DGtal 1.3.0
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Typedefs | Functions | Variables
testSimpleRandomAccessRangeFromPoint.cpp File Reference
#include "DGtalCatch.h"
#include <DGtal/kernel/SpaceND.h>
#include <DGtal/kernel/domains/HyperRectDomain.h>
#include <DGtal/kernel/domains/Linearizer.h>
#include <DGtal/images/ImageContainerBySTLVector.h>
#include <algorithm>
#include <cstddef>

Go to the source code of this file.

Typedefs

typedef double Value
 
typedef SpaceND< 2 > Space
 
typedef Space::Point Point
 
typedef HyperRectDomain< SpaceDomain
 
typedef ImageContainerBySTLVector< Domain, ValueImage
 
typedef Image::Range Range
 
typedef Image::ConstRange ConstRange
 
typedef Linearizer< Domain, ColMajorStorage > Linearizer
 

Functions

const Domain domain (Point(1, 2), Point(6, 5))
 
const Point aPoint (3, 4)
 
 REQUIRE (domain.isInside(aPoint))
 
Image image (domain)
 
Image refImage (domain)
 
 for (Domain::ConstIterator it=domain.begin(), it_end=domain.end();it !=it_end;++it,++cnt)
 
 SECTION ("Testing constant forward iterators")
 
 SECTION ("Testing constant forward iterators from a point")
 
 SECTION ("Testing mutable forward iterators")
 
 SECTION ("Testing mutable forward iterators from a point")
 
 SECTION ("Testing constant reverse iterators")
 
 SECTION ("Testing constant reverse iterators from a point")
 
 SECTION ("Testing mutable reverse iterators")
 
 SECTION ("Testing mutable reverse iterators from a point")
 
 SECTION ("Testing forward output iterators")
 
 SECTION ("Testing forward output iterators from a point")
 
 SECTION ("Testing reverse output iterators")
 
 SECTION ("Testing reverse output iterators from a point")
 
 SECTION ("Testing constant forward circulators")
 
 SECTION ("Testing constant reverse circulators")
 
 SECTION ("Testing mutable circulators in forward way")
 
 SECTION ("Testing mutable circulators in backward way")
 
 SECTION ("Testing mutable reverse circulators in forward way")
 
 SECTION ("Testing mutable reverse circulators in backward way")
 

Variables

const double hour = 4.29
 
std::size_t cnt = 0
 

Detailed Description

This program is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program. If not, see http://www.gnu.org/licenses/.

Author
Roland Denis (rolan.nosp@m.d.de.nosp@m.nis@u.nosp@m.niv-.nosp@m.smb.f.nosp@m.r )
Date
2015/10/21

This file is part of the DGtal library

Definition in file testSimpleRandomAccessRangeFromPoint.cpp.

Typedef Documentation

◆ ConstRange

Definition at line 47 of file testSimpleRandomAccessRangeFromPoint.cpp.

◆ Domain

typedef HyperRectDomain<Space> Domain

◆ Image

typedef ImageContainerBySTLVector<Domain, Value> Image

◆ Linearizer

typedef Linearizer<Domain, ColMajorStorage> Linearizer

Definition at line 48 of file testSimpleRandomAccessRangeFromPoint.cpp.

◆ Point

typedef Space::Point Point

Definition at line 43 of file testSimpleRandomAccessRangeFromPoint.cpp.

◆ Range

typedef Image::Range Range

◆ Space

typedef SpaceND<2> Space

◆ Value

typedef double Value
Initial value:
{
using namespace DGtal
DGtal is the top-level namespace which contains all DGtal functions and types.
Examples
arithmetic/convergents-biginteger.cpp, and arithmetic/convergents.cpp.

Definition at line 41 of file testSimpleRandomAccessRangeFromPoint.cpp.

Function Documentation

◆ aPoint()

const Point aPoint ( ,
 
)

Referenced by DGtal::SimpleRandomAccessRangeFromPoint< TConstIterator, TIterator, DistanceFunctor >::begin(), DGtal::TiledImageBidirectionalRangeFromPoint< TTiledImage >::begin(), DGtal::ConstRangeFromPointAdapter< TRange, TFunctor, TReturnType >::begin(), DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::begin(), DGtal::TiledImageBidirectionalConstRangeFromPoint< TTiledImage >::begin(), DGtal::DefaultConstImageRange< TImage >::begin(), DGtal::DefaultImageRange< TImage >::begin(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::begin(), DGtal::HyperRectDomain< TSpace >::begin(), DGtal::HyperRectDomain< TSpace >::ConstSubRange::begin(), DGtal::functors::ConstImageFunctorHolder< TDomain, TValue, TFunctor >::ConstRange::begin(), calcPointModuloDomain(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::findBlockCoordsFromPoint(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::findSubDomain(), DGtal::ReverseDistanceTransformation< TWeightImage, TPSeparableMetric, TImageContainer >::getPowerVector(), DGtal::ArrayImageAdapter< TArrayIterator, HyperRectDomain< TSpace > >::getValue(), DGtal::DistanceTransformation< TSpace, TPointPredicate, TSeparableMetric, TImageContainer >::getVoronoiSite(), DGtal::DistanceTransformation< TSpace, TPointPredicate, TSeparableMetric, TImageContainer >::operator()(), DGtal::PowerMap< TWeightImage, TPowerSeparableMetric, TImageContainer >::operator()(), DGtal::ReverseDistanceTransformation< TWeightImage, TPSeparableMetric, TImageContainer >::operator()(), DGtal::VoronoiMap< TSpace, TPointPredicate, TSeparableMetric, TImageContainer >::operator()(), DGtal::VoronoiMapComplete< TSpace, TPointPredicate, TSeparableMetric, TImageContainer >::operator()(), DGtal::ConstImageAdapter< TImageContainer, TNewDomain, TFunctorD, TNewValue, TFunctorV >::operator()(), DGtal::Image< TImageContainer >::operator()(), DGtal::ImageAdapter< TImageContainer, TNewDomain, TFunctorD, TNewValue, TFunctorV, TFunctorVm1 >::operator()(), DGtal::DistanceFunctorFromPoint< TImage >::operator()(), DGtal::ImageToConstantFunctor< Image, PointPredicate, TValue >::operator()(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::operator()(), DGtal::functors::BasicDomainSubSampler< TDomain, TInteger, TValue >::operator()(), DGtal::functors::FlipDomainAxis< TDomain >::operator()(), DGtal::ParametricShapeCurvatureFunctor< TParametricShape >::operator()(), DGtal::ParametricShapeTangentFunctor< TParametricShape >::operator()(), DGtal::ImplicitBall< TSpace >::operator()(), DGtal::ImplicitHyperCube< TSpace >::operator()(), DGtal::ImplicitNorm1Ball< TSpace >::operator()(), DGtal::ImplicitRoundedHyperCube< TSpace >::operator()(), DGtal::functors::Point2DEmbedderIn3D< TDomain3D, TInteger >::operator()(), DGtal::functors::SliceRotator2D< TDomain3D, TInteger >::operator()(), DGtal::functors::IntervalForegroundPredicate< Image >::operator()(), DGtal::functors::SimpleThresholdForegroundPredicate< Image >::operator()(), DGtal::ArrayImageAdapter< TArrayIterator, HyperRectDomain< TSpace > >::operator()(), DGtal::IteratorCompletionTraits< ArrayImageAdapter< TArrayIterator, TDomain > >::DistanceFunctor::operator()(), DGtal::functors::PointFunctorHolder< TPoint, TValue, TFunctor >::operator()(), DGtal::functors::ConstImageFunctorHolder< TDomain, TValue, TFunctor >::operator()(), DGtal::DigitalSetInserter< TDigitalSet >::operator=(), DGtal::SimpleRandomAccessRangeFromPoint< TConstIterator, TIterator, DistanceFunctor >::outputIterator(), DGtal::TiledImageBidirectionalRangeFromPoint< TTiledImage >::outputIterator(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::outputIterator(), DGtal::DefaultImageRange< TImage >::outputIterator(), DGtal::SimpleRandomAccessRangeFromPoint< TConstIterator, TIterator, DistanceFunctor >::rbegin(), DGtal::TiledImageBidirectionalRangeFromPoint< TTiledImage >::rbegin(), DGtal::ConstRangeFromPointAdapter< TRange, TFunctor, TReturnType >::rbegin(), DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::rbegin(), DGtal::TiledImageBidirectionalConstRangeFromPoint< TTiledImage >::rbegin(), DGtal::DefaultConstImageRange< TImage >::rbegin(), DGtal::DefaultImageRange< TImage >::rbegin(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::rbegin(), DGtal::HyperRectDomain< TSpace >::rbegin(), DGtal::HyperRectDomain< TSpace >::ConstSubRange::rbegin(), DGtal::functors::ConstImageFunctorHolder< TDomain, TValue, TFunctor >::ConstRange::rbegin(), DGtal::SimpleRandomAccessRangeFromPoint< TConstIterator, TIterator, DistanceFunctor >::routputIterator(), DGtal::TiledImageBidirectionalRangeFromPoint< TTiledImage >::routputIterator(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::routputIterator(), DGtal::DefaultImageRange< TImage >::routputIterator(), SECTION(), DGtal::Image< TImageContainer >::setValue(), DGtal::ImageAdapter< TImageContainer, TNewDomain, TFunctorD, TNewValue, TFunctorV, TFunctorVm1 >::setValue(), DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::setValue(), DGtal::ArrayImageAdapter< TArrayIterator, HyperRectDomain< TSpace > >::setValue(), DGtal::ImageContainerBySTLVector< TDomain, TValue >::spanBegin(), DGtal::ImageContainerBySTLVector< TDomain, TValue >::spanEnd(), TEST_CASE(), testDirectIncidence(), testFaces(), testIncidence(), testNeighborhood(), testSCellsFunctors(), and DGtal::TiledImage< TImageContainer, TImageFactory, TImageCacheReadPolicy, TImageCacheWritePolicy >::TiledIterator::TiledIterator().

◆ domain()

const Domain domain ( Point(1, 2)  ,
Point(6, 5)   
)

◆ for()

for ( Domain::ConstIterator  it = domain.begin(),
it_end  = domain.end(); it != it_end; ++it,
++  cnt 
)

Definition at line 60 of file testSimpleRandomAccessRangeFromPoint.cpp.

61 {
62 image.setValue(*it, cnt*hour);
63 refImage.setValue(*it, cnt*hour);
64 }
Image refImage(domain)

References cnt, hour, and refImage().

◆ image()

Image image ( domain  )

◆ refImage()

Image refImage ( domain  )

Referenced by for(), SECTION(), and testWriteAndRead().

◆ REQUIRE()

REQUIRE ( domain.  isInsideaPoint)

◆ SECTION() [1/18]

SECTION ( "Testing constant forward circulators"  )

Definition at line 259 of file testSimpleRandomAccessRangeFromPoint.cpp.

260 {
261 // Reference sum
262 Value refSum = 0;
263 for ( Image::ConstIterator it = refImage.begin(), it_end = refImage.end(); it != it_end; ++it )
264 {
265 refSum += 2 * (*it);
266 }
267
268 // Sum in forward way
269 const Range range = image.range();
270 Value sum = 0;
271 cnt = 1;
272 for ( Range::ConstCirculator it = range.c(); cnt <= 2*domain.size(); ++it )
273 {
274 sum += *it;
275 ++cnt;
276 }
277 REQUIRE( sum == Approx(refSum) );
278 REQUIRE( std::equal( refImage.begin(), refImage.end(), range.c() ) );
279
280 // Sum in backward way
281 sum = 0;
282 cnt = 1;
283 for ( Range::ConstCirculator it = range.c(); cnt <= 2*domain.size(); --it )
284 {
285 sum += *it;
286 ++cnt;
287 }
288 REQUIRE( sum == Approx(refSum) );
289
290 // Sum in forward way
291 ConstRange crange = image.constRange();
292 sum = 0;
293 cnt = 1;
294 for ( Range::ConstCirculator it = crange.c(); cnt <= 2*domain.size(); ++it )
295 {
296 sum += *it;
297 ++cnt;
298 }
299 REQUIRE( sum == Approx(refSum) );
300 REQUIRE( std::equal( refImage.begin(), refImage.end(), crange.c() ) );
301
302 // Sum in backward way
303 sum = 0;
304 cnt = 1;
305 for ( Range::ConstCirculator it = crange.c(); cnt <= 2*domain.size(); --it )
306 {
307 sum += *it;
308 ++cnt;
309 }
310 REQUIRE( sum == Approx(refSum) );
311 }
Aim: model of CConstBidirectionalRangeFromPoint that adapts any range of elements bounded by two iter...
DGtal::Circulator< ConstIterator > ConstCirculator
Domain domain
REQUIRE(domain.isInside(aPoint))

References DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::c(), cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [2/18]

SECTION ( "Testing constant forward iterators from a point"  )

Definition at line 77 of file testSimpleRandomAccessRangeFromPoint.cpp.

78 {
79 const Range range = image.range();
80 REQUIRE( static_cast<Domain::Size>(range.end() - range.begin(aPoint)) == domain.size() - Linearizer::getIndex(aPoint, domain) );
81 REQUIRE( std::equal( range.begin(aPoint), range.end(), refImage.begin() + Linearizer::getIndex(aPoint, domain) ) );
82
83 ConstRange crange = image.constRange();
84 REQUIRE( static_cast<Domain::Size>(crange.end() - crange.begin(aPoint)) == domain.size() - Linearizer::getIndex(aPoint, domain) );
85 REQUIRE( std::equal( crange.begin(aPoint), crange.end(), refImage.begin() + Linearizer::getIndex(aPoint, domain) ) );
86 }
const Point aPoint(3, 4)

References aPoint(), DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::begin(), domain, DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::end(), refImage(), and REQUIRE().

◆ SECTION() [3/18]

SECTION ( "Testing constant forward iterators"  )
Examples
doc-examples/exampleCatch.cpp.

Definition at line 66 of file testSimpleRandomAccessRangeFromPoint.cpp.

67 {
68 const Range range = image.range();
69 REQUIRE( static_cast<Domain::Size>(range.end() - range.begin()) == domain.size() );
70 REQUIRE( std::equal(range.begin(), range.end(), refImage.begin()) );
71
72 ConstRange crange = image.constRange();
73 REQUIRE( static_cast<Domain::Size>(crange.end() - crange.begin()) == domain.size() );
74 REQUIRE( std::equal(crange.begin(), crange.end(), refImage.begin()) );
75 }

References DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::begin(), domain, DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::end(), refImage(), and REQUIRE().

Referenced by SCENARIO(), TEMPLATE_TEST_CASE(), TEST_CASE(), and TEST_CASE_METHOD().

◆ SECTION() [4/18]

SECTION ( "Testing constant reverse circulators"  )

Definition at line 313 of file testSimpleRandomAccessRangeFromPoint.cpp.

314 {
315 // Reference sum
316 Value refSum = 0;
317 for ( Image::ConstIterator it = refImage.begin(), it_end = refImage.end(); it != it_end; ++it )
318 {
319 refSum += 2 * (*it);
320 }
321
322 // Sum in forward way
323 const Range range = image.range();
324 Value sum = 0;
325 cnt = 1;
326 for ( Range::ConstReverseCirculator it = range.rc(); cnt <= 2*domain.size(); ++it )
327 {
328 sum += *it;
329 ++cnt;
330 }
331 REQUIRE( sum == Approx(refSum) );
332 REQUIRE( std::equal( refImage.rbegin(), refImage.rend(), range.rc() ) );
333
334 // Sum in backward way
335 sum = 0;
336 cnt = 1;
337 for ( Range::ConstReverseCirculator it = range.rc(); cnt <= 2*domain.size(); --it )
338 {
339 sum += *it;
340 ++cnt;
341 }
342 REQUIRE( sum == Approx(refSum) );
343
344 // Sum in forward way
345 ConstRange crange = image.constRange();
346 sum = 0;
347 cnt = 1;
348 for ( Range::ConstReverseCirculator it = crange.rc(); cnt <= 2*domain.size(); ++it )
349 {
350 sum += *it;
351 ++cnt;
352 }
353 REQUIRE( sum == Approx(refSum) );
354 REQUIRE( std::equal( refImage.rbegin(), refImage.rend(), crange.rc() ) );
355
356 // Sum in backward way
357 sum = 0;
358 cnt = 1;
359 for ( Range::ConstReverseCirculator it = crange.rc(); cnt <= 2*domain.size(); --it )
360 {
361 sum += *it;
362 ++cnt;
363 }
364 REQUIRE( sum == Approx(refSum) );
365 }
std::reverse_iterator< ConstCirculator > ConstReverseCirculator

References cnt, domain, DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::rc(), refImage(), and REQUIRE().

◆ SECTION() [5/18]

SECTION ( "Testing constant reverse iterators from a point"  )

Definition at line 141 of file testSimpleRandomAccessRangeFromPoint.cpp.

142 {
143 const Range range = image.range();
144 REQUIRE( static_cast<Domain::Size>(range.rend() - range.rbegin(aPoint)) == Linearizer::getIndex(aPoint, domain) + 1 );
145 REQUIRE( std::equal( range.rbegin(aPoint), range.rend(), refImage.rbegin() + (domain.size() - Linearizer::getIndex(aPoint, domain) - 1) ) );
146
147 ConstRange crange = image.constRange();
148 REQUIRE( static_cast<Domain::Size>(crange.rend() - crange.rbegin(aPoint)) == Linearizer::getIndex(aPoint, domain) + 1 );
149 REQUIRE( std::equal( crange.rbegin(aPoint), crange.rend(), refImage.rbegin() + (domain.size() - Linearizer::getIndex(aPoint, domain) - 1) ) );
150 }

References aPoint(), domain, DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::rbegin(), refImage(), DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::rend(), and REQUIRE().

◆ SECTION() [6/18]

SECTION ( "Testing constant reverse iterators"  )

Definition at line 130 of file testSimpleRandomAccessRangeFromPoint.cpp.

131 {
132 const Range range = image.range();
133 REQUIRE( static_cast<Domain::Size>(range.rend() - range.rbegin()) == domain.size() );
134 REQUIRE( std::equal(range.rbegin(), range.rend(), refImage.rbegin()) );
135
136 ConstRange crange = image.constRange();
137 REQUIRE( static_cast<Domain::Size>(crange.rend() - crange.rbegin()) == domain.size() );
138 REQUIRE( std::equal(crange.rbegin(), crange.rend(), refImage.rbegin()) );
139 }

References domain, DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::rbegin(), refImage(), DGtal::SimpleRandomAccessConstRangeFromPoint< TConstIterator, DistanceFunctor >::rend(), and REQUIRE().

◆ SECTION() [7/18]

SECTION ( "Testing forward output iterators from a point"  )

Definition at line 211 of file testSimpleRandomAccessRangeFromPoint.cpp.

212 {
213 Range range = image.range();
214
215 cnt = 1;
216 for ( Domain::ConstIterator it = domain.begin(aPoint), it_end = domain.end(); it != it_end; ++it )
217 {
218 refImage.setValue( *it, refImage(*it)+cnt );
219 ++cnt;
220 }
221
222 std::copy( refImage.begin() + Linearizer::getIndex(aPoint, domain), refImage.end(), range.outputIterator(aPoint) );
223
224 REQUIRE( std::equal(range.begin(), range.end(), refImage.begin()) );
225 }

References aPoint(), cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [8/18]

SECTION ( "Testing forward output iterators"  )

Definition at line 195 of file testSimpleRandomAccessRangeFromPoint.cpp.

196 {
197 Range range = image.range();
198
199 cnt = 1;
200 for ( Domain::ConstIterator it = domain.begin(), it_end = domain.end(); it != it_end; ++it )
201 {
202 refImage.setValue( *it, refImage(*it)+cnt );
203 ++cnt;
204 }
205
206 std::copy( refImage.begin(), refImage.end(), range.outputIterator() );
207
208 REQUIRE( std::equal(range.begin(), range.end(), refImage.begin()) );
209 }

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [9/18]

SECTION ( "Testing mutable circulators in backward way"  )

Definition at line 387 of file testSimpleRandomAccessRangeFromPoint.cpp.

388 {
389 Range range = image.range();
390
391 cnt = 1;
392 for ( Range::Circulator it = --range.c(); cnt <= 2*domain.size(); --it )
393 {
394 *it += cnt++;
395 }
396
397 cnt = 1;
398 for ( Domain::ConstReverseIterator it = domain.rbegin(), it_end = domain.rend(); it != it_end; ++it )
399 {
400 refImage.setValue( *it, refImage(*it) + 2*cnt + domain.size());
401 ++cnt;
402 }
403
404 REQUIRE( std::equal( range.begin(), range.end(), refImage.begin() ) );
405 }
Aim: Provides an adapter for classical iterators that can iterate through the underlying data structu...
Definition: Circulator.h:86
Reverse iterator for HyperRectDomain.

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [10/18]

SECTION ( "Testing mutable circulators in forward way"  )

Definition at line 367 of file testSimpleRandomAccessRangeFromPoint.cpp.

368 {
369 Range range = image.range();
370
371 cnt = 1;
372 for ( Range::Circulator it = range.c(); cnt <= 2*domain.size(); ++it )
373 {
374 *it += cnt++;
375 }
376
377 cnt = 1;
378 for ( Domain::ConstIterator it = domain.begin(), it_end = domain.end(); it != it_end; ++it )
379 {
380 refImage.setValue( *it, refImage(*it) + 2*cnt + domain.size());
381 ++cnt;
382 }
383
384 REQUIRE( std::equal( range.begin(), range.end(), refImage.begin() ) );
385 }

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [11/18]

SECTION ( "Testing mutable forward iterators from a point"  )

Definition at line 109 of file testSimpleRandomAccessRangeFromPoint.cpp.

110 {
111 Range range = image.range();
112 REQUIRE( static_cast<Domain::Size>(range.end() - range.begin(aPoint)) == domain.size() - Linearizer::getIndex(aPoint, domain) );
113
114 cnt = 1;
115 for ( Range::Iterator it = range.begin(aPoint), it_end = range.end(); it != it_end; ++it )
116 {
117 *it += cnt++;
118 }
119
120 cnt = 1;
121 for ( Domain::ConstIterator it = domain.begin(aPoint), it_end = domain.end(); it != it_end; ++it )
122 {
123 refImage.setValue( *it, refImage(*it)+cnt );
124 ++cnt;
125 }
126
127 REQUIRE( std::equal(range.begin(), range.end(), refImage.begin()) );
128 }

References aPoint(), cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [12/18]

SECTION ( "Testing mutable forward iterators"  )

Definition at line 88 of file testSimpleRandomAccessRangeFromPoint.cpp.

89 {
90 Range range = image.range();
91 REQUIRE( static_cast<Domain::Size>(range.end() - range.begin()) == domain.size() );
92
93 cnt = 1;
94 for ( Range::Iterator it = range.begin(), it_end = range.end(); it != it_end; ++it )
95 {
96 *it += cnt++;
97 }
98
99 cnt = 1;
100 for ( Domain::ConstIterator it = domain.begin(), it_end = domain.end(); it != it_end; ++it )
101 {
102 refImage.setValue( *it, refImage(*it)+cnt );
103 ++cnt;
104 }
105
106 REQUIRE( std::equal(range.begin(), range.end(), refImage.begin()) );
107 }

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [13/18]

SECTION ( "Testing mutable reverse circulators in backward way"  )

Definition at line 427 of file testSimpleRandomAccessRangeFromPoint.cpp.

428 {
429 Range range = image.range();
430
431 cnt = 1;
432 for ( Range::ReverseCirculator it = --range.rc(); cnt <= 2*domain.size(); --it )
433 {
434 *it += cnt++;
435 }
436
437 cnt = 1;
438 for ( Domain::ConstIterator it = domain.begin(), it_end = domain.end(); it != it_end; ++it )
439 {
440 refImage.setValue( *it, refImage(*it) + 2*cnt + domain.size());
441 ++cnt;
442 }
443
444 REQUIRE( std::equal( range.begin(), range.end(), refImage.begin() ) );
445 }
std::reverse_iterator< Circulator > ReverseCirculator

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [14/18]

SECTION ( "Testing mutable reverse circulators in forward way"  )

Definition at line 407 of file testSimpleRandomAccessRangeFromPoint.cpp.

408 {
409 Range range = image.range();
410
411 cnt = 1;
412 for ( Range::ReverseCirculator it = range.rc(); cnt <= 2*domain.size(); ++it )
413 {
414 *it += cnt++;
415 }
416
417 cnt = 1;
418 for ( Domain::ConstReverseIterator it = domain.rbegin(), it_end = domain.rend(); it != it_end; ++it )
419 {
420 refImage.setValue( *it, refImage(*it) + 2*cnt + domain.size());
421 ++cnt;
422 }
423
424 REQUIRE( std::equal( range.begin(), range.end(), refImage.begin() ) );
425 }

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [15/18]

SECTION ( "Testing mutable reverse iterators from a point"  )

Definition at line 173 of file testSimpleRandomAccessRangeFromPoint.cpp.

174 {
175 Range range = image.range();
176 REQUIRE( static_cast<Domain::Size>(range.rend() - range.rbegin(aPoint)) == Linearizer::getIndex(aPoint, domain) + 1 );
177
178 cnt = 1;
179 for ( Range::ReverseIterator it = range.rbegin(aPoint), it_end = range.rend(); it != it_end; ++it )
180 {
181 *it += cnt++;
182 }
183
184
185 cnt = 1;
186 for ( Domain::ConstReverseIterator it = domain.rbegin(aPoint), it_end = domain.rend(); it != it_end; ++it )
187 {
188 refImage.setValue( *it, refImage(*it)+cnt );
189 ++cnt;
190 }
191
192 REQUIRE( std::equal(range.rbegin(), range.rend(), refImage.rbegin()) );
193 }

References aPoint(), cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [16/18]

SECTION ( "Testing mutable reverse iterators"  )

Definition at line 152 of file testSimpleRandomAccessRangeFromPoint.cpp.

153 {
154 Range range = image.range();
155 REQUIRE( static_cast<Domain::Size>(range.rend() - range.rbegin()) == domain.size() );
156
157 cnt = 1;
158 for ( Range::ReverseIterator it = range.rbegin(), it_end = range.rend(); it != it_end; ++it )
159 {
160 *it += cnt++;
161 }
162
163 cnt = 1;
164 for ( Domain::ConstReverseIterator it = domain.rbegin(), it_end = domain.rend(); it != it_end; ++it )
165 {
166 refImage.setValue( *it, refImage(*it)+cnt );
167 ++cnt;
168 }
169
170 REQUIRE( std::equal(range.rbegin(), range.rend(), refImage.rbegin()) );
171 }

References cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [17/18]

SECTION ( "Testing reverse output iterators from a point"  )

Definition at line 243 of file testSimpleRandomAccessRangeFromPoint.cpp.

244 {
245 Range range = image.range();
246
247 cnt = 1;
248 for ( Domain::ConstReverseIterator it = domain.rbegin(aPoint), it_end = domain.rend(); it != it_end; ++it )
249 {
250 refImage.setValue( *it, refImage(*it)+cnt );
251 ++cnt;
252 }
253
254 std::copy( refImage.rbegin() + (domain.size() - Linearizer::getIndex(aPoint, domain) - 1), refImage.rend(), range.routputIterator(aPoint) );
255
256 REQUIRE( std::equal(range.rbegin(), range.rend(), refImage.rbegin()) );
257 }

References aPoint(), cnt, domain, refImage(), and REQUIRE().

◆ SECTION() [18/18]

SECTION ( "Testing reverse output iterators"  )

Definition at line 227 of file testSimpleRandomAccessRangeFromPoint.cpp.

228 {
229 Range range = image.range();
230
231 cnt = 1;
232 for ( Domain::ConstReverseIterator it = domain.rbegin(), it_end = domain.rend(); it != it_end; ++it )
233 {
234 refImage.setValue( *it, refImage(*it)+cnt );
235 ++cnt;
236 }
237
238 std::copy( refImage.rbegin(), refImage.rend(), range.routputIterator() );
239
240 REQUIRE( std::equal(range.rbegin(), range.rend(), refImage.rbegin()) );
241 }

References cnt, domain, refImage(), and REQUIRE().

Variable Documentation

◆ cnt

std::size_t cnt = 0

◆ hour

const double hour = 4.29

Definition at line 58 of file testSimpleRandomAccessRangeFromPoint.cpp.

Referenced by for().