G4GDMLReadParamvol Class Reference

#include <G4GDMLReadParamvol.hh>

Inheritance diagram for G4GDMLReadParamvol:

Collaboration diagram for G4GDMLReadParamvol:

Public Member Functions
virtual void	ParamvolRead (const xercesc::DOMElement *const, G4LogicalVolume *)
virtual void	Paramvol_contentRead (const xercesc::DOMElement *const)
Public Member Functions inherited from G4GDMLReadSetup
G4String	GetSetup (const G4String &)
virtual void	SetupRead (const xercesc::DOMElement *const element)
Public Member Functions inherited from G4GDMLReadSolids
G4VSolid *	GetSolid (const G4String &) const
G4SurfaceProperty *	GetSurfaceProperty (const G4String &) const
virtual void	SolidsRead (const xercesc::DOMElement *const)
Public Member Functions inherited from G4GDMLReadMaterials
G4Element *	GetElement (const G4String &, G4bool verbose=true) const
G4Isotope *	GetIsotope (const G4String &, G4bool verbose=true) const
G4Material *	GetMaterial (const G4String &, G4bool verbose=true) const
virtual void	MaterialsRead (const xercesc::DOMElement *const)
Public Member Functions inherited from G4GDMLReadDefine
G4bool	IsValidID (const G4String &) const
G4double	GetConstant (const G4String &)
G4double	GetVariable (const G4String &)
G4double	GetQuantity (const G4String &)
G4ThreeVector	GetPosition (const G4String &)
G4ThreeVector	GetRotation (const G4String &)
G4ThreeVector	GetScale (const G4String &)
G4GDMLMatrix	GetMatrix (const G4String &)
virtual void	DefineRead (const xercesc::DOMElement *const)
Public Member Functions inherited from G4GDMLRead
virtual void	Volume_contentRead (const xercesc::DOMElement *const)=0
virtual void	StructureRead (const xercesc::DOMElement *const)=0
virtual void	ExtensionRead (const xercesc::DOMElement *const)
virtual void	UserinfoRead (const xercesc::DOMElement *const)
virtual G4LogicalVolume *	GetVolume (const G4String &) const =0
void	Read (const G4String &, G4bool validation, G4bool isModule, G4bool strip=true)
void	StripNames () const
void	StripName (G4String &) const
void	OverlapCheck (G4bool)
const G4GDMLAuxListType *	GetAuxList () const

Protected Member Functions
	G4GDMLReadParamvol ()
virtual	~G4GDMLReadParamvol ()
void	Box_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Trd_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Trap_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Tube_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Cone_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Sphere_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Orb_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Torus_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Ellipsoid_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Para_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Hype_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Polycone_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	Polyhedra_dimensionsRead (const xercesc::DOMElement *const, G4GDMLParameterisation::PARAMETER &)
void	ParameterisedRead (const xercesc::DOMElement *const)
void	ParametersRead (const xercesc::DOMElement *const)
Protected Member Functions inherited from G4GDMLReadSetup
	G4GDMLReadSetup ()
virtual	~G4GDMLReadSetup ()
Protected Member Functions inherited from G4GDMLReadSolids
	G4GDMLReadSolids ()
virtual	~G4GDMLReadSolids ()
void	BooleanRead (const xercesc::DOMElement *const, const BooleanOp)
void	BoxRead (const xercesc::DOMElement *const)
void	ConeRead (const xercesc::DOMElement *const)
void	ElconeRead (const xercesc::DOMElement *const)
void	EllipsoidRead (const xercesc::DOMElement *const)
void	EltubeRead (const xercesc::DOMElement *const)
void	XtruRead (const xercesc::DOMElement *const)
void	HypeRead (const xercesc::DOMElement *const)
void	MultiUnionNodeRead (const xercesc::DOMElement *const, G4MultiUnion *const)
void	MultiUnionRead (const xercesc::DOMElement *const)
void	OrbRead (const xercesc::DOMElement *const)
void	ParaRead (const xercesc::DOMElement *const)
void	ParaboloidRead (const xercesc::DOMElement *const)
void	PolyconeRead (const xercesc::DOMElement *const)
void	GenericPolyconeRead (const xercesc::DOMElement *const)
void	PolyhedraRead (const xercesc::DOMElement *const)
void	GenericPolyhedraRead (const xercesc::DOMElement *const)
G4QuadrangularFacet *	QuadrangularRead (const xercesc::DOMElement *const)
void	ReflectedSolidRead (const xercesc::DOMElement *const)
void	ScaledSolidRead (const xercesc::DOMElement *const)
G4ExtrudedSolid::ZSection	SectionRead (const xercesc::DOMElement *const, G4double)
void	SphereRead (const xercesc::DOMElement *const)
void	TessellatedRead (const xercesc::DOMElement *const)
void	TetRead (const xercesc::DOMElement *const)
void	TorusRead (const xercesc::DOMElement *const)
void	GenTrapRead (const xercesc::DOMElement *const)
void	TrapRead (const xercesc::DOMElement *const)
void	TrdRead (const xercesc::DOMElement *const)
void	TubeRead (const xercesc::DOMElement *const)
void	CutTubeRead (const xercesc::DOMElement *const)
void	TwistedboxRead (const xercesc::DOMElement *const)
void	TwistedtrapRead (const xercesc::DOMElement *const)
void	TwistedtrdRead (const xercesc::DOMElement *const)
void	TwistedtubsRead (const xercesc::DOMElement *const)
G4TriangularFacet *	TriangularRead (const xercesc::DOMElement *const)
G4TwoVector	TwoDimVertexRead (const xercesc::DOMElement *const, G4double)
zplaneType	ZplaneRead (const xercesc::DOMElement *const)
rzPointType	RZPointRead (const xercesc::DOMElement *const)
void	OpticalSurfaceRead (const xercesc::DOMElement *const)
Protected Member Functions inherited from G4GDMLReadMaterials
	G4GDMLReadMaterials ()
virtual	~G4GDMLReadMaterials ()
G4double	AtomRead (const xercesc::DOMElement *const)
G4int	CompositeRead (const xercesc::DOMElement *const, G4String &)
G4double	DRead (const xercesc::DOMElement *const)
G4double	PRead (const xercesc::DOMElement *const)
G4double	TRead (const xercesc::DOMElement *const)
G4double	MEERead (const xercesc::DOMElement *const)
void	ElementRead (const xercesc::DOMElement *const)
G4double	FractionRead (const xercesc::DOMElement *const, G4String &)
void	IsotopeRead (const xercesc::DOMElement *const)
void	MaterialRead (const xercesc::DOMElement *const)
void	MixtureRead (const xercesc::DOMElement *const, G4Element *)
void	MixtureRead (const xercesc::DOMElement *const, G4Material *)
void	PropertyRead (const xercesc::DOMElement *const, G4Material *)
Protected Member Functions inherited from G4GDMLReadDefine
	G4GDMLReadDefine ()
virtual	~G4GDMLReadDefine ()
G4RotationMatrix	GetRotationMatrix (const G4ThreeVector &)
void	VectorRead (const xercesc::DOMElement *const, G4ThreeVector &)
G4String	RefRead (const xercesc::DOMElement *const)
void	ConstantRead (const xercesc::DOMElement *const)
void	MatrixRead (const xercesc::DOMElement *const)
void	PositionRead (const xercesc::DOMElement *const)
void	RotationRead (const xercesc::DOMElement *const)
void	ScaleRead (const xercesc::DOMElement *const)
void	VariableRead (const xercesc::DOMElement *const)
void	QuantityRead (const xercesc::DOMElement *const)
void	ExpressionRead (const xercesc::DOMElement *const)
Protected Member Functions inherited from G4GDMLRead
	G4GDMLRead ()
virtual	~G4GDMLRead ()
G4String	Transcode (const XMLCh *const)
G4String	GenerateName (const G4String &name, G4bool strip=false)
G4String	Strip (const G4String &) const
void	GeneratePhysvolName (const G4String &, G4VPhysicalVolume *)
void	LoopRead (const xercesc::DOMElement *const, void(G4GDMLRead::*)(const xercesc::DOMElement *const))
G4GDMLAuxStructType	AuxiliaryRead (const xercesc::DOMElement *const auxElem)

Protected Attributes
G4GDMLParameterisation *	parameterisation
Protected Attributes inherited from G4GDMLReadSetup
std::map< G4String, G4String >	setupMap
Protected Attributes inherited from G4GDMLReadDefine
std::map< G4String, G4double >	quantityMap
std::map< G4String, G4ThreeVector >	positionMap
std::map< G4String, G4ThreeVector >	rotationMap
std::map< G4String, G4ThreeVector >	scaleMap
std::map< G4String, G4GDMLMatrix >	matrixMap
Protected Attributes inherited from G4GDMLRead
G4GDMLEvaluator	eval
G4bool	validate
G4bool	check
G4bool	dostrip

Detailed Description

Definition at line 48 of file G4GDMLReadParamvol.hh.

Constructor & Destructor Documentation

G4GDMLReadParamvol::G4GDMLReadParamvol ( )

protected

Definition at line 42 of file G4GDMLReadParamvol.cc.

  : G4GDMLReadSetup(), parameterisation(0)
{
}

G4GDMLReadParamvol::~G4GDMLReadParamvol ( )

protectedvirtual

Definition at line 47 of file G4GDMLReadParamvol.cc.

{
}

Member Function Documentation

void G4GDMLReadParamvol::Box_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 52 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Box_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit") { lunit = G4UnitDefinition::GetValueOf(attValue);
    if (G4UnitDefinition::GetCategory(attValue)!="Length") {
      G4Exception("G4GDMLReadParamvol::Box_dimensionsRead()", "InvalidRead",
              FatalException, "Invalid unit for length!");  }
      } else
      if (attName=="x") { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="y") { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="z") { parameter.dimension[2] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= 0.5*lunit;
   parameter.dimension[1] *= 0.5*lunit;
   parameter.dimension[2] *= 0.5*lunit;
}

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void G4GDMLReadParamvol::Cone_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 280 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Cone_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Cone_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Cone_dimensions()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="rmin1")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="rmax1")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="rmin2")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="rmax2")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="z")
        { parameter.dimension[4] = eval.Evaluate(attValue); } else
      if (attName=="startphi")
        { parameter.dimension[5] = eval.Evaluate(attValue); } else
      if (attName=="deltaphi")
        { parameter.dimension[6] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= lunit;
   parameter.dimension[1] *= lunit;
   parameter.dimension[2] *= lunit;
   parameter.dimension[3] *= lunit;
   parameter.dimension[4] *= 0.5*lunit;
   parameter.dimension[5] *= aunit;
   parameter.dimension[6] *= aunit;
}

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void G4GDMLReadParamvol::Ellipsoid_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 508 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Ellipsoid_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Ellipsoid_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="ax")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="by")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="cz")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="zcut1")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="zcut2")
        { parameter.dimension[4] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= lunit;
   parameter.dimension[1] *= lunit;
   parameter.dimension[2] *= lunit;
   parameter.dimension[3] *= lunit;
   parameter.dimension[4] *= lunit;
}

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void G4GDMLReadParamvol::Hype_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 623 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Hype_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Hype_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Hype_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="rmin")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="rmax")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="inst")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="outst")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="z")
        { parameter.dimension[4] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] = lunit;
   parameter.dimension[1] = lunit;
   parameter.dimension[2] = aunit;
   parameter.dimension[3] = aunit;
   parameter.dimension[4] = 0.5*lunit;
}

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void G4GDMLReadParamvol::Orb_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 409 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Orb_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit") { lunit = G4UnitDefinition::GetValueOf(attValue); }
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
    G4Exception("G4GDMLReadParamvol::Orb_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
      else
      if (attName=="r") { parameter.dimension[0] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= lunit;
}

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void G4GDMLReadParamvol::Para_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 560 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Para_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Para_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Para_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="x")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="y")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="z")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="alpha")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="theta")
        { parameter.dimension[4] = eval.Evaluate(attValue); } else
      if (attName=="phi")
        { parameter.dimension[5] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] = 0.5*lunit;
   parameter.dimension[1] = 0.5*lunit;
   parameter.dimension[2] = 0.5*lunit;
   parameter.dimension[3] = aunit;
   parameter.dimension[4] = aunit;
   parameter.dimension[5] = aunit;
}

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void G4GDMLReadParamvol::ParameterisedRead ( const xercesc::DOMElement * const  element )

protected

Definition at line 907 of file G4GDMLReadParamvol.cc.

{
   for (xercesc::DOMNode* iter = element->getFirstChild();
        iter != 0; iter = iter->getNextSibling())
   {
     if (iter->getNodeType() != xercesc::DOMNode::ELEMENT_NODE)  { continue; }

     const xercesc::DOMElement* const child
           = dynamic_cast<xercesc::DOMElement*>(iter);
     if (!child)
     {
       G4Exception("G4GDMLReadParamvol::ParameterisedRead()",
                   "InvalidRead", FatalException, "No child found!");
       return;
     }
     const G4String tag = Transcode(child->getTagName());
 
     if (tag=="parameters")
     {
        const xercesc::DOMNamedNodeMap* const attributes
              = element->getAttributes();
        XMLSize_t attributeCount = attributes->getLength();
        for (XMLSize_t attribute_index=0;
             attribute_index<attributeCount; attribute_index++)
        {
          xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

          if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
            { continue; }

          const xercesc::DOMAttr* const attribute
                = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
          if (!attribute)
          {
            G4Exception("G4GDMLReadParamvol::ParameterisedRead()",
                        "InvalidRead", FatalException, "No attribute found!");
            return;
          }
          const G4String attName = Transcode(attribute->getName());
          const G4String attValue = Transcode(attribute->getValue());

          if (attName=="number")  { eval.Evaluate(attValue); }
        }
        ParametersRead(child);
      }
      else
      {
        if (tag=="loop") { LoopRead(child,&G4GDMLRead::Paramvol_contentRead); }
      }
    }
}

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void G4GDMLReadParamvol::ParametersRead ( const xercesc::DOMElement * const  element )

protected

Definition at line 847 of file G4GDMLReadParamvol.cc.

{
   G4ThreeVector rotation(0.0,0.0,0.0);
   G4ThreeVector position(0.0,0.0,0.0);

   G4GDMLParameterisation::PARAMETER parameter;

   for (xercesc::DOMNode* iter = element->getFirstChild();
        iter != 0; iter = iter->getNextSibling())
   {
      if (iter->getNodeType() != xercesc::DOMNode::ELEMENT_NODE)  { continue; }

      const xercesc::DOMElement* const child
            = dynamic_cast<xercesc::DOMElement*>(iter);
      if (!child)
      {
        G4Exception("G4GDMLReadParamvol::ParametersRead()",
                    "InvalidRead", FatalException, "No child found!");
        return;
      }
      const G4String tag = Transcode(child->getTagName());
      if (tag=="rotation") { VectorRead(child,rotation); } else
      if (tag=="position") { VectorRead(child,position); } else
      if (tag=="positionref")
        { position = GetPosition(GenerateName(RefRead(child))); } else
      if (tag=="rotationref")
        { rotation = GetRotation(GenerateName(RefRead(child))); } else
      if (tag=="box_dimensions") { Box_dimensionsRead(child,parameter); } else
      if (tag=="trd_dimensions") { Trd_dimensionsRead(child,parameter); } else
      if (tag=="trap_dimensions") { Trap_dimensionsRead(child,parameter); } else
      if (tag=="tube_dimensions") { Tube_dimensionsRead(child,parameter); } else
      if (tag=="cone_dimensions") { Cone_dimensionsRead(child,parameter); } else
      if (tag=="sphere_dimensions") { Sphere_dimensionsRead(child,parameter); } else
      if (tag=="orb_dimensions") { Orb_dimensionsRead(child,parameter); } else
      if (tag=="torus_dimensions") { Torus_dimensionsRead(child,parameter); } else
      if (tag=="ellipsoid_dimensions") { Ellipsoid_dimensionsRead(child,parameter); } else
      if (tag=="para_dimensions") { Para_dimensionsRead(child,parameter); } else
      if (tag=="polycone_dimensions") { Polycone_dimensionsRead(child,parameter); } else
      if (tag=="polyhedra_dimensions") { Polyhedra_dimensionsRead(child,parameter); } else
      if (tag=="hype_dimensions") { Hype_dimensionsRead(child,parameter); }
      else
      {
        G4String error_msg = "Unknown tag in parameters: " + tag;
        G4Exception("G4GDMLReadParamvol::ParametersRead()", "ReadError",
                    FatalException, error_msg);
      }
   }

   parameter.pRot = new G4RotationMatrix();
   
   parameter.pRot->rotateX(rotation.x());
   parameter.pRot->rotateY(rotation.y());
   parameter.pRot->rotateZ(rotation.z());

   parameter.position = position;

   parameterisation->AddParameter(parameter);
}

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void G4GDMLReadParamvol::Paramvol_contentRead ( const xercesc::DOMElement * const  element )

virtual

Implements G4GDMLRead.

Definition at line 960 of file G4GDMLReadParamvol.cc.

{
   for (xercesc::DOMNode* iter = element->getFirstChild();
        iter != 0; iter = iter->getNextSibling())
   {
      if (iter->getNodeType() != xercesc::DOMNode::ELEMENT_NODE)  { continue; }

      const xercesc::DOMElement* const child
            = dynamic_cast<xercesc::DOMElement*>(iter);
      if (!child)
      {
        G4Exception("G4GDMLReadParamvol::Paramvol_contentRead()", "InvalidRead",
                    FatalException, "No child found!");
        return;
      }
      const G4String tag = Transcode(child->getTagName());
      if (tag=="parameterised_position_size") { ParameterisedRead(child); }else
      if (tag=="loop") { LoopRead(child,&G4GDMLRead::Paramvol_contentRead); }
    }
}

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void G4GDMLReadParamvol::ParamvolRead ( const xercesc::DOMElement * const  element, G4LogicalVolume *  mother  )

virtual

Definition at line 982 of file G4GDMLReadParamvol.cc.

{
   G4String volumeref;

   parameterisation = new G4GDMLParameterisation();
   for (xercesc::DOMNode* iter = element->getFirstChild();
        iter != 0; iter = iter->getNextSibling())
   {
      if (iter->getNodeType() != xercesc::DOMNode::ELEMENT_NODE)  { continue; }

      const xercesc::DOMElement* const child
            = dynamic_cast<xercesc::DOMElement*>(iter);
      if (!child)
      {
        G4Exception("G4GDMLReadParamvol::ParamvolRead()", "InvalidRead",
                    FatalException, "No child found!");
        return;
      }
      const G4String tag = Transcode(child->getTagName());

      if (tag=="volumeref") { volumeref = RefRead(child); }
     
   }

   Paramvol_contentRead(element);

   G4LogicalVolume* logvol = GetVolume(GenerateName(volumeref));

   if (parameterisation->GetSize()==0)
   {
     G4Exception("G4GDMLReadParamvol::ParamvolRead()",
                 "ReadError", FatalException,
                 "No parameters are defined in parameterised volume!");
   }
   G4String pv_name = logvol->GetName() + "_param";
   new G4PVParameterised(pv_name, logvol, mother, kUndefined,
                         parameterisation->GetSize(), parameterisation, check);
}

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void G4GDMLReadParamvol::Polycone_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 683 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   std::vector<zplaneType> zplaneList;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Polycone_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());
    
      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Polycone_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Polycone_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="startPhi")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="openPhi")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="numRZ")
        { parameter.dimension[2] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= aunit;
   parameter.dimension[1] *= aunit; 

   for (xercesc::DOMNode* iter = element->getFirstChild();
        iter != 0; iter = iter->getNextSibling())
   {
      if (iter->getNodeType() != xercesc::DOMNode::ELEMENT_NODE) { continue; }
 
      const xercesc::DOMElement* const child
            = dynamic_cast<xercesc::DOMElement*>(iter);
      if (!child)
      {
         G4Exception("G4GDMLReadParamVol::Polycone_dimensionsRead()",
                     "InvalidRead", FatalException, "No child found!");
         return;
      }
      const G4String tag = Transcode(child->getTagName());
 
      if (tag=="zplane") { zplaneList.push_back(ZplaneRead(child)); }
   }

   G4int numZPlanes = zplaneList.size();
   for (G4int i=0; i<numZPlanes; i++)
   {  
      parameter.dimension[3+i*3]  = zplaneList[i].rmin*lunit;
      parameter.dimension[4+i*3] = zplaneList[i].rmax*lunit;
      parameter.dimension[5+i*3] = zplaneList[i].z*lunit;
   }
}

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void G4GDMLReadParamvol::Polyhedra_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 764 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   std::vector<zplaneType> zplaneList;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Polycone_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());
    
      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Polyhedra_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Polyhedra_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="startPhi")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="openPhi")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="numRZ")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="numSide")
        { parameter.dimension[3] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= aunit;
   parameter.dimension[1] *= aunit; 
 
   for (xercesc::DOMNode* iter = element->getFirstChild();
        iter != 0; iter = iter->getNextSibling())
   {
      if (iter->getNodeType() != xercesc::DOMNode::ELEMENT_NODE) { continue; }
 
      const xercesc::DOMElement* const child
            = dynamic_cast<xercesc::DOMElement*>(iter);
      if (!child)
      {
         G4Exception("G4GDMLReadParamvo::PolyhedraRead()",
                     "InvalidRead", FatalException, "No child found!");
         return;
      }
      const G4String tag = Transcode(child->getTagName());
 
      if (tag=="zplane") { zplaneList.push_back(ZplaneRead(child)); }
   }

   G4int numZPlanes = zplaneList.size();
   for (G4int i=0; i<numZPlanes; i++)
   { 
      parameter.dimension[4+i*3]  = zplaneList[i].rmin*lunit;
      parameter.dimension[5+i*3] = zplaneList[i].rmax*lunit;
      parameter.dimension[6+i*3] = zplaneList[i].z*lunit;
   }
}

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void G4GDMLReadParamvol::Sphere_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 346 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Sphere_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Sphere_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Sphere_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="rmin")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="rmax")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="startphi")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="deltaphi")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="starttheta")
        { parameter.dimension[4] = eval.Evaluate(attValue); } else
      if (attName=="deltatheta")
        { parameter.dimension[5] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= lunit;
   parameter.dimension[1] *= lunit;
   parameter.dimension[2] *= aunit;
   parameter.dimension[3] *= aunit;
   parameter.dimension[4] *= aunit;
   parameter.dimension[5] *= aunit;
}

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void G4GDMLReadParamvol::Torus_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 448 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Torus_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Torus_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Torus_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="rmin")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="rmax")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="rtor")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="startphi")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="deltaphi")
        { parameter.dimension[4] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= lunit;
   parameter.dimension[1] *= lunit;
   parameter.dimension[2] *= lunit;
   parameter.dimension[3] *= aunit;
   parameter.dimension[4] *= aunit;
}

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void G4GDMLReadParamvol::Trap_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 142 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Trap_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Trap_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Trap_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="z")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="theta")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="phi")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="y1")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="x1")
        { parameter.dimension[4] = eval.Evaluate(attValue); } else
      if (attName=="x2")
        { parameter.dimension[5] = eval.Evaluate(attValue); } else
      if (attName=="alpha1")
        { parameter.dimension[6] = eval.Evaluate(attValue); } else
      if (attName=="y2")
        { parameter.dimension[7] = eval.Evaluate(attValue); } else
      if (attName=="x3")
        { parameter.dimension[8] = eval.Evaluate(attValue); } else
      if (attName=="x4")
        { parameter.dimension[9] = eval.Evaluate(attValue); } else
      if (attName=="alpha2")
        { parameter.dimension[10] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= 0.5*lunit;
   parameter.dimension[1] *= aunit;
   parameter.dimension[2] *= aunit;
   parameter.dimension[3] *= 0.5*lunit;
   parameter.dimension[4] *= 0.5*lunit;
   parameter.dimension[5] *= 0.5*lunit;
   parameter.dimension[6] *= aunit;
   parameter.dimension[7] *= 0.5*lunit;
   parameter.dimension[8] *= 0.5*lunit;
   parameter.dimension[9] *= 0.5*lunit;
   parameter.dimension[10] *= aunit;
}

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void G4GDMLReadParamvol::Trd_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 95 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Trd_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());

      if (attName=="lunit") { lunit = G4UnitDefinition::GetValueOf(attValue);
        if (G4UnitDefinition::GetCategory(attValue)!="Length") {
      G4Exception("G4GDMLReadParamvol::Trd_dimensionsRead()", "InvalidRead",
              FatalException, "Invalid unit for length!");  }
      } else
      if (attName=="x1") { parameter.dimension[0]=eval.Evaluate(attValue); } else
      if (attName=="x2") { parameter.dimension[1]=eval.Evaluate(attValue); } else
      if (attName=="y1") { parameter.dimension[2]=eval.Evaluate(attValue); } else
      if (attName=="y2") { parameter.dimension[3]=eval.Evaluate(attValue); } else
      if (attName=="z")  { parameter.dimension[4]=eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= 0.5*lunit;
   parameter.dimension[1] *= 0.5*lunit;
   parameter.dimension[2] *= 0.5*lunit;
   parameter.dimension[3] *= 0.5*lunit;
   parameter.dimension[4] *= 0.5*lunit;
}

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void G4GDMLReadParamvol::Tube_dimensionsRead ( const xercesc::DOMElement * const  element, G4GDMLParameterisation::PARAMETER &  parameter  )

protected

Definition at line 220 of file G4GDMLReadParamvol.cc.

{
   G4double lunit = 1.0;
   G4double aunit = 1.0;

   const xercesc::DOMNamedNodeMap* const attributes = element->getAttributes();
   XMLSize_t attributeCount = attributes->getLength();

   for (XMLSize_t attribute_index=0;
        attribute_index<attributeCount; attribute_index++)
   {
      xercesc::DOMNode* attribute_node = attributes->item(attribute_index);

      if (attribute_node->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
        { continue; }

      const xercesc::DOMAttr* const attribute
            = dynamic_cast<xercesc::DOMAttr*>(attribute_node);   
      if (!attribute)
      {
        G4Exception("G4GDMLReadParamvol::Tube_dimensionsRead()",
                    "InvalidRead", FatalException, "No attribute found!");
        return;
      }
      const G4String attName = Transcode(attribute->getName());
      const G4String attValue = Transcode(attribute->getValue());
    
      if (attName=="lunit")
        { lunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Length") {
        G4Exception("G4GDMLReadParamvol::Tube_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for length!");  }
    } else
      if (attName=="aunit")
        { aunit = G4UnitDefinition::GetValueOf(attValue);
      if (G4UnitDefinition::GetCategory(attValue)!="Angle") {
        G4Exception("G4GDMLReadParamvol::Tube_dimensionsRead()", "InvalidRead",
            FatalException, "Invalid unit for angle!");  }
    } else
      if (attName=="InR")
        { parameter.dimension[0] = eval.Evaluate(attValue); } else
      if (attName=="OutR")
        { parameter.dimension[1] = eval.Evaluate(attValue); } else
      if (attName=="hz")
        { parameter.dimension[2] = eval.Evaluate(attValue); } else
      if (attName=="StartPhi")
        { parameter.dimension[3] = eval.Evaluate(attValue); } else
      if (attName=="DeltaPhi")
        { parameter.dimension[4] = eval.Evaluate(attValue); }
   }

   parameter.dimension[0] *= lunit;
   parameter.dimension[1] *= lunit;
   parameter.dimension[2] *= 0.5*lunit;
   parameter.dimension[3] *= aunit;
   parameter.dimension[4] *= aunit;
}

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Member Data Documentation

G4GDMLParameterisation* G4GDMLReadParamvol::parameterisation

protected

Definition at line 94 of file G4GDMLReadParamvol.hh.

---

The documentation for this class was generated from the following files:

• geant4.10.03.p01/source/persistency/gdml/include/G4GDMLReadParamvol.hh
• geant4.10.03.p01/source/persistency/gdml/src/G4GDMLReadParamvol.cc