Coverage Report

Created: 2024-11-21 21:13

/root/doris/be/src/vec/exprs/vexpr.h
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#pragma once
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#include <gen_cpp/Exprs_types.h>
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#include <gen_cpp/Opcodes_types.h>
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#include <gen_cpp/Types_types.h>
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#include <glog/logging.h>
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#include <cstddef>
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#include <cstdint>
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#include <memory>
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#include <ostream>
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#include <string>
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#include <utility>
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#include <vector>
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#include "common/status.h"
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#include "olap/rowset/segment_v2/inverted_index_reader.h"
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#include "runtime/define_primitive_type.h"
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#include "runtime/large_int_value.h"
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#include "runtime/types.h"
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#include "udf/udf.h"
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#include "vec/aggregate_functions/aggregate_function.h"
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#include "vec/columns/column.h"
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#include "vec/core/block.h"
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#include "vec/core/column_with_type_and_name.h"
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#include "vec/core/types.h"
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#include "vec/core/wide_integer.h"
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#include "vec/data_types/data_type.h"
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#include "vec/data_types/data_type_ipv6.h"
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#include "vec/exprs/vexpr_fwd.h"
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#include "vec/functions/function.h"
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namespace doris {
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class BitmapFilterFuncBase;
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class BloomFilterFuncBase;
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class HybridSetBase;
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class ObjectPool;
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class RowDescriptor;
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class RuntimeState;
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namespace vectorized {
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#include "common/compile_check_begin.h"
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#define RETURN_IF_ERROR_OR_PREPARED(stmt) \
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12
    if (_prepared) {                      \
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0
        return Status::OK();              \
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0
    }                                     \
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    _prepared = true;                     \
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    RETURN_IF_ERROR(stmt);
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// VExpr should be used as shared pointer because it will be passed between classes
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// like runtime filter to scan node, or from scannode to scanner. We could not make sure
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// the relatioinship between threads and classes.
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class VExpr {
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public:
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    // resize inserted param column to make sure column size equal to block.rows() and return param column index
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    // keep return type same with block::columns()
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14
    static uint32_t insert_param(Block* block, ColumnWithTypeAndName&& elem, size_t size) {
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        // usually elem.column always is const column, so we just clone it.
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14
        elem.column = elem.column->clone_resized(size);
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        block->insert(std::move(elem));
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        // just inserted. so no need to check underflow.
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        return block->columns() - 1;
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    }
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    static bool is_acting_on_a_slot(const VExpr& expr);
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    VExpr(const TExprNode& node);
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    VExpr(const VExpr& vexpr);
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    VExpr(TypeDescriptor type, bool is_slotref, bool is_nullable);
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    // only used for test
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    VExpr() = default;
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    virtual ~VExpr() = default;
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    virtual const std::string& expr_name() const = 0;
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0
    virtual std::string expr_label() { return ""; }
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    /// Initializes this expr instance for execution. This does not include initializing
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    /// state in the VExprContext; 'context' should only be used to register a
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    /// FunctionContext via RegisterFunctionContext().
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    ///
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    /// Subclasses overriding this function should call VExpr::Prepare() to recursively call
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    /// Prepare() on the expr tree
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    /// row_desc used in vslot_ref and some subclass to specify column
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    virtual Status prepare(RuntimeState* state, const RowDescriptor& row_desc,
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                           VExprContext* context);
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    /// Initializes 'context' for execution. If scope if FRAGMENT_LOCAL, both fragment- and
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    /// thread-local state should be initialized. Otherwise, if scope is THREAD_LOCAL, only
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    /// thread-local state should be initialized.
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    //
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    /// Subclasses overriding this function should call VExpr::Open() to recursively call
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    /// Open() on the expr tree
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    virtual Status open(RuntimeState* state, VExprContext* context,
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                        FunctionContext::FunctionStateScope scope);
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    // before execute, check if expr has been parepared+opened.
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0
    [[maybe_unused]] Status ready_status() const {
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0
        if (_prepare_finished && _open_finished) {
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0
            return Status::OK();
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0
        }
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0
        return Status::InternalError(expr_name() + " is not ready when execute");
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0
    }
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    virtual Status execute(VExprContext* context, Block* block, int* result_column_id) = 0;
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    // execute current expr with inverted index to filter block. Given a roaring bitmap of match rows
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0
    virtual Status evaluate_inverted_index(VExprContext* context, uint32_t segment_num_rows) {
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0
        return Status::OK();
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0
    }
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    Status _evaluate_inverted_index(VExprContext* context, const FunctionBasePtr& function,
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                                    uint32_t segment_num_rows);
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    // Only the 4th parameter is used in the runtime filter. In and MinMax need overwrite the
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    // interface
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    virtual Status execute_runtime_fitler(VExprContext* context, Block* block,
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0
                                          int* result_column_id, ColumnNumbers& args) {
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0
        return execute(context, block, result_column_id);
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0
    };
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    /// Subclasses overriding this function should call VExpr::Close().
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    //
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    /// If scope if FRAGMENT_LOCAL, both fragment- and thread-local state should be torn
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    /// down. Otherwise, if scope is THREAD_LOCAL, only thread-local state should be torn
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    /// down.
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    virtual void close(VExprContext* context, FunctionContext::FunctionStateScope scope);
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    DataTypePtr& data_type() { return _data_type; }
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    TypeDescriptor type() { return _type; }
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0
    bool is_slot_ref() const { return _node_type == TExprNodeType::SLOT_REF; }
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0
    virtual bool is_literal() const { return false; }
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0
    TExprNodeType::type node_type() const { return _node_type; }
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    TExprOpcode::type op() const { return _opcode; }
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    void add_child(const VExprSPtr& expr) { _children.push_back(expr); }
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    VExprSPtr get_child(uint16_t i) const { return _children[i]; }
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    // Expr's children number is restricted by org.apache.doris.common.Config#expr_children_limit, 10000 default. and strongly not recommend to change.
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    // There's little to worry about it. uint16 is enough.
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0
    uint16_t get_num_children() const { return static_cast<uint16_t>(_children.size()); }
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0
    virtual bool is_rf_wrapper() const {
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0
        return std::ranges::any_of(_children.begin(), _children.end(),
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0
                                   [](VExprSPtr child) { return child->is_rf_wrapper(); });
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0
    }
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0
    virtual void do_judge_selectivity(uint64_t filter_rows, uint64_t input_rows) {
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0
        for (auto child : _children) {
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0
            child->do_judge_selectivity(filter_rows, input_rows);
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0
        }
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0
    }
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    static Status create_expr_tree(const TExpr& texpr, VExprContextSPtr& ctx);
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    static Status create_expr_trees(const std::vector<TExpr>& texprs, VExprContextSPtrs& ctxs);
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    static Status prepare(const VExprContextSPtrs& ctxs, RuntimeState* state,
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                          const RowDescriptor& row_desc);
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    static Status open(const VExprContextSPtrs& ctxs, RuntimeState* state);
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    static Status clone_if_not_exists(const VExprContextSPtrs& ctxs, RuntimeState* state,
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                                      VExprContextSPtrs& new_ctxs);
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0
    bool is_nullable() const { return _data_type->is_nullable(); }
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0
    PrimitiveType result_type() const { return _type.type; }
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    static Status create_expr(const TExprNode& expr_node, VExprSPtr& expr);
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    static Status create_tree_from_thrift(const std::vector<TExprNode>& nodes, int* node_idx,
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                                          VExprSPtr& root_expr, VExprContextSPtr& ctx);
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    static Status check_expr_output_type(const VExprContextSPtrs& ctxs,
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                                         const RowDescriptor& output_row_desc);
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    virtual const VExprSPtrs& children() const { return _children; }
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0
    void set_children(const VExprSPtrs& children) { _children = children; }
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0
    void set_children(VExprSPtrs&& children) { _children = std::move(children); }
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    virtual std::string debug_string() const;
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    static std::string debug_string(const VExprSPtrs& exprs);
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    static std::string debug_string(const VExprContextSPtrs& ctxs);
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0
    void set_getting_const_col(bool val = true) { _getting_const_col = val; }
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0
    bool is_and_expr() const { return _fn.name.function_name == "and"; }
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0
    virtual bool is_compound_predicate() const { return false; }
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0
    const TFunction& fn() const { return _fn; }
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    /// Returns true if expr doesn't contain slotrefs, i.e., can be evaluated
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    /// with get_value(NULL). The default implementation returns true if all of
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    /// the children are constant.
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    virtual bool is_constant() const;
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    /// If this expr is constant, evaluates the expr with no input row argument and returns
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    /// the output. Returns nullptr if the argument is not constant. The returned ColumnPtr is
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    /// owned by this expr. This should only be called after Open() has been called on this
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    /// expr.
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    Status get_const_col(VExprContext* context, std::shared_ptr<ColumnPtrWrapper>* column_wrapper);
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    int fn_context_index() const { return _fn_context_index; }
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0
    static VExprSPtr expr_without_cast(const VExprSPtr& expr) {
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0
        if (expr->node_type() == TExprNodeType::CAST_EXPR) {
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0
            return expr_without_cast(expr->_children[0]);
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0
        }
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        return expr;
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0
    }
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    // If this expr is a RuntimeFilterWrapper, this method will return an underlying rf expression
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0
    virtual VExprSPtr get_impl() const { return {}; }
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    // If this expr is a BloomPredicate, this method will return a BloomFilterFunc
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0
    virtual std::shared_ptr<BloomFilterFuncBase> get_bloom_filter_func() const {
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0
        LOG(FATAL) << "Method 'get_bloom_filter_func()' is not supported in expression: "
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0
                   << this->debug_string();
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0
        return nullptr;
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0
    }
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    virtual std::shared_ptr<HybridSetBase> get_set_func() const { return nullptr; }
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    // If this expr is a BitmapPredicate, this method will return a BitmapFilterFunc
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0
    virtual std::shared_ptr<BitmapFilterFuncBase> get_bitmap_filter_func() const {
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0
        LOG(FATAL) << "Method 'get_bitmap_filter_func()' is not supported in expression: "
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0
                   << this->debug_string();
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0
        return nullptr;
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0
    }
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    // fast_execute can direct copy expr filter result which build by apply index in segment_iterator
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    bool fast_execute(doris::vectorized::VExprContext* context, doris::vectorized::Block* block,
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                      int* result_column_id);
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0
    virtual bool can_push_down_to_index() const { return false; }
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    virtual bool equals(const VExpr& other);
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0
    void set_index_unique_id(uint32_t index_unique_id) { _index_unique_id = index_unique_id; }
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0
    uint32_t index_unique_id() const { return _index_unique_id; }
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protected:
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    /// Simple debug string that provides no expr subclass-specific information
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0
    std::string debug_string(const std::string& expr_name) const {
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0
        std::stringstream out;
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        out << expr_name << "(" << VExpr::debug_string() << ")";
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0
        return out.str();
266
0
    }
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2
    std::string get_child_names() {
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2
        std::string res;
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2
        for (auto child : _children) {
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2
            if (!res.empty()) {
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0
                res += ", ";
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0
            }
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2
            res += child->expr_name();
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2
        }
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2
        return res;
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2
    }
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0
    bool is_const_and_have_executed() { return (is_constant() && (_constant_col != nullptr)); }
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    Status get_result_from_const(vectorized::Block* block, const std::string& expr_name,
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                                 int* result_column_id);
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    Status check_constant(const Block& block, ColumnNumbers arguments) const;
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    /// Helper function that calls ctx->register(), sets fn_context_index_, and returns the
287
    /// registered FunctionContext
288
    void register_function_context(RuntimeState* state, VExprContext* context);
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    /// Helper function to initialize function context, called in `open` phase of VExpr:
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    /// 1. Set constant columns result of function arguments.
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    /// 2. Call function's prepare() to initialize function state, fragment-local or
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    /// thread-local according the input `FunctionStateScope` argument.
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    Status init_function_context(RuntimeState* state, VExprContext* context,
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                                 FunctionContext::FunctionStateScope scope,
296
                                 const FunctionBasePtr& function) const;
297
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    /// Helper function to close function context, fragment-local or thread-local according
299
    /// the input `FunctionStateScope` argument. Called in `close` phase of VExpr.
300
    void close_function_context(VExprContext* context, FunctionContext::FunctionStateScope scope,
301
                                const FunctionBasePtr& function) const;
302
303
    TExprNodeType::type _node_type;
304
    // Used to check what opcode
305
    TExprOpcode::type _opcode;
306
    TypeDescriptor _type;
307
    DataTypePtr _data_type;
308
    VExprSPtrs _children; // in few hundreds
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    TFunction _fn;
310
311
    /// Index to pass to ExprContext::fn_context() to retrieve this expr's FunctionContext.
312
    /// Set in RegisterFunctionContext(). -1 if this expr does not need a FunctionContext and
313
    /// doesn't call RegisterFunctionContext().
314
    int _fn_context_index = -1;
315
316
    // If this expr is constant, this will store and cache the value generated by
317
    // get_const_col()
318
    std::shared_ptr<ColumnPtrWrapper> _constant_col;
319
    bool _prepared = false; // for base class VExpr
320
    bool _getting_const_col =
321
            false; // if true, current execute() is in prepare() (that is, can't check _prepared)
322
    // for concrete classes
323
    bool _prepare_finished = false;
324
    bool _open_finished = false;
325
326
    // ensuring uniqueness during index traversal
327
    uint32_t _index_unique_id = 0;
328
    bool _can_fast_execute = false;
329
    bool _enable_inverted_index_query = true;
330
};
331
332
} // namespace vectorized
333
334
// NOLINTBEGIN(readability-function-size)
335
template <PrimitiveType T>
336
Status create_texpr_literal_node(const void* data, TExprNode* node, int precision = 0,
337
0
                                 int scale = 0) {
338
0
    if constexpr (T == TYPE_BOOLEAN) {
339
0
        const auto* origin_value = reinterpret_cast<const bool*>(data);
340
0
        TBoolLiteral boolLiteral;
341
0
        (*node).__set_node_type(TExprNodeType::BOOL_LITERAL);
342
0
        boolLiteral.__set_value(*origin_value);
343
0
        (*node).__set_bool_literal(boolLiteral);
344
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
345
0
    } else if constexpr (T == TYPE_TINYINT) {
346
0
        const auto* origin_value = reinterpret_cast<const int8_t*>(data);
347
0
        (*node).__set_node_type(TExprNodeType::INT_LITERAL);
348
0
        TIntLiteral intLiteral;
349
0
        intLiteral.__set_value(*origin_value);
350
0
        (*node).__set_int_literal(intLiteral);
351
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_TINYINT));
352
0
    } else if constexpr (T == TYPE_SMALLINT) {
353
0
        const auto* origin_value = reinterpret_cast<const int16_t*>(data);
354
0
        (*node).__set_node_type(TExprNodeType::INT_LITERAL);
355
0
        TIntLiteral intLiteral;
356
0
        intLiteral.__set_value(*origin_value);
357
0
        (*node).__set_int_literal(intLiteral);
358
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_SMALLINT));
359
0
    } else if constexpr (T == TYPE_INT) {
360
0
        const auto* origin_value = reinterpret_cast<const int32_t*>(data);
361
0
        (*node).__set_node_type(TExprNodeType::INT_LITERAL);
362
0
        TIntLiteral intLiteral;
363
0
        intLiteral.__set_value(*origin_value);
364
0
        (*node).__set_int_literal(intLiteral);
365
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_INT));
366
0
    } else if constexpr (T == TYPE_BIGINT) {
367
0
        const auto* origin_value = reinterpret_cast<const int64_t*>(data);
368
0
        (*node).__set_node_type(TExprNodeType::INT_LITERAL);
369
0
        TIntLiteral intLiteral;
370
0
        intLiteral.__set_value(*origin_value);
371
0
        (*node).__set_int_literal(intLiteral);
372
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_BIGINT));
373
0
    } else if constexpr (T == TYPE_LARGEINT) {
374
0
        const auto* origin_value = reinterpret_cast<const int128_t*>(data);
375
0
        (*node).__set_node_type(TExprNodeType::LARGE_INT_LITERAL);
376
0
        TLargeIntLiteral large_int_literal;
377
0
        large_int_literal.__set_value(LargeIntValue::to_string(*origin_value));
378
0
        (*node).__set_large_int_literal(large_int_literal);
379
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_LARGEINT));
380
0
    } else if constexpr ((T == TYPE_DATE) || (T == TYPE_DATETIME) || (T == TYPE_TIMEV2)) {
381
0
        const auto* origin_value = reinterpret_cast<const VecDateTimeValue*>(data);
382
0
        TDateLiteral date_literal;
383
0
        char convert_buffer[30];
384
0
        origin_value->to_string(convert_buffer);
385
0
        date_literal.__set_value(convert_buffer);
386
0
        (*node).__set_date_literal(date_literal);
387
0
        (*node).__set_node_type(TExprNodeType::DATE_LITERAL);
388
0
        if (origin_value->type() == TimeType::TIME_DATE) {
389
0
            (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DATE));
390
0
        } else if (origin_value->type() == TimeType::TIME_DATETIME) {
391
0
            (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DATETIME));
392
0
        } else if (origin_value->type() == TimeType::TIME_TIME) {
393
0
            (*node).__set_type(create_type_desc(PrimitiveType::TYPE_TIMEV2));
394
0
        }
395
0
    } else if constexpr (T == TYPE_DATEV2) {
396
0
        const auto* origin_value = reinterpret_cast<const DateV2Value<DateV2ValueType>*>(data);
397
0
        TDateLiteral date_literal;
398
0
        char convert_buffer[30];
399
0
        origin_value->to_string(convert_buffer);
400
0
        date_literal.__set_value(convert_buffer);
401
0
        (*node).__set_date_literal(date_literal);
402
0
        (*node).__set_node_type(TExprNodeType::DATE_LITERAL);
403
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DATEV2));
404
0
    } else if constexpr (T == TYPE_DATETIMEV2) {
405
0
        const auto* origin_value = reinterpret_cast<const DateV2Value<DateTimeV2ValueType>*>(data);
406
0
        TDateLiteral date_literal;
407
0
        char convert_buffer[30];
408
0
        origin_value->to_string(convert_buffer, scale);
409
0
        date_literal.__set_value(convert_buffer);
410
0
        (*node).__set_date_literal(date_literal);
411
0
        (*node).__set_node_type(TExprNodeType::DATE_LITERAL);
412
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DATETIMEV2, precision, scale));
413
0
    } else if constexpr (T == TYPE_DECIMALV2) {
414
0
        const auto* origin_value = reinterpret_cast<const DecimalV2Value*>(data);
415
0
        (*node).__set_node_type(TExprNodeType::DECIMAL_LITERAL);
416
0
        TDecimalLiteral decimal_literal;
417
0
        decimal_literal.__set_value(origin_value->to_string());
418
0
        (*node).__set_decimal_literal(decimal_literal);
419
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DECIMALV2, precision, scale));
420
0
    } else if constexpr (T == TYPE_DECIMAL32) {
421
0
        const auto* origin_value = reinterpret_cast<const vectorized::Decimal<int32_t>*>(data);
422
0
        (*node).__set_node_type(TExprNodeType::DECIMAL_LITERAL);
423
0
        TDecimalLiteral decimal_literal;
424
0
        decimal_literal.__set_value(origin_value->to_string(precision, scale));
425
0
        (*node).__set_decimal_literal(decimal_literal);
426
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DECIMAL32, precision, scale));
427
0
    } else if constexpr (T == TYPE_DECIMAL64) {
428
0
        const auto* origin_value = reinterpret_cast<const vectorized::Decimal<int64_t>*>(data);
429
0
        (*node).__set_node_type(TExprNodeType::DECIMAL_LITERAL);
430
0
        TDecimalLiteral decimal_literal;
431
0
        decimal_literal.__set_value(origin_value->to_string(precision, scale));
432
0
        (*node).__set_decimal_literal(decimal_literal);
433
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DECIMAL64, precision, scale));
434
0
    } else if constexpr (T == TYPE_DECIMAL128I) {
435
0
        const auto* origin_value = reinterpret_cast<const vectorized::Decimal<int128_t>*>(data);
436
0
        (*node).__set_node_type(TExprNodeType::DECIMAL_LITERAL);
437
0
        TDecimalLiteral decimal_literal;
438
        // e.g. For a decimal(26,6) column, the initial value of the _min of the MinMax RF
439
        // on the RF producer side is an int128 value with 38 digits of 9, and this is the
440
        // final min value of the MinMax RF if the fragment instance has no data.
441
        // Need to truncate the value to the right precision and scale here, to avoid
442
        // error when casting string back to decimal later.
443
        // TODO: this is a temporary solution, the best solution is to produce the
444
        // right min max value at the producer side.
445
0
        decimal_literal.__set_value(origin_value->to_string(precision, scale));
446
0
        (*node).__set_decimal_literal(decimal_literal);
447
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DECIMAL128I, precision, scale));
448
0
    } else if constexpr (T == TYPE_DECIMAL256) {
449
0
        const auto* origin_value = reinterpret_cast<const vectorized::Decimal<wide::Int256>*>(data);
450
0
        (*node).__set_node_type(TExprNodeType::DECIMAL_LITERAL);
451
0
        TDecimalLiteral decimal_literal;
452
0
        decimal_literal.__set_value(origin_value->to_string(precision, scale));
453
0
        (*node).__set_decimal_literal(decimal_literal);
454
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DECIMAL256, precision, scale));
455
0
    } else if constexpr (T == TYPE_FLOAT) {
456
0
        const auto* origin_value = reinterpret_cast<const float*>(data);
457
0
        (*node).__set_node_type(TExprNodeType::FLOAT_LITERAL);
458
0
        TFloatLiteral float_literal;
459
0
        float_literal.__set_value(*origin_value);
460
0
        (*node).__set_float_literal(float_literal);
461
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_FLOAT));
462
0
    } else if constexpr (T == TYPE_DOUBLE) {
463
0
        const auto* origin_value = reinterpret_cast<const double*>(data);
464
0
        (*node).__set_node_type(TExprNodeType::FLOAT_LITERAL);
465
0
        TFloatLiteral float_literal;
466
0
        float_literal.__set_value(*origin_value);
467
0
        (*node).__set_float_literal(float_literal);
468
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_DOUBLE));
469
0
    } else if constexpr ((T == TYPE_STRING) || (T == TYPE_CHAR) || (T == TYPE_VARCHAR)) {
470
0
        const auto* origin_value = reinterpret_cast<const std::string*>(data);
471
0
        (*node).__set_node_type(TExprNodeType::STRING_LITERAL);
472
0
        TStringLiteral string_literal;
473
0
        string_literal.__set_value(*origin_value);
474
0
        (*node).__set_string_literal(string_literal);
475
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_STRING));
476
0
    } else if constexpr (T == TYPE_IPV4) {
477
0
        const auto* origin_value = reinterpret_cast<const IPv4*>(data);
478
0
        (*node).__set_node_type(TExprNodeType::IPV4_LITERAL);
479
0
        TIPv4Literal literal;
480
0
        literal.__set_value(*origin_value);
481
0
        (*node).__set_ipv4_literal(literal);
482
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_IPV4));
483
0
    } else if constexpr (T == TYPE_IPV6) {
484
0
        const auto* origin_value = reinterpret_cast<const IPv6*>(data);
485
0
        (*node).__set_node_type(TExprNodeType::IPV6_LITERAL);
486
0
        TIPv6Literal literal;
487
0
        literal.__set_value(vectorized::DataTypeIPv6::to_string(*origin_value));
488
0
        (*node).__set_ipv6_literal(literal);
489
0
        (*node).__set_type(create_type_desc(PrimitiveType::TYPE_IPV6));
490
0
    } else {
491
0
        return Status::InvalidArgument("Invalid argument type!");
492
0
    }
493
0
    return Status::OK();
494
0
}
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE2EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE3EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE4EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE5EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE6EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE7EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE8EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE9EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE25EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE26EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE11EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE12EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE20EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE28EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE29EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE30EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE35EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE15EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE10EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE23EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE36EEENS_6StatusEPKvPNS_9TExprNodeEii
Unexecuted instantiation: _ZN5doris25create_texpr_literal_nodeILNS_13PrimitiveTypeE37EEENS_6StatusEPKvPNS_9TExprNodeEii
495
// NOLINTEND(readability-function-size)
496
497
TExprNode create_texpr_node_from(const void* data, const PrimitiveType& type, int precision = 0,
498
                                 int scale = 0);
499
500
#include "common/compile_check_end.h"
501
} // namespace doris