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scylladb/cql3/operation.hh
Pavel Solodovnikov 49ddd269ea cql3: rename variable_specifications to prepare_context 
The class is repurposed to be more generic and also be able
to hold additional metadata related to function calls within
a CQL statement. Rename all methods appropriately.

Visitor functions in AST nodes (`collect_marker_specification`)
are also renamed to a more generic `fill_prepare_context`.

The name `prepare_context` designates that this metadata
structure is a byproduct of `stmt::raw::prepare()` call and
is needed only for "prepare" step of query execution.

Signed-off-by: Pavel Solodovnikov <pa.solodovnikov@scylladb.com>
2021-07-24 14:33:33 +03:00

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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-present 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 <seastar/core/shared_ptr.hh>
#include "exceptions/exceptions.hh"
#include "database_fwd.hh"
#include "term.hh"
#include "update_parameters.hh"
#include "cql3/column_identifier.hh"
#include <optional>
namespace cql3 {
class update_parameters;
/**
* An UPDATE or DELETE operation.
*
* For UPDATE this includes:
* - setting a constant
* - counter operations
* - collections operations
* and for DELETE:
* - deleting a column
* - deleting an element of collection column
*
* Fine grained operation are obtained from their raw counterpart (Operation.Raw, which
* correspond to a parsed, non-checked operation) by provided the receiver for the operation.
*/
class operation {
public:
// the column the operation applies to
// We can hold a reference because all operations have life bound to their statements and
// statements pin the schema.
const column_definition& column;
protected:
// Term involved in the operation. In theory this should not be here since some operation
// may require none of more than one term, but most need 1 so it simplify things a bit.
const ::shared_ptr<term> _t;
public:
operation(const column_definition& column_, ::shared_ptr<term> t)
: column{column_}
, _t{t}
{ }
virtual ~operation() {}
virtual bool is_raw_counter_shard_write() const {
return false;
}
/**
* @return whether the operation requires a read of the previous value to be executed
* (only lists setterByIdx, discard and discardByIdx requires that).
*/
virtual bool requires_read() const {
return false;
}
/**
* Collects the column specification for the bind variables of this operation.
*
* @param meta the list of column specification where to collect the
* bind variables of this term in.
*/
virtual void fill_prepare_context(prepare_context& ctx) const {
if (_t) {
_t->fill_prepare_context(ctx);
}
}
/**
* Execute the operation.
*/
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) = 0;
/**
* A parsed raw UPDATE operation.
*
* This can be one of:
* - Setting a value: c = v
* - Setting an element of a collection: c[x] = v
* - Setting a field of a user-defined type: c.x = v
* - An addition/subtraction to a variable: c = c +/- v (where v can be a collection literal)
* - An prepend operation: c = v + c
*/
class raw_update {
public:
virtual ~raw_update() {}
/**
* This method validates the operation (i.e. validate it is well typed)
* based on the specification of the receiver of the operation.
*
* It returns an Operation which can be though as post-preparation well-typed
* Operation.
*
* @param receiver the "column" this operation applies to. Note that
* contrarly to the method of same name in Term.Raw, the receiver should always
* be a true column.
* @return the prepared update operation.
*/
virtual ::shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const = 0;
/**
* @return whether this operation can be applied alongside the {@code
* other} update (in the same UPDATE statement for the same column).
*/
virtual bool is_compatible_with(const std::unique_ptr<raw_update>& other) const = 0;
};
/**
* A parsed raw DELETE operation.
*
* This can be one of:
* - Deleting a column
* - Deleting an element of a collection
* - Deleting a field of a user-defined type
*/
class raw_deletion {
public:
virtual ~raw_deletion() = default;
/**
* The name of the column affected by this delete operation.
*/
virtual const column_identifier::raw& affected_column() const = 0;
/**
* This method validates the operation (i.e. validate it is well typed)
* based on the specification of the column affected by the operation (i.e the
* one returned by affectedColumn()).
*
* It returns an Operation which can be though as post-preparation well-typed
* Operation.
*
* @param receiver the "column" this operation applies to.
* @return the prepared delete operation.
*/
virtual ::shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const = 0;
};
class set_value;
class set_counter_value_from_tuple_list;
class set_element : public raw_update {
const shared_ptr<term::raw> _selector;
const shared_ptr<term::raw> _value;
const bool _by_uuid;
private:
sstring to_string(const column_definition& receiver) const;
public:
set_element(shared_ptr<term::raw> selector, shared_ptr<term::raw> value, bool by_uuid = false)
: _selector(std::move(selector)), _value(std::move(value)), _by_uuid(by_uuid) {
}
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
virtual bool is_compatible_with(const std::unique_ptr<raw_update>& other) const override;
};
// Set a single field inside a user-defined type.
class set_field : public raw_update {
const shared_ptr<column_identifier> _field;
const shared_ptr<term::raw> _value;
private:
sstring to_string(const column_definition& receiver) const;
public:
set_field(shared_ptr<column_identifier> field, shared_ptr<term::raw> value)
: _field(std::move(field)), _value(std::move(value)) {
}
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
virtual bool is_compatible_with(const std::unique_ptr<raw_update>& other) const override;
};
// Delete a single field inside a user-defined type.
// Equivalent to setting the field to null.
class field_deletion : public raw_deletion {
const shared_ptr<column_identifier::raw> _id;
const shared_ptr<column_identifier> _field;
public:
field_deletion(shared_ptr<column_identifier::raw> id, shared_ptr<column_identifier> field)
: _id(std::move(id)), _field(std::move(field)) {
}
virtual const column_identifier::raw& affected_column() const override;
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
};
class addition : public raw_update {
const shared_ptr<term::raw> _value;
private:
sstring to_string(const column_definition& receiver) const;
public:
addition(shared_ptr<term::raw> value)
: _value(value) {
}
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
virtual bool is_compatible_with(const std::unique_ptr<raw_update>& other) const override;
};
class subtraction : public raw_update {
const shared_ptr<term::raw> _value;
private:
sstring to_string(const column_definition& receiver) const;
public:
subtraction(shared_ptr<term::raw> value)
: _value(value) {
}
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
virtual bool is_compatible_with(const std::unique_ptr<raw_update>& other) const override;
};
class prepend : public raw_update {
shared_ptr<term::raw> _value;
private:
sstring to_string(const column_definition& receiver) const;
public:
prepend(shared_ptr<term::raw> value)
: _value(std::move(value)) {
}
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
virtual bool is_compatible_with(const std::unique_ptr<raw_update>& other) const override;
};
class column_deletion;
class element_deletion : public raw_deletion {
shared_ptr<column_identifier::raw> _id;
shared_ptr<term::raw> _element;
public:
element_deletion(shared_ptr<column_identifier::raw> id, shared_ptr<term::raw> element)
: _id(std::move(id)), _element(std::move(element)) {
}
virtual const column_identifier::raw& affected_column() const override;
virtual shared_ptr<operation> prepare(database& db, const sstring& keyspace, const column_definition& receiver) const override;
};
};
}
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