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82394debe68f450dffd19187a99655f4e433044b
scylladb/cql3/single_column_relation.hh
Avi Kivity a83a24268d to_string: move standard container overloads of to_string to std:: namespace 
Argument-dependent lookup will not find to_string() overloads in the global
namespace if the argument and the caller are in other namespaces.

Move these to_string() overloads to std:: so ADL will find them.

Found by clang.
2017-04-17 23:03:15 +03:00

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8.3 KiB
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/*
* 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.
*/
/*
* Copyright (C) 2015 ScyllaDB
*
* Modified by ScyllaDB
*/
/*
* This file is part of Scylla.
*
* Scylla is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Scylla is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Scylla. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <vector>
#include "cql3/restrictions/single_column_restriction.hh"
#include "core/shared_ptr.hh"
#include "to_string.hh"
#include "cql3/relation.hh"
#include "cql3/column_identifier.hh"
#include "cql3/term.hh"
namespace cql3 {
/**
* Relations encapsulate the relationship between an entity of some kind, and
* a value (term). For example, <key> > "start" or "colname1" = "somevalue".
*
*/
class single_column_relation final : public relation {
private:
::shared_ptr<column_identifier::raw> _entity;
::shared_ptr<term::raw> _map_key;
::shared_ptr<term::raw> _value;
std::vector<::shared_ptr<term::raw>> _in_values;
private:
single_column_relation(::shared_ptr<column_identifier::raw> entity, ::shared_ptr<term::raw> map_key,
const operator_type& type, ::shared_ptr<term::raw> value, std::vector<::shared_ptr<term::raw>> in_values)
: relation(type)
, _entity(std::move(entity))
, _map_key(std::move(map_key))
, _value(std::move(value))
, _in_values(std::move(in_values))
{ }
public:
/**
* Creates a new relation.
*
* @param entity the kind of relation this is; what the term is being compared to.
* @param map_key the key into the entity identifying the value the term is being compared to.
* @param type the type that describes how this entity relates to the value.
* @param value the value being compared.
*/
single_column_relation(::shared_ptr<column_identifier::raw> entity, ::shared_ptr<term::raw> map_key,
const operator_type& type, ::shared_ptr<term::raw> value)
: single_column_relation(std::move(entity), std::move(map_key), type, std::move(value), {})
{ }
/**
* Creates a new relation.
*
* @param entity the kind of relation this is; what the term is being compared to.
* @param type the type that describes how this entity relates to the value.
* @param value the value being compared.
*/
single_column_relation(::shared_ptr<column_identifier::raw> entity, const operator_type& type, ::shared_ptr<term::raw> value)
: single_column_relation(std::move(entity), {}, type, std::move(value))
{ }
static ::shared_ptr<single_column_relation> create_in_relation(::shared_ptr<column_identifier::raw> entity,
std::vector<::shared_ptr<term::raw>> in_values) {
return ::make_shared(single_column_relation(std::move(entity), {}, operator_type::IN, {}, std::move(in_values)));
}
::shared_ptr<column_identifier::raw> get_entity() {
return _entity;
}
::shared_ptr<term::raw> get_map_key() {
return _map_key;
}
::shared_ptr<term::raw> get_value() {
return _value;
}
protected:
virtual ::shared_ptr<term> to_term(const std::vector<::shared_ptr<column_specification>>& receivers,
::shared_ptr<term::raw> raw, database& db, const sstring& keyspace,
::shared_ptr<variable_specifications> bound_names) override;
#if 0
public SingleColumnRelation withNonStrictOperator()
{
switch (relationType)
{
case GT: return new SingleColumnRelation(entity, operator_type.GTE, value);
case LT: return new SingleColumnRelation(entity, operator_type.LTE, value);
default: return this;
}
}
#endif
virtual sstring to_string() const override {
auto entity_as_string = _entity->to_string();
if (_map_key) {
entity_as_string = sprint("%s[%s]", std::move(entity_as_string), _map_key->to_string());
}
if (is_IN()) {
return sprint("%s IN %s", entity_as_string, std::to_string(_in_values));
}
return sprint("%s %s %s", entity_as_string, _relation_type, _value->to_string());
}
protected:
virtual ::shared_ptr<restrictions::restriction> new_EQ_restriction(database& db, schema_ptr schema,
::shared_ptr<variable_specifications> bound_names);
virtual ::shared_ptr<restrictions::restriction> new_IN_restriction(database& db, schema_ptr schema,
::shared_ptr<variable_specifications> bound_names) override;
virtual ::shared_ptr<restrictions::restriction> new_slice_restriction(database& db, schema_ptr schema,
::shared_ptr<variable_specifications> bound_names,
statements::bound bound,
bool inclusive) override {
auto&& column_def = to_column_definition(schema, _entity);
auto term = to_term(to_receivers(schema, column_def), _value, db, schema->ks_name(), std::move(bound_names));
return ::make_shared<restrictions::single_column_restriction::slice>(column_def, bound, inclusive, std::move(term));
}
virtual shared_ptr<restrictions::restriction> new_contains_restriction(database& db, schema_ptr schema,
::shared_ptr<variable_specifications> bound_names,
bool is_key) override {
auto&& column_def = to_column_definition(schema, _entity);
auto term = to_term(to_receivers(schema, column_def), _value, db, schema->ks_name(), std::move(bound_names));
return ::make_shared<restrictions::single_column_restriction::contains>(column_def, std::move(term), is_key);
}
virtual ::shared_ptr<relation> maybe_rename_identifier(const column_identifier::raw& from, column_identifier::raw to) override {
return *_entity == from
? ::make_shared(single_column_relation(
::make_shared<column_identifier::raw>(std::move(to)), _map_key, _relation_type, _value, _in_values))
: static_pointer_cast<single_column_relation>(shared_from_this());
}
private:
/**
* Returns the receivers for this relation.
*
* @param schema the Column Family meta data
* @param column_def the column definition
* @return the receivers for the specified relation.
* @throws exceptions::invalid_request_exception if the relation is invalid
*/
std::vector<::shared_ptr<column_specification>> to_receivers(schema_ptr schema, const column_definition& column_def);
static shared_ptr<column_specification> make_collection_receiver(shared_ptr<column_specification> receiver, bool for_key) {
return static_cast<const collection_type_impl*>(receiver->type.get())->make_collection_receiver(receiver, for_key);
}
bool is_legal_relation_for_non_frozen_collection() const {
return is_contains_key() || is_contains() || is_map_entry_equality();
}
bool is_map_entry_equality() const {
return _map_key && is_EQ();
}
private:
bool can_have_only_one_value() {
return is_EQ() || (is_IN() && _in_values.size() == 1);
}
};
};
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