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converting_mutation_partition_applier.cc
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converting_mutation_partition_applier.cc
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/*
* Copyright (C) 2020-present 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/>.
*/
#include "converting_mutation_partition_applier.hh"
#include "concrete_types.hh"
#include "mutation_partition_view.hh"
#include "mutation_partition.hh"
#include "schema.hh"
bool
converting_mutation_partition_applier::is_compatible(const column_definition& new_def, const abstract_type& old_type, column_kind kind) {
return ::is_compatible(new_def.kind, kind) && new_def.type->is_value_compatible_with(old_type);
}
atomic_cell
converting_mutation_partition_applier::upgrade_cell(const abstract_type& new_type, const abstract_type& old_type, atomic_cell_view cell,
atomic_cell::collection_member cm) {
if (cell.is_live() && !old_type.is_counter()) {
if (cell.is_live_and_has_ttl()) {
return atomic_cell::make_live(new_type, cell.timestamp(), cell.value(), cell.expiry(), cell.ttl(), cm);
}
return atomic_cell::make_live(new_type, cell.timestamp(), cell.value(), cm);
} else {
return atomic_cell(new_type, cell);
}
}
void
converting_mutation_partition_applier::accept_cell(row& dst, column_kind kind, const column_definition& new_def, const abstract_type& old_type, atomic_cell_view cell) {
if (!is_compatible(new_def, old_type, kind) || cell.timestamp() <= new_def.dropped_at()) {
return;
}
dst.apply(new_def, upgrade_cell(*new_def.type, old_type, cell));
}
void
converting_mutation_partition_applier::accept_cell(row& dst, column_kind kind, const column_definition& new_def, const abstract_type& old_type, collection_mutation_view cell) {
if (!is_compatible(new_def, old_type, kind)) {
return;
}
cell.with_deserialized(old_type, [&] (collection_mutation_view_description old_view) {
collection_mutation_description new_view;
if (old_view.tomb.timestamp > new_def.dropped_at()) {
new_view.tomb = old_view.tomb;
}
visit(old_type, make_visitor(
[&] (const collection_type_impl& old_ctype) {
assert(new_def.type->is_collection()); // because is_compatible
auto& new_ctype = static_cast<const collection_type_impl&>(*new_def.type);
auto& new_value_type = *new_ctype.value_comparator();
auto& old_value_type = *old_ctype.value_comparator();
for (auto& c : old_view.cells) {
if (c.second.timestamp() > new_def.dropped_at()) {
new_view.cells.emplace_back(c.first, upgrade_cell(
new_value_type, old_value_type, c.second, atomic_cell::collection_member::yes));
}
}
},
[&] (const user_type_impl& old_utype) {
assert(new_def.type->is_user_type()); // because is_compatible
auto& new_utype = static_cast<const user_type_impl&>(*new_def.type);
for (auto& c : old_view.cells) {
if (c.second.timestamp() > new_def.dropped_at()) {
auto idx = deserialize_field_index(c.first);
assert(idx < new_utype.size() && idx < old_utype.size());
new_view.cells.emplace_back(c.first, upgrade_cell(
*new_utype.type(idx), *old_utype.type(idx), c.second, atomic_cell::collection_member::yes));
}
}
},
[&] (const abstract_type& o) {
throw std::runtime_error(format("not a multi-cell type: {}", o.name()));
}
));
if (new_view.tomb || !new_view.cells.empty()) {
dst.apply(new_def, new_view.serialize(*new_def.type));
}
});
}
converting_mutation_partition_applier::converting_mutation_partition_applier(
const column_mapping& visited_column_mapping,
const schema& target_schema,
mutation_partition& target)
: _p_schema(target_schema)
, _p(target)
, _visited_column_mapping(visited_column_mapping)
{ }
void
converting_mutation_partition_applier::accept_partition_tombstone(tombstone t) {
_p.apply(t);
}
void
converting_mutation_partition_applier::accept_static_cell(column_id id, atomic_cell cell) {
return accept_static_cell(id, atomic_cell_view(cell));
}
void
converting_mutation_partition_applier::accept_static_cell(column_id id, atomic_cell_view cell) {
const column_mapping_entry& col = _visited_column_mapping.static_column_at(id);
const column_definition* def = _p_schema.get_column_definition(col.name());
if (def) {
accept_cell(_p._static_row.maybe_create(), column_kind::static_column, *def, *col.type(), cell);
}
}
void
converting_mutation_partition_applier::accept_static_cell(column_id id, collection_mutation_view collection) {
const column_mapping_entry& col = _visited_column_mapping.static_column_at(id);
const column_definition* def = _p_schema.get_column_definition(col.name());
if (def) {
accept_cell(_p._static_row.maybe_create(), column_kind::static_column, *def, *col.type(), collection);
}
}
void
converting_mutation_partition_applier::accept_row_tombstone(const range_tombstone& rt) {
_p.apply_row_tombstone(_p_schema, rt);
}
void
converting_mutation_partition_applier::accept_row(position_in_partition_view key, const row_tombstone& deleted_at, const row_marker& rm, is_dummy dummy, is_continuous continuous) {
deletable_row& r = _p.clustered_row(_p_schema, key, dummy, continuous);
r.apply(rm);
r.apply(deleted_at);
_current_row = &r;
}
void
converting_mutation_partition_applier::accept_row_cell(column_id id, atomic_cell cell) {
return accept_row_cell(id, atomic_cell_view(cell));
}
void
converting_mutation_partition_applier::accept_row_cell(column_id id, atomic_cell_view cell) {
const column_mapping_entry& col = _visited_column_mapping.regular_column_at(id);
const column_definition* def = _p_schema.get_column_definition(col.name());
if (def) {
accept_cell(_current_row->cells(), column_kind::regular_column, *def, *col.type(), cell);
}
}
void
converting_mutation_partition_applier::accept_row_cell(column_id id, collection_mutation_view collection) {
const column_mapping_entry& col = _visited_column_mapping.regular_column_at(id);
const column_definition* def = _p_schema.get_column_definition(col.name());
if (def) {
accept_cell(_current_row->cells(), column_kind::regular_column, *def, *col.type(), collection);
}
}
void
converting_mutation_partition_applier::append_cell(row& dst, column_kind kind, const column_definition& new_def, const column_definition& old_def, const atomic_cell_or_collection& cell) {
if (new_def.is_atomic()) {
accept_cell(dst, kind, new_def, *old_def.type, cell.as_atomic_cell(old_def));
} else {
accept_cell(dst, kind, new_def, *old_def.type, cell.as_collection_mutation());
}
}