scylladb/partition_slice_builder.cc

/*
 * Copyright (C) 2015-present ScyllaDB
 */

/*
 * SPDX-License-Identifier: LicenseRef-ScyllaDB-Source-Available-1.0
 */

#include <boost/range/algorithm/copy.hpp>
#include <boost/range/algorithm_ext/push_back.hpp>

#include "partition_slice_builder.hh"

partition_slice_builder::partition_slice_builder(const schema& schema, query::partition_slice slice)
    : _regular_columns(std::move(slice.regular_columns))
    , _static_columns(std::move(slice.static_columns))
    , _row_ranges(std::move(slice._row_ranges))
    , _specific_ranges(std::move(slice._specific_ranges))
    , _schema(schema)
    , _options(std::move(slice.options))
{
}

partition_slice_builder::partition_slice_builder(const schema& schema)
    : _schema(schema)
{
    _options.set<query::partition_slice::option::send_partition_key>();
    _options.set<query::partition_slice::option::send_clustering_key>();
    _options.set<query::partition_slice::option::send_timestamp>();
    _options.set<query::partition_slice::option::send_expiry>();
}

query::partition_slice
partition_slice_builder::build() {
    std::vector<query::clustering_range> ranges;
    if (_row_ranges) {
        ranges = std::move(*_row_ranges);
    } else {
        ranges.emplace_back(query::clustering_range::make_open_ended_both_sides());
    }

    query::column_id_vector static_columns;
    if (_static_columns) {
        static_columns = std::move(*_static_columns);
    } else {
        static_columns =
            _schema.static_columns() | std::views::transform(std::mem_fn(&column_definition::id)) | std::ranges::to<query::column_id_vector>();
    }

    query::column_id_vector regular_columns;
    if (_regular_columns) {
        regular_columns = std::move(*_regular_columns);
    } else {
        regular_columns = 
            _schema.regular_columns() | std::views::transform(std::mem_fn(&column_definition::id)) | std::ranges::to<query::column_id_vector>();
    }

    return {
        std::move(ranges),
        std::move(static_columns),
        std::move(regular_columns),
        std::move(_options),
        std::move(_specific_ranges),
        _partition_row_limit,
    };
}

partition_slice_builder&
partition_slice_builder::with_range(query::clustering_range range) {
    if (!_row_ranges) {
        _row_ranges = std::vector<query::clustering_range>();
    }
    _row_ranges->emplace_back(std::move(range));
    return *this;
}

partition_slice_builder&
partition_slice_builder::with_ranges(std::vector<query::clustering_range> ranges) {
    if (!_row_ranges) {
        _row_ranges = std::move(ranges);
    } else {
        for (auto&& r : ranges) {
            with_range(std::move(r));
        }
    }
    return *this;
}

partition_slice_builder&
partition_slice_builder::mutate_ranges(std::function<void(std::vector<query::clustering_range>&)> func) {
    if (_row_ranges) {
        func(*_row_ranges);
    }
    return *this;
}

partition_slice_builder&
partition_slice_builder::mutate_specific_ranges(std::function<void(query::specific_ranges&)> func) {
    if (_specific_ranges) {
        func(*_specific_ranges);
    }
    return *this;
}

partition_slice_builder&
partition_slice_builder::set_specific_ranges(query::specific_ranges ranges) {
    _specific_ranges = std::make_unique<query::specific_ranges>(std::move(ranges));
    return *this;
}

partition_slice_builder&
partition_slice_builder::with_no_regular_columns() {
    _regular_columns = query::column_id_vector();
    return *this;
}

partition_slice_builder&
partition_slice_builder::with_regular_column(bytes name) {
    if (!_regular_columns) {
        _regular_columns = query::column_id_vector();
    }

    const column_definition* def = _schema.get_column_definition(name);
    if (!def) {
        throw std::runtime_error(format("No such column: {}", _schema.regular_column_name_type()->to_string(name)));
    }
    if (!def->is_regular()) {
        throw std::runtime_error(format("Column is not regular: {}", _schema.column_name_type(*def)->to_string(name)));
    }
    _regular_columns->push_back(def->id);
    return *this;
}

partition_slice_builder&
partition_slice_builder::with_no_static_columns() {
    _static_columns = query::column_id_vector();
    return *this;
}

partition_slice_builder&
partition_slice_builder::with_static_column(bytes name) {
    if (!_static_columns) {
        _static_columns = query::column_id_vector();
    }

    const column_definition* def = _schema.get_column_definition(name);
    if (!def) {
        throw std::runtime_error(format("No such column: {}", utf8_type->to_string(name)));
    }
    if (!def->is_static()) {
        throw std::runtime_error(format("Column is not static: {}", utf8_type->to_string(name)));
    }
    _static_columns->push_back(def->id);
    return *this;
}

partition_slice_builder&
partition_slice_builder::reversed() {
    _options.set<query::partition_slice::option::reversed>();
    return *this;
}

partition_slice_builder&
partition_slice_builder::without_partition_key_columns() {
    _options.remove<query::partition_slice::option::send_partition_key>();
    return *this;
}

partition_slice_builder&
partition_slice_builder::without_clustering_key_columns() {
    _options.remove<query::partition_slice::option::send_clustering_key>();
    return *this;
}

partition_slice_builder& partition_slice_builder::with_partition_row_limit(uint64_t limit) {
    _partition_row_limit = limit;
    return *this;
}