<Type>> {
91
public:
92
    using Self = BitshufflePageBuilder<Type>;
93
    friend class PageBuilderHelper<Self>;
94
95
23.2k
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE4initEv
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Count
Source
95
20.2k
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE4initEv
Line
Count
Source
95
1.23k
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE4initEv
Line
Count
Source
95
26
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE4initEv
Line
Count
Source
95
732
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE4initEv
Line
Count
Source
95
8
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE4initEv
Line
Count
Source
95
950
    Status init() override { return reset(); }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE4initEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE4initEv
Line
Count
Source
95
4
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE4initEv
Line
Count
Source
95
2
    Status init() override { return reset(); }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE4initEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE4initEv
Line
Count
Source
95
8
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE4initEv
Line
Count
Source
95
16
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE4initEv
Line
Count
Source
95
2
    Status init() override { return reset(); }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE4initEv
Line
Count
Source
95
22
    Status init() override { return reset(); }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE4initEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE4initEv
Line
Count
Source
95
4
    Status init() override { return reset(); }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE4initEv
96
97
3.50M
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE12is_page_fullEv
Line
Count
Source
97
3.47M
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE12is_page_fullEv
Line
Count
Source
97
1.75k
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE12is_page_fullEv
Line
Count
Source
97
26
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE12is_page_fullEv
Line
Count
Source
97
24.9k
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE12is_page_fullEv
Line
Count
Source
97
8
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE12is_page_fullEv
Line
Count
Source
97
950
    bool is_page_full() override { return _remain_element_capacity == 0; }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE12is_page_fullEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE12is_page_fullEv
Line
Count
Source
97
4
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE12is_page_fullEv
Line
Count
Source
97
2
    bool is_page_full() override { return _remain_element_capacity == 0; }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE12is_page_fullEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE12is_page_fullEv
Line
Count
Source
97
8
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE12is_page_fullEv
Line
Count
Source
97
16
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE12is_page_fullEv
Line
Count
Source
97
2
    bool is_page_full() override { return _remain_element_capacity == 0; }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE12is_page_fullEv
Line
Count
Source
97
22
    bool is_page_full() override { return _remain_element_capacity == 0; }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE12is_page_fullEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE12is_page_fullEv
Line
Count
Source
97
4
    bool is_page_full() override { return _remain_element_capacity == 0; }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE12is_page_fullEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE12is_page_fullEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE12is_page_fullEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE12is_page_fullEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE12is_page_fullEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE12is_page_fullEv
98
99
1.24M
    Status add(const uint8_t* vals, size_t* count) override {
100
1.24M
        return add_internal<false>(vals, count);
101
1.24M
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE3addEPKhPm
Line
Count
Source
99
1.21M
    Status add(const uint8_t* vals, size_t* count) override {
100
1.21M
        return add_internal<false>(vals, count);
101
1.21M
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE3addEPKhPm
Line
Count
Source
99
1.75k
    Status add(const uint8_t* vals, size_t* count) override {
100
1.75k
        return add_internal<false>(vals, count);
101
1.75k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE3addEPKhPm
Line
Count
Source
99
26
    Status add(const uint8_t* vals, size_t* count) override {
100
26
        return add_internal<false>(vals, count);
101
26
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE3addEPKhPm
Line
Count
Source
99
24.9k
    Status add(const uint8_t* vals, size_t* count) override {
100
24.9k
        return add_internal<false>(vals, count);
101
24.9k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE3addEPKhPm
Line
Count
Source
99
8
    Status add(const uint8_t* vals, size_t* count) override {
100
8
        return add_internal<false>(vals, count);
101
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE3addEPKhPm
Line
Count
Source
99
950
    Status add(const uint8_t* vals, size_t* count) override {
100
950
        return add_internal<false>(vals, count);
101
950
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE3addEPKhPm
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE3addEPKhPm
Line
Count
Source
99
4
    Status add(const uint8_t* vals, size_t* count) override {
100
4
        return add_internal<false>(vals, count);
101
4
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE3addEPKhPm
Line
Count
Source
99
2
    Status add(const uint8_t* vals, size_t* count) override {
100
2
        return add_internal<false>(vals, count);
101
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE3addEPKhPm
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE3addEPKhPm
Line
Count
Source
99
8
    Status add(const uint8_t* vals, size_t* count) override {
100
8
        return add_internal<false>(vals, count);
101
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE3addEPKhPm
Line
Count
Source
99
16
    Status add(const uint8_t* vals, size_t* count) override {
100
16
        return add_internal<false>(vals, count);
101
16
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE3addEPKhPm
Line
Count
Source
99
2
    Status add(const uint8_t* vals, size_t* count) override {
100
2
        return add_internal<false>(vals, count);
101
2
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE3addEPKhPm
Line
Count
Source
99
22
    Status add(const uint8_t* vals, size_t* count) override {
100
22
        return add_internal<false>(vals, count);
101
22
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE3addEPKhPm
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE3addEPKhPm
Line
Count
Source
99
4
    Status add(const uint8_t* vals, size_t* count) override {
100
4
        return add_internal<false>(vals, count);
101
4
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE3addEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE3addEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE3addEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE3addEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE3addEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE3addEPKhPm
102
103
2.22M
    Status single_add(const uint8_t* vals, size_t* count) {
104
2.22M
        return add_internal<true>(vals, count);
105
2.22M
    }
106
107
    template <bool single>
108
3.46M
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
3.46M
        DCHECK(!_finished);
110
3.46M
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
3.46M
        uint32_t to_add = cast_set<UInt32>(
126
3.46M
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
3.46M
        int to_add_size = to_add * SIZE_OF_TYPE;
129
3.46M
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
3.46M
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
3.46M
        _count += to_add;
134
3.46M
        _remain_element_capacity -= to_add;
135
3.46M
        _raw_data_size += to_add_size;
136
        // return added number through count
137
3.46M
        *num_written = to_add;
138
3.46M
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
2.22M
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
2.22M
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
2.22M
                        *reinterpret_cast<const uint32_t*>(vals);
149
2.22M
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
2.22M
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
0
        memcpy(&_data[orig_size], vals, to_add_size);
158
3.46M
        return Status::OK();
159
3.46M
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
1.21M
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
1.21M
        DCHECK(!_finished);
110
1.21M
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
1.21M
        uint32_t to_add = cast_set<UInt32>(
126
1.21M
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
1.21M
        int to_add_size = to_add * SIZE_OF_TYPE;
129
1.21M
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
1.21M
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
1.21M
        _count += to_add;
134
1.21M
        _remain_element_capacity -= to_add;
135
1.21M
        _raw_data_size += to_add_size;
136
        // return added number through count
137
1.21M
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
1.21M
        memcpy(&_data[orig_size], vals, to_add_size);
158
1.21M
        return Status::OK();
159
1.21M
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE12add_internalILb1EEENS_6StatusEPKhPm
Line
Count
Source
108
2.22M
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
2.22M
        DCHECK(!_finished);
110
2.22M
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
2.22M
        uint32_t to_add = cast_set<UInt32>(
126
2.22M
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
2.22M
        int to_add_size = to_add * SIZE_OF_TYPE;
129
2.22M
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
2.22M
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
2.22M
        _count += to_add;
134
2.22M
        _remain_element_capacity -= to_add;
135
2.22M
        _raw_data_size += to_add_size;
136
        // return added number through count
137
2.22M
        *num_written = to_add;
138
2.22M
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
2.22M
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
2.22M
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
2.22M
                        *reinterpret_cast<const uint32_t*>(vals);
149
2.22M
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
2.22M
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
0
        memcpy(&_data[orig_size], vals, to_add_size);
158
2.22M
        return Status::OK();
159
2.22M
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
1.75k
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
1.75k
        DCHECK(!_finished);
110
1.75k
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
1.75k
        uint32_t to_add = cast_set<UInt32>(
126
1.75k
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
1.75k
        int to_add_size = to_add * SIZE_OF_TYPE;
129
1.75k
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
1.75k
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
1.75k
        _count += to_add;
134
1.75k
        _remain_element_capacity -= to_add;
135
1.75k
        _raw_data_size += to_add_size;
136
        // return added number through count
137
1.75k
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
1.75k
        memcpy(&_data[orig_size], vals, to_add_size);
158
1.75k
        return Status::OK();
159
1.75k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
26
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
26
        DCHECK(!_finished);
110
26
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
26
        uint32_t to_add = cast_set<UInt32>(
126
26
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
26
        int to_add_size = to_add * SIZE_OF_TYPE;
129
26
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
26
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
26
        _count += to_add;
134
26
        _remain_element_capacity -= to_add;
135
26
        _raw_data_size += to_add_size;
136
        // return added number through count
137
26
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
26
        memcpy(&_data[orig_size], vals, to_add_size);
158
26
        return Status::OK();
159
26
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
24.9k
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
24.9k
        DCHECK(!_finished);
110
24.9k
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
24.9k
        uint32_t to_add = cast_set<UInt32>(
126
24.9k
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
24.9k
        int to_add_size = to_add * SIZE_OF_TYPE;
129
24.9k
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
24.9k
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
24.9k
        _count += to_add;
134
24.9k
        _remain_element_capacity -= to_add;
135
24.9k
        _raw_data_size += to_add_size;
136
        // return added number through count
137
24.9k
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
24.9k
        memcpy(&_data[orig_size], vals, to_add_size);
158
24.9k
        return Status::OK();
159
24.9k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
8
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
8
        DCHECK(!_finished);
110
8
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
8
        uint32_t to_add = cast_set<UInt32>(
126
8
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
8
        int to_add_size = to_add * SIZE_OF_TYPE;
129
8
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
8
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
8
        _count += to_add;
134
8
        _remain_element_capacity -= to_add;
135
8
        _raw_data_size += to_add_size;
136
        // return added number through count
137
8
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
8
        memcpy(&_data[orig_size], vals, to_add_size);
158
8
        return Status::OK();
159
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
950
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
950
        DCHECK(!_finished);
110
950
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
950
        uint32_t to_add = cast_set<UInt32>(
126
950
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
950
        int to_add_size = to_add * SIZE_OF_TYPE;
129
950
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
950
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
950
        _count += to_add;
134
950
        _remain_element_capacity -= to_add;
135
950
        _raw_data_size += to_add_size;
136
        // return added number through count
137
950
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
950
        memcpy(&_data[orig_size], vals, to_add_size);
158
950
        return Status::OK();
159
950
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE12add_internalILb0EEENS_6StatusEPKhPm
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
4
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
4
        DCHECK(!_finished);
110
4
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
4
        uint32_t to_add = cast_set<UInt32>(
126
4
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
4
        int to_add_size = to_add * SIZE_OF_TYPE;
129
4
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
4
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
4
        _count += to_add;
134
4
        _remain_element_capacity -= to_add;
135
4
        _raw_data_size += to_add_size;
136
        // return added number through count
137
4
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
4
        memcpy(&_data[orig_size], vals, to_add_size);
158
4
        return Status::OK();
159
4
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
2
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
2
        DCHECK(!_finished);
110
2
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
2
        uint32_t to_add = cast_set<UInt32>(
126
2
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
2
        int to_add_size = to_add * SIZE_OF_TYPE;
129
2
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
2
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
2
        _count += to_add;
134
2
        _remain_element_capacity -= to_add;
135
2
        _raw_data_size += to_add_size;
136
        // return added number through count
137
2
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
2
        memcpy(&_data[orig_size], vals, to_add_size);
158
2
        return Status::OK();
159
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE12add_internalILb0EEENS_6StatusEPKhPm
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
8
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
8
        DCHECK(!_finished);
110
8
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
8
        uint32_t to_add = cast_set<UInt32>(
126
8
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
8
        int to_add_size = to_add * SIZE_OF_TYPE;
129
8
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
8
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
8
        _count += to_add;
134
8
        _remain_element_capacity -= to_add;
135
8
        _raw_data_size += to_add_size;
136
        // return added number through count
137
8
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
8
        memcpy(&_data[orig_size], vals, to_add_size);
158
8
        return Status::OK();
159
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
16
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
16
        DCHECK(!_finished);
110
16
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
16
        uint32_t to_add = cast_set<UInt32>(
126
16
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
16
        int to_add_size = to_add * SIZE_OF_TYPE;
129
16
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
16
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
16
        _count += to_add;
134
16
        _remain_element_capacity -= to_add;
135
16
        _raw_data_size += to_add_size;
136
        // return added number through count
137
16
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
16
        memcpy(&_data[orig_size], vals, to_add_size);
158
16
        return Status::OK();
159
16
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
2
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
2
        DCHECK(!_finished);
110
2
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
2
        uint32_t to_add = cast_set<UInt32>(
126
2
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
2
        int to_add_size = to_add * SIZE_OF_TYPE;
129
2
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
2
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
2
        _count += to_add;
134
2
        _remain_element_capacity -= to_add;
135
2
        _raw_data_size += to_add_size;
136
        // return added number through count
137
2
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
2
        memcpy(&_data[orig_size], vals, to_add_size);
158
2
        return Status::OK();
159
2
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
22
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
22
        DCHECK(!_finished);
110
22
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
22
        uint32_t to_add = cast_set<UInt32>(
126
22
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
22
        int to_add_size = to_add * SIZE_OF_TYPE;
129
22
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
22
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
22
        _count += to_add;
134
22
        _remain_element_capacity -= to_add;
135
22
        _raw_data_size += to_add_size;
136
        // return added number through count
137
22
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
22
        memcpy(&_data[orig_size], vals, to_add_size);
158
22
        return Status::OK();
159
22
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE12add_internalILb0EEENS_6StatusEPKhPm
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE12add_internalILb0EEENS_6StatusEPKhPm
Line
Count
Source
108
4
    inline Status add_internal(const uint8_t* vals, size_t* num_written) {
109
4
        DCHECK(!_finished);
110
4
        if (_remain_element_capacity == 0) {
111
0
            *num_written = 0;
112
0
            return Status::OK();
113
0
        }
114
115
        // When increasing the size of the memtabl flush threshold to a very large value, for example 15GB.
116
        // the row count of a single men tbl could be very large.
117
        // a real log:
118
        /*
119
        I20250823 19:01:16.153575 2982018 memtable_flush_executor.cpp:185] begin to flush memtable for tablet: 1755915952737, memsize: 15.11 GB, rows: 3751968
120
        */
121
        // This is not a very wide table, actually it just has two columns, int and array<float>
122
        // The write process of column array has two steps: write nested column(column float here), and write offsets column.
123
        // The row count of column array is 3751968, which is not that big, but each row of column array has 768 float numbers (this is a common case in vector search scenario).
124
        // so the row num of nested column float will be 3751968 * 768 = 2,881,511,424, which is bigger than INT32_MAX.
125
4
        uint32_t to_add = cast_set<UInt32>(
126
4
                std::min(cast_set<size_t>(_remain_element_capacity), *num_written));
127
        // Max value of to_add_size is less than STORAGE_PAGE_SIZE_DEFAULT_VALUE
128
4
        int to_add_size = to_add * SIZE_OF_TYPE;
129
4
        size_t orig_size = _data.size();
130
        // This may need a large memory, should return error if could not allocated
131
        // successfully, to avoid BE OOM.
132
4
        RETURN_IF_CATCH_EXCEPTION(_data.resize(orig_size + to_add_size));
133
4
        _count += to_add;
134
4
        _remain_element_capacity -= to_add;
135
4
        _raw_data_size += to_add_size;
136
        // return added number through count
137
4
        *num_written = to_add;
138
        if constexpr (single) {
139
            if constexpr (SIZE_OF_TYPE == 1) {
140
                _data[orig_size] = *vals;
141
                return Status::OK();
142
            } else if constexpr (SIZE_OF_TYPE == 2) {
143
                *reinterpret_cast<uint16_t*>(&_data[orig_size]) =
144
                        *reinterpret_cast<const uint16_t*>(vals);
145
                return Status::OK();
146
            } else if constexpr (SIZE_OF_TYPE == 4) {
147
                *reinterpret_cast<uint32_t*>(&_data[orig_size]) =
148
                        *reinterpret_cast<const uint32_t*>(vals);
149
                return Status::OK();
150
            } else if constexpr (SIZE_OF_TYPE == 8) {
151
                *reinterpret_cast<uint64_t*>(&_data[orig_size]) =
152
                        *reinterpret_cast<const uint64_t*>(vals);
153
                return Status::OK();
154
            }
155
        }
156
        // when single is true and SIZE_OF_TYPE > 8 or single is false
157
4
        memcpy(&_data[orig_size], vals, to_add_size);
158
4
        return Status::OK();
159
4
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE12add_internalILb0EEENS_6StatusEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE12add_internalILb0EEENS_6StatusEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE12add_internalILb0EEENS_6StatusEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE12add_internalILb0EEENS_6StatusEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE12add_internalILb0EEENS_6StatusEPKhPm
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE12add_internalILb0EEENS_6StatusEPKhPm
160
161
24.0k
    Status finish(OwnedSlice* slice) override {
162
24.0k
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
24.0k
        return Status::OK();
164
24.0k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
21.0k
    Status finish(OwnedSlice* slice) override {
162
21.0k
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
21.0k
        return Status::OK();
164
21.0k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
1.25k
    Status finish(OwnedSlice* slice) override {
162
1.25k
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
1.25k
        return Status::OK();
164
1.25k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
26
    Status finish(OwnedSlice* slice) override {
162
26
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
26
        return Status::OK();
164
26
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
682
    Status finish(OwnedSlice* slice) override {
162
682
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
682
        return Status::OK();
164
682
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
8
    Status finish(OwnedSlice* slice) override {
162
8
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
8
        return Status::OK();
164
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
940
    Status finish(OwnedSlice* slice) override {
162
940
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
940
        return Status::OK();
164
940
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE6finishEPNS_10OwnedSliceE
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
4
    Status finish(OwnedSlice* slice) override {
162
4
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
4
        return Status::OK();
164
4
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
2
    Status finish(OwnedSlice* slice) override {
162
2
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
2
        return Status::OK();
164
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE6finishEPNS_10OwnedSliceE
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
8
    Status finish(OwnedSlice* slice) override {
162
8
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
8
        return Status::OK();
164
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
16
    Status finish(OwnedSlice* slice) override {
162
16
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
16
        return Status::OK();
164
16
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
2
    Status finish(OwnedSlice* slice) override {
162
2
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
2
        return Status::OK();
164
2
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
22
    Status finish(OwnedSlice* slice) override {
162
22
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
22
        return Status::OK();
164
22
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE6finishEPNS_10OwnedSliceE
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE6finishEPNS_10OwnedSliceE
Line
Count
Source
161
4
    Status finish(OwnedSlice* slice) override {
162
4
        RETURN_IF_CATCH_EXCEPTION({ *slice = _finish(SIZE_OF_TYPE); });
163
4
        return Status::OK();
164
4
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE6finishEPNS_10OwnedSliceE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE6finishEPNS_10OwnedSliceE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE6finishEPNS_10OwnedSliceE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE6finishEPNS_10OwnedSliceE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE6finishEPNS_10OwnedSliceE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE6finishEPNS_10OwnedSliceE
165
166
52.7k
    Status reset() override {
167
52.7k
        RETURN_IF_CATCH_EXCEPTION({
168
52.7k
            size_t block_size = _options.data_page_size;
169
52.7k
            _count = 0;
170
52.7k
            _raw_data_size = 0;
171
52.7k
            _data.clear();
172
52.7k
            _data.reserve(block_size);
173
52.7k
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
52.7k
                    << "buffer must be naturally-aligned";
175
52.7k
            _buffer.clear();
176
52.7k
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
52.7k
            _finished = false;
178
52.7k
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
52.7k
        });
180
52.7k
        return Status::OK();
181
52.7k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE5resetEv
Line
Count
Source
166
46.7k
    Status reset() override {
167
46.7k
        RETURN_IF_CATCH_EXCEPTION({
168
46.7k
            size_t block_size = _options.data_page_size;
169
46.7k
            _count = 0;
170
46.7k
            _raw_data_size = 0;
171
46.7k
            _data.clear();
172
46.7k
            _data.reserve(block_size);
173
46.7k
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
46.7k
                    << "buffer must be naturally-aligned";
175
46.7k
            _buffer.clear();
176
46.7k
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
46.7k
            _finished = false;
178
46.7k
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
46.7k
        });
180
46.7k
        return Status::OK();
181
46.7k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE5resetEv
Line
Count
Source
166
2.48k
    Status reset() override {
167
2.48k
        RETURN_IF_CATCH_EXCEPTION({
168
2.48k
            size_t block_size = _options.data_page_size;
169
2.48k
            _count = 0;
170
2.48k
            _raw_data_size = 0;
171
2.48k
            _data.clear();
172
2.48k
            _data.reserve(block_size);
173
2.48k
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
2.48k
                    << "buffer must be naturally-aligned";
175
2.48k
            _buffer.clear();
176
2.48k
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
2.48k
            _finished = false;
178
2.48k
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
2.48k
        });
180
2.48k
        return Status::OK();
181
2.48k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE5resetEv
Line
Count
Source
166
52
    Status reset() override {
167
52
        RETURN_IF_CATCH_EXCEPTION({
168
52
            size_t block_size = _options.data_page_size;
169
52
            _count = 0;
170
52
            _raw_data_size = 0;
171
52
            _data.clear();
172
52
            _data.reserve(block_size);
173
52
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
52
                    << "buffer must be naturally-aligned";
175
52
            _buffer.clear();
176
52
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
52
            _finished = false;
178
52
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
52
        });
180
52
        return Status::OK();
181
52
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE5resetEv
Line
Count
Source
166
1.41k
    Status reset() override {
167
1.41k
        RETURN_IF_CATCH_EXCEPTION({
168
1.41k
            size_t block_size = _options.data_page_size;
169
1.41k
            _count = 0;
170
1.41k
            _raw_data_size = 0;
171
1.41k
            _data.clear();
172
1.41k
            _data.reserve(block_size);
173
1.41k
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
1.41k
                    << "buffer must be naturally-aligned";
175
1.41k
            _buffer.clear();
176
1.41k
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
1.41k
            _finished = false;
178
1.41k
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
1.41k
        });
180
1.41k
        return Status::OK();
181
1.41k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE5resetEv
Line
Count
Source
166
16
    Status reset() override {
167
16
        RETURN_IF_CATCH_EXCEPTION({
168
16
            size_t block_size = _options.data_page_size;
169
16
            _count = 0;
170
16
            _raw_data_size = 0;
171
16
            _data.clear();
172
16
            _data.reserve(block_size);
173
16
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
16
                    << "buffer must be naturally-aligned";
175
16
            _buffer.clear();
176
16
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
16
            _finished = false;
178
16
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
16
        });
180
16
        return Status::OK();
181
16
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE5resetEv
Line
Count
Source
166
1.89k
    Status reset() override {
167
1.89k
        RETURN_IF_CATCH_EXCEPTION({
168
1.89k
            size_t block_size = _options.data_page_size;
169
1.89k
            _count = 0;
170
1.89k
            _raw_data_size = 0;
171
1.89k
            _data.clear();
172
1.89k
            _data.reserve(block_size);
173
1.89k
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
1.89k
                    << "buffer must be naturally-aligned";
175
1.89k
            _buffer.clear();
176
1.89k
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
1.89k
            _finished = false;
178
1.89k
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
1.89k
        });
180
1.89k
        return Status::OK();
181
1.89k
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE5resetEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE5resetEv
Line
Count
Source
166
8
    Status reset() override {
167
8
        RETURN_IF_CATCH_EXCEPTION({
168
8
            size_t block_size = _options.data_page_size;
169
8
            _count = 0;
170
8
            _raw_data_size = 0;
171
8
            _data.clear();
172
8
            _data.reserve(block_size);
173
8
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
8
                    << "buffer must be naturally-aligned";
175
8
            _buffer.clear();
176
8
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
8
            _finished = false;
178
8
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
8
        });
180
8
        return Status::OK();
181
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE5resetEv
Line
Count
Source
166
4
    Status reset() override {
167
4
        RETURN_IF_CATCH_EXCEPTION({
168
4
            size_t block_size = _options.data_page_size;
169
4
            _count = 0;
170
4
            _raw_data_size = 0;
171
4
            _data.clear();
172
4
            _data.reserve(block_size);
173
4
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
4
                    << "buffer must be naturally-aligned";
175
4
            _buffer.clear();
176
4
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
4
            _finished = false;
178
4
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
4
        });
180
4
        return Status::OK();
181
4
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE5resetEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE5resetEv
Line
Count
Source
166
16
    Status reset() override {
167
16
        RETURN_IF_CATCH_EXCEPTION({
168
16
            size_t block_size = _options.data_page_size;
169
16
            _count = 0;
170
16
            _raw_data_size = 0;
171
16
            _data.clear();
172
16
            _data.reserve(block_size);
173
16
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
16
                    << "buffer must be naturally-aligned";
175
16
            _buffer.clear();
176
16
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
16
            _finished = false;
178
16
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
16
        });
180
16
        return Status::OK();
181
16
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE5resetEv
Line
Count
Source
166
32
    Status reset() override {
167
32
        RETURN_IF_CATCH_EXCEPTION({
168
32
            size_t block_size = _options.data_page_size;
169
32
            _count = 0;
170
32
            _raw_data_size = 0;
171
32
            _data.clear();
172
32
            _data.reserve(block_size);
173
32
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
32
                    << "buffer must be naturally-aligned";
175
32
            _buffer.clear();
176
32
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
32
            _finished = false;
178
32
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
32
        });
180
32
        return Status::OK();
181
32
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE5resetEv
Line
Count
Source
166
4
    Status reset() override {
167
4
        RETURN_IF_CATCH_EXCEPTION({
168
4
            size_t block_size = _options.data_page_size;
169
4
            _count = 0;
170
4
            _raw_data_size = 0;
171
4
            _data.clear();
172
4
            _data.reserve(block_size);
173
4
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
4
                    << "buffer must be naturally-aligned";
175
4
            _buffer.clear();
176
4
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
4
            _finished = false;
178
4
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
4
        });
180
4
        return Status::OK();
181
4
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE5resetEv
Line
Count
Source
166
44
    Status reset() override {
167
44
        RETURN_IF_CATCH_EXCEPTION({
168
44
            size_t block_size = _options.data_page_size;
169
44
            _count = 0;
170
44
            _raw_data_size = 0;
171
44
            _data.clear();
172
44
            _data.reserve(block_size);
173
44
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
44
                    << "buffer must be naturally-aligned";
175
44
            _buffer.clear();
176
44
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
44
            _finished = false;
178
44
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
44
        });
180
44
        return Status::OK();
181
44
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE5resetEv
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE5resetEv
Line
Count
Source
166
8
    Status reset() override {
167
8
        RETURN_IF_CATCH_EXCEPTION({
168
8
            size_t block_size = _options.data_page_size;
169
8
            _count = 0;
170
8
            _raw_data_size = 0;
171
8
            _data.clear();
172
8
            _data.reserve(block_size);
173
8
            DCHECK_EQ(reinterpret_cast<uintptr_t>(_data.data()) & (alignof(CppType) - 1), 0)
174
8
                    << "buffer must be naturally-aligned";
175
8
            _buffer.clear();
176
8
            _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE);
177
8
            _finished = false;
178
8
            _remain_element_capacity = cast_set<UInt32>(block_size / SIZE_OF_TYPE);
179
8
        });
180
8
        return Status::OK();
181
8
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE5resetEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE5resetEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE5resetEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE5resetEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE5resetEv
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE5resetEv
182
183
8
    size_t count() const override { return _count; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE5countEv
Line
Count
Source
183
8
    size_t count() const override { return _count; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE5countEv
184
185
15.2k
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE4sizeEv
Line
Count
Source
185
13.6k
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE4sizeEv
Line
Count
Source
185
1.47k
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE4sizeEv
Line
Count
Source
185
26
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE4sizeEv
Line
Count
Source
185
22
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE4sizeEv
Line
Count
Source
185
8
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE4sizeEv
Line
Count
Source
185
8
    uint64_t size() const override { return _buffer.size(); }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE4sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE4sizeEv
Line
Count
Source
185
4
    uint64_t size() const override { return _buffer.size(); }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE4sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE4sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE4sizeEv
Line
Count
Source
185
12
    uint64_t size() const override { return _buffer.size(); }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE4sizeEv
Line
Count
Source
185
14
    uint64_t size() const override { return _buffer.size(); }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE4sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE4sizeEv
Line
Count
Source
185
26
    uint64_t size() const override { return _buffer.size(); }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE4sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE4sizeEv
Line
Count
Source
185
4
    uint64_t size() const override { return _buffer.size(); }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE4sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE4sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE4sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE4sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE4sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE4sizeEv
186
187
15.8k
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE17get_raw_data_sizeEv
Line
Count
Source
187
12.8k
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE17get_raw_data_sizeEv
Line
Count
Source
187
1.25k
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE17get_raw_data_sizeEv
Line
Count
Source
187
26
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE17get_raw_data_sizeEv
Line
Count
Source
187
682
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE17get_raw_data_sizeEv
Line
Count
Source
187
8
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE17get_raw_data_sizeEv
Line
Count
Source
187
940
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE17get_raw_data_sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE17get_raw_data_sizeEv
Line
Count
Source
187
4
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE17get_raw_data_sizeEv
Line
Count
Source
187
2
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE17get_raw_data_sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE17get_raw_data_sizeEv
Line
Count
Source
187
8
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE17get_raw_data_sizeEv
Line
Count
Source
187
16
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE17get_raw_data_sizeEv
Line
Count
Source
187
2
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE17get_raw_data_sizeEv
Line
Count
Source
187
22
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE17get_raw_data_sizeEv
_ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE17get_raw_data_sizeEv
Line
Count
Source
187
4
    uint64_t get_raw_data_size() const override { return _raw_data_size; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE17get_raw_data_sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE17get_raw_data_sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE17get_raw_data_sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE17get_raw_data_sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE17get_raw_data_sizeEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE17get_raw_data_sizeEv
188
189
private:
190
    BitshufflePageBuilder(const PageBuilderOptions& options)
191
23.2k
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
20.2k
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
1.23k
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
26
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
732
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
8
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
950
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EEC2ERKNS0_18PageBuilderOptionsE
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
4
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
2
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EEC2ERKNS0_18PageBuilderOptionsE
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
8
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
16
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
2
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
22
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EEC2ERKNS0_18PageBuilderOptionsE
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EEC2ERKNS0_18PageBuilderOptionsE
Line
Count
Source
191
4
            : _options(options), _count(0), _remain_element_capacity(0), _finished(false) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EEC2ERKNS0_18PageBuilderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EEC2ERKNS0_18PageBuilderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EEC2ERKNS0_18PageBuilderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EEC2ERKNS0_18PageBuilderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EEC2ERKNS0_18PageBuilderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EEC2ERKNS0_18PageBuilderOptionsE
192
193
24.0k
    OwnedSlice _finish(int final_size_of_type) {
194
24.0k
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
24.0k
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
24.0k
        int padding_elems = num_elems_after_padding - _count;
199
24.0k
        int padding_bytes = padding_elems * final_size_of_type;
200
198k
        for (int i = 0; i < padding_bytes; i++) {
201
174k
            _data.push_back(0);
202
174k
        }
203
204
        // reserve enough place for compression
205
24.0k
        _buffer.resize(
206
24.0k
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
24.0k
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
24.0k
        int64_t bytes =
210
24.0k
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
24.0k
                                         num_elems_after_padding, final_size_of_type, 0);
212
24.0k
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
24.0k
        encode_fixed32_le(&_buffer[0], _count);
222
24.0k
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
24.0k
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
24.0k
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
24.0k
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
24.0k
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
24.0k
        return _buffer.build();
229
24.0k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE5EE7_finishEi
Line
Count
Source
193
21.0k
    OwnedSlice _finish(int final_size_of_type) {
194
21.0k
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
21.0k
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
21.0k
        int padding_elems = num_elems_after_padding - _count;
199
21.0k
        int padding_bytes = padding_elems * final_size_of_type;
200
169k
        for (int i = 0; i < padding_bytes; i++) {
201
148k
            _data.push_back(0);
202
148k
        }
203
204
        // reserve enough place for compression
205
21.0k
        _buffer.resize(
206
21.0k
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
21.0k
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
21.0k
        int64_t bytes =
210
21.0k
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
21.0k
                                         num_elems_after_padding, final_size_of_type, 0);
212
21.0k
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
21.0k
        encode_fixed32_le(&_buffer[0], _count);
222
21.0k
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
21.0k
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
21.0k
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
21.0k
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
21.0k
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
21.0k
        return _buffer.build();
229
21.0k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE1EE7_finishEi
Line
Count
Source
193
1.25k
    OwnedSlice _finish(int final_size_of_type) {
194
1.25k
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
1.25k
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
1.25k
        int padding_elems = num_elems_after_padding - _count;
199
1.25k
        int padding_bytes = padding_elems * final_size_of_type;
200
2.51k
        for (int i = 0; i < padding_bytes; i++) {
201
1.26k
            _data.push_back(0);
202
1.26k
        }
203
204
        // reserve enough place for compression
205
1.25k
        _buffer.resize(
206
1.25k
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
1.25k
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
1.25k
        int64_t bytes =
210
1.25k
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
1.25k
                                         num_elems_after_padding, final_size_of_type, 0);
212
1.25k
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
1.25k
        encode_fixed32_le(&_buffer[0], _count);
222
1.25k
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
1.25k
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
1.25k
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
1.25k
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
1.25k
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
1.25k
        return _buffer.build();
229
1.25k
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE3EE7_finishEi
Line
Count
Source
193
26
    OwnedSlice _finish(int final_size_of_type) {
194
26
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
26
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
26
        int padding_elems = num_elems_after_padding - _count;
199
26
        int padding_bytes = padding_elems * final_size_of_type;
200
370
        for (int i = 0; i < padding_bytes; i++) {
201
344
            _data.push_back(0);
202
344
        }
203
204
        // reserve enough place for compression
205
26
        _buffer.resize(
206
26
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
26
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
26
        int64_t bytes =
210
26
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
26
                                         num_elems_after_padding, final_size_of_type, 0);
212
26
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
26
        encode_fixed32_le(&_buffer[0], _count);
222
26
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
26
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
26
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
26
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
26
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
26
        return _buffer.build();
229
26
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE7EE7_finishEi
Line
Count
Source
193
682
    OwnedSlice _finish(int final_size_of_type) {
194
682
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
682
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
682
        int padding_elems = num_elems_after_padding - _count;
199
682
        int padding_bytes = padding_elems * final_size_of_type;
200
9.83k
        for (int i = 0; i < padding_bytes; i++) {
201
9.15k
            _data.push_back(0);
202
9.15k
        }
203
204
        // reserve enough place for compression
205
682
        _buffer.resize(
206
682
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
682
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
682
        int64_t bytes =
210
682
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
682
                                         num_elems_after_padding, final_size_of_type, 0);
212
682
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
682
        encode_fixed32_le(&_buffer[0], _count);
222
682
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
682
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
682
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
682
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
682
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
682
        return _buffer.build();
229
682
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE9EE7_finishEi
Line
Count
Source
193
8
    OwnedSlice _finish(int final_size_of_type) {
194
8
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
8
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
8
        int padding_elems = num_elems_after_padding - _count;
199
8
        int padding_bytes = padding_elems * final_size_of_type;
200
840
        for (int i = 0; i < padding_bytes; i++) {
201
832
            _data.push_back(0);
202
832
        }
203
204
        // reserve enough place for compression
205
8
        _buffer.resize(
206
8
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
8
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
8
        int64_t bytes =
210
8
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
8
                                         num_elems_after_padding, final_size_of_type, 0);
212
8
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
8
        encode_fixed32_le(&_buffer[0], _count);
222
8
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
8
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
8
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
8
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
8
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
8
        return _buffer.build();
229
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE8EE7_finishEi
Line
Count
Source
193
940
    OwnedSlice _finish(int final_size_of_type) {
194
940
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
940
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
940
        int padding_elems = num_elems_after_padding - _count;
199
940
        int padding_bytes = padding_elems * final_size_of_type;
200
12.8k
        for (int i = 0; i < padding_bytes; i++) {
201
11.8k
            _data.push_back(0);
202
11.8k
        }
203
204
        // reserve enough place for compression
205
940
        _buffer.resize(
206
940
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
940
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
940
        int64_t bytes =
210
940
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
940
                                         num_elems_after_padding, final_size_of_type, 0);
212
940
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
940
        encode_fixed32_le(&_buffer[0], _count);
222
940
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
940
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
940
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
940
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
940
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
940
        return _buffer.build();
229
940
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE6EE7_finishEi
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE10EE7_finishEi
Line
Count
Source
193
4
    OwnedSlice _finish(int final_size_of_type) {
194
4
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
4
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
4
        int padding_elems = num_elems_after_padding - _count;
199
4
        int padding_bytes = padding_elems * final_size_of_type;
200
4
        for (int i = 0; i < padding_bytes; i++) {
201
0
            _data.push_back(0);
202
0
        }
203
204
        // reserve enough place for compression
205
4
        _buffer.resize(
206
4
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
4
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
4
        int64_t bytes =
210
4
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
4
                                         num_elems_after_padding, final_size_of_type, 0);
212
4
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
4
        encode_fixed32_le(&_buffer[0], _count);
222
4
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
4
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
4
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
4
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
4
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
4
        return _buffer.build();
229
4
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE11EE7_finishEi
Line
Count
Source
193
2
    OwnedSlice _finish(int final_size_of_type) {
194
2
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
2
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
2
        int padding_elems = num_elems_after_padding - _count;
199
2
        int padding_bytes = padding_elems * final_size_of_type;
200
50
        for (int i = 0; i < padding_bytes; i++) {
201
48
            _data.push_back(0);
202
48
        }
203
204
        // reserve enough place for compression
205
2
        _buffer.resize(
206
2
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
2
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
2
        int64_t bytes =
210
2
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
2
                                         num_elems_after_padding, final_size_of_type, 0);
212
2
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
2
        encode_fixed32_le(&_buffer[0], _count);
222
2
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
2
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
2
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
2
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
2
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
2
        return _buffer.build();
229
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE24EE7_finishEi
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE14EE7_finishEi
Line
Count
Source
193
8
    OwnedSlice _finish(int final_size_of_type) {
194
8
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
8
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
8
        int padding_elems = num_elems_after_padding - _count;
199
8
        int padding_bytes = padding_elems * final_size_of_type;
200
164
        for (int i = 0; i < padding_bytes; i++) {
201
156
            _data.push_back(0);
202
156
        }
203
204
        // reserve enough place for compression
205
8
        _buffer.resize(
206
8
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
8
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
8
        int64_t bytes =
210
8
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
8
                                         num_elems_after_padding, final_size_of_type, 0);
212
8
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
8
        encode_fixed32_le(&_buffer[0], _count);
222
8
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
8
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
8
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
8
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
8
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
8
        return _buffer.build();
229
8
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE28EE7_finishEi
Line
Count
Source
193
16
    OwnedSlice _finish(int final_size_of_type) {
194
16
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
16
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
16
        int padding_elems = num_elems_after_padding - _count;
199
16
        int padding_bytes = padding_elems * final_size_of_type;
200
400
        for (int i = 0; i < padding_bytes; i++) {
201
384
            _data.push_back(0);
202
384
        }
203
204
        // reserve enough place for compression
205
16
        _buffer.resize(
206
16
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
16
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
16
        int64_t bytes =
210
16
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
16
                                         num_elems_after_padding, final_size_of_type, 0);
212
16
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
16
        encode_fixed32_le(&_buffer[0], _count);
222
16
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
16
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
16
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
16
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
16
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
16
        return _buffer.build();
229
16
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE29EE7_finishEi
Line
Count
Source
193
2
    OwnedSlice _finish(int final_size_of_type) {
194
2
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
2
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
2
        int padding_elems = num_elems_after_padding - _count;
199
2
        int padding_bytes = padding_elems * final_size_of_type;
200
66
        for (int i = 0; i < padding_bytes; i++) {
201
64
            _data.push_back(0);
202
64
        }
203
204
        // reserve enough place for compression
205
2
        _buffer.resize(
206
2
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
2
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
2
        int64_t bytes =
210
2
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
2
                                         num_elems_after_padding, final_size_of_type, 0);
212
2
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
2
        encode_fixed32_le(&_buffer[0], _count);
222
2
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
2
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
2
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
2
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
2
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
2
        return _buffer.build();
229
2
    }
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE15EE7_finishEi
Line
Count
Source
193
22
    OwnedSlice _finish(int final_size_of_type) {
194
22
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
22
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
22
        int padding_elems = num_elems_after_padding - _count;
199
22
        int padding_bytes = padding_elems * final_size_of_type;
200
1.14k
        for (int i = 0; i < padding_bytes; i++) {
201
1.12k
            _data.push_back(0);
202
1.12k
        }
203
204
        // reserve enough place for compression
205
22
        _buffer.resize(
206
22
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
22
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
22
        int64_t bytes =
210
22
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
22
                                         num_elems_after_padding, final_size_of_type, 0);
212
22
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
22
        encode_fixed32_le(&_buffer[0], _count);
222
22
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
22
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
22
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
22
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
22
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
22
        return _buffer.build();
229
22
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE40EE7_finishEi
_ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE16EE7_finishEi
Line
Count
Source
193
4
    OwnedSlice _finish(int final_size_of_type) {
194
4
        _data.resize(final_size_of_type * _count);
195
196
        // Do padding so that the input num of element is multiple of 8.
197
4
        int num_elems_after_padding = ALIGN_UP(_count, 8);
198
4
        int padding_elems = num_elems_after_padding - _count;
199
4
        int padding_bytes = padding_elems * final_size_of_type;
200
340
        for (int i = 0; i < padding_bytes; i++) {
201
336
            _data.push_back(0);
202
336
        }
203
204
        // reserve enough place for compression
205
4
        _buffer.resize(
206
4
                BITSHUFFLE_PAGE_HEADER_SIZE +
207
4
                bitshuffle::compress_lz4_bound(num_elems_after_padding, final_size_of_type, 0));
208
209
4
        int64_t bytes =
210
4
                bitshuffle::compress_lz4(_data.data(), &_buffer[BITSHUFFLE_PAGE_HEADER_SIZE],
211
4
                                         num_elems_after_padding, final_size_of_type, 0);
212
4
        if (bytes < 0) [[unlikely]] {
213
            // This means the bitshuffle function fails.
214
            // Ideally, this should not happen.
215
0
            warn_with_bitshuffle_error(bytes);
216
            // It does not matter what will be returned here,
217
            // since we have logged fatal in warn_with_bitshuffle_error().
218
0
            return OwnedSlice();
219
0
        }
220
        // update header
221
4
        encode_fixed32_le(&_buffer[0], _count);
222
4
        encode_fixed32_le(&_buffer[4], cast_set<uint32_t>(BITSHUFFLE_PAGE_HEADER_SIZE + bytes));
223
4
        encode_fixed32_le(&_buffer[8], num_elems_after_padding);
224
4
        encode_fixed32_le(&_buffer[12], final_size_of_type);
225
4
        _finished = true;
226
        // before build(), update buffer length to the actual compressed size
227
4
        _buffer.resize(BITSHUFFLE_PAGE_HEADER_SIZE + bytes);
228
4
        return _buffer.build();
229
4
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE31EE7_finishEi
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE32EE7_finishEi
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE33EE7_finishEi
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE37EE7_finishEi
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE38EE7_finishEi
Unexecuted instantiation: _ZN5doris10segment_v221BitshufflePageBuilderILNS_9FieldTypeE39EE7_finishEi
230
231
    using CppType = typename TypeTraits<Type>::CppType;
232
233
    CppType cell(int idx) const {
234
        DCHECK_GE(idx, 0);
235
        CppType ret;
236
        memcpy(&ret, &_data[idx * SIZE_OF_TYPE], SIZE_OF_TYPE);
237
        return ret;
238
    }
239
240
    enum { SIZE_OF_TYPE = TypeTraits<Type>::size };
241
    PageBuilderOptions _options;
242
    uint32_t _count;
243
    uint32_t _remain_element_capacity;
244
    bool _finished;
245
    faststring _data;
246
    faststring _buffer;
247
    uint64_t _raw_data_size = 0;
248
};
249
250
inline Status parse_bit_shuffle_header(const Slice& data, size_t& num_elements,
251
                                       size_t& compressed_size, size_t& num_element_after_padding,
252
35.9k
                                       int& size_of_element) {
253
35.9k
    if (data.size < BITSHUFFLE_PAGE_HEADER_SIZE) {
254
0
        return Status::InternalError("file corruption: invalid data size:{}, header size:{}",
255
0
                                     data.size, BITSHUFFLE_PAGE_HEADER_SIZE);
256
0
    }
257
258
35.9k
    num_elements = decode_fixed32_le((const uint8_t*)&data[0]);
259
35.9k
    compressed_size = decode_fixed32_le((const uint8_t*)&data[4]);
260
35.9k
    num_element_after_padding = decode_fixed32_le((const uint8_t*)&data[8]);
261
35.9k
    size_of_element = decode_fixed32_le((const uint8_t*)&data[12]);
262
35.9k
    if (num_element_after_padding != ALIGN_UP(num_elements, 8)) {
263
0
        return Status::InternalError(
264
0
                "num of element information corrupted,"
265
0
                " _num_element_after_padding:{}, _num_elements:{}, expected_padding:{},"
266
0
                " compressed_size:{}, size_of_element:{}, data_size:{}",
267
0
                num_element_after_padding, num_elements, ALIGN_UP(num_elements, 8), compressed_size,
268
0
                size_of_element, data.size);
269
0
    }
270
35.9k
    switch (size_of_element) {
271
1.34k
    case 1:
272
1.36k
    case 2:
273
1.36k
    case 3:
274
33.7k
    case 4:
275
35.9k
    case 8:
276
35.9k
    case 12:
277
35.9k
    case 16:
278
35.9k
    case 32:
279
35.9k
        break;
280
0
    default:
281
0
        return Status::InternalError("invalid size_of_elem:{}", size_of_element);
282
35.9k
    }
283
35.9k
    return Status::OK();
284
35.9k
}
285
286
template <FieldType Type>
287
class BitShufflePageDecoder : public PageDecoder {
288
public:
289
    BitShufflePageDecoder(Slice data, const PageDecoderOptions& options)
290
17.9k
            : _data(data),
291
17.9k
              _options(options),
292
17.9k
              _parsed(false),
293
17.9k
              _num_elements(0),
294
17.9k
              _num_element_after_padding(0),
295
17.9k
              _size_of_element(0),
296
17.9k
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
16.2k
            : _data(data),
291
16.2k
              _options(options),
292
16.2k
              _parsed(false),
293
16.2k
              _num_elements(0),
294
16.2k
              _num_element_after_padding(0),
295
16.2k
              _size_of_element(0),
296
16.2k
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
670
            : _data(data),
291
670
              _options(options),
292
670
              _parsed(false),
293
670
              _num_elements(0),
294
670
              _num_element_after_padding(0),
295
670
              _size_of_element(0),
296
670
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
10
            : _data(data),
291
10
              _options(options),
292
10
              _parsed(false),
293
10
              _num_elements(0),
294
10
              _num_element_after_padding(0),
295
10
              _size_of_element(0),
296
10
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
446
            : _data(data),
291
446
              _options(options),
292
446
              _parsed(false),
293
446
              _num_elements(0),
294
446
              _num_element_after_padding(0),
295
446
              _size_of_element(0),
296
446
              _cur_index(0) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
616
            : _data(data),
291
616
              _options(options),
292
616
              _parsed(false),
293
616
              _num_elements(0),
294
616
              _num_element_after_padding(0),
295
616
              _size_of_element(0),
296
616
              _cur_index(0) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
2
            : _data(data),
291
2
              _options(options),
292
2
              _parsed(false),
293
2
              _num_elements(0),
294
2
              _num_element_after_padding(0),
295
2
              _size_of_element(0),
296
2
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
2
            : _data(data),
291
2
              _options(options),
292
2
              _parsed(false),
293
2
              _num_elements(0),
294
2
              _num_element_after_padding(0),
295
2
              _size_of_element(0),
296
2
              _cur_index(0) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
12
            : _data(data),
291
12
              _options(options),
292
12
              _parsed(false),
293
12
              _num_elements(0),
294
12
              _num_element_after_padding(0),
295
12
              _size_of_element(0),
296
12
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
2
            : _data(data),
291
2
              _options(options),
292
2
              _parsed(false),
293
2
              _num_elements(0),
294
2
              _num_element_after_padding(0),
295
2
              _size_of_element(0),
296
2
              _cur_index(0) {}
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Line
Count
Source
290
10
            : _data(data),
291
10
              _options(options),
292
10
              _parsed(false),
293
10
              _num_elements(0),
294
10
              _num_element_after_padding(0),
295
10
              _size_of_element(0),
296
10
              _cur_index(0) {}
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EEC2ENS_5SliceERKNS0_18PageDecoderOptionsE
297
298
17.9k
    Status init() override {
299
17.9k
        CHECK(!_parsed);
300
17.9k
        size_t unused;
301
17.9k
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
17.9k
                                                 _num_element_after_padding, _size_of_element));
303
304
17.9k
        if (_data.size !=
305
17.9k
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
17.9k
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
17.9k
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
17.9k
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
17.9k
        _parsed = true;
325
17.9k
        return Status::OK();
326
17.9k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE4initEv
Line
Count
Source
298
16.2k
    Status init() override {
299
16.2k
        CHECK(!_parsed);
300
16.2k
        size_t unused;
301
16.2k
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
16.2k
                                                 _num_element_after_padding, _size_of_element));
303
304
16.2k
        if (_data.size !=
305
16.2k
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
16.2k
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
16.2k
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
16.2k
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
16.2k
        _parsed = true;
325
16.2k
        return Status::OK();
326
16.2k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE4initEv
Line
Count
Source
298
670
    Status init() override {
299
670
        CHECK(!_parsed);
300
670
        size_t unused;
301
670
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
670
                                                 _num_element_after_padding, _size_of_element));
303
304
670
        if (_data.size !=
305
670
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
670
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
670
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
670
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
670
        _parsed = true;
325
670
        return Status::OK();
326
670
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE4initEv
Line
Count
Source
298
10
    Status init() override {
299
10
        CHECK(!_parsed);
300
10
        size_t unused;
301
10
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
10
                                                 _num_element_after_padding, _size_of_element));
303
304
10
        if (_data.size !=
305
10
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
10
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
10
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
10
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
10
        _parsed = true;
325
10
        return Status::OK();
326
10
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE4initEv
Line
Count
Source
298
446
    Status init() override {
299
446
        CHECK(!_parsed);
300
446
        size_t unused;
301
446
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
446
                                                 _num_element_after_padding, _size_of_element));
303
304
446
        if (_data.size !=
305
446
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
446
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
446
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
446
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
446
        _parsed = true;
325
446
        return Status::OK();
326
446
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE4initEv
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE4initEv
Line
Count
Source
298
616
    Status init() override {
299
616
        CHECK(!_parsed);
300
616
        size_t unused;
301
616
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
616
                                                 _num_element_after_padding, _size_of_element));
303
304
616
        if (_data.size !=
305
616
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
616
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
616
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
616
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
616
        _parsed = true;
325
616
        return Status::OK();
326
616
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE4initEv
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE4initEv
Line
Count
Source
298
2
    Status init() override {
299
2
        CHECK(!_parsed);
300
2
        size_t unused;
301
2
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
2
                                                 _num_element_after_padding, _size_of_element));
303
304
2
        if (_data.size !=
305
2
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
2
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
2
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
2
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
2
        _parsed = true;
325
2
        return Status::OK();
326
2
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE4initEv
Line
Count
Source
298
2
    Status init() override {
299
2
        CHECK(!_parsed);
300
2
        size_t unused;
301
2
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
2
                                                 _num_element_after_padding, _size_of_element));
303
304
2
        if (_data.size !=
305
2
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
2
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
2
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
2
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
2
        _parsed = true;
325
2
        return Status::OK();
326
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE4initEv
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE4initEv
Line
Count
Source
298
12
    Status init() override {
299
12
        CHECK(!_parsed);
300
12
        size_t unused;
301
12
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
12
                                                 _num_element_after_padding, _size_of_element));
303
304
12
        if (_data.size !=
305
12
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
12
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
12
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
12
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
12
        _parsed = true;
325
12
        return Status::OK();
326
12
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE4initEv
Line
Count
Source
298
2
    Status init() override {
299
2
        CHECK(!_parsed);
300
2
        size_t unused;
301
2
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
2
                                                 _num_element_after_padding, _size_of_element));
303
304
2
        if (_data.size !=
305
2
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
2
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
2
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
2
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
2
        _parsed = true;
325
2
        return Status::OK();
326
2
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE4initEv
Line
Count
Source
298
10
    Status init() override {
299
10
        CHECK(!_parsed);
300
10
        size_t unused;
301
10
        RETURN_IF_ERROR(parse_bit_shuffle_header(_data, _num_elements, unused,
302
10
                                                 _num_element_after_padding, _size_of_element));
303
304
10
        if (_data.size !=
305
10
            _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE) {
306
0
            std::stringstream ss;
307
0
            ss << "Size information unmatched, _data.size:" << _data.size
308
0
               << ", _num_elements:" << _num_elements << ", expected size is "
309
0
               << _num_element_after_padding * _size_of_element + BITSHUFFLE_PAGE_HEADER_SIZE;
310
0
            return Status::InternalError(ss.str());
311
0
        }
312
313
        // Currently, only the UINT32 block encoder supports expanding size:
314
10
        if (UNLIKELY(Type != FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT &&
315
10
                     _size_of_element != SIZE_OF_TYPE)) {
316
0
            return Status::InternalError(
317
0
                    "invalid size info. size of element:{}, SIZE_OF_TYPE:{}, type:{}",
318
0
                    _size_of_element, SIZE_OF_TYPE, Type);
319
0
        }
320
10
        if (UNLIKELY(_size_of_element > SIZE_OF_TYPE)) {
321
0
            return Status::InternalError("invalid size info. size of element:{}, SIZE_OF_TYPE:{}",
322
0
                                         _size_of_element, SIZE_OF_TYPE);
323
0
        }
324
10
        _parsed = true;
325
10
        return Status::OK();
326
10
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE4initEv
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE4initEv
327
328
    // If the page only contains null, then _num_elements == 0, and the nullmap has
329
    // some value. But in _seek_columns --> seek_to_ordinal --> _seek_to_pos_in_page
330
    // in this call stack it will pass pos == 0 to this method. Although we can add some
331
    // code such as check if the count == 0, then skip seek, but there are other method such
332
    // as init will also call seek with pos == 0. And the seek is useless when _num_elements
333
    // == 0, because next batch will return empty in this method.
334
7.25k
    Status seek_to_position_in_page(size_t pos) override {
335
7.25k
        DCHECK(_parsed) << "Must call init()";
336
7.25k
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
7.25k
        DCHECK_LE(pos, _num_elements);
344
7.25k
        _cur_index = pos;
345
7.25k
        return Status::OK();
346
7.25k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE24seek_to_position_in_pageEm
Line
Count
Source
334
5.97k
    Status seek_to_position_in_page(size_t pos) override {
335
5.97k
        DCHECK(_parsed) << "Must call init()";
336
5.97k
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
5.97k
        DCHECK_LE(pos, _num_elements);
344
5.97k
        _cur_index = pos;
345
5.97k
        return Status::OK();
346
5.97k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE24seek_to_position_in_pageEm
Line
Count
Source
334
842
    Status seek_to_position_in_page(size_t pos) override {
335
842
        DCHECK(_parsed) << "Must call init()";
336
842
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
842
        DCHECK_LE(pos, _num_elements);
344
842
        _cur_index = pos;
345
842
        return Status::OK();
346
842
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE24seek_to_position_in_pageEm
Line
Count
Source
334
2
    Status seek_to_position_in_page(size_t pos) override {
335
2
        DCHECK(_parsed) << "Must call init()";
336
2
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
2
        DCHECK_LE(pos, _num_elements);
344
2
        _cur_index = pos;
345
2
        return Status::OK();
346
2
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE24seek_to_position_in_pageEm
Line
Count
Source
334
364
    Status seek_to_position_in_page(size_t pos) override {
335
364
        DCHECK(_parsed) << "Must call init()";
336
364
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
364
        DCHECK_LE(pos, _num_elements);
344
364
        _cur_index = pos;
345
364
        return Status::OK();
346
364
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE24seek_to_position_in_pageEm
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE24seek_to_position_in_pageEm
Line
Count
Source
334
68
    Status seek_to_position_in_page(size_t pos) override {
335
68
        DCHECK(_parsed) << "Must call init()";
336
68
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
68
        DCHECK_LE(pos, _num_elements);
344
68
        _cur_index = pos;
345
68
        return Status::OK();
346
68
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE24seek_to_position_in_pageEm
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE24seek_to_position_in_pageEm
Line
Count
Source
334
2
    Status seek_to_position_in_page(size_t pos) override {
335
2
        DCHECK(_parsed) << "Must call init()";
336
2
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
2
        DCHECK_LE(pos, _num_elements);
344
2
        _cur_index = pos;
345
2
        return Status::OK();
346
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE24seek_to_position_in_pageEm
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE24seek_to_position_in_pageEm
Line
Count
Source
334
2
    Status seek_to_position_in_page(size_t pos) override {
335
2
        DCHECK(_parsed) << "Must call init()";
336
2
        if (_num_elements == 0) [[unlikely]] {
337
0
            if (pos != 0) {
338
0
                return Status::Error<ErrorCode::INTERNAL_ERROR, false>(
339
0
                        "seek pos {} is larger than total elements  {}", pos, _num_elements);
340
0
            }
341
0
        }
342
343
2
        DCHECK_LE(pos, _num_elements);
344
2
        _cur_index = pos;
345
2
        return Status::OK();
346
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE24seek_to_position_in_pageEm
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE24seek_to_position_in_pageEm
347
348
0
    Status seek_at_or_after_value(const void* value, bool* exact_match) override {
349
0
        DCHECK(_parsed) << "Must call init() firstly";
350
351
0
        if (_num_elements == 0) {
352
0
            return Status::Error<ErrorCode::ENTRY_NOT_FOUND>("page is empty");
353
0
        }
354
355
0
        size_t left = 0;
356
0
        size_t right = _num_elements;
357
358
0
        void* mid_value = nullptr;
359
360
        // find the first value >= target. after loop,
361
        // - left == index of first value >= target when found
362
        // - left == _num_elements when not found (all values < target)
363
0
        while (left < right) {
364
0
            size_t mid = left + (right - left) / 2;
365
0
            mid_value = get_data(mid);
366
0
            if (TypeTraits<Type>::cmp(mid_value, value) < 0) {
367
0
                left = mid + 1;
368
0
            } else {
369
0
                right = mid;
370
0
            }
371
0
        }
372
0
        if (left >= _num_elements) {
373
0
            return Status::Error<ErrorCode::ENTRY_NOT_FOUND>("all value small than the value");
374
0
        }
375
0
        void* find_value = get_data(left);
376
0
        if (TypeTraits<Type>::cmp(find_value, value) == 0) {
377
0
            *exact_match = true;
378
0
        } else {
379
0
            *exact_match = false;
380
0
        }
381
382
0
        _cur_index = left;
383
0
        return Status::OK();
384
0
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE22seek_at_or_after_valueEPKvPb
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE22seek_at_or_after_valueEPKvPb
385
386
    template <bool forward_index = true>
387
47.8k
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
47.8k
        DCHECK(_parsed);
389
47.8k
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
47.8k
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
47.8k
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
47.8k
        *n = max_fetch;
398
47.8k
        if constexpr (forward_index) {
399
47.2k
            _cur_index += max_fetch;
400
47.2k
        }
401
402
47.8k
        return Status::OK();
403
47.8k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
33.0k
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
33.0k
        DCHECK(_parsed);
389
33.0k
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
33.0k
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
33.0k
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
33.0k
        *n = max_fetch;
398
33.0k
        if constexpr (forward_index) {
399
33.0k
            _cur_index += max_fetch;
400
33.0k
        }
401
402
33.0k
        return Status::OK();
403
33.0k
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
1.47k
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
1.47k
        DCHECK(_parsed);
389
1.47k
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
1.47k
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
1.47k
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
1.47k
        *n = max_fetch;
398
1.47k
        if constexpr (forward_index) {
399
1.47k
            _cur_index += max_fetch;
400
1.47k
        }
401
402
1.47k
        return Status::OK();
403
1.47k
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
2
        DCHECK(_parsed);
389
2
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
2
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
2
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
2
        *n = max_fetch;
398
2
        if constexpr (forward_index) {
399
2
            _cur_index += max_fetch;
400
2
        }
401
402
2
        return Status::OK();
403
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
12.1k
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
12.1k
        DCHECK(_parsed);
389
12.1k
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
12.1k
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
12.1k
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
12.1k
        *n = max_fetch;
398
12.1k
        if constexpr (forward_index) {
399
12.1k
            _cur_index += max_fetch;
400
12.1k
        }
401
402
12.1k
        return Status::OK();
403
12.1k
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
620
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
620
        DCHECK(_parsed);
389
620
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
620
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
620
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
620
        *n = max_fetch;
398
620
        if constexpr (forward_index) {
399
620
            _cur_index += max_fetch;
400
620
        }
401
402
620
        return Status::OK();
403
620
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
610
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
610
        DCHECK(_parsed);
389
610
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
610
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
610
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
610
        *n = max_fetch;
398
        if constexpr (forward_index) {
399
            _cur_index += max_fetch;
400
        }
401
402
610
        return Status::OK();
403
610
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
2
        DCHECK(_parsed);
389
2
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
2
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
2
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
2
        *n = max_fetch;
398
2
        if constexpr (forward_index) {
399
2
            _cur_index += max_fetch;
400
2
        }
401
402
2
        return Status::OK();
403
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
2
        DCHECK(_parsed);
389
2
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
2
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
2
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
2
        *n = max_fetch;
398
2
        if constexpr (forward_index) {
399
2
            _cur_index += max_fetch;
400
2
        }
401
402
2
        return Status::OK();
403
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
387
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) {
388
2
        DCHECK(_parsed);
389
2
        if (*n == 0 || _cur_index >= _num_elements) [[unlikely]] {
390
0
            *n = 0;
391
0
            return Status::OK();
392
0
        }
393
394
2
        size_t max_fetch = std::min(*n, _num_elements - _cur_index);
395
396
2
        dst->insert_many_fix_len_data(get_data(_cur_index), max_fetch);
397
2
        *n = max_fetch;
398
2
        if constexpr (forward_index) {
399
2
            _cur_index += max_fetch;
400
2
        }
401
402
2
        return Status::OK();
403
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE10next_batchILb1EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE10next_batchILb0EEENS_6StatusEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
404
405
47.2k
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
33.0k
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
1.47k
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
12.1k
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
620
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
405
2
    Status next_batch(size_t* n, MutableColumnPtr& dst) override { return next_batch<>(n, dst); }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE10next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
406
407
    Status read_by_rowids(const rowid_t* rowids, ordinal_t page_first_ordinal, size_t* n,
408
6.17k
                          MutableColumnPtr& dst) override {
409
6.17k
        DCHECK(_parsed);
410
6.17k
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
6.17k
        auto total = *n;
416
6.17k
        auto read_count = 0;
417
6.17k
        _buffer.resize(total);
418
6.63M
        for (size_t i = 0; i < total; ++i) {
419
6.63M
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
6.63M
            if (UNLIKELY(ord >= _num_elements)) {
421
18
                break;
422
18
            }
423
424
6.63M
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
6.63M
        }
426
427
6.17k
        if (LIKELY(read_count > 0)) {
428
6.17k
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
6.17k
        }
430
431
6.17k
        *n = read_count;
432
6.17k
        return Status::OK();
433
6.17k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
4.88k
                          MutableColumnPtr& dst) override {
409
4.88k
        DCHECK(_parsed);
410
4.88k
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
4.88k
        auto total = *n;
416
4.88k
        auto read_count = 0;
417
4.88k
        _buffer.resize(total);
418
5.52M
        for (size_t i = 0; i < total; ++i) {
419
5.52M
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
5.52M
            if (UNLIKELY(ord >= _num_elements)) {
421
18
                break;
422
18
            }
423
424
5.52M
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
5.52M
        }
426
427
4.88k
        if (LIKELY(read_count > 0)) {
428
4.88k
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
4.88k
        }
430
431
4.88k
        *n = read_count;
432
4.88k
        return Status::OK();
433
4.88k
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
976
                          MutableColumnPtr& dst) override {
409
976
        DCHECK(_parsed);
410
976
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
976
        auto total = *n;
416
976
        auto read_count = 0;
417
976
        _buffer.resize(total);
418
1.09M
        for (size_t i = 0; i < total; ++i) {
419
1.09M
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
1.09M
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
1.09M
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
1.09M
        }
426
427
976
        if (LIKELY(read_count > 0)) {
428
976
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
976
        }
430
431
976
        *n = read_count;
432
976
        return Status::OK();
433
976
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
8
                          MutableColumnPtr& dst) override {
409
8
        DCHECK(_parsed);
410
8
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
8
        auto total = *n;
416
8
        auto read_count = 0;
417
8
        _buffer.resize(total);
418
16
        for (size_t i = 0; i < total; ++i) {
419
8
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
8
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
8
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
8
        }
426
427
8
        if (LIKELY(read_count > 0)) {
428
8
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
8
        }
430
431
8
        *n = read_count;
432
8
        return Status::OK();
433
8
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
188
                          MutableColumnPtr& dst) override {
409
188
        DCHECK(_parsed);
410
188
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
188
        auto total = *n;
416
188
        auto read_count = 0;
417
188
        _buffer.resize(total);
418
698
        for (size_t i = 0; i < total; ++i) {
419
510
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
510
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
510
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
510
        }
426
427
188
        if (LIKELY(read_count > 0)) {
428
188
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
188
        }
430
431
188
        *n = read_count;
432
188
        return Status::OK();
433
188
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
92
                          MutableColumnPtr& dst) override {
409
92
        DCHECK(_parsed);
410
92
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
92
        auto total = *n;
416
92
        auto read_count = 0;
417
92
        _buffer.resize(total);
418
12.7k
        for (size_t i = 0; i < total; ++i) {
419
12.6k
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
12.6k
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
12.6k
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
12.6k
        }
426
427
92
        if (LIKELY(read_count > 0)) {
428
92
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
92
        }
430
431
92
        *n = read_count;
432
92
        return Status::OK();
433
92
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
2
                          MutableColumnPtr& dst) override {
409
2
        DCHECK(_parsed);
410
2
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
2
        auto total = *n;
416
2
        auto read_count = 0;
417
2
        _buffer.resize(total);
418
4
        for (size_t i = 0; i < total; ++i) {
419
2
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
2
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
2
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
2
        }
426
427
2
        if (LIKELY(read_count > 0)) {
428
2
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
2
        }
430
431
2
        *n = read_count;
432
2
        return Status::OK();
433
2
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
10
                          MutableColumnPtr& dst) override {
409
10
        DCHECK(_parsed);
410
10
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
10
        auto total = *n;
416
10
        auto read_count = 0;
417
10
        _buffer.resize(total);
418
22
        for (size_t i = 0; i < total; ++i) {
419
12
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
12
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
12
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
12
        }
426
427
10
        if (LIKELY(read_count > 0)) {
428
10
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
10
        }
430
431
10
        *n = read_count;
432
10
        return Status::OK();
433
10
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
2
                          MutableColumnPtr& dst) override {
409
2
        DCHECK(_parsed);
410
2
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
2
        auto total = *n;
416
2
        auto read_count = 0;
417
2
        _buffer.resize(total);
418
4
        for (size_t i = 0; i < total; ++i) {
419
2
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
2
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
2
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
2
        }
426
427
2
        if (LIKELY(read_count > 0)) {
428
2
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
2
        }
430
431
2
        *n = read_count;
432
2
        return Status::OK();
433
2
    }
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Line
Count
Source
408
8
                          MutableColumnPtr& dst) override {
409
8
        DCHECK(_parsed);
410
8
        if (*n == 0) [[unlikely]] {
411
0
            *n = 0;
412
0
            return Status::OK();
413
0
        }
414
415
8
        auto total = *n;
416
8
        auto read_count = 0;
417
8
        _buffer.resize(total);
418
16
        for (size_t i = 0; i < total; ++i) {
419
8
            ordinal_t ord = rowids[i] - page_first_ordinal;
420
8
            if (UNLIKELY(ord >= _num_elements)) {
421
0
                break;
422
0
            }
423
424
8
            _buffer[read_count++] = *reinterpret_cast<CppType*>(get_data(ord));
425
8
        }
426
427
8
        if (LIKELY(read_count > 0)) {
428
8
            dst->insert_many_fix_len_data((char*)_buffer.data(), read_count);
429
8
        }
430
431
8
        *n = read_count;
432
8
        return Status::OK();
433
8
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE14read_by_rowidsEPKjmPmRNS_3COWINS_7IColumnEE11mutable_ptrIS8_EE
434
435
610
    Status peek_next_batch(size_t* n, MutableColumnPtr& dst) override {
436
610
        return next_batch<false>(n, dst);
437
610
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
_ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Line
Count
Source
435
610
    Status peek_next_batch(size_t* n, MutableColumnPtr& dst) override {
436
610
        return next_batch<false>(n, dst);
437
610
    }
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
Unexecuted instantiation: _ZN5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE15peek_next_batchEPmRNS_3COWINS_7IColumnEE11mutable_ptrIS6_EE
438
439
8
    size_t count() const override { return _num_elements; }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE5countEv
Line
Count
Source
439
8
    size_t count() const override { return _num_elements; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE5countEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE5countEv
440
441
1.47k
    size_t current_index() const override { return _cur_index; }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE13current_indexEv
Line
Count
Source
441
768
    size_t current_index() const override { return _cur_index; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE13current_indexEv
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE13current_indexEv
Line
Count
Source
441
704
    size_t current_index() const override { return _cur_index; }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE13current_indexEv
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE13current_indexEv
442
443
6.69M
    char* get_data(size_t index) const {
444
6.69M
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
6.69M
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE5EE8get_dataEm
Line
Count
Source
443
5.57M
    char* get_data(size_t index) const {
444
5.57M
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
5.57M
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE1EE8get_dataEm
Line
Count
Source
443
1.09M
    char* get_data(size_t index) const {
444
1.09M
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
1.09M
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE3EE8get_dataEm
Line
Count
Source
443
10
    char* get_data(size_t index) const {
444
10
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
10
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE7EE8get_dataEm
Line
Count
Source
443
12.6k
    char* get_data(size_t index) const {
444
12.6k
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
12.6k
    }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE9EE8get_dataEm
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE8EE8get_dataEm
Line
Count
Source
443
13.8k
    char* get_data(size_t index) const {
444
13.8k
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
13.8k
    }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE6EE8get_dataEm
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE10EE8get_dataEm
Line
Count
Source
443
2
    char* get_data(size_t index) const {
444
2
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
2
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE11EE8get_dataEm
Line
Count
Source
443
2
    char* get_data(size_t index) const {
444
2
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
2
    }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE24EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE14EE8get_dataEm
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE28EE8get_dataEm
Line
Count
Source
443
14
    char* get_data(size_t index) const {
444
14
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
14
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE29EE8get_dataEm
Line
Count
Source
443
2
    char* get_data(size_t index) const {
444
2
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
2
    }
_ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE15EE8get_dataEm
Line
Count
Source
443
10
    char* get_data(size_t index) const {
444
10
        return &_data.data[BITSHUFFLE_PAGE_HEADER_SIZE + index * SIZE_OF_TYPE];
445
10
    }
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE40EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE16EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE31EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE32EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE33EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE37EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE38EE8get_dataEm
Unexecuted instantiation: _ZNK5doris10segment_v221BitShufflePageDecoderILNS_9FieldTypeE39EE8get_dataEm
446
447
private:
448
    void _copy_next_values(size_t n, void* data) {
449
        memcpy(data, get_data(_cur_index), n * SIZE_OF_TYPE);
450
    }
451
452
    using CppType = typename TypeTraits<Type>::CppType;
453
454
    enum { SIZE_OF_TYPE = TypeTraits<Type>::size };
455
456
    Slice _data;
457
    PageDecoderOptions _options;
458
    bool _parsed;
459
    size_t _num_elements;
460
    size_t _num_element_after_padding;
461
462
    int _size_of_element;
463
    size_t _cur_index;
464
465
    std::vector<std::conditional_t<std::is_same_v<CppType, bool>, uint8_t, CppType>> _buffer;
466
467
    friend class BinaryDictPageDecoder;
468
};
469
470
} // namespace segment_v2
471
} // namespace doris