seqan/3.1.0/alignment__trace__matrix__full__banded_8hpp_source.html

// -----------------------------------------------------------------------------------------------------

// Copyright (c) 2006-2021, Knut Reinert & Freie Universität Berlin

// Copyright (c) 2016-2021, Knut Reinert & MPI für molekulare Genetik

// This file may be used, modified and/or redistributed under the terms of the 3-clause BSD-License

// shipped with this file and also available at: https://github.com/seqan/seqan3/blob/master/LICENSE.md

// -----------------------------------------------------------------------------------------------------


#pragma once


#include <seqan3/std/iterator>

#include <seqan3/std/ranges>


#include <seqan3/alignment/configuration/align_config_band.hpp>

#include <seqan3/alignment/matrix/detail/alignment_matrix_column_major_range_base.hpp>

#include <seqan3/alignment/matrix/detail/alignment_trace_matrix_base.hpp>

#include <seqan3/alignment/matrix/detail/alignment_trace_matrix_proxy.hpp>

#include <seqan3/alignment/matrix/detail/trace_iterator_banded.hpp>

#include <seqan3/utility/views/zip.hpp>


namespace seqan3::detail

{


template <typename trace_t, bool coordinate_only = false>

class alignment_trace_matrix_full_banded :

    protected alignment_trace_matrix_base<trace_t>,

    public alignment_matrix_column_major_range_base<alignment_trace_matrix_full_banded<trace_t, coordinate_only>>

{

private:

    static_assert(std::same_as<trace_t, trace_directions> || simd_concept<trace_t>,

                  "Value type must either be a trace_directions object or a simd vector.");


    using matrix_base_t = alignment_trace_matrix_base<trace_t>;

    using range_base_t = alignment_matrix_column_major_range_base<alignment_trace_matrix_full_banded<trace_t,

                                                                                                coordinate_only>>;

    friend range_base_t;


protected:

    using typename matrix_base_t::element_type;

    using typename matrix_base_t::coordinate_type;

    using typename range_base_t::alignment_column_type;

    using column_data_view_type = std::conditional_t<coordinate_only,

                                        decltype(std::views::iota(coordinate_type{}, coordinate_type{})),

                                        decltype(views::zip(std::declval<std::span<element_type>>(),

                                                                std::declval<std::span<element_type>>(),

                                                                std::views::iota(coordinate_type{}, coordinate_type{})))>;


public:

    using value_type = alignment_trace_matrix_proxy<coordinate_type,

                                                    std::conditional_t<coordinate_only,

                                                                       detail::ignore_t const,

                                                                       trace_t>>;

    using reference = value_type;

    using iterator = typename range_base_t::iterator;

    using sentinel = typename range_base_t::sentinel;

    using typename matrix_base_t::size_type;


    constexpr alignment_trace_matrix_full_banded() = default;

    constexpr alignment_trace_matrix_full_banded(alignment_trace_matrix_full_banded const &) = default;

    constexpr alignment_trace_matrix_full_banded(alignment_trace_matrix_full_banded &&) = default;

    constexpr alignment_trace_matrix_full_banded & operator=(alignment_trace_matrix_full_banded const &) = default;

    constexpr alignment_trace_matrix_full_banded & operator=(alignment_trace_matrix_full_banded &&) = default;

    ~alignment_trace_matrix_full_banded() = default;


    template <std::ranges::forward_range first_sequence_t, std::ranges::forward_range second_sequence_t>

    constexpr alignment_trace_matrix_full_banded(first_sequence_t && first,

                                                 second_sequence_t && second,

                                                 align_cfg::band_fixed_size const & band,

                                                 [[maybe_unused]] trace_t const initial_value = trace_t{})

    {

        matrix_base_t::num_cols = static_cast<size_type>(std::ranges::distance(first) + 1);

        matrix_base_t::num_rows = static_cast<size_type>(std::ranges::distance(second) + 1);


        band_col_index = std::min<int32_t>(std::max<int32_t>(band.upper_diagonal, 0),

                                           matrix_base_t::num_cols - 1);

        band_row_index = std::min<int32_t>(std::abs(std::min<int32_t>(band.lower_diagonal, 0)),

                                           matrix_base_t::num_rows - 1);

        band_size = band_col_index + band_row_index + 1;


        // Reserve one more cell to deal with last cell in the banded column which needs only the diagonal and up cell.

        if constexpr (!coordinate_only)

        {

            matrix_base_t::data = typename matrix_base_t::pool_type{number_rows{static_cast<size_type>(band_size)},

                                                                    number_cols{matrix_base_t::num_cols}};

            matrix_base_t::cache_left.resize(band_size + 1, initial_value);

        }

    }


    auto trace_path(matrix_coordinate const & trace_begin)

    {

        static_assert(!coordinate_only, "Requested trace but storing the trace was disabled!");


        using matrix_iter_t = std::ranges::iterator_t<typename matrix_base_t::pool_type>;

        using trace_iterator_t = trace_iterator_banded<matrix_iter_t>;

        using path_t = std::ranges::subrange<trace_iterator_t, std::default_sentinel_t>;


        if (trace_begin.row >= static_cast<size_t>(band_size) || trace_begin.col >= matrix_base_t::num_cols)

            throw std::invalid_argument{"The given coordinate exceeds the trace matrix size."};


        return path_t{trace_iterator_t{matrix_base_t::data.begin() + matrix_offset{trace_begin},

                                       column_index_type{band_col_index}},

                      std::default_sentinel};

    }


    int32_t band_col_index{};

    int32_t band_row_index{};

    int32_t band_size{};


private:

    constexpr alignment_column_type initialise_column(size_type const column_index) noexcept

    {

        int32_t slice_begin = std::max<int32_t>(0, band_col_index - column_index);

        int32_t row_end_index = column_index - band_col_index + band_size;

        int32_t slice_end = band_size - std::max<int32_t>(row_end_index - matrix_base_t::num_rows, 0);


        assert(row_end_index >= 0);

        assert(slice_begin >= 0);

        assert(slice_end > 0);

        assert(slice_begin < slice_end);


        coordinate_type row_begin{column_index_type{column_index}, row_index_type{static_cast<size_type>(slice_begin)}};

        coordinate_type row_end{column_index_type{column_index}, row_index_type{static_cast<size_type>(slice_end)}};

        if constexpr (coordinate_only)

        {

            return alignment_column_type{*this,

                                         column_data_view_type{std::views::iota(std::move(row_begin),

                                                                                std::move(row_end))}};

        }

        else

        {

            matrix_coordinate band_begin{row_index_type{static_cast<size_type>(slice_begin)},

                                         column_index_type{column_index}};

            size_type slice_size =  slice_end - slice_begin;

            // We need to jump to the offset.

            auto col = views::zip(

                            std::span<element_type>{std::addressof(matrix_base_t::data[band_begin]), slice_size},

                            std::span<element_type>{std::addressof(matrix_base_t::cache_left[slice_begin]), slice_size},

                            std::views::iota(std::move(row_begin), std::move(row_end)));

            return alignment_column_type{*this, column_data_view_type{std::move(col)}};

        }

    }


    template <std::random_access_iterator iter_t>

    constexpr value_type make_proxy(iter_t host_iter) noexcept

    {

        if constexpr (coordinate_only)

        {

            return {*host_iter, std::ignore, std::ignore, std::ignore, std::ignore};

        }

        else

        {

            return {std::get<2>(*host_iter),        // the current coordinate.

                    std::get<0>(*host_iter),        // the current cell.

                    std::get<1>(*(host_iter + 1)),  // the last left cell to read from.

                    std::get<1>(*host_iter),        // the next left cell to write to.

                    matrix_base_t::cache_up         // the last up cell to read/write from/to.

                    };

        }

    }

};


} // namespace seqan3::detail

std::addressof
T addressof(T... args)

align_config_band.hpp
Provides seqan3::detail::align_config_band.

alignment_matrix_column_major_range_base.hpp
Provides seqan3::detail::alignment_matrix_column_major_range_base.

alignment_trace_matrix_base.hpp
Provides seqan3::detail::alignment_trace_matrix_base.

alignment_trace_matrix_proxy.hpp
Provides seqan3::detail::alignment_trace_matrix_proxy.

std::conditional_t

std::declval
T declval(T... args)

seqan3::views::zip
constexpr auto zip
A zip view.
Definition: zip.hpp:29

std::invalid_argument

iterator
The <iterator> header from C++20's standard library.

ranges
The <ranges> header from C++20's standard library.

std::span

trace_iterator_banded.hpp
Provides seqan3::detail::trace_iterator_banded.

zip.hpp
Provides seqan3::views::zip.