be/src/exprs/vtopn_pred.h

Source
// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements.  See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership.  The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License.  You may obtain a copy of the License at
//
//   http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied.  See the License for the
// specific language governing permissions and limitations
// under the License.

#pragma once

#include <gen_cpp/types.pb.h>

#include <utility>

#include "core/block/column_numbers.h"
#include "core/data_type/data_type.h"
#include "exec/common/util.hpp"
#include "exprs/function/simple_function_factory.h"
#include "exprs/vectorized_fn_call.h"
#include "exprs/vexpr.h"
#include "exprs/vslot_ref.h"
#include "runtime/query_context.h"
#include "runtime/runtime_predicate.h"
#include "runtime/runtime_state.h"

namespace doris {

// only used for dynamic topn filter
class VTopNPred : public VExpr {
    ENABLE_FACTORY_CREATOR(VTopNPred);

public:
    VTopNPred(const TExprNode& node, int source_node_id, VExprContextSPtr target_ctx)
            : VExpr(node),
              _source_node_id(source_node_id),
              _expr_name(fmt::format("VTopNPred(source_node_id={})", _source_node_id)),
              _target_ctx(std::move(target_ctx)) {}
    bool is_topn_filter() const override { return true; }

    static Status create_vtopn_pred(const TExpr& target_expr, int source_node_id, VExprSPtr& expr) {
        VExprContextSPtr target_ctx;
        RETURN_IF_ERROR(VExpr::create_expr_tree(target_expr, target_ctx));

        TExprNode node;
        node.__set_node_type(TExprNodeType::FUNCTION_CALL);
        node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
        node.__set_is_nullable(target_ctx->root()->is_nullable());
        expr = VTopNPred::create_shared(node, source_node_id, target_ctx);

        DCHECK(target_ctx->root() != nullptr);
        expr->add_child(target_ctx->root());

        return Status::OK();
    }

    int source_node_id() const { return _source_node_id; }
    Status clone_node(VExprSPtr* cloned_expr) const override {
        DORIS_CHECK(cloned_expr != nullptr);
        *cloned_expr = VTopNPred::create_shared(clone_texpr_node(), _source_node_id, nullptr);
        return Status::OK();
    }

    Status prepare(RuntimeState* state, const RowDescriptor& desc, VExprContext* context) override {
        _predicate = &state->get_query_ctx()->get_runtime_predicate(_source_node_id);
        RETURN_IF_ERROR_OR_PREPARED(VExpr::prepare(state, desc, context));

        ColumnsWithTypeAndName argument_template;
        argument_template.emplace_back(nullptr, _children[0]->data_type(),
                                       _children[0]->expr_name());
        argument_template.emplace_back(nullptr, _children[0]->data_type(), "topn value");

        _function = SimpleFunctionFactory::instance().get_function(
                _predicate->is_asc() ? "le" : "ge", argument_template, _data_type, {},
                state->be_exec_version());
        if (!_function) {
            return Status::InternalError("get function failed");
        }
        return Status::OK();
    }

    Status execute_column_impl(VExprContext* context, const Block* block, const Selector* selector,
                               size_t count, ColumnPtr& result_column) const override {
        if (!_predicate->has_value()) {
            result_column = create_always_true_column(count, _data_type->is_nullable());
            return Status::OK();
        }

        Block temp_block;

        // slot
        ColumnPtr slot_column;
        RETURN_IF_ERROR(_children[0]->execute_column(context, block, selector, count, slot_column));
        auto slot_type = _children[0]->execute_type(block);
        temp_block.insert({slot_column, slot_type, _children[0]->expr_name()});
        int slot_id = 0;

        // topn value
        Field field = _predicate->get_value();
        auto column_ptr = _children[0]->data_type()->create_column_const(1, field);
        int topn_value_id = VExpr::insert_param(&temp_block,
                                                {column_ptr, _children[0]->data_type(), _expr_name},
                                                std::max(count, column_ptr->size()));

        // if error(slot_id == -1), will return.
        ColumnNumbers arguments = {static_cast<uint32_t>(slot_id),
                                   static_cast<uint32_t>(topn_value_id)};

        uint32_t num_columns_without_result = temp_block.columns();
        // prepare a column to save result
        temp_block.insert({nullptr, _data_type, _expr_name});

        RETURN_IF_ERROR(_function->execute(nullptr, temp_block, arguments,
                                           num_columns_without_result, temp_block.rows()));
        result_column = std::move(temp_block.get_by_position(num_columns_without_result).column);
        if (is_nullable() && _predicate->nulls_first()) {
            // null values ​​are always not filtered
            result_column = change_null_to_true(std::move(result_column));
        }
        DCHECK_EQ(result_column->size(), count);
        return Status::OK();
    }

    const std::string& expr_name() const override { return _expr_name; }

    // only used in external table (for min-max filter). get `slot > xxx`, not `function(slot) > xxx`.
    bool get_binary_expr(VExprSPtr& new_root) const {
        if (!get_child(0)->is_slot_ref()) {
            // top rf maybe is `xxx order by abs(column) limit xxx`.
            return false;
        }

        if (!_predicate->has_value()) {
            return false;
        }

        auto* slot_ref = assert_cast<VSlotRef*>(get_child(0).get());
        auto slot_data_type = remove_nullable(slot_ref->data_type());
        {
            TFunction fn;
            TFunctionName fn_name;
            fn_name.__set_db_name("");
            fn_name.__set_function_name(_predicate->is_asc() ? "le" : "ge");
            fn.__set_name(fn_name);
            fn.__set_binary_type(TFunctionBinaryType::BUILTIN);
            std::vector<TTypeDesc> arg_types;
            arg_types.push_back(create_type_desc(slot_data_type->get_primitive_type(),
                                                 slot_data_type->get_precision(),
                                                 slot_data_type->get_scale()));

            arg_types.push_back(create_type_desc(slot_data_type->get_primitive_type(),
                                                 slot_data_type->get_precision(),
                                                 slot_data_type->get_scale()));
            fn.__set_arg_types(arg_types);
            fn.__set_ret_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
            fn.__set_has_var_args(false);

            TExprNode texpr_node;
            texpr_node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
            texpr_node.__set_node_type(TExprNodeType::BINARY_PRED);
            texpr_node.__set_opcode(_predicate->is_asc() ? TExprOpcode::LE : TExprOpcode::GE);
            texpr_node.__set_fn(fn);
            texpr_node.__set_num_children(2);
            texpr_node.__set_is_nullable(is_nullable());
            new_root = VectorizedFnCall::create_shared(texpr_node);
        }

        {
            // add slot
            new_root->add_child(children().at(0));
        }
        // add Literal
        {
            Field field = _predicate->get_value();
            TExprNode node = create_texpr_node_from(field, slot_data_type->get_primitive_type(),
                                                    slot_data_type->get_precision(),
                                                    slot_data_type->get_scale());
            new_root->add_child(VLiteral::create_shared(node));
        }

        // Since the normal greater than or less than relationship does not consider the relationship of null values, the generated `col >=/<= xxx OR col is null.`
        if (_predicate->nulls_first()) {
            VExprSPtr col_is_null_node;
            {
                TFunction fn;
                TFunctionName fn_name;
                fn_name.__set_db_name("");
                fn_name.__set_function_name("is_null_pred");
                fn.__set_name(fn_name);
                fn.__set_binary_type(TFunctionBinaryType::BUILTIN);
                std::vector<TTypeDesc> arg_types;
                arg_types.push_back(create_type_desc(slot_data_type->get_primitive_type(),
                                                     slot_data_type->get_precision(),
                                                     slot_data_type->get_scale()));
                fn.__set_arg_types(arg_types);
                fn.__set_ret_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
                fn.__set_has_var_args(false);

                TExprNode texpr_node;
                texpr_node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
                texpr_node.__set_node_type(TExprNodeType::FUNCTION_CALL);
                texpr_node.__set_fn(fn);
                texpr_node.__set_num_children(1);
                col_is_null_node = VectorizedFnCall::create_shared(texpr_node);

                // add slot.
                col_is_null_node->add_child(children().at(0));
            }

            VExprSPtr or_node;
            {
                TExprNode texpr_node;
                texpr_node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
                texpr_node.__set_node_type(TExprNodeType::COMPOUND_PRED);
                texpr_node.__set_opcode(TExprOpcode::COMPOUND_OR);
                texpr_node.__set_num_children(2);
                or_node = VectorizedFnCall::create_shared(texpr_node);
            }

            or_node->add_child(col_is_null_node);
            or_node->add_child(new_root);
            new_root = or_node;
        }

        return true;
    }

private:
    int _source_node_id;
    std::string _expr_name;
    RuntimePredicate* _predicate = nullptr;
    FunctionBasePtr _function;
    VExprContextSPtr _target_ctx;
};

} // namespace doris

Coverage Report

Created: 2026-06-25 12:50

Line	Count	Source
1		// Licensed to the Apache Software Foundation (ASF) under one
2		// or more contributor license agreements. See the NOTICE file
3		// 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
7		// with the License. You may obtain a copy of the License at
8		//
9		// http://www.apache.org/licenses/LICENSE-2.0
10		//
11		// Unless required by applicable law or agreed to in writing,
12		// software distributed under the License is distributed on an
13		// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
14		// KIND, either express or implied. See the License for the
15		// specific language governing permissions and limitations
16		// under the License.
17
18		#pragma once
19
20		#include <gen_cpp/types.pb.h>
21
22		#include <utility>
23
24		#include "core/block/column_numbers.h"
25		#include "core/data_type/data_type.h"
26		#include "exec/common/util.hpp"
27		#include "exprs/function/simple_function_factory.h"
28		#include "exprs/vectorized_fn_call.h"
29		#include "exprs/vexpr.h"
30		#include "exprs/vslot_ref.h"
31		#include "runtime/query_context.h"
32		#include "runtime/runtime_predicate.h"
33		#include "runtime/runtime_state.h"
34
35		namespace doris {
36
37		// only used for dynamic topn filter
38		class VTopNPred : public VExpr {
39		ENABLE_FACTORY_CREATOR(VTopNPred);
40
41		public:
42		VTopNPred(const TExprNode& node, int source_node_id, VExprContextSPtr target_ctx)
43	0	: VExpr(node),
44	0	_source_node_id(source_node_id),
45	0	_expr_name(fmt::format("VTopNPred(source_node_id={})", _source_node_id)),
46	0	_target_ctx(std::move(target_ctx)) {}
47	0	bool is_topn_filter() const override { return true; }
48
49	0	static Status create_vtopn_pred(const TExpr& target_expr, int source_node_id, VExprSPtr& expr) {
50	0	VExprContextSPtr target_ctx;
51	0	RETURN_IF_ERROR(VExpr::create_expr_tree(target_expr, target_ctx));
52
53	0	TExprNode node;
54	0	node.__set_node_type(TExprNodeType::FUNCTION_CALL);
55	0	node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
56	0	node.__set_is_nullable(target_ctx->root()->is_nullable());
57	0	expr = VTopNPred::create_shared(node, source_node_id, target_ctx);
58
59	0	DCHECK(target_ctx->root() != nullptr);
60	0	expr->add_child(target_ctx->root());
61
62	0	return Status::OK();
63	0	}
64
65	0	int source_node_id() const { return _source_node_id; }
66	0	Status clone_node(VExprSPtr* cloned_expr) const override {
67	0	DORIS_CHECK(cloned_expr != nullptr);
68	0	*cloned_expr = VTopNPred::create_shared(clone_texpr_node(), _source_node_id, nullptr);
69	0	return Status::OK();
70	0	}
71
72	0	Status prepare(RuntimeState* state, const RowDescriptor& desc, VExprContext* context) override {
73	0	_predicate = &state->get_query_ctx()->get_runtime_predicate(_source_node_id);
74	0	RETURN_IF_ERROR_OR_PREPARED(VExpr::prepare(state, desc, context));
75
76	0	ColumnsWithTypeAndName argument_template;
77	0	argument_template.emplace_back(nullptr, _children[0]->data_type(),
78	0	_children[0]->expr_name());
79	0	argument_template.emplace_back(nullptr, _children[0]->data_type(), "topn value");
80
81	0	_function = SimpleFunctionFactory::instance().get_function(
82	0	_predicate->is_asc() ? "le" : "ge", argument_template, _data_type, {},
83	0	state->be_exec_version());
84	0	if (!_function) {
85	0	return Status::InternalError("get function failed");
86	0	}
87	0	return Status::OK();
88	0	}
89
90		Status execute_column_impl(VExprContext* context, const Block* block, const Selector* selector,
91	0	size_t count, ColumnPtr& result_column) const override {
92	0	if (!_predicate->has_value()) {
93	0	result_column = create_always_true_column(count, _data_type->is_nullable());
94	0	return Status::OK();
95	0	}
96
97	0	Block temp_block;
98
99		// slot
100	0	ColumnPtr slot_column;
101	0	RETURN_IF_ERROR(_children[0]->execute_column(context, block, selector, count, slot_column));
102	0	auto slot_type = _children[0]->execute_type(block);
103	0	temp_block.insert({slot_column, slot_type, _children[0]->expr_name()});
104	0	int slot_id = 0;
105
106		// topn value
107	0	Field field = _predicate->get_value();
108	0	auto column_ptr = _children[0]->data_type()->create_column_const(1, field);
109	0	int topn_value_id = VExpr::insert_param(&temp_block,
110	0	{column_ptr, _children[0]->data_type(), _expr_name},
111	0	std::max(count, column_ptr->size()));
112
113		// if error(slot_id == -1), will return.
114	0	ColumnNumbers arguments = {static_cast<uint32_t>(slot_id),
115	0	static_cast<uint32_t>(topn_value_id)};
116
117	0	uint32_t num_columns_without_result = temp_block.columns();
118		// prepare a column to save result
119	0	temp_block.insert({nullptr, _data_type, _expr_name});
120
121	0	RETURN_IF_ERROR(_function->execute(nullptr, temp_block, arguments,
122	0	num_columns_without_result, temp_block.rows()));
123	0	result_column = std::move(temp_block.get_by_position(num_columns_without_result).column);
124	0	if (is_nullable() && _predicate->nulls_first()) {
125		// null values are always not filtered
126	0	result_column = change_null_to_true(std::move(result_column));
127	0	}
128	0	DCHECK_EQ(result_column->size(), count);
129	0	return Status::OK();
130	0	}
131
132	0	const std::string& expr_name() const override { return _expr_name; }
133
134		// only used in external table (for min-max filter). get `slot > xxx`, not `function(slot) > xxx`.
135	0	bool get_binary_expr(VExprSPtr& new_root) const {
136	0	if (!get_child(0)->is_slot_ref()) {
137		// top rf maybe is `xxx order by abs(column) limit xxx`.
138	0	return false;
139	0	}
140
141	0	if (!_predicate->has_value()) {
142	0	return false;
143	0	}
144
145	0	auto* slot_ref = assert_cast<VSlotRef*>(get_child(0).get());
146	0	auto slot_data_type = remove_nullable(slot_ref->data_type());
147	0	{
148	0	TFunction fn;
149	0	TFunctionName fn_name;
150	0	fn_name.__set_db_name("");
151	0	fn_name.__set_function_name(_predicate->is_asc() ? "le" : "ge");
152	0	fn.__set_name(fn_name);
153	0	fn.__set_binary_type(TFunctionBinaryType::BUILTIN);
154	0	std::vector<TTypeDesc> arg_types;
155	0	arg_types.push_back(create_type_desc(slot_data_type->get_primitive_type(),
156	0	slot_data_type->get_precision(),
157	0	slot_data_type->get_scale()));
158
159	0	arg_types.push_back(create_type_desc(slot_data_type->get_primitive_type(),
160	0	slot_data_type->get_precision(),
161	0	slot_data_type->get_scale()));
162	0	fn.__set_arg_types(arg_types);
163	0	fn.__set_ret_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
164	0	fn.__set_has_var_args(false);
165
166	0	TExprNode texpr_node;
167	0	texpr_node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
168	0	texpr_node.__set_node_type(TExprNodeType::BINARY_PRED);
169	0	texpr_node.__set_opcode(_predicate->is_asc() ? TExprOpcode::LE : TExprOpcode::GE);
170	0	texpr_node.__set_fn(fn);
171	0	texpr_node.__set_num_children(2);
172	0	texpr_node.__set_is_nullable(is_nullable());
173	0	new_root = VectorizedFnCall::create_shared(texpr_node);
174	0	}
175
176	0	{
177		// add slot
178	0	new_root->add_child(children().at(0));
179	0	}
180		// add Literal
181	0	{
182	0	Field field = _predicate->get_value();
183	0	TExprNode node = create_texpr_node_from(field, slot_data_type->get_primitive_type(),
184	0	slot_data_type->get_precision(),
185	0	slot_data_type->get_scale());
186	0	new_root->add_child(VLiteral::create_shared(node));
187	0	}
188
189		// Since the normal greater than or less than relationship does not consider the relationship of null values, the generated `col >=/<= xxx OR col is null.`
190	0	if (_predicate->nulls_first()) {
191	0	VExprSPtr col_is_null_node;
192	0	{
193	0	TFunction fn;
194	0	TFunctionName fn_name;
195	0	fn_name.__set_db_name("");
196	0	fn_name.__set_function_name("is_null_pred");
197	0	fn.__set_name(fn_name);
198	0	fn.__set_binary_type(TFunctionBinaryType::BUILTIN);
199	0	std::vector<TTypeDesc> arg_types;
200	0	arg_types.push_back(create_type_desc(slot_data_type->get_primitive_type(),
201	0	slot_data_type->get_precision(),
202	0	slot_data_type->get_scale()));
203	0	fn.__set_arg_types(arg_types);
204	0	fn.__set_ret_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
205	0	fn.__set_has_var_args(false);
206
207	0	TExprNode texpr_node;
208	0	texpr_node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
209	0	texpr_node.__set_node_type(TExprNodeType::FUNCTION_CALL);
210	0	texpr_node.__set_fn(fn);
211	0	texpr_node.__set_num_children(1);
212	0	col_is_null_node = VectorizedFnCall::create_shared(texpr_node);
213
214		// add slot.
215	0	col_is_null_node->add_child(children().at(0));
216	0	}
217
218	0	VExprSPtr or_node;
219	0	{
220	0	TExprNode texpr_node;
221	0	texpr_node.__set_type(create_type_desc(PrimitiveType::TYPE_BOOLEAN));
222	0	texpr_node.__set_node_type(TExprNodeType::COMPOUND_PRED);
223	0	texpr_node.__set_opcode(TExprOpcode::COMPOUND_OR);
224	0	texpr_node.__set_num_children(2);
225	0	or_node = VectorizedFnCall::create_shared(texpr_node);
226	0	}
227
228	0	or_node->add_child(col_is_null_node);
229	0	or_node->add_child(new_root);
230	0	new_root = or_node;
231	0	}
232
233	0	return true;
234	0	}
235
236		private:
237		int _source_node_id;
238		std::string _expr_name;
239		RuntimePredicate* _predicate = nullptr;
240		FunctionBasePtr _function;
241		VExprContextSPtr _target_ctx;
242		};
243
244		} // namespace doris