Medical Imaging Interaction Toolkit
2023.12.00
Medical Imaging Interaction Toolkit
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Go to the source code of this file.
Namespaces | |
mitk | |
Find image slices visible on a given plane. | |
mitk::SemanticRelationsInference | |
The API provides functions to query image relations and instances that are helpful during follow-up examination, like control-points (time period), types of the images or lesions that may be visible on multiple images. | |
Functions | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::LesionClassVector | mitk::SemanticRelationsInference::GetAllLesionClassesOfCase (const SemanticTypes::CaseID &caseID) |
Return a vector of lesion classes that are currently available for the given case. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::Lesion | mitk::SemanticRelationsInference::GetLesionOfSegmentation (const DataNode *segmentationNode) |
Return the lesion that is defined by the given segmentation. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::LesionVector | mitk::SemanticRelationsInference::GetAllLesionsOfImage (const DataNode *imageNode) |
Returns a vector of all lesions that are currently available for the current case and are connected to the given image (via a segmentation). If no lesions are stored for the current case, an empty vector is returned. If no segmentations are connected with the image node, no lesions for the specific image will be found and an empty vector is returned. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::LesionVector | mitk::SemanticRelationsInference::GetAllLesionsOfControlPoint (const SemanticTypes::CaseID &caseID, const SemanticTypes::ControlPoint &controlPoint) |
Returns a vector of all lesions that are valid for the given case, given a specific control point. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::LesionVector | mitk::SemanticRelationsInference::GetAllLesionsOfInformationType (const SemanticTypes::CaseID &caseID, const SemanticTypes::InformationType &informationType) |
Returns a vector of all lesions that are valid for the given case, given a specific information type. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::LesionVector | mitk::SemanticRelationsInference::GetAllSpecificLesions (const SemanticTypes::CaseID &caseID, const SemanticTypes::ControlPoint &controlPoint, const SemanticTypes::InformationType &informationType) |
Returns a vector of all lesions that are valid for the given case, given a specific control point and a specific information type. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::IsRepresentingALesion (const DataNode *segmentationNode) |
Check if the given segmentation refers to an existing lesion instance. This function can be used before calling 'GetRepresentedLesion' in order to avoid a possible exception. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::IsRepresentingALesion (const SemanticTypes::CaseID &caseID, const SemanticTypes::ID &segmentationID) |
Check if the segmentation identified by the given segmentation ID refers to an existing lesion instance. This function can be used before calling 'GetRepresentedLesion' in order to avoid a possible exception. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::IsLesionPresent (const SemanticTypes::Lesion &lesion, const DataNode *dataNode) |
Check if the given lesion is present on the given data node. The function receives the case- and the node-ID from the DICOM tags of the node itself. It uses node predicates to decide if the node is an image or a segmentation node. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::IsLesionPresentOnImage (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion, const SemanticTypes::ID &imageID) |
Check if the given lesion is related to the image identified by the given image ID. Each lesion is represented by a segmentation which is connected to its parent image. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::IsLesionPresentOnSegmentation (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion, const SemanticTypes::ID &segmentationID) |
Check if the given lesion is present on the segmentation identified by the given segmentation ID. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::IsLesionPresentAtControlPoint (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion, const SemanticTypes::ControlPoint &controlPoint) |
Check if the given lesion is present at the given control point. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::InstanceExists (const DataNode *dataNode) |
Check if the given data node exists in the relation storage. The function receives the case- and the node-ID from the DICOM tags of the node itself. It uses node predicates to decide if the node is an image or a segmentation node and searches through the corresponding relations. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::InstanceExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion) |
Check if the given lesion instance exists. This function can be used before calling 'AddLesionInstance' in order to avoid a possible exception. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::IDVector | mitk::SemanticRelationsInference::GetAllImageIDsOfLesion (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion) |
Return a vector of all image IDs that identify images that are related to the given lesion. Each lesion is represented by a segmentation which is connected to its parent image. If the lesion is not represented by any segmentation, an empty vector is returned. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::IDVector | mitk::SemanticRelationsInference::GetAllImageIDsOfExaminationPeriod (const SemanticTypes::CaseID &caseID, const SemanticTypes::ExaminationPeriod &examinationPeriod) |
Return a vector of all image IDs that identify images that are related to the given examination period. If the examination period is not used by and image, an empty vector is returned. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::ControlPoint | mitk::SemanticRelationsInference::GetControlPointOfImage (const DataNode *dataNode) |
Return the control point of a data node. If the data node is not linked to a control point or the data node refers to a non-existing control point, a control point with an empty UID is returned. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::ControlPointVector | mitk::SemanticRelationsInference::GetAllControlPointsOfLesion (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion) |
Return a vector of all control points that are valid for the given case, given a specific lesion. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::ControlPointVector | mitk::SemanticRelationsInference::GetAllControlPointsOfInformationType (const SemanticTypes::CaseID &caseID, const SemanticTypes::InformationType &informationType) |
Return a vector of all control points that are valid for the given case, given a specific information type. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::InstanceExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::ControlPoint &controlPoint) |
Check if the given control point instance exists. This function can be used before adding, linking and unlinking control points to avoid a possible exception. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::InstanceExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::ExaminationPeriod &examinationPeriod) |
Check if the given examination period instance exists. This function can be used before calling 'AddExaminationPeriod' in order to avoid a possible exception. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::InformationType | mitk::SemanticRelationsInference::GetInformationTypeOfImage (const DataNode *imageNode) |
Return the information type of the given image. If the image does not contain any information type, an empty information type is returned. More... | |
MITKSEMANTICRELATIONS_EXPORT SemanticTypes::InformationTypeVector | mitk::SemanticRelationsInference::GetAllInformationTypesOfControlPoint (const SemanticTypes::CaseID &caseID, const SemanticTypes::ControlPoint &controlPoint) |
Return a vector of all information types that are valid for the given case, given a specific control point. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::InstanceExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::InformationType &informationType) |
Check if the given information type exists. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::SpecificImageExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion, const SemanticTypes::InformationType &informationType) |
Determine if the given information type contains images, which are connected to segmentations that represent the given lesion. If the lesion or the information type are not correctly stored, the function returns false. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::SpecificImageExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::Lesion &lesion, const SemanticTypes::ControlPoint &controlPoint) |
Determine if the given control point contains images, which are connected to segmentations that represent the given lesion. If the lesion or the control point are not correctly stored, the function returns false. More... | |
MITKSEMANTICRELATIONS_EXPORT bool | mitk::SemanticRelationsInference::SpecificImageExists (const SemanticTypes::CaseID &caseID, const SemanticTypes::InformationType &informationType, const SemanticTypes::ControlPoint &controlPoint) |
Determine if the given control point contains images, which refer to the given information type. If the information type or the control point are not correctly stored, the function returns false. More... | |