diff --git a/Modules/Core/src/DataManagement/mitkArbitraryTimeGeometry.cpp b/Modules/Core/src/DataManagement/mitkArbitraryTimeGeometry.cpp index 596e123b1f..9b2ba8d8d8 100644 --- a/Modules/Core/src/DataManagement/mitkArbitraryTimeGeometry.cpp +++ b/Modules/Core/src/DataManagement/mitkArbitraryTimeGeometry.cpp @@ -1,293 +1,293 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include #include #include #include mitk::ArbitraryTimeGeometry::ArbitraryTimeGeometry() = default; mitk::ArbitraryTimeGeometry::~ArbitraryTimeGeometry() = default; void mitk::ArbitraryTimeGeometry::Initialize() { this->ClearAllGeometries(); Geometry3D::Pointer geo = Geometry3D::New(); this->AppendNewTimeStep(geo, 0, 1); } mitk::TimeStepType mitk::ArbitraryTimeGeometry::CountTimeSteps() const { return static_cast(m_GeometryVector.size()); } mitk::TimePointType mitk::ArbitraryTimeGeometry::GetMinimumTimePoint() const { return m_MinimumTimePoints.empty() ? 0.0 : m_MinimumTimePoints.front(); } mitk::TimePointType mitk::ArbitraryTimeGeometry::GetMaximumTimePoint() const { TimePointType result = 0; if ( !m_MaximumTimePoints.empty() ) { result = m_MaximumTimePoints.back(); } return result; } mitk::TimePointType mitk::ArbitraryTimeGeometry::GetMinimumTimePoint( TimeStepType step ) const { TimePointType result = GetMinimumTimePoint(); if (step > 0 && step <= m_MaximumTimePoints.size()) { result = m_MaximumTimePoints[step - 1]; } return result; }; mitk::TimePointType mitk::ArbitraryTimeGeometry::GetMaximumTimePoint( TimeStepType step ) const { TimePointType result = 0; if (step < m_MaximumTimePoints.size()) { result = m_MaximumTimePoints[step]; } return result; }; mitk::TimeBounds mitk::ArbitraryTimeGeometry::GetTimeBounds() const { TimeBounds bounds; bounds[0] = this->GetMinimumTimePoint(); bounds[1] = this->GetMaximumTimePoint(); return bounds; } mitk::TimeBounds mitk::ArbitraryTimeGeometry::GetTimeBounds(TimeStepType step) const { TimeBounds bounds; bounds[0] = this->GetMinimumTimePoint( step ); bounds[1] = this->GetMaximumTimePoint( step ); return bounds; } bool mitk::ArbitraryTimeGeometry::IsValidTimePoint(TimePointType timePoint) const { - return this->GetMinimumTimePoint() <= timePoint && timePoint < this->GetMaximumTimePoint(); + return this->GetMinimumTimePoint() <= timePoint && timePoint <= this->GetMaximumTimePoint() && !this->m_MinimumTimePoints.empty(); } bool mitk::ArbitraryTimeGeometry::IsValidTimeStep(TimeStepType timeStep) const { return timeStep < this->CountTimeSteps(); } mitk::TimePointType mitk::ArbitraryTimeGeometry::TimeStepToTimePoint( TimeStepType timeStep ) const { TimePointType result = 0.0; if (timeStep < m_MinimumTimePoints.size() ) { result = m_MinimumTimePoints[timeStep]; } return result; } mitk::TimeStepType mitk::ArbitraryTimeGeometry::TimePointToTimeStep(TimePointType timePoint) const { mitk::TimeStepType result = 0; - if ( timePoint >= GetMinimumTimePoint() ) + if ( timePoint >= GetMinimumTimePoint() && timePoint <= GetMaximumTimePoint()) { - for ( auto pos = m_MaximumTimePoints.cbegin(); pos != m_MaximumTimePoints.cend(); ++pos ) + for ( auto pos = m_MinimumTimePoints.crbegin(); pos != m_MinimumTimePoints.crend(); ++pos ) { - if (timePoint < *pos) + if (timePoint >= *pos) { - result = pos - m_MaximumTimePoints.begin(); + result = m_MinimumTimePoints.crend() - pos - 1; break; } } } return result; } mitk::BaseGeometry::Pointer mitk::ArbitraryTimeGeometry::GetGeometryForTimeStep(TimeStepType timeStep) const { if ( IsValidTimeStep( timeStep ) ) { return m_GeometryVector[timeStep]; } else { return 0; } } mitk::BaseGeometry::Pointer mitk::ArbitraryTimeGeometry::GetGeometryForTimePoint( TimePointType timePoint ) const { if ( this->IsValidTimePoint( timePoint ) ) { const TimeStepType timeStep = this->TimePointToTimeStep( timePoint ); return this->GetGeometryForTimeStep( timeStep ); } else { return 0; } } mitk::BaseGeometry::Pointer mitk::ArbitraryTimeGeometry::GetGeometryCloneForTimeStep( TimeStepType timeStep ) const { if ( timeStep >= m_GeometryVector.size() ) return 0; return m_GeometryVector[timeStep]->Clone(); } bool mitk::ArbitraryTimeGeometry::IsValid() const { bool isValid = true; isValid &= m_GeometryVector.size() > 0; return isValid; } void mitk::ArbitraryTimeGeometry::ClearAllGeometries() { m_GeometryVector.clear(); m_MinimumTimePoints.clear(); m_MaximumTimePoints.clear(); } void mitk::ArbitraryTimeGeometry::ReserveSpaceForGeometries( TimeStepType numberOfGeometries ) { m_GeometryVector.reserve( numberOfGeometries ); m_MinimumTimePoints.reserve( numberOfGeometries ); m_MaximumTimePoints.reserve( numberOfGeometries ); } void mitk::ArbitraryTimeGeometry::Expand( mitk::TimeStepType size ) { m_GeometryVector.reserve( size ); const mitk::TimeStepType lastIndex = this->CountTimeSteps() - 1; const TimePointType minTP = this->GetMinimumTimePoint( lastIndex ); TimePointType maxTP = this->GetMaximumTimePoint( lastIndex ); const TimePointType duration = maxTP - minTP; while (m_GeometryVector.size() < size) { m_GeometryVector.push_back( Geometry3D::New().GetPointer() ); m_MinimumTimePoints.push_back( maxTP ); maxTP += duration; m_MaximumTimePoints.push_back( maxTP ); } } void mitk::ArbitraryTimeGeometry::ReplaceTimeStepGeometries(const BaseGeometry *geometry) { for ( auto pos = m_GeometryVector.begin(); pos != m_GeometryVector.end(); ++pos ) { *pos = geometry->Clone(); } } void mitk::ArbitraryTimeGeometry::SetTimeStepGeometry(BaseGeometry *geometry, TimeStepType timeStep) { assert( timeStep <= m_GeometryVector.size() ); if ( timeStep == m_GeometryVector.size() ) { m_GeometryVector.push_back( geometry ); } m_GeometryVector[timeStep] = geometry; } itk::LightObject::Pointer mitk::ArbitraryTimeGeometry::InternalClone() const { itk::LightObject::Pointer parent = Superclass::InternalClone(); ArbitraryTimeGeometry::Pointer newTimeGeometry = dynamic_cast(parent.GetPointer()); newTimeGeometry->m_MinimumTimePoints = this->m_MinimumTimePoints; newTimeGeometry->m_MaximumTimePoints = this->m_MaximumTimePoints; newTimeGeometry->m_GeometryVector.clear(); for (TimeStepType i = 0; i < CountTimeSteps(); ++i) { newTimeGeometry->m_GeometryVector.push_back( this->m_GeometryVector[i]->Clone() ); } return parent; } void mitk::ArbitraryTimeGeometry::AppendNewTimeStep(BaseGeometry *geometry, TimePointType minimumTimePoint, TimePointType maximumTimePoint) { if ( !geometry ) { mitkThrow() << "Cannot append geometry to time geometry. Invalid geometry passed (NULL pointer)."; } if (maximumTimePoint < minimumTimePoint) { mitkThrow() << "Cannot append geometry to time geometry. Time bound conflict. Maxmimum time point ("< minimumTimePoint ) { mitkThrow() << "Cannot append geometry to time geometry. Time bound conflict new time point and currently last time point overlapp."; } } m_GeometryVector.push_back( geometry ); m_MinimumTimePoints.push_back( minimumTimePoint ); m_MaximumTimePoints.push_back( maximumTimePoint ); } void mitk::ArbitraryTimeGeometry::AppendNewTimeStepClone(const BaseGeometry *geometry, TimePointType minimumTimePoint, TimePointType maximumTimePoint) { BaseGeometry::Pointer clone = geometry->Clone(); this->AppendNewTimeStep(clone, minimumTimePoint, maximumTimePoint); }; void mitk::ArbitraryTimeGeometry::PrintSelf(std::ostream &os, itk::Indent indent) const { Superclass::PrintSelf( os, indent ); os << indent << " MinimumTimePoint: " << this->GetMinimumTimePoint() << " ms" << std::endl; os << indent << " MaximumTimePoint: " << this->GetMaximumTimePoint() << " ms" << std::endl; os << std::endl; os << indent << " min TimeBounds: " << std::endl; for (TimeStepType i = 0; i < m_MinimumTimePoints.size(); ++i) { os << indent.GetNextIndent() << "Step " << i << ": " << m_MinimumTimePoints[i] << " ms" << std::endl; } os << std::endl; os << indent << " max TimeBounds: " << std::endl; for (TimeStepType i = 0; i < m_MaximumTimePoints.size(); ++i) { os << indent.GetNextIndent() << "Step " << i << ": " << m_MaximumTimePoints[i] << " ms" << std::endl; } } diff --git a/Modules/Core/test/mitkArbitraryTimeGeometryTest.cpp b/Modules/Core/test/mitkArbitraryTimeGeometryTest.cpp index c48dedc5dc..f31942a814 100644 --- a/Modules/Core/test/mitkArbitraryTimeGeometryTest.cpp +++ b/Modules/Core/test/mitkArbitraryTimeGeometryTest.cpp @@ -1,469 +1,469 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkArbitraryTimeGeometry.h" #include "mitkGeometry3D.h" #include "mitkTestFixture.h" #include "mitkTestingMacros.h" #include class mitkArbitraryTimeGeometryTestSuite : public mitk::TestFixture { CPPUNIT_TEST_SUITE(mitkArbitraryTimeGeometryTestSuite); // Test the append method MITK_TEST(CountTimeSteps); MITK_TEST(GetMinimumTimePoint); MITK_TEST(GetMaximumTimePoint); MITK_TEST(GetTimeBounds); MITK_TEST(IsValidTimePoint); MITK_TEST(TimeStepToTimePoint); MITK_TEST(TimePointToTimeStep); MITK_TEST(GetGeometryCloneForTimeStep); MITK_TEST(GetGeometryForTimeStep); MITK_TEST(GetGeometryForTimePoint); MITK_TEST(IsValid); MITK_TEST(Expand); MITK_TEST(ReplaceTimeStepGeometries); MITK_TEST(ClearAllGeometries); MITK_TEST(AppendNewTimeStep); CPPUNIT_TEST_SUITE_END(); private: mitk::Geometry3D::Pointer m_Geometry1; mitk::Geometry3D::Pointer m_Geometry2; mitk::Geometry3D::Pointer m_Geometry3; mitk::Geometry3D::Pointer m_Geometry3_5; mitk::Geometry3D::Pointer m_Geometry4; mitk::Geometry3D::Pointer m_Geometry5; mitk::Geometry3D::Pointer m_InvalidGeometry; mitk::Geometry3D::Pointer m_NewGeometry; mitk::TimePointType m_Geometry1MinTP; mitk::TimePointType m_Geometry2MinTP; mitk::TimePointType m_Geometry3MinTP; mitk::TimePointType m_Geometry3_5MinTP; mitk::TimePointType m_Geometry4MinTP; mitk::TimePointType m_Geometry5MinTP; mitk::TimePointType m_NewGeometryMinTP; mitk::TimePointType m_Geometry1MaxTP; mitk::TimePointType m_Geometry2MaxTP; mitk::TimePointType m_Geometry3MaxTP; mitk::TimePointType m_Geometry3_5MaxTP; mitk::TimePointType m_Geometry4MaxTP; mitk::TimePointType m_Geometry5MaxTP; mitk::TimePointType m_NewGeometryMaxTP; mitk::ArbitraryTimeGeometry::Pointer m_emptyTimeGeometry; mitk::ArbitraryTimeGeometry::Pointer m_initTimeGeometry; mitk::ArbitraryTimeGeometry::Pointer m_12345TimeGeometry; mitk::ArbitraryTimeGeometry::Pointer m_123TimeGeometry; public: void setUp() override { mitk::TimeBounds bounds; m_Geometry1 = mitk::Geometry3D::New(); m_Geometry2 = mitk::Geometry3D::New(); m_Geometry3 = mitk::Geometry3D::New(); m_Geometry3_5 = mitk::Geometry3D::New(); m_Geometry4 = mitk::Geometry3D::New(); m_Geometry5 = mitk::Geometry3D::New(); m_Geometry1MinTP = 1; m_Geometry2MinTP = 2; m_Geometry3MinTP = 3; m_Geometry3_5MinTP = 3.5; m_Geometry4MinTP = 4; m_Geometry5MinTP = 5; m_Geometry1MaxTP = 1.9; m_Geometry2MaxTP = 2.9; m_Geometry3MaxTP = 3.9; m_Geometry3_5MaxTP = 3.9; m_Geometry4MaxTP = 4.9; m_Geometry5MaxTP = 5.9; m_NewGeometry = mitk::Geometry3D::New(); m_NewGeometryMinTP = 20; m_NewGeometryMaxTP = 21.9; mitk::Point3D origin(42); m_NewGeometry->SetOrigin(origin); m_emptyTimeGeometry = mitk::ArbitraryTimeGeometry::New(); m_emptyTimeGeometry->ClearAllGeometries(); m_initTimeGeometry = mitk::ArbitraryTimeGeometry::New(); m_initTimeGeometry->Initialize(); m_12345TimeGeometry = mitk::ArbitraryTimeGeometry::New(); m_12345TimeGeometry->ClearAllGeometries(); m_12345TimeGeometry->AppendNewTimeStep(m_Geometry1, m_Geometry1MinTP, m_Geometry1MaxTP); m_12345TimeGeometry->AppendNewTimeStep(m_Geometry2, m_Geometry2MinTP, m_Geometry2MaxTP); m_12345TimeGeometry->AppendNewTimeStep(m_Geometry3, m_Geometry3MinTP, m_Geometry3MaxTP); m_12345TimeGeometry->AppendNewTimeStep(m_Geometry4, m_Geometry4MinTP, m_Geometry4MaxTP); m_12345TimeGeometry->AppendNewTimeStep(m_Geometry5, m_Geometry5MinTP, m_Geometry5MaxTP); m_123TimeGeometry = mitk::ArbitraryTimeGeometry::New(); m_123TimeGeometry->ClearAllGeometries(); m_123TimeGeometry->AppendNewTimeStep(m_Geometry1, m_Geometry1MinTP, m_Geometry1MaxTP); m_123TimeGeometry->AppendNewTimeStep(m_Geometry2, m_Geometry2MinTP, m_Geometry2MaxTP); m_123TimeGeometry->AppendNewTimeStep(m_Geometry3, m_Geometry3MinTP, m_Geometry3MaxTP); } void tearDown() override {} void CountTimeSteps() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->CountTimeSteps() == 0, "Testing CountTimeSteps with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->CountTimeSteps() == 1, "Testing CountTimeSteps with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->CountTimeSteps() == 5, "Testing CountTimeSteps with m_12345TimeGeometry"); } void GetMinimumTimePoint() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMinimumTimePoint() == 0.0, "Testing GetMinimumTimePoint with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetMinimumTimePoint() == 0.0, "Testing GetMinimumTimePoint with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMinimumTimePoint() == 1.0, "Testing GetMinimumTimePoint with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMinimumTimePoint(2) == 0.0, "Testing GetMinimumTimePoint(2) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetMinimumTimePoint(2) == 0.0, "Testing GetMinimumTimePoint(2) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMinimumTimePoint(2) == 2.9, "Testing GetMinimumTimePoint(2) with m_12345TimeGeometry"); } void GetMaximumTimePoint() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMaximumTimePoint() == 0.0, "Testing GetMaximumTimePoint with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetMaximumTimePoint() == 1.0, "Testing GetMaximumTimePoint with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMaximumTimePoint() == 5.9, "Testing GetMaximumTimePoint with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMaximumTimePoint(2) == 0.0, "Testing GetMaximumTimePoint(2) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetMaximumTimePoint(2) == 0.0, "Testing GetMaximumTimePoint(2) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMaximumTimePoint(2) == 3.9, "Testing GetMaximumTimePoint(2) with m_12345TimeGeometry"); } void GetTimeBounds() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMaximumTimePoint(2) == 0.0, "Testing GetMaximumTimePoint(2) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetMaximumTimePoint(2) == 0.0, "Testing GetMaximumTimePoint(2) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMaximumTimePoint(2) == 3.9, "Testing GetMaximumTimePoint(2) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetTimeBounds()[0] == 0.0, "Testing GetTimeBounds lower part with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetTimeBounds()[0] == 0.0, "Testing GetTimeBounds lower part with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetTimeBounds()[0] == 1.0, "Testing GetTimeBounds lower part with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetTimeBounds()[1] == 0.0, "Testing GetTimeBounds with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetTimeBounds()[1] == 1.0, "Testing GetTimeBounds with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetTimeBounds()[1] == 5.9, "Testing GetTimeBounds with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetTimeBounds(3)[0] == 0.0, "Testing GetTimeBounds(3) lower part with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetTimeBounds(3)[0] == 0.0, "Testing GetTimeBounds(3) lower part with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetTimeBounds(3)[0] == 3.9, "Testing GetTimeBounds(3) lower part with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetTimeBounds(3)[1] == 0.0, "Testing GetTimeBounds(3) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetTimeBounds(3)[1] == 0.0, "Testing GetTimeBounds(3) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetTimeBounds(3)[1] == 4.9, "Testing GetTimeBounds(3) with m_12345TimeGeometry"); } void IsValidTimePoint() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimePoint(-1) == false, "Testing IsValidTimePoint(-1) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(-1) == false, "Testing IsValidTimePoint(-1) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimePoint(-1) == false, "Testing IsValidTimePoint(-1) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimePoint(0) == false, "Testing IsValidTimePoint(0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(0) == true, "Testing IsValidTimePoint(0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimePoint(0) == false, "Testing IsValidTimePoint(0) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimePoint(1) == false, "Testing IsValidTimePoint(1) with m_emptyTimeGeometry"); - MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(1) == false, + MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(1) == true, "Testing IsValidTimePoint(1) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimePoint(1) == true, "Testing IsValidTimePoint(1) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimePoint(2.5) == false, "Testing IsValidTimePoint(2.5) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(2.5) == false, "Testing IsValidTimePoint(2.5) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimePoint(2.5) == true, "Testing IsValidTimePoint(2.5) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimePoint(5.89) == false, "Testing IsValidTimePoint(5.89) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(5.89) == false, "Testing IsValidTimePoint(5.89) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimePoint(5.89) == true, "Testing IsValidTimePoint(5.89) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimePoint(10) == false, "Testing IsValidTimePoint(10) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimePoint(10) == false, "Testing IsValidTimePoint(10) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimePoint(10) == false, "Testing IsValidTimePoint(10) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimeStep(0) == false, "Testing IsValidTimeStep(0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimeStep(0) == true, "Testing IsValidTimeStep(0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimeStep(0) == true, "Testing IsValidTimeStep(0) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimeStep(1) == false, "Testing IsValidTimeStep(1) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimeStep(1) == false, "Testing IsValidTimeStep(1) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimeStep(1) == true, "Testing IsValidTimeStep(1) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValidTimeStep(6) == false, "Testing IsValidTimeStep(6) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValidTimeStep(6) == false, "Testing IsValidTimeStep(6) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValidTimeStep(6) == false, "Testing IsValidTimeStep(6) with m_12345TimeGeometry"); } void TimeStepToTimePoint() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimeStepToTimePoint(0) == 0.0, "Testing TimeStepToTimePoint(0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimeStepToTimePoint(0) == 0.0, "Testing TimeStepToTimePoint(0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimeStepToTimePoint(0) == 1.0, "Testing TimeStepToTimePoint(0) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimeStepToTimePoint(1) == 0.0, "Testing TimeStepToTimePoint(1) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimeStepToTimePoint(1) == 0.0, "Testing TimeStepToTimePoint(1) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimeStepToTimePoint(1) == 2.0, "Testing TimeStepToTimePoint(1) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimeStepToTimePoint(6) == 0.0, "Testing TimeStepToTimePoint(6) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimeStepToTimePoint(6) == 0.0, "Testing TimeStepToTimePoint(6) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimeStepToTimePoint(6) == 0.0, "Testing TimeStepToTimePoint(6) with m_12345TimeGeometry"); } void TimePointToTimeStep() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimePointToTimeStep(0.0) == 0, "Testing TimePointToTimeStep(0.0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimePointToTimeStep(0.0) == 0, "Testing TimePointToTimeStep(0.0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimePointToTimeStep(0.0) == 0, "Testing TimePointToTimeStep(0.0) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimePointToTimeStep(0.5) == 0, "Testing TimePointToTimeStep(0.5) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimePointToTimeStep(0.5) == 0, "Testing TimePointToTimeStep(0.5) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimePointToTimeStep(0.5) == 0, "Testing TimePointToTimeStep(0.5) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimePointToTimeStep(3.5) == 0, "Testing TimePointToTimeStep(3.5) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimePointToTimeStep(3.5) == 0, "Testing TimePointToTimeStep(3.5) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimePointToTimeStep(3.5) == 2, "Testing TimePointToTimeStep(3.5) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->TimePointToTimeStep(5.8) == 0, "Testing TimePointToTimeStep(5.8) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->TimePointToTimeStep(5.8) == 0, "Testing TimePointToTimeStep(5.8) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimePointToTimeStep(5.8) == 4, "Testing TimePointToTimeStep(5.8) with m_12345TimeGeometry"); - MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimePointToTimeStep(5.9) == 0, + MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->TimePointToTimeStep(5.91) == 0, "Testing TimePointToTimeStep(5.9) with m_12345TimeGeometry"); } void GetGeometryCloneForTimeStep() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetGeometryCloneForTimeStep(0).IsNull(), "Testing GetGeometryCloneForTimeStep(0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetGeometryCloneForTimeStep(0).IsNotNull(), "Testing GetGeometryCloneForTimeStep(0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetGeometryCloneForTimeStep(0).IsNotNull(), "Testing GetGeometryCloneForTimeStep(0) with m_12345TimeGeometry"); } void GetGeometryForTimeStep() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetGeometryForTimeStep(0).IsNull(), "Testing GetGeometryForTimePoint(0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetGeometryForTimeStep(0).IsNotNull(), "Testing GetGeometryForTimePoint(0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetGeometryForTimeStep(1).IsNull(), "Testing GetGeometryForTimePoint(1) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimeStep(0).GetPointer() == m_Geometry1.GetPointer(), "Testing GetGeometryForTimePoint(0) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimeStep(3).GetPointer() == m_Geometry4.GetPointer(), "Testing GetGeometryForTimePoint(3) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimeStep(4).GetPointer() == m_Geometry5.GetPointer(), "Testing GetGeometryForTimePoint(4) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetGeometryForTimeStep(5).IsNull(), "Testing GetGeometryForTimePoint(5) with m_12345TimeGeometry"); } void GetGeometryForTimePoint() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetGeometryForTimePoint(0).IsNull(), "Testing GetGeometryForTimeStep(0) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetGeometryForTimePoint(0).IsNotNull(), "Testing GetGeometryForTimeStep(0) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetGeometryForTimePoint(0).IsNull(), "Testing GetGeometryForTimeStep(0) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetGeometryForTimePoint(1.5).IsNull(), "Testing GetGeometryForTimeStep(1.5) with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->GetGeometryForTimePoint(1.5).IsNull(), "Testing GetGeometryForTimeStep(1.5) with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimePoint(1.5).GetPointer() == m_Geometry1.GetPointer(), "Testing GetGeometryForTimeStep(1.5) with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimePoint(3.5).GetPointer() == m_Geometry3.GetPointer(), "Testing GetGeometryForTimeStep(3.5) with m_12345TimeGeometry"); - MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetGeometryForTimePoint(5.9).IsNull(), + MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetGeometryForTimePoint(5.91).IsNull(), "Testing GetGeometryForTimeStep(5.9) with m_12345TimeGeometry"); } void IsValid() { MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->IsValid() == false, "Testing IsValid() with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_initTimeGeometry->IsValid() == true, "Testing IsValid() with m_initTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->IsValid() == true, "Testing IsValid() with m_12345TimeGeometry"); } void Expand() { m_12345TimeGeometry->Expand(3); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->CountTimeSteps() == 5, "Testing Expand(3) doesn't change m_12345TimeGeometry"); m_12345TimeGeometry->Expand(7); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->CountTimeSteps() == 7, "Testing Expand(7) with m_12345TimeGeometry"); } void ReplaceTimeStepGeometries() { // Test replace time step geometries m_12345TimeGeometry->ReplaceTimeStepGeometries(m_NewGeometry); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->CountTimeSteps() == 5, "Testing ReplaceTimeStepGeometries() with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimeStep(0)->GetOrigin() == m_NewGeometry->GetOrigin(), "Testing ReplaceTimeStepGeometries(): check if first geometry of m_12345TimeGeometry " "was replaced m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED( m_12345TimeGeometry->GetGeometryForTimeStep(4)->GetOrigin() == m_NewGeometry->GetOrigin(), "Testing ReplaceTimeStepGeometries(): check if last geometry of m_12345TimeGeometry " "was replaced m_12345TimeGeometry"); } void ClearAllGeometries() { // Test clear all geometries m_12345TimeGeometry->ClearAllGeometries(); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->CountTimeSteps() == 0, "Testing ClearAllGeometries() with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMinimumTimePoint() == 0, "Testing ClearAllGeometries() with m_12345TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_12345TimeGeometry->GetMaximumTimePoint() == 0, "Testing ClearAllGeometries() with m_12345TimeGeometry"); } void AppendNewTimeStep() { // Test append MITK_TEST_FOR_EXCEPTION(mitk::Exception, m_123TimeGeometry->AppendNewTimeStep(NULL, 0, 1)); MITK_TEST_FOR_EXCEPTION(mitk::Exception, m_123TimeGeometry->AppendNewTimeStep(m_Geometry3_5,m_Geometry3_5MinTP,m_Geometry3_5MaxTP)); MITK_TEST_FOR_EXCEPTION(mitk::Exception, m_123TimeGeometry->AppendNewTimeStep(m_Geometry4, m_Geometry4MaxTP, m_Geometry4MinTP)); //valid but inverted bounds m_emptyTimeGeometry->AppendNewTimeStep(m_Geometry4, m_Geometry4MinTP, m_Geometry4MaxTP); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->CountTimeSteps() == 1, "Testing AppendNewTimeStep() with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMinimumTimePoint() == 4, "Testing ClearAllGeometries() with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_emptyTimeGeometry->GetMaximumTimePoint() == 4.9, "Testing ClearAllGeometries() with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->CountTimeSteps() == 3, "Testing AppendNewTimeStep() with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->GetMinimumTimePoint() == 1, "Testing ClearAllGeometries() with m_emptyTimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->GetMaximumTimePoint() == 3.9, "Testing ClearAllGeometries() with m_emptyTimeGeometry"); m_123TimeGeometry->AppendNewTimeStep(m_Geometry4, m_Geometry4MinTP, m_Geometry4MaxTP); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->CountTimeSteps() == 4, "Testing AppendNewTimeStep() with m_123TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->GetMinimumTimePoint() == 1, "Testing AppendNewTimeStep() with m_123TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->GetMaximumTimePoint() == 4.9, "Testing AppendNewTimeStep() with m_123TimeGeometry"); MITK_TEST_CONDITION_REQUIRED(m_123TimeGeometry->GetMinimumTimePoint(3) == 3.9, "Testing AppendNewTimeStep() with m_123TimeGeometry"); } }; MITK_TEST_SUITE_REGISTRATION(mitkArbitraryTimeGeometry)