本文整理汇总了C++中image::Pointer::SetProperty方法的典型用法代码示例。如果您正苦于以下问题:C++ Pointer::SetProperty方法的具体用法?C++ Pointer::SetProperty怎么用?C++ Pointer::SetProperty使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类image::Pointer的用法示例。
在下文中一共展示了Pointer::SetProperty方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: ioRegion
//.........这里部分代码省略.........
nrrdImageIO->Read(buffer);
image->Initialize(MakePixelType(nrrdImageIO), ndim, dimensions);
image->SetImportChannel(buffer, 0, Image::ManageMemory);
// access direction of itk::Image and include spacing
mitk::Matrix3D matrix;
matrix.SetIdentity();
unsigned int j, itkDimMax3 = (ndim >= 3 ? 3 : ndim);
for (i = 0; i < itkDimMax3; ++i)
for (j = 0; j < itkDimMax3; ++j)
matrix[i][j] = nrrdImageIO->GetDirection(j)[i];
// re-initialize PlaneGeometry with origin and direction
PlaneGeometry* planeGeometry = image->GetSlicedGeometry(0)->GetPlaneGeometry(0);
planeGeometry->SetOrigin(origin);
planeGeometry->GetIndexToWorldTransform()->SetMatrix(matrix);
// re-initialize SlicedGeometry3D
SlicedGeometry3D* slicedGeometry = image->GetSlicedGeometry(0);
slicedGeometry->InitializeEvenlySpaced(planeGeometry, image->GetDimension(2));
slicedGeometry->SetSpacing(spacing);
MITK_INFO << slicedGeometry->GetCornerPoint(false, false, false);
MITK_INFO << slicedGeometry->GetCornerPoint(true, true, true);
// re-initialize TimeGeometry
ProportionalTimeGeometry::Pointer timeGeometry = ProportionalTimeGeometry::New();
timeGeometry->Initialize(slicedGeometry, image->GetDimension(3));
image->SetTimeGeometry(timeGeometry);
buffer = NULL;
MITK_INFO << "number of image components: " << image->GetPixelType().GetNumberOfComponents() << std::endl;
const itk::MetaDataDictionary& dictionary = nrrdImageIO->GetMetaDataDictionary();
for (itk::MetaDataDictionary::ConstIterator iter = dictionary.Begin(), iterEnd = dictionary.End();
iter != iterEnd; ++iter)
{
std::string key = std::string("meta.") + iter->first;
if (iter->second->GetMetaDataObjectTypeInfo() == typeid(std::string))
{
std::string value = dynamic_cast<itk::MetaDataObject<std::string>*>(iter->second.GetPointer())->GetMetaDataObjectValue();
image->SetProperty(key.c_str(), mitk::StringProperty::New(value));
}
}
// end regular image loading
LabelSetImage::Pointer output = LabelSetImageConverter::ConvertImageToLabelSetImage(image);
// get labels and add them as properties to the image
char keybuffer[256];
unsigned int numberOfLayers = GetIntByKey(dictionary, "layers");
std::string _xmlStr;
mitk::Label::Pointer label;
for (unsigned int layerIdx = 0; layerIdx < numberOfLayers; layerIdx++)
{
sprintf(keybuffer, "layer_%03d", layerIdx);
int numberOfLabels = GetIntByKey(dictionary, keybuffer);
mitk::LabelSet::Pointer labelSet = mitk::LabelSet::New();
for (int labelIdx = 0; labelIdx < numberOfLabels; labelIdx++)
{
TiXmlDocument doc;
sprintf(keybuffer, "label_%03d_%05d", layerIdx, labelIdx);
_xmlStr = GetStringByKey(dictionary, keybuffer);
doc.Parse(_xmlStr.c_str());
TiXmlElement * labelElem = doc.FirstChildElement("Label");
if (labelElem == 0)
mitkThrow() << "Error parsing NRRD header for mitk::LabelSetImage IO";
label = LoadLabelFromTiXmlDocument(labelElem);
if (label->GetValue() == 0) // set exterior label is needed to hold exterior information
output->SetExteriorLabel(label);
labelSet->AddLabel(label);
labelSet->SetLayer(layerIdx);
}
output->AddLabelSetToLayer(layerIdx, labelSet);
}
MITK_INFO << "...finished!" << std::endl;
try
{
setlocale(LC_ALL, currLocale.c_str());
}
catch(...)
{
mitkThrow() << "Could not reset locale!";
}
std::vector<BaseData::Pointer> result;
result.push_back(output.GetPointer());
return result;
}示例2: localeSwitch
//.........这里部分代码省略.........
{
arbitraryTimeGeometry->AppendTimeStepClone(slicedGeometry, *pos, *prePos);
}
timeGeometry = arbitraryTimeGeometry;
}
}
}
if (timeGeometry.IsNull())
{ // Fallback. If no other valid time geometry has been created, create a ProportionalTimeGeometry
MITK_INFO << "used time geometry: " << ProportionalTimeGeometry::GetStaticNameOfClass() << std::endl;
ProportionalTimeGeometry::Pointer propTimeGeometry = ProportionalTimeGeometry::New();
propTimeGeometry->Initialize(slicedGeometry, image->GetDimension(3));
timeGeometry = propTimeGeometry;
}
image->SetTimeGeometry(timeGeometry);
buffer = NULL;
MITK_INFO << "number of image components: " << image->GetPixelType().GetNumberOfComponents() << std::endl;
for (itk::MetaDataDictionary::ConstIterator iter = dictionary.Begin(), iterEnd = dictionary.End(); iter != iterEnd;
++iter)
{
if (iter->second->GetMetaDataObjectTypeInfo() == typeid(std::string))
{
const std::string &key = iter->first;
std::string assumedPropertyName = key;
std::replace(assumedPropertyName.begin(), assumedPropertyName.end(), '_', '.');
std::string mimeTypeName = GetMimeType()->GetName();
// Check if there is already a info for the key and our mime type.
IPropertyPersistence::InfoResultType infoList = mitk::CoreServices::GetPropertyPersistence()->GetInfoByKey(key);
auto predicate = [mimeTypeName](const PropertyPersistenceInfo::ConstPointer &x) {
return x.IsNotNull() && x->GetMimeTypeName() == mimeTypeName;
};
auto finding = std::find_if(infoList.begin(), infoList.end(), predicate);
if (finding == infoList.end())
{
auto predicateWild = [](const PropertyPersistenceInfo::ConstPointer &x) {
return x.IsNotNull() && x->GetMimeTypeName() == PropertyPersistenceInfo::ANY_MIMETYPE_NAME();
};
finding = std::find_if(infoList.begin(), infoList.end(), predicateWild);
}
PropertyPersistenceInfo::ConstPointer info;
if (finding != infoList.end())
{
assumedPropertyName = (*finding)->GetName();
info = *finding;
}
else
{ // we have not found anything suitable so we generate our own info
PropertyPersistenceInfo::Pointer newInfo = PropertyPersistenceInfo::New();
newInfo->SetNameAndKey(assumedPropertyName, key);
newInfo->SetMimeTypeName(PropertyPersistenceInfo::ANY_MIMETYPE_NAME());
info = newInfo;
}
std::string value =
dynamic_cast<itk::MetaDataObject<std::string> *>(iter->second.GetPointer())->GetMetaDataObjectValue();
mitk::BaseProperty::Pointer loadedProp = info->GetDeserializationFunction()(value);
image->SetProperty(assumedPropertyName.c_str(), loadedProp);
// Read properties should be persisted unless they are default properties
// which are written anyway
bool isDefaultKey(false);
for (const auto &defaultKey : m_DefaultMetaDataKeys)
{
if (defaultKey.length() <= assumedPropertyName.length())
{
// does the start match the default key
if (assumedPropertyName.substr(0, defaultKey.length()).find(defaultKey) != std::string::npos)
{
isDefaultKey = true;
break;
}
}
}
if (!isDefaultKey)
{
mitk::CoreServices::GetPropertyPersistence()->AddInfo(info);
}
}
}
MITK_INFO << "...finished!" << std::endl;
result.push_back(image.GetPointer());
return result;
}示例3: ioRegion
//.........这里部分代码省略.........
unsigned int dimensions[ MAXDIM ];
dimensions[ 0 ] = 0;
dimensions[ 1 ] = 0;
dimensions[ 2 ] = 0;
dimensions[ 3 ] = 0;
ScalarType spacing[ MAXDIM ];
spacing[ 0 ] = 1.0f;
spacing[ 1 ] = 1.0f;
spacing[ 2 ] = 1.0f;
spacing[ 3 ] = 1.0f;
Point3D origin;
origin.Fill(0);
unsigned int i;
for ( i = 0; i < ndim ; ++i )
{
ioStart[ i ] = 0;
ioSize[ i ] = m_ImageIO->GetDimensions( i );
if(i<MAXDIM)
{
dimensions[ i ] = m_ImageIO->GetDimensions( i );
spacing[ i ] = m_ImageIO->GetSpacing( i );
if(spacing[ i ] <= 0)
spacing[ i ] = 1.0f;
}
if(i<3)
{
origin[ i ] = m_ImageIO->GetOrigin( i );
}
}
ioRegion.SetSize( ioSize );
ioRegion.SetIndex( ioStart );
MITK_INFO << "ioRegion: " << ioRegion << std::endl;
m_ImageIO->SetIORegion( ioRegion );
void* buffer = new unsigned char[m_ImageIO->GetImageSizeInBytes()];
m_ImageIO->Read( buffer );
image->Initialize( MakePixelType(m_ImageIO), ndim, dimensions );
image->SetImportChannel( buffer, 0, Image::ManageMemory );
// access direction of itk::Image and include spacing
mitk::Matrix3D matrix;
matrix.SetIdentity();
unsigned int j, itkDimMax3 = (ndim >= 3? 3 : ndim);
for ( i=0; i < itkDimMax3; ++i)
for( j=0; j < itkDimMax3; ++j )
matrix[i][j] = m_ImageIO->GetDirection(j)[i];
// re-initialize PlaneGeometry with origin and direction
PlaneGeometry* planeGeometry = image->GetSlicedGeometry(0)->GetPlaneGeometry(0);
planeGeometry->SetOrigin(origin);
planeGeometry->GetIndexToWorldTransform()->SetMatrix(matrix);
// re-initialize SlicedGeometry3D
SlicedGeometry3D* slicedGeometry = image->GetSlicedGeometry(0);
slicedGeometry->InitializeEvenlySpaced(planeGeometry, image->GetDimension(2));
slicedGeometry->SetSpacing(spacing);
MITK_INFO << slicedGeometry->GetCornerPoint(false,false,false);
MITK_INFO << slicedGeometry->GetCornerPoint(true,true,true);
// re-initialize TimeGeometry
ProportionalTimeGeometry::Pointer timeGeometry = ProportionalTimeGeometry::New();
timeGeometry->Initialize(slicedGeometry, image->GetDimension(3));
image->SetTimeGeometry(timeGeometry);
buffer = NULL;
MITK_INFO << "number of image components: "<< image->GetPixelType().GetNumberOfComponents() << std::endl;
const itk::MetaDataDictionary& dictionary = m_ImageIO->GetMetaDataDictionary();
for (itk::MetaDataDictionary::ConstIterator iter = dictionary.Begin(), iterEnd = dictionary.End();
iter != iterEnd; ++iter)
{
std::string key = std::string("meta.") + iter->first;
if (iter->second->GetMetaDataObjectTypeInfo() == typeid(std::string))
{
std::string value = dynamic_cast<itk::MetaDataObject<std::string>*>(iter->second.GetPointer())->GetMetaDataObjectValue();
image->SetProperty(key.c_str(), mitk::StringProperty::New(value));
}
}
MITK_INFO << "...finished!" << std::endl;
try
{
setlocale(LC_ALL, currLocale.c_str());
}
catch(...)
{
MITK_INFO << "Could not reset locale " << currLocale;
}
result.push_back(image.GetPointer());
return result;
}