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bit_aligned_pixel_reference.hpp
1 //
2 // Copyright 2005-2007 Adobe Systems Incorporated
3 // Copyright 2019 Mateusz Loskot <mateusz at loskot dot net>
4 //
5 // Distributed under the Boost Software License, Version 1.0
6 // See accompanying file LICENSE_1_0.txt or copy at
7 // http://www.boost.org/LICENSE_1_0.txt
8 //
9 #ifndef BOOST_GIL_BIT_ALIGNED_PIXEL_REFERENCE_HPP
10 #define BOOST_GIL_BIT_ALIGNED_PIXEL_REFERENCE_HPP
11 
12 #include <boost/gil/pixel.hpp>
13 #include <boost/gil/channel.hpp>
14 #include <boost/gil/detail/mp11.hpp>
15 
16 #include <boost/assert.hpp>
17 #include <boost/config.hpp>
18 
19 #include <functional>
20 #include <type_traits>
21 
22 namespace boost { namespace gil {
23 
26 
28 // bit_range
29 //
30 // Represents a range of bits that can span multiple consecutive bytes. The range has a size fixed at compile time, but the offset is specified at run time.
32 
33 template <int RangeSize, bool IsMutable>
34 class bit_range {
35 public:
36  using byte_t = mp11::mp_if_c<IsMutable, unsigned char, unsigned char const>;
37  using difference_type = std::ptrdiff_t;
38  template <int RS, bool M> friend class bit_range;
39 private:
40  byte_t* _current_byte; // the starting byte of the bit range
41  int _bit_offset; // offset from the beginning of the current byte. 0<=_bit_offset<=7
42 
43 public:
44  bit_range() : _current_byte(nullptr), _bit_offset(0) {}
45  bit_range(byte_t* current_byte, int bit_offset)
46  : _current_byte(current_byte)
47  , _bit_offset(bit_offset)
48  {
49  BOOST_ASSERT(bit_offset >= 0 && bit_offset < 8);
50  }
51 
52  bit_range(const bit_range& br) : _current_byte(br._current_byte), _bit_offset(br._bit_offset) {}
53  template <bool M> bit_range(const bit_range<RangeSize,M>& br) : _current_byte(br._current_byte), _bit_offset(br._bit_offset) {}
54 
55  bit_range& operator=(const bit_range& br) { _current_byte = br._current_byte; _bit_offset=br._bit_offset; return *this; }
56  bool operator==(const bit_range& br) const { return _current_byte==br._current_byte && _bit_offset==br._bit_offset; }
57 
58  bit_range& operator++() {
59  _current_byte += (_bit_offset+RangeSize) / 8;
60  _bit_offset = (_bit_offset+RangeSize) % 8;
61  return *this;
62  }
63  bit_range& operator--() { bit_advance(-RangeSize); return *this; }
64 
65  void bit_advance(difference_type num_bits) {
66  int new_offset = int(_bit_offset+num_bits);
67  _current_byte += new_offset / 8;
68  _bit_offset = new_offset % 8;
69  if (_bit_offset<0) {
70  _bit_offset+=8;
71  --_current_byte;
72  }
73  }
74  difference_type bit_distance_to(const bit_range& b) const {
75  return (b.current_byte() - current_byte())*8 + b.bit_offset()-bit_offset();
76  }
77  byte_t* current_byte() const { return _current_byte; }
78  int bit_offset() const { return _bit_offset; }
79 };
80 
114 template <typename BitField, typename ChannelBitSizes, typename Layout, bool IsMutable>
115 struct bit_aligned_pixel_reference
116 {
117  static constexpr int bit_size =
118  mp11::mp_fold
119  <
120  ChannelBitSizes,
121  std::integral_constant<int, 0>,
122  mp11::mp_plus
123  >::value;
124 
125  using bit_range_t = boost::gil::bit_range<bit_size,IsMutable>;
126  using bitfield_t = BitField;
127  using data_ptr_t = mp11::mp_if_c<IsMutable, unsigned char*, const unsigned char*>;
128 
129  using layout_t = Layout;
130 
132  using reference = const bit_aligned_pixel_reference<BitField, ChannelBitSizes, Layout, IsMutable>;
133  using const_reference = bit_aligned_pixel_reference<BitField,ChannelBitSizes,Layout,false> const;
134 
135  static constexpr bool is_mutable = IsMutable;
136 
137  bit_aligned_pixel_reference(){}
138  bit_aligned_pixel_reference(data_ptr_t data_ptr, int bit_offset) : _bit_range(data_ptr, bit_offset) {}
139  explicit bit_aligned_pixel_reference(const bit_range_t& bit_range) : _bit_range(bit_range) {}
140  template <bool IsMutable2> bit_aligned_pixel_reference(const bit_aligned_pixel_reference<BitField,ChannelBitSizes,Layout,IsMutable2>& p) : _bit_range(p._bit_range) {}
141 
142  // Grayscale references can be constructed from the channel reference
143  explicit bit_aligned_pixel_reference(typename kth_element_type<bit_aligned_pixel_reference,0>::type const channel0)
144  : _bit_range(static_cast<data_ptr_t>(&channel0), channel0.first_bit())
145  {
146  static_assert(num_channels<bit_aligned_pixel_reference>::value == 1, "");
147  }
148 
149  // Construct from another compatible pixel type
150  bit_aligned_pixel_reference(bit_aligned_pixel_reference const& p)
151  : _bit_range(p._bit_range) {}
152 
153  // TODO: Why p by non-const reference?
154  template <typename BF, typename CR>
155  bit_aligned_pixel_reference(packed_pixel<BF, CR, Layout>& p)
156  : _bit_range(static_cast<data_ptr_t>(&gil::at_c<0>(p)), gil::at_c<0>(p).first_bit())
157  {
158  check_compatible<packed_pixel<BF, CR, Layout>>();
159  }
160 
161  auto operator=(bit_aligned_pixel_reference const& p) const
162  -> bit_aligned_pixel_reference const&
163  {
164  static_copy(p, *this);
165  return *this;
166  }
167 
168  template <typename P>
169  auto operator=(P const& p) const -> bit_aligned_pixel_reference const&
170  {
171  assign(p, is_pixel<P>());
172  return *this;
173  }
174 
175  template <typename P>
176  bool operator==(P const& p) const
177  {
178  return equal(p, is_pixel<P>());
179  }
180 
181  template <typename P>
182  bool operator!=(P const& p) const { return !(*this==p); }
183 
184  auto operator->() const -> bit_aligned_pixel_reference const* { return this; }
185 
186  bit_range_t const& bit_range() const { return _bit_range; }
187 
188 private:
189  mutable bit_range_t _bit_range;
190  template <typename B, typename C, typename L, bool M> friend struct bit_aligned_pixel_reference;
191 
192  template <typename Pixel> static void check_compatible() { gil_function_requires<PixelsCompatibleConcept<Pixel,bit_aligned_pixel_reference> >(); }
193 
194  template <typename Pixel>
195  void assign(Pixel const& p, std::true_type) const
196  {
197  check_compatible<Pixel>();
198  static_copy(p, *this);
199  }
200 
201  template <typename Pixel>
202  bool equal(Pixel const& p, std::true_type) const
203  {
204  check_compatible<Pixel>();
205  return static_equal(*this, p);
206  }
207 
208 private:
209  static void check_gray()
210  {
211  static_assert(std::is_same<typename Layout::color_space_t, gray_t>::value, "");
212  }
213 
214  template <typename Channel>
215  void assign(Channel const& channel, std::false_type) const
216  {
217  check_gray();
218  gil::at_c<0>(*this) = channel;
219  }
220 
221  template <typename Channel>
222  bool equal (Channel const& channel, std::false_type) const
223  {
224  check_gray();
225  return gil::at_c<0>(*this) == channel;
226  }
227 };
228 
230 // ColorBasedConcept
232 
233 template <typename BitField, typename ChannelBitSizes, typename L, bool IsMutable, int K>
234 struct kth_element_type
235 <
236  bit_aligned_pixel_reference<BitField, ChannelBitSizes, L, IsMutable>,
237  K
238 >
239 {
240  using type = packed_dynamic_channel_reference
241  <
242  BitField,
243  mp11::mp_at_c<ChannelBitSizes, K>::value,
244  IsMutable
245  > const;
246 };
247 
248 template <typename B, typename C, typename L, bool M, int K>
249 struct kth_element_reference_type<bit_aligned_pixel_reference<B,C,L,M>, K>
250  : public kth_element_type<bit_aligned_pixel_reference<B,C,L,M>, K> {};
251 
252 template <typename B, typename C, typename L, bool M, int K>
253 struct kth_element_const_reference_type<bit_aligned_pixel_reference<B,C,L,M>, K>
254  : public kth_element_type<bit_aligned_pixel_reference<B,C,L,M>, K> {};
255 
256 namespace detail {
257 
258 // returns sum of IntegralVector[0] ... IntegralVector[K-1]
259 template <typename IntegralVector, int K>
260 struct sum_k
261  : mp11::mp_plus
262  <
263  sum_k<IntegralVector, K - 1>,
264  typename mp11::mp_at_c<IntegralVector, K - 1>::type
265  >
266 {};
267 
268 template <typename IntegralVector>
269 struct sum_k<IntegralVector, 0> : std::integral_constant<int, 0> {};
270 
271 } // namespace detail
272 
273 // at_c required by MutableColorBaseConcept
274 template <int K, typename BitField, typename ChannelBitSizes, typename L, bool IsMutable>
275 inline
276 auto at_c(const bit_aligned_pixel_reference<BitField, ChannelBitSizes, L, IsMutable>& p)
277  -> typename kth_element_reference_type<bit_aligned_pixel_reference<BitField, ChannelBitSizes, L, IsMutable>, K>::type
278 {
279  using pixel_t = bit_aligned_pixel_reference<BitField, ChannelBitSizes, L, IsMutable>;
280  using channel_t = typename kth_element_reference_type<pixel_t, K>::type;
281  using bit_range_t = typename pixel_t::bit_range_t;
282 
283  bit_range_t bit_range(p.bit_range());
284  bit_range.bit_advance(detail::sum_k<ChannelBitSizes, K>::value);
285 
286  return channel_t(bit_range.current_byte(), bit_range.bit_offset());
287 }
288 
290 // PixelConcept
292 
294 template <typename B, typename C, typename L, bool M>
295 struct is_pixel<bit_aligned_pixel_reference<B, C, L, M> > : std::true_type {};
296 
298 // PixelBasedConcept
300 
301 template <typename B, typename C, typename L, bool M>
302 struct color_space_type<bit_aligned_pixel_reference<B, C, L, M>>
303 {
304  using type = typename L::color_space_t;
305 };
306 
307 template <typename B, typename C, typename L, bool M>
308 struct channel_mapping_type<bit_aligned_pixel_reference<B, C, L, M>>
309 {
310  using type = typename L::channel_mapping_t;
311 };
312 
313 template <typename B, typename C, typename L, bool M>
314 struct is_planar<bit_aligned_pixel_reference<B, C, L, M>> : std::false_type {};
315 
317 // pixel_reference_type
319 
320 // Constructs a homogeneous bit_aligned_pixel_reference given a channel reference
321 template <typename BitField, int NumBits, typename Layout>
322 struct pixel_reference_type
323  <
324  packed_dynamic_channel_reference<BitField, NumBits, false> const,
325  Layout, false, false
326  >
327 {
328 private:
329  using channel_bit_sizes_t = mp11::mp_repeat
330  <
331  mp11::mp_list<std::integral_constant<unsigned, NumBits>>,
332  mp11::mp_size<typename Layout::color_space_t>
333  >;
334 
335 public:
336  using type =
337  bit_aligned_pixel_reference<BitField, channel_bit_sizes_t, Layout, false>;
338 };
339 
340 // Same but for the mutable case. We cannot combine the mutable
341 // and read-only cases because this triggers ambiguity
342 template <typename BitField, int NumBits, typename Layout>
343 struct pixel_reference_type
344  <
345  packed_dynamic_channel_reference<BitField, NumBits, true> const,
346  Layout, false, true
347  >
348 {
349 private:
350  using channel_bit_sizes_t = mp11::mp_repeat
351  <
352  mp11::mp_list<std::integral_constant<unsigned, NumBits>>,
353  mp11::mp_size<typename Layout::color_space_t>
354  >;
355 
356 public:
357  using type = bit_aligned_pixel_reference<BitField, channel_bit_sizes_t, Layout, true>;
358 };
359 
360 } } // namespace boost::gil
361 
362 namespace std {
363 
364 // We are forced to define swap inside std namespace because on some platforms (Visual Studio 8) STL calls swap qualified.
365 // swap with 'left bias':
366 // - swap between proxy and anything
367 // - swap between value type and proxy
368 // - swap between proxy and proxy
369 // Having three overloads allows us to swap between different (but compatible) models of PixelConcept
370 
371 template <typename B, typename C, typename L, typename R> inline
372 void swap(const boost::gil::bit_aligned_pixel_reference<B,C,L,true> x, R& y) {
373  boost::gil::swap_proxy<typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type>(x,y);
374 }
375 
376 
377 template <typename B, typename C, typename L> inline
378 void swap(typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type& x, const boost::gil::bit_aligned_pixel_reference<B,C,L,true> y) {
379  boost::gil::swap_proxy<typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type>(x,y);
380 }
381 
382 
383 template <typename B, typename C, typename L> inline
384 void swap(const boost::gil::bit_aligned_pixel_reference<B,C,L,true> x, const boost::gil::bit_aligned_pixel_reference<B,C,L,true> y) {
385  boost::gil::swap_proxy<typename boost::gil::bit_aligned_pixel_reference<B,C,L,true>::value_type>(x,y);
386 }
387 
388 } // namespace std
389 
390 #endif
Definition: bit_aligned_pixel_reference.hpp:34
BOOST_FORCEINLINE bool equal(boost::gil::iterator_from_2d< Loc1 > first, boost::gil::iterator_from_2d< Loc1 > last, boost::gil::iterator_from_2d< Loc2 > first2)
std::equal(I1,I1,I2) with I1 and I2 being a iterator_from_2d
Definition: algorithm.hpp:1029
void swap(boost::gil::packed_channel_reference< BF, FB, NB, M > const x, R &y)
swap for packed_channel_reference
Definition: channel.hpp:529
auto at_c(detail::homogeneous_color_base< E, L, N > &p) -> typename std::add_lvalue_reference< E >::type
Provides mutable access to the K-th element, in physical order.
Definition: color_base.hpp:597
Heterogeneous pixel value whose channel references can be constructed from the pixel bitfield and the...
Definition: metafunctions.hpp:24