SeqAn3  3.0.3
The Modern C++ library for sequence analysis.
translate_join.hpp
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1 // -----------------------------------------------------------------------------------------------------
2 // Copyright (c) 2006-2021, Knut Reinert & Freie Universität Berlin
3 // Copyright (c) 2016-2021, 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 <seqan3/std/concepts>
16 #include <seqan3/std/ranges>
17 #include <stdexcept>
18 #include <vector>
19 
20 #include <seqan3/alphabet/views/translate.hpp>
21 #include <seqan3/core/range/type_traits.hpp>
22 #include <seqan3/utility/container/small_string.hpp>
23 
24 namespace seqan3::detail
25 {
26 
27 // ============================================================================
28 // view_translate_join (range definition)
29 // ============================================================================
30 
39 template <std::ranges::view urng_t>
40 class view_translate_join : public std::ranges::view_base
41 {
42 private:
44  urng_t urange;
46  translation_frames tf;
48  small_vector<translation_frames, 6> selected_frames{};
49 
55  using reference = view_translate_single<std::views::all_t<std::ranges::range_reference_t<urng_t>>>;
57  using const_reference = reference;
59  using value_type = reference;
61  using size_type = std::ranges::range_size_t<std::ranges::range_reference_t<urng_t>>;
63  using difference_type = std::ranges::range_difference_t<std::ranges::range_reference_t<urng_t>>;
65  using iterator = detail::random_access_iterator<view_translate_join>;
67  using const_iterator = detail::random_access_iterator<view_translate_join const>;
69 
71  template <typename, typename>
72  friend class detail::random_access_iterator_base;
73 
74 public:
75 
76  static_assert(range_dimension_v<urng_t> == 2,
77  "This adaptor only handles range-of-range (two dimensions) as input.");
78  static_assert(std::ranges::viewable_range<urng_t>,
79  "The range parameter to views::translate_join cannot be a temporary of a non-view range.");
80  static_assert(std::ranges::viewable_range<std::ranges::range_reference_t<urng_t>>,
81  "The inner range of the range parameter to views::translate_join cannot be a temporary of "
82  "a non-view range.");
83  static_assert(std::ranges::sized_range<urng_t>,
84  "The range parameter to views::translate_join must model std::ranges::sized_range.");
85  static_assert(std::ranges::sized_range<std::ranges::range_reference_t<urng_t>>,
86  "The inner range of the range parameter to views::translate_join must model "
87  "std::ranges::sized_range.");
88  static_assert(std::ranges::random_access_range<urng_t>,
89  "The range parameter to views::translate_join must model std::ranges::random_access_range.");
90  static_assert(std::ranges::random_access_range<std::ranges::range_reference_t<urng_t>>,
91  "The inner range of the range parameter to views::translate_join must model "
92  "std::ranges::random_access_range.");
93  static_assert(nucleotide_alphabet<std::ranges::range_reference_t<std::ranges::range_reference_t<urng_t>>>,
94  "The range parameter to views::translate_join must be over a range over elements of "
95  "seqan3::nucleotide_alphabet.");
96 
100  view_translate_join() noexcept = default;
101  constexpr view_translate_join(view_translate_join const & rhs) noexcept = default;
102  constexpr view_translate_join(view_translate_join && rhs) noexcept = default;
103  constexpr view_translate_join & operator=(view_translate_join const & rhs) noexcept = default;
104  constexpr view_translate_join & operator=(view_translate_join && rhs) noexcept = default;
105  ~view_translate_join() noexcept = default;
106 
111  view_translate_join(urng_t _urange, translation_frames const _tf = translation_frames::six_frames)
112  : urange{std::move(_urange)}, tf{_tf}
113  {
114  if ((_tf & translation_frames::forward_frame0) == translation_frames::forward_frame0)
115  selected_frames.push_back(translation_frames::forward_frame0);
116  if ((_tf & translation_frames::forward_frame1) == translation_frames::forward_frame1)
117  selected_frames.push_back(translation_frames::forward_frame1);
118  if ((_tf & translation_frames::forward_frame2) == translation_frames::forward_frame2)
119  selected_frames.push_back(translation_frames::forward_frame2);
120  if ((_tf & translation_frames::reverse_frame0) == translation_frames::reverse_frame0)
121  selected_frames.push_back(translation_frames::reverse_frame0);
122  if ((_tf & translation_frames::reverse_frame1) == translation_frames::reverse_frame1)
123  selected_frames.push_back(translation_frames::reverse_frame1);
124  if ((_tf & translation_frames::reverse_frame2) == translation_frames::reverse_frame2)
125  selected_frames.push_back(translation_frames::reverse_frame2);
126  }
127 
132  template <typename rng_t>
134  requires (!std::same_as<std::remove_cvref_t<rng_t>, view_translate_join>) &&
135  std::ranges::viewable_range<rng_t> &&
136  std::constructible_from<urng_t, std::ranges::ref_view<std::remove_reference_t<rng_t>>>
138  view_translate_join(rng_t && _urange, translation_frames const _tf = translation_frames::six_frames)
139  : view_translate_join{std::views::all(std::forward<rng_t>(_urange)), _tf}
140  {}
142 
159  iterator begin() noexcept
160  {
161  return {*this, 0};
162  }
163 
165  const_iterator begin() const noexcept
166  requires const_iterable_range<urng_t>
167  {
168  return {*this, 0};
169  }
170 
184  iterator end() noexcept
185  {
186  return {*this, size()};
187  }
188 
190  const_iterator end() const noexcept
191  requires const_iterable_range<urng_t>
192  {
193  return {*this, size()};
194  }
196 
208  size_type size() noexcept
209  {
210  return (size_type) std::ranges::size(urange) * selected_frames.size();
211  }
212 
214  size_type size() const noexcept
215  requires const_iterable_range<urng_t>
216  {
217  return (size_type) std::ranges::size(urange) * selected_frames.size();
218  }
219 
238  reference operator[](size_type const n)
239  {
240  assert(n < size());
241  size_type index_frame = n % selected_frames.size();
242  size_type index_urange = (n - index_frame) / selected_frames.size();
243  return urange[index_urange] | views::translate_single(selected_frames[index_frame]);
244  }
245 
247  const_reference operator[](size_type const n) const
248  requires const_iterable_range<urng_t>
249  {
250  assert(n < size());
251  size_type index_frame = n % selected_frames.size();
252  size_type index_urange = (n - index_frame) / selected_frames.size();
253  return urange[index_urange] | views::translate_single(selected_frames[index_frame]);
254  }
256 };
257 
259 template <typename urng_t>
260 view_translate_join(urng_t &&, translation_frames const = translation_frames{}) -> view_translate_join<std::views::all_t<urng_t>>;
261 
262 // ============================================================================
263 // translate_fn (adaptor definition for both views)
264 // ============================================================================
265 
267 struct translate_join_fn
268 {
270  constexpr auto operator()(translation_frames const tf = translation_frames::six_frames) const
271  {
272  return detail::adaptor_from_functor{*this, tf};
273  }
274 
280  template <std::ranges::range urng_t>
281  constexpr auto operator()(urng_t && urange, translation_frames const tf = translation_frames::six_frames) const
282  {
283  static_assert(range_dimension_v<urng_t> == 2,
284  "This adaptor only handles range-of-range (two dimensions) as input.");
285  static_assert(std::ranges::viewable_range<urng_t>,
286  "The range parameter to views::translate_join cannot be a temporary of a non-view range.");
287  static_assert(std::ranges::viewable_range<std::ranges::range_reference_t<urng_t>>,
288  "The inner range of the range parameter to views::translate_join cannot be a "
289  "temporary of a non-view range.");
290  static_assert(std::ranges::sized_range<urng_t>,
291  "The range parameter to views::translate_join must model std::ranges::sized_range.");
292  static_assert(std::ranges::sized_range<std::ranges::range_reference_t<urng_t>>,
293  "The inner range of the range parameter to views::translate_join must model "
294  "std::ranges::sized_range.");
295  static_assert(std::ranges::random_access_range<urng_t>,
296  "The range parameter to views::translate_join must model std::ranges::random_access_range.");
297  static_assert(std::ranges::random_access_range<std::ranges::range_reference_t<urng_t>>,
298  "The inner range of the range parameter to views::translate_join must model "
299  "std::ranges::random_access_range.");
300  static_assert(nucleotide_alphabet<std::ranges::range_reference_t<std::ranges::range_reference_t<urng_t>>>,
301  "The range parameter to views::translate_join must be over a range over elements of "
302  "seqan3::nucleotide_alphabet.");
303 
304  return detail::view_translate_join{std::forward<urng_t>(urange), tf};
305  }
306 
308  template <std::ranges::range urng_t>
309  constexpr friend auto operator|(urng_t && urange, translate_join_fn const & me)
310  {
311  return me(std::forward<urng_t>(urange));
312  }
313 };
314 
315 } // namespace seqan3::detail
316 
317 // ============================================================================
318 // translate (adaptor object)
319 // ============================================================================
320 
321 namespace seqan3::views
322 {
323 
388 inline constexpr auto translate_join = detail::translate_join_fn{};
390 
391 } // namespace seqan3::views
translate.hpp
Provides seqan3::views::translate and seqan3::views::translate_single.
std::begin
T begin(T... args)
concepts
The Concepts library.
type_traits.hpp
Provides various transformation traits used by the range module.
std::end
T end(T... args)
std::forward
T forward(T... args)
seqan3::operator|
auto operator|(validator1_type &&vali1, validator2_type &&vali2)
Enables the chaining of validators.
Definition: validators.hpp:1103
seqan3::pack_traits::size
constexpr size_t size
The size of a type pack.
Definition: traits.hpp:151
seqan3::views::translate_join
constexpr auto translate_join
A view that translates nucleotide into aminoacid alphabet with 1, 2, 3 or 6 frames....
Definition: translate_join.hpp:388
seqan3::views::translate_single
constexpr auto translate_single
A view that translates nucleotide into aminoacid alphabet for one of the six frames.
Definition: translate.hpp:539
seqan3::views::move
auto const move
A view that turns lvalue-references into rvalue-references.
Definition: move.hpp:74
const_iterable_range
Specifies requirements of an input range type for which the const version of that type satisfies the ...
nucleotide_alphabet
A concept that indicates whether an alphabet represents nucleotides.
seqan3::views
The SeqAn namespace for views.
Definition: char_to.hpp:22
seqan3::translation_frames
translation_frames
Specialisation values for single and multiple translation frames.
Definition: translate.hpp:68
seqan3::translation_frames::forward_frame2
@ forward_frame2
The third forward frame starting at position 2.
seqan3::translation_frames::forward_frame0
@ forward_frame0
The first forward frame starting at position 0.
seqan3::translation_frames::reverse_frame0
@ reverse_frame0
The first reverse frame starting at position 0.
seqan3::translation_frames::reverse_frame2
@ reverse_frame2
The third reverse frame starting at position 2.
seqan3::translation_frames::forward_frame1
@ forward_frame1
The second forward frame starting at position 1.
seqan3::translation_frames::reverse_frame1
@ reverse_frame1
The second reverse frame starting at position 1.
std
SeqAn specific customisations in the standard namespace.
ranges
Adaptations of concepts from the Ranges TS.
small_string.hpp
A constexpr string implementation to manipulate string literals at compile time.