Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/gil/step_iterator.hpp @ 133:4acb5d8d80b6 tip

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Don't fail environmental check if README.md exists (but .txt and no-suffix don't)
author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents 2665513ce2d3
children
rev   line source
Chris@16 1 /*
Chris@16 2 Copyright 2005-2007 Adobe Systems Incorporated
Chris@16 3
Chris@16 4 Use, modification and distribution are subject to the Boost Software License,
Chris@16 5 Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
Chris@16 6 http://www.boost.org/LICENSE_1_0.txt).
Chris@16 7
Chris@16 8 See http://opensource.adobe.com/gil for most recent version including documentation.
Chris@16 9 */
Chris@16 10
Chris@16 11 /*************************************************************************************************/
Chris@16 12
Chris@16 13 #ifndef GIL_STEP_ITERATOR_H
Chris@16 14 #define GIL_STEP_ITERATOR_H
Chris@16 15
Chris@16 16 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 17 /// \file
Chris@16 18 /// \brief pixel step iterator
Chris@16 19 /// \author Lubomir Bourdev and Hailin Jin \n
Chris@16 20 /// Adobe Systems Incorporated
Chris@16 21 /// \date 2005-2007 \n Last updated on September 18, 2007
Chris@16 22 ///
Chris@16 23 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 24
Chris@16 25 #include <cstddef>
Chris@16 26 #include <iterator>
Chris@16 27 #include <boost/iterator/iterator_facade.hpp>
Chris@16 28 #include "gil_config.hpp"
Chris@16 29 #include "utilities.hpp"
Chris@16 30 #include "pixel_iterator.hpp"
Chris@16 31 #include "pixel_iterator_adaptor.hpp"
Chris@16 32
Chris@16 33 namespace boost { namespace gil {
Chris@16 34
Chris@16 35 /// \defgroup PixelIteratorModelStepPtr step iterators
Chris@16 36 /// \ingroup PixelIteratorModel
Chris@16 37 /// \brief Iterators that allow for specifying the step between two adjacent values
Chris@16 38
Chris@16 39
Chris@16 40 namespace detail {
Chris@16 41
Chris@16 42 /// \ingroup PixelIteratorModelStepPtr
Chris@16 43 /// \brief An adaptor over an existing iterator that changes the step unit
Chris@16 44 ///
Chris@16 45 /// (i.e. distance(it,it+1)) by a given predicate. Instead of calling base's
Chris@16 46 /// operators ++, --, +=, -=, etc. the adaptor is using the passed policy object SFn
Chris@16 47 /// for advancing and for computing the distance between iterators.
Chris@16 48
Chris@16 49 template <typename Derived, // type of the derived class
Chris@16 50 typename Iterator, // Models Iterator
Chris@16 51 typename SFn> // A policy object that can compute the distance between two iterators of type Iterator
Chris@16 52 // and can advance an iterator of type Iterator a given number of Iterator's units
Chris@16 53 class step_iterator_adaptor : public iterator_adaptor<Derived, Iterator, use_default, use_default, use_default, typename SFn::difference_type> {
Chris@16 54 public:
Chris@16 55 typedef iterator_adaptor<Derived, Iterator, use_default, use_default, use_default, typename SFn::difference_type> parent_t;
Chris@16 56 typedef typename std::iterator_traits<Iterator>::difference_type base_difference_type;
Chris@16 57 typedef typename SFn::difference_type difference_type;
Chris@16 58 typedef typename std::iterator_traits<Iterator>::reference reference;
Chris@16 59
Chris@16 60 step_iterator_adaptor() {}
Chris@16 61 step_iterator_adaptor(const Iterator& it, SFn step_fn=SFn()) : parent_t(it), _step_fn(step_fn) {}
Chris@16 62
Chris@16 63 difference_type step() const { return _step_fn.step(); }
Chris@16 64
Chris@16 65 protected:
Chris@16 66 SFn _step_fn;
Chris@16 67 private:
Chris@16 68 friend class boost::iterator_core_access;
Chris@16 69
Chris@16 70 void increment() { _step_fn.advance(this->base_reference(),1); }
Chris@16 71 void decrement() { _step_fn.advance(this->base_reference(),-1); }
Chris@16 72 void advance(base_difference_type d) { _step_fn.advance(this->base_reference(),d); }
Chris@16 73 difference_type distance_to(const step_iterator_adaptor& it) const { return _step_fn.difference(this->base_reference(),it.base_reference()); }
Chris@16 74 };
Chris@16 75
Chris@16 76 // although iterator_adaptor defines these, the default implementation computes distance and compares for zero.
Chris@16 77 // it is often faster to just apply the relation operator to the base
Chris@16 78 template <typename D,typename Iterator,typename SFn> inline
Chris@16 79 bool operator>(const step_iterator_adaptor<D,Iterator,SFn>& p1, const step_iterator_adaptor<D,Iterator,SFn>& p2) {
Chris@16 80 return p1.step()>0 ? p1.base()> p2.base() : p1.base()< p2.base();
Chris@16 81 }
Chris@16 82
Chris@16 83 template <typename D,typename Iterator,typename SFn> inline
Chris@16 84 bool operator<(const step_iterator_adaptor<D,Iterator,SFn>& p1, const step_iterator_adaptor<D,Iterator,SFn>& p2) {
Chris@16 85 return p1.step()>0 ? p1.base()< p2.base() : p1.base()> p2.base();
Chris@16 86 }
Chris@16 87
Chris@16 88 template <typename D,typename Iterator,typename SFn> inline
Chris@16 89 bool operator>=(const step_iterator_adaptor<D,Iterator,SFn>& p1, const step_iterator_adaptor<D,Iterator,SFn>& p2) {
Chris@16 90 return p1.step()>0 ? p1.base()>=p2.base() : p1.base()<=p2.base();
Chris@16 91 }
Chris@16 92
Chris@16 93 template <typename D,typename Iterator,typename SFn> inline
Chris@16 94 bool operator<=(const step_iterator_adaptor<D,Iterator,SFn>& p1, const step_iterator_adaptor<D,Iterator,SFn>& p2) {
Chris@16 95 return p1.step()>0 ? p1.base()<=p2.base() : p1.base()>=p2.base();
Chris@16 96 }
Chris@16 97
Chris@16 98 template <typename D,typename Iterator,typename SFn> inline
Chris@16 99 bool operator==(const step_iterator_adaptor<D,Iterator,SFn>& p1, const step_iterator_adaptor<D,Iterator,SFn>& p2) {
Chris@16 100 return p1.base()==p2.base();
Chris@16 101 }
Chris@16 102
Chris@16 103 template <typename D,typename Iterator,typename SFn> inline
Chris@16 104 bool operator!=(const step_iterator_adaptor<D,Iterator,SFn>& p1, const step_iterator_adaptor<D,Iterator,SFn>& p2) {
Chris@16 105 return p1.base()!=p2.base();
Chris@16 106 }
Chris@16 107
Chris@16 108 } // namespace detail
Chris@16 109
Chris@16 110 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 111 /// MEMORY-BASED STEP ITERATOR
Chris@16 112 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 113
Chris@16 114 /// \class memory_based_step_iterator
Chris@16 115 /// \ingroup PixelIteratorModelStepPtr PixelBasedModel
Chris@16 116 /// \brief Iterator with dynamically specified step in memory units (bytes or bits). Models StepIteratorConcept, IteratorAdaptorConcept, MemoryBasedIteratorConcept, PixelIteratorConcept, HasDynamicXStepTypeConcept
Chris@16 117 ///
Chris@16 118 /// A refinement of step_iterator_adaptor that uses a dynamic parameter for the step
Chris@16 119 /// which is specified in memory units, such as bytes or bits
Chris@16 120 ///
Chris@16 121 /// Pixel step iterators are used to provide iteration over non-adjacent pixels.
Chris@16 122 /// Common use is a vertical traversal, where the step is the row stride.
Chris@16 123 ///
Chris@16 124 /// Another application is as a sub-channel view. For example, a red intensity image over
Chris@16 125 /// interleaved RGB data would use a step iterator adaptor with step sizeof(channel_t)*3
Chris@16 126 /// In the latter example the step size could be fixed at compile time for efficiency.
Chris@16 127 /// Compile-time fixed step can be implemented by providing a step function object that takes the step as a template
Chris@16 128 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 129
Chris@16 130 /// \ingroup PixelIteratorModelStepPtr
Chris@16 131 /// \brief function object that returns the memory unit distance between two iterators and advances a given iterator a given number of mem units (bytes or bits)
Chris@16 132 template <typename Iterator>
Chris@16 133 struct memunit_step_fn {
Chris@16 134 typedef std::ptrdiff_t difference_type;
Chris@16 135
Chris@16 136 memunit_step_fn(difference_type step=memunit_step(Iterator())) : _step(step) {}
Chris@16 137
Chris@16 138 difference_type difference(const Iterator& it1, const Iterator& it2) const { return memunit_distance(it1,it2)/_step; }
Chris@16 139 void advance(Iterator& it, difference_type d) const { memunit_advance(it,d*_step); }
Chris@16 140 difference_type step() const { return _step; }
Chris@16 141
Chris@16 142 void set_step(std::ptrdiff_t step) { _step=step; }
Chris@16 143 private:
Chris@16 144 GIL_CLASS_REQUIRE(Iterator, boost::gil, MemoryBasedIteratorConcept)
Chris@16 145 difference_type _step;
Chris@16 146 };
Chris@16 147
Chris@16 148 template <typename Iterator>
Chris@16 149 class memory_based_step_iterator : public detail::step_iterator_adaptor<memory_based_step_iterator<Iterator>,
Chris@16 150 Iterator,
Chris@16 151 memunit_step_fn<Iterator> > {
Chris@16 152 GIL_CLASS_REQUIRE(Iterator, boost::gil, MemoryBasedIteratorConcept)
Chris@16 153 public:
Chris@16 154 typedef detail::step_iterator_adaptor<memory_based_step_iterator<Iterator>,
Chris@16 155 Iterator,
Chris@16 156 memunit_step_fn<Iterator> > parent_t;
Chris@16 157 typedef typename parent_t::reference reference;
Chris@16 158 typedef typename parent_t::difference_type difference_type;
Chris@16 159 typedef Iterator x_iterator;
Chris@16 160
Chris@16 161 memory_based_step_iterator() : parent_t(Iterator()) {}
Chris@16 162 memory_based_step_iterator(Iterator it, std::ptrdiff_t memunit_step) : parent_t(it, memunit_step_fn<Iterator>(memunit_step)) {}
Chris@16 163 template <typename I2>
Chris@16 164 memory_based_step_iterator(const memory_based_step_iterator<I2>& it)
Chris@16 165 : parent_t(it.base(), memunit_step_fn<Iterator>(it.step())) {}
Chris@16 166
Chris@16 167 /// For some reason operator[] provided by iterator_adaptor returns a custom class that is convertible to reference
Chris@16 168 /// We require our own reference because it is registered in iterator_traits
Chris@16 169 reference operator[](difference_type d) const { return *(*this+d); }
Chris@16 170
Chris@16 171 void set_step(std::ptrdiff_t memunit_step) { this->_step_fn.set_step(memunit_step); }
Chris@16 172
Chris@16 173 x_iterator& base() { return parent_t::base_reference(); }
Chris@16 174 x_iterator const& base() const { return parent_t::base_reference(); }
Chris@16 175 };
Chris@16 176
Chris@16 177 template <typename Iterator>
Chris@16 178 struct const_iterator_type<memory_based_step_iterator<Iterator> > {
Chris@16 179 typedef memory_based_step_iterator<typename const_iterator_type<Iterator>::type> type;
Chris@16 180 };
Chris@16 181
Chris@16 182 template <typename Iterator>
Chris@16 183 struct iterator_is_mutable<memory_based_step_iterator<Iterator> > : public iterator_is_mutable<Iterator> {};
Chris@16 184
Chris@16 185
Chris@16 186 /////////////////////////////
Chris@16 187 // IteratorAdaptorConcept
Chris@16 188 /////////////////////////////
Chris@16 189
Chris@16 190 template <typename Iterator>
Chris@16 191 struct is_iterator_adaptor<memory_based_step_iterator<Iterator> > : public mpl::true_{};
Chris@16 192
Chris@16 193 template <typename Iterator>
Chris@16 194 struct iterator_adaptor_get_base<memory_based_step_iterator<Iterator> > {
Chris@16 195 typedef Iterator type;
Chris@16 196 };
Chris@16 197
Chris@16 198 template <typename Iterator, typename NewBaseIterator>
Chris@16 199 struct iterator_adaptor_rebind<memory_based_step_iterator<Iterator>,NewBaseIterator> {
Chris@16 200 typedef memory_based_step_iterator<NewBaseIterator> type;
Chris@16 201 };
Chris@16 202
Chris@16 203 /////////////////////////////
Chris@16 204 // PixelBasedConcept
Chris@16 205 /////////////////////////////
Chris@16 206
Chris@16 207 template <typename Iterator>
Chris@16 208 struct color_space_type<memory_based_step_iterator<Iterator> > : public color_space_type<Iterator> {};
Chris@16 209
Chris@16 210 template <typename Iterator>
Chris@16 211 struct channel_mapping_type<memory_based_step_iterator<Iterator> > : public channel_mapping_type<Iterator> {};
Chris@16 212
Chris@16 213 template <typename Iterator>
Chris@16 214 struct is_planar<memory_based_step_iterator<Iterator> > : public is_planar<Iterator> {};
Chris@16 215
Chris@16 216 template <typename Iterator>
Chris@16 217 struct channel_type<memory_based_step_iterator<Iterator> > : public channel_type<Iterator> {};
Chris@16 218
Chris@16 219 /////////////////////////////
Chris@16 220 // MemoryBasedIteratorConcept
Chris@16 221 /////////////////////////////
Chris@16 222 template <typename Iterator>
Chris@16 223 struct byte_to_memunit<memory_based_step_iterator<Iterator> > : public byte_to_memunit<Iterator> {};
Chris@16 224
Chris@16 225 template <typename Iterator>
Chris@16 226 inline std::ptrdiff_t memunit_step(const memory_based_step_iterator<Iterator>& p) { return p.step(); }
Chris@16 227
Chris@16 228 template <typename Iterator>
Chris@16 229 inline std::ptrdiff_t memunit_distance(const memory_based_step_iterator<Iterator>& p1,
Chris@16 230 const memory_based_step_iterator<Iterator>& p2) {
Chris@16 231 return memunit_distance(p1.base(),p2.base());
Chris@16 232 }
Chris@16 233
Chris@16 234 template <typename Iterator>
Chris@16 235 inline void memunit_advance(memory_based_step_iterator<Iterator>& p,
Chris@16 236 std::ptrdiff_t diff) {
Chris@16 237 memunit_advance(p.base(), diff);
Chris@16 238 }
Chris@16 239
Chris@16 240 template <typename Iterator>
Chris@16 241 inline memory_based_step_iterator<Iterator>
Chris@16 242 memunit_advanced(const memory_based_step_iterator<Iterator>& p,
Chris@16 243 std::ptrdiff_t diff) {
Chris@16 244 return memory_based_step_iterator<Iterator>(memunit_advanced(p.base(), diff),p.step());
Chris@16 245 }
Chris@16 246
Chris@16 247 template <typename Iterator>
Chris@16 248 inline typename std::iterator_traits<Iterator>::reference
Chris@16 249 memunit_advanced_ref(const memory_based_step_iterator<Iterator>& p,
Chris@16 250 std::ptrdiff_t diff) {
Chris@16 251 return memunit_advanced_ref(p.base(), diff);
Chris@16 252 }
Chris@16 253
Chris@16 254 /////////////////////////////
Chris@16 255 // HasDynamicXStepTypeConcept
Chris@16 256 /////////////////////////////
Chris@16 257
Chris@16 258 template <typename Iterator>
Chris@16 259 struct dynamic_x_step_type<memory_based_step_iterator<Iterator> > {
Chris@16 260 typedef memory_based_step_iterator<Iterator> type;
Chris@16 261 };
Chris@16 262
Chris@16 263 // For step iterators, pass the function object to the base
Chris@16 264 template <typename Iterator, typename Deref>
Chris@16 265 struct iterator_add_deref<memory_based_step_iterator<Iterator>,Deref> {
Chris@16 266 GIL_CLASS_REQUIRE(Deref, boost::gil, PixelDereferenceAdaptorConcept)
Chris@16 267
Chris@16 268 typedef memory_based_step_iterator<typename iterator_add_deref<Iterator, Deref>::type> type;
Chris@16 269
Chris@16 270 static type make(const memory_based_step_iterator<Iterator>& it, const Deref& d) { return type(iterator_add_deref<Iterator, Deref>::make(it.base(),d),it.step()); }
Chris@16 271 };
Chris@16 272
Chris@16 273 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 274 /// make_step_iterator
Chris@16 275 ////////////////////////////////////////////////////////////////////////////////////////
Chris@16 276
Chris@16 277 template <typename I> typename dynamic_x_step_type<I>::type make_step_iterator(const I& it, std::ptrdiff_t step);
Chris@16 278
Chris@16 279 namespace detail {
Chris@16 280
Chris@16 281 // if the iterator is a plain base iterator (non-adaptor), wraps it in memory_based_step_iterator
Chris@16 282 template <typename I>
Chris@16 283 typename dynamic_x_step_type<I>::type make_step_iterator_impl(const I& it, std::ptrdiff_t step, mpl::false_) {
Chris@16 284 return memory_based_step_iterator<I>(it, step);
Chris@16 285 }
Chris@16 286
Chris@16 287 // If the iterator is compound, put the step in its base
Chris@16 288 template <typename I>
Chris@16 289 typename dynamic_x_step_type<I>::type make_step_iterator_impl(const I& it, std::ptrdiff_t step, mpl::true_) {
Chris@16 290 return make_step_iterator(it.base(), step);
Chris@16 291 }
Chris@16 292
Chris@16 293 // If the iterator is memory_based_step_iterator, change the step
Chris@16 294 template <typename BaseIt>
Chris@16 295 memory_based_step_iterator<BaseIt> make_step_iterator_impl(const memory_based_step_iterator<BaseIt>& it, std::ptrdiff_t step, mpl::true_) {
Chris@16 296 return memory_based_step_iterator<BaseIt>(it.base(), step);
Chris@16 297 }
Chris@16 298 }
Chris@16 299
Chris@16 300 /// \brief Constructs a step iterator from a base iterator and a step.
Chris@16 301 ///
Chris@16 302 /// To construct a step iterator from a given iterator Iterator and a given step, if Iterator does not
Chris@16 303 /// already have a dynamic step, we wrap it in a memory_based_step_iterator. Otherwise we
Chris@16 304 /// do a compile-time traversal of the chain of iterator adaptors to locate the step iterator
Chris@16 305 /// and then set it step to the new one.
Chris@16 306 ///
Chris@16 307 /// The step iterator of Iterator is not always memory_based_step_iterator<Iterator>. For example, Iterator may
Chris@16 308 /// already be a memory_based_step_iterator, in which case it will be inefficient to stack them;
Chris@16 309 /// we can obtain the same result by multiplying their steps. Note that for Iterator to be a
Chris@16 310 /// step iterator it does not necessarily have to have the form memory_based_step_iterator<J>.
Chris@16 311 /// The step iterator can be wrapped inside another iterator. Also, it may not have the
Chris@16 312 /// type memory_based_step_iterator, but it could be a user-provided type.
Chris@16 313 template <typename I> // Models MemoryBasedIteratorConcept, HasDynamicXStepTypeConcept
Chris@16 314 typename dynamic_x_step_type<I>::type make_step_iterator(const I& it, std::ptrdiff_t step) {
Chris@16 315 return detail::make_step_iterator_impl(it, step, typename is_iterator_adaptor<I>::type());
Chris@16 316 }
Chris@16 317
Chris@16 318 } } // namespace boost::gil
Chris@16 319
Chris@16 320 #endif