mitk::BaseGeometry::Pointer mitk::PointSetReaderService::ReadGeometry(TiXmlElement *parentElement)
{
TiXmlElement *geometryElem = parentElement->FirstChildElement("geometry3d");
if (!geometryElem)
return nullptr;
// data to generate
AffineTransform3D::MatrixType matrix;
AffineTransform3D::OffsetType offset;
bool isImageGeometry(false);
unsigned int frameOfReferenceID(0);
BaseGeometry::BoundsArrayType bounds;
bool somethingMissing(false);
// find data in xml structure
TiXmlElement *imageGeometryElem = geometryElem->FirstChildElement("image_geometry");
if (imageGeometryElem)
{
std::string igs = imageGeometryElem->GetText();
isImageGeometry = igs == "true" || igs == "TRUE" || igs == "1";
}
else
somethingMissing = true;
TiXmlElement *frameOfReferenceElem = geometryElem->FirstChildElement("frame_of_reference_id");
if (frameOfReferenceElem)
{
frameOfReferenceID = atoi(frameOfReferenceElem->GetText());
}
else
somethingMissing = true;
TiXmlElement *indexToWorldElem = geometryElem->FirstChildElement("index_to_world");
if (indexToWorldElem)
{
TiXmlElement *matrixElem = indexToWorldElem->FirstChildElement("matrix3x3");
TiXmlElement *offsetElem = indexToWorldElem->FirstChildElement("offset");
if (indexToWorldElem && offsetElem)
{
TiXmlElement *col0 = matrixElem->FirstChildElement("column_0");
TiXmlElement *col1 = matrixElem->FirstChildElement("column_1");
TiXmlElement *col2 = matrixElem->FirstChildElement("column_2");
if (col0 && col1 && col2)
{
somethingMissing |= TIXML_SUCCESS != col0->QueryDoubleAttribute("x", &matrix[0][0]);
somethingMissing |= TIXML_SUCCESS != col0->QueryDoubleAttribute("y", &matrix[1][0]);
somethingMissing |= TIXML_SUCCESS != col0->QueryDoubleAttribute("z", &matrix[2][0]);
somethingMissing |= TIXML_SUCCESS != col1->QueryDoubleAttribute("x", &matrix[0][1]);
somethingMissing |= TIXML_SUCCESS != col1->QueryDoubleAttribute("y", &matrix[1][1]);
somethingMissing |= TIXML_SUCCESS != col1->QueryDoubleAttribute("z", &matrix[2][1]);
somethingMissing |= TIXML_SUCCESS != col2->QueryDoubleAttribute("x", &matrix[0][2]);
somethingMissing |= TIXML_SUCCESS != col2->QueryDoubleAttribute("y", &matrix[1][2]);
somethingMissing |= TIXML_SUCCESS != col2->QueryDoubleAttribute("z", &matrix[2][2]);
}
else
somethingMissing = true;
somethingMissing |= TIXML_SUCCESS != offsetElem->QueryDoubleAttribute("x", &offset[0]);
somethingMissing |= TIXML_SUCCESS != offsetElem->QueryDoubleAttribute("y", &offset[1]);
somethingMissing |= TIXML_SUCCESS != offsetElem->QueryDoubleAttribute("z", &offset[2]);
}
else
somethingMissing = true;
TiXmlElement *boundsElem = geometryElem->FirstChildElement("bounds");
if (boundsElem)
{
TiXmlElement *minBoundsElem = boundsElem->FirstChildElement("min");
TiXmlElement *maxBoundsElem = boundsElem->FirstChildElement("max");
if (minBoundsElem && maxBoundsElem)
{
somethingMissing |= TIXML_SUCCESS != minBoundsElem->QueryDoubleAttribute("x", &bounds[0]);
somethingMissing |= TIXML_SUCCESS != minBoundsElem->QueryDoubleAttribute("y", &bounds[2]);
somethingMissing |= TIXML_SUCCESS != minBoundsElem->QueryDoubleAttribute("z", &bounds[4]);
somethingMissing |= TIXML_SUCCESS != maxBoundsElem->QueryDoubleAttribute("x", &bounds[1]);
somethingMissing |= TIXML_SUCCESS != maxBoundsElem->QueryDoubleAttribute("y", &bounds[3]);
somethingMissing |= TIXML_SUCCESS != maxBoundsElem->QueryDoubleAttribute("z", &bounds[5]);
}
else
somethingMissing = true;
}
else
somethingMissing = true;
}
else
somethingMissing = true;
if (somethingMissing)
{
MITK_ERROR << "XML structure of geometry inside a PointSet file broken. Refusing to build Geometry3D";
return nullptr;
}
else
{
Geometry3D::Pointer g = Geometry3D::New();
g->SetImageGeometry(isImageGeometry);
g->SetFrameOfReferenceID(frameOfReferenceID);
g->SetBounds(bounds);
AffineTransform3D::Pointer transform = AffineTransform3D::New();
transform->SetMatrix(matrix);
transform->SetOffset(offset);
g->SetIndexToWorldTransform(transform);
return g.GetPointer();
}
}
mitk::Geometry3D::Pointer mitk::Geometry3DToXML::FromXML( TiXmlElement* geometryElement )
{
if (!geometryElement)
{
MITK_ERROR << "Cannot deserialize Geometry3D from nullptr.";
return nullptr;
}
AffineTransform3D::MatrixType matrix;
AffineTransform3D::OffsetType offset;
bool isImageGeometry(false);
unsigned int frameOfReferenceID(0);
BaseGeometry::BoundsArrayType bounds;
if ( TIXML_SUCCESS != geometryElement->QueryUnsignedAttribute("FrameOfReferenceID", &frameOfReferenceID) )
{
MITK_WARN << "Missing FrameOfReference for Geometry3D.";
}
if ( TIXML_SUCCESS != geometryElement->QueryBoolAttribute("ImageGeometry", &isImageGeometry) )
{
MITK_WARN << "Missing bool ImageGeometry for Geometry3D.";
}
// matrix
if ( TiXmlElement* matrixElem = geometryElement->FirstChildElement("IndexToWorld")->ToElement() )
{
bool matrixComplete = true;
for ( unsigned int r = 0; r < 3; ++r )
{
for ( unsigned int c = 0; c < 3; ++c )
{
std::stringstream element_namer;
element_namer << "m_" << r << "_" << c;
std::string string_value;
if (TIXML_SUCCESS == matrixElem->QueryStringAttribute(element_namer.str().c_str(),
&string_value))
{
try
{
matrix[r][c] = boost::lexical_cast<double>(string_value);
}
catch (boost::bad_lexical_cast& e)
{
MITK_ERROR << "Could not parse '" << string_value << "' as number: " << e.what();
return nullptr;
}
}
else
{
matrixComplete = false;
}
}
}
if ( !matrixComplete )
{
MITK_ERROR << "Could not parse all Geometry3D matrix coefficients!";
return nullptr;
}
} else
{
MITK_ERROR << "Parse error: expected Matrix3x3 child below Geometry3D node";
return nullptr;
}
// offset
if ( TiXmlElement* offsetElem = geometryElement->FirstChildElement("Offset")->ToElement() )
{
bool vectorComplete = true;
std::string offset_string[3];
vectorComplete &= TIXML_SUCCESS == offsetElem->QueryStringAttribute("x", &offset_string[0]);
vectorComplete &= TIXML_SUCCESS == offsetElem->QueryStringAttribute("y", &offset_string[1]);
vectorComplete &= TIXML_SUCCESS == offsetElem->QueryStringAttribute("z", &offset_string[2]);
if ( !vectorComplete )
{
MITK_ERROR << "Could not parse complete Geometry3D offset!";
return nullptr;
}
for ( unsigned int d = 0; d < 3; ++d )
try
{
offset[d] = boost::lexical_cast<double>(offset_string[d]);
}
catch ( boost::bad_lexical_cast& e )
{
MITK_ERROR << "Could not parse '" << offset_string[d] << "' as number: " << e.what();
return nullptr;
}
}
else
{
MITK_ERROR << "Parse error: expected Offset3D child below Geometry3D node";
return nullptr;
}
// bounds
if ( TiXmlElement* boundsElem = geometryElement->FirstChildElement("Bounds")->ToElement() )
{
bool vectorsComplete(true);
std::string bounds_string[6];
if ( TiXmlElement* minElem = boundsElem->FirstChildElement("Min")->ToElement() )
{
vectorsComplete &= TIXML_SUCCESS == minElem->QueryStringAttribute("x", &bounds_string[0]);
vectorsComplete &= TIXML_SUCCESS == minElem->QueryStringAttribute("y", &bounds_string[2]);
vectorsComplete &= TIXML_SUCCESS == minElem->QueryStringAttribute("z", &bounds_string[4]);
} else
{
vectorsComplete = false;
}
if ( TiXmlElement* maxElem = boundsElem->FirstChildElement("Max")->ToElement() )
{
vectorsComplete &= TIXML_SUCCESS == maxElem->QueryStringAttribute("x", &bounds_string[1]);
vectorsComplete &= TIXML_SUCCESS == maxElem->QueryStringAttribute("y", &bounds_string[3]);
vectorsComplete &= TIXML_SUCCESS == maxElem->QueryStringAttribute("z", &bounds_string[5]);
} else
{
vectorsComplete = false;
}
if ( !vectorsComplete )
{
MITK_ERROR << "Could not parse complete Geometry3D bounds!";
return nullptr;
}
for (unsigned int d = 0; d < 6; ++d)
try
{
bounds[d] = boost::lexical_cast<double>(bounds_string[d]);
}
catch (boost::bad_lexical_cast& e)
{
MITK_ERROR << "Could not parse '" << bounds_string[d] << "' as number: " << e.what();
return nullptr;
}
}
// build GeometryData from matrix/offset
AffineTransform3D::Pointer newTransform = AffineTransform3D::New();
newTransform->SetMatrix(matrix);
newTransform->SetOffset(offset);
Geometry3D::Pointer newGeometry = Geometry3D::New();
newGeometry->SetFrameOfReferenceID(frameOfReferenceID);
newGeometry->SetImageGeometry(isImageGeometry);
newGeometry->SetIndexToWorldTransform(newTransform);
newGeometry->SetBounds(bounds);
return newGeometry;
}
