SeqAn3 3.2.0
The Modern C++ library for sequence analysis.
dna4.hpp
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1// -----------------------------------------------------------------------------------------------------
2// Copyright (c) 2006-2022, Knut Reinert & Freie Universität Berlin
3// Copyright (c) 2016-2022, Knut Reinert & MPI für molekulare Genetik
4// This file may be used, modified and/or redistributed under the terms of the 3-clause BSD-License
5// shipped with this file and also available at: https://github.com/seqan/seqan3/blob/master/LICENSE.md
6// -----------------------------------------------------------------------------------------------------
7
13#pragma once
14
15#include <vector>
16
17#include <seqan3/alphabet/nucleotide/nucleotide_base.hpp>
18
19// ------------------------------------------------------------------
20// dna4
21// ------------------------------------------------------------------
22
23namespace seqan3
24{
25
26class rna4;
27
52class dna4 : public nucleotide_base<dna4, 4>
53{
54private:
56 using base_t = nucleotide_base<dna4, 4>;
57
59 friend base_t;
61 friend base_t::base_t;
64 friend rna4;
65
66public:
70 constexpr dna4() noexcept = default;
71 constexpr dna4(dna4 const &) noexcept = default;
72 constexpr dna4(dna4 &&) noexcept = default;
73 constexpr dna4 & operator=(dna4 const &) noexcept = default;
74 constexpr dna4 & operator=(dna4 &&) noexcept = default;
75 ~dna4() noexcept = default;
76
77 using base_t::base_t;
78
86 template <std::same_as<rna4> t> // template parameter t to accept incomplete type
87 constexpr dna4(t const & r) noexcept
88 {
89 assign_rank(r.to_rank());
90 }
92
93private:
117 static constexpr char_type rank_to_char_table[alphabet_size]{'A', 'C', 'G', 'T'};
118
122 static constexpr std::array<rank_type, 256> char_to_rank_table{[]() constexpr {std::array<rank_type, 256> ret{};
123
124 // reverse mapping for characters and their lowercase
125 for (size_t rnk = 0u; rnk < alphabet_size; ++rnk)
126 {
127 ret[rank_to_char_table[rnk]] = rnk;
128 ret[to_lower(rank_to_char_table[rnk])] = rnk;
129 }
130
131 // set U equal to T
132 ret['U'] = ret['T'];
133 ret['u'] = ret['t'];
134
135 // iupac characters get special treatment, because there is no N
136 ret['R'] = ret['A'];
137 ret['r'] = ret['A']; // A or G
138 ret['Y'] = ret['C'];
139 ret['y'] = ret['C']; // C or T
140 ret['S'] = ret['C'];
141 ret['s'] = ret['C']; // C or G
142 ret['W'] = ret['A'];
143 ret['w'] = ret['A']; // A or T
144 ret['K'] = ret['G'];
145 ret['k'] = ret['G']; // G or T
146 ret['M'] = ret['A'];
147 ret['m'] = ret['A']; // A or T
148 ret['B'] = ret['C'];
149 ret['b'] = ret['C']; // C or G or T
150 ret['D'] = ret['A'];
151 ret['d'] = ret['A']; // A or G or T
152 ret['H'] = ret['A'];
153 ret['h'] = ret['A']; // A or C or T
154 ret['V'] = ret['A'];
155 ret['v'] = ret['A']; // A or C or G
156
157 return ret;
158}()
159}; // namespace seqan3
160
162static constexpr rank_type rank_complement_table[alphabet_size]{
163 3, // T is complement of 'A'_dna4
164 2, // G is complement of 'C'_dna4
165 1, // C is complement of 'G'_dna4
166 0 // A is complement of 'T'_dna4
167};
168
173static constexpr rank_type rank_complement(rank_type const rank)
174{
175 return rank_complement_table[rank];
176}
177
182static constexpr char_type rank_to_char(rank_type const rank)
183{
184 return rank_to_char_table[rank];
185}
186
191static constexpr rank_type char_to_rank(char_type const chr)
192{
193 using index_t = std::make_unsigned_t<char_type>;
194 return char_to_rank_table[static_cast<index_t>(chr)];
195}
196}
197;
198
199// ------------------------------------------------------------------
200// containers
201// ------------------------------------------------------------------
202
208using dna4_vector = std::vector<dna4>;
209
210inline namespace literals
211{
212
213// ------------------------------------------------------------------
214// literals
215// ------------------------------------------------------------------
216
232constexpr dna4 operator""_dna4(char const c) noexcept
233{
234 return dna4{}.assign_char(c);
235}
236
247inline dna4_vector operator""_dna4(char const * s, std::size_t n)
248{
249 dna4_vector r;
250 r.resize(n);
251
252 for (size_t i = 0; i < n; ++i)
253 r[i].assign_char(s[i]);
254
255 return r;
256}
258
259} // namespace literals
260
261} // namespace seqan3
seqan3::alphabet_base< dna4, size, char >
seqan3::alphabet_base::assign_char
constexpr derived_type & assign_char(char_type const chr) noexcept
Assign from a character, implicitly converts invalid characters.
Definition: alphabet_base.hpp:163
seqan3::alphabet_base< dna4, size, char >::rank_type
detail::min_viable_uint_t< size - 1 > rank_type
The type of the alphabet when represented as a number (e.g. via to_rank()).
Definition: alphabet_base.hpp:80
seqan3::alphabet_base< dna4, size, char >::alphabet_size
static constexpr detail::min_viable_uint_t< size > alphabet_size
The size of the alphabet, i.e. the number of different values it can take.
Definition: alphabet_base.hpp:199
seqan3::alphabet_base< dna4, size, char >::char_type
std::conditional_t< std::same_as< char, void >, char, char > char_type
The char representation; conditional needed to make semi alphabet definitions legal.
Definition: alphabet_base.hpp:72
seqan3::alphabet_base< dna4, size, char >::assign_rank
constexpr dna4 & assign_rank(rank_type const c) noexcept
Assign from a numeric value.
Definition: alphabet_base.hpp:187
seqan3::dna4
The four letter DNA alphabet of A,C,G,T..
Definition: dna4.hpp:53
seqan3::dna4::dna4
constexpr dna4() noexcept=default
Defaulted.
seqan3::nucleotide_base
A CRTP-base that refines seqan3::alphabet_base and is used by the nucleotides.
Definition: nucleotide_base.hpp:43
seqan3::rna4
The four letter RNA alphabet of A,C,G,U..
Definition: rna4.hpp:49
seqan3
The main SeqAn3 namespace.
Definition: aligned_sequence_concept.hpp:29
seqan3::to_lower
constexpr char_type to_lower(char_type const c) noexcept
Converts 'A'-'Z' to 'a'-'z' respectively; other characters are returned as is.
Definition: transform.hpp:83
std
SeqAn specific customisations in the standard namespace.
nucleotide_base.hpp
Provides seqan3::nucleotide_base.
std::vector::resize
T resize(T... args)