g4doxy4.10/html/_g4_trajectory_drawer_utils_8cc_source.html

 //

 // ********************************************************************

 // * License and Disclaimer                                           *

 // *                                                                  *

 // * The  Geant4 software  is  copyright of the Copyright Holders  of *

 // * the Geant4 Collaboration.  It is provided  under  the terms  and *

 // * conditions of the Geant4 Software License,  included in the file *

 // * LICENSE and available at  http://cern.ch/geant4/license .  These *

 // * include a list of copyright holders.                             *

 // *                                                                  *

 // * Neither the authors of this software system, nor their employing *

 // * institutes,nor the agencies providing financial support for this *

 // * work  make  any representation or  warranty, express or implied, *

 // * regarding  this  software system or assume any liability for its *

 // * use.  Please see the license in the file  LICENSE  and URL above *

 // * for the full disclaimer and the limitation of liability.         *

 // *                                                                  *

 // * This  code  implementation is the result of  the  scientific and *

 // * technical work of the GEANT4 collaboration.                      *

 // * By using,  copying,  modifying or  distributing the software (or *

 // * any work based  on the software)  you  agree  to acknowledge its *

 // * use  in  resulting  scientific  publications,  and indicate your *

 // * acceptance of all terms of the Geant4 Software license.          *

 // ********************************************************************

 //

 // $Id: G4TrajectoryDrawerUtils.cc 66870 2013-01-14 23:38:59Z adotti $

 //

 // Jane Tinslay, John Allison, Joseph Perl November 2005

 //

 #include "G4TrajectoryDrawerUtils.hh"

 #include "G4Colour.hh"

 #include "G4Polyline.hh"

 #include "G4Polymarker.hh"

 #include "G4VTrajectory.hh"

 #include "G4VTrajectoryPoint.hh"

 #include "G4VisAttributes.hh"

 #include "G4VisTrajContext.hh"

 #include "G4VVisManager.hh"

 #include "G4UIcommand.hh"

 #include "G4AttValue.hh"


 namespace G4TrajectoryDrawerUtils {


   enum TimesValidity {InvalidTimes, ValidTimes};


   TimesValidity GetPointsAndTimes

   (const G4VTrajectory& traj,

    const G4VisTrajContext& context,

    G4Polyline& trajectoryLine,

    G4Polymarker& auxiliaryPoints,

    G4Polymarker& stepPoints,

    std::vector<G4double>& trajectoryLineTimes,

    std::vector<G4double>& auxiliaryPointTimes,

    std::vector<G4double>& stepPointTimes)

   {

     TimesValidity validity = InvalidTimes;

     if (context.GetTimeSliceInterval()) validity = ValidTimes;


     // Memory for last trajectory point position for auxiliary point

     // time interpolation algorithm.  There are no auxiliary points

     // for the first trajectory point, so its initial value is

     // immaterial.

     G4ThreeVector lastTrajectoryPointPosition;


     // Keep positions.  Don't store unless first or different.

     std::vector<G4ThreeVector> positions;


     for (G4int iPoint=0; iPoint<traj.GetPointEntries(); iPoint++) {


       G4VTrajectoryPoint* aTrajectoryPoint = traj.GetPoint(iPoint);

       const G4ThreeVector& trajectoryPointPosition =

     aTrajectoryPoint->GetPosition();


       // Only store if first or if different

       if (positions.size() == 0 ||

       trajectoryPointPosition != positions[positions.size()-1]) {


     // Pre- and Post-Point times from the trajectory point...

     G4double trajectoryPointPreTime = -std::numeric_limits<double>::max();

     G4double trajectoryPointPostTime = std::numeric_limits<double>::max();


     if (context.GetTimeSliceInterval() && validity == ValidTimes) {


       std::vector<G4AttValue>* trajectoryPointAttValues =

         aTrajectoryPoint->CreateAttValues();

       if (!trajectoryPointAttValues) {

         static G4bool warnedNoAttValues = false;

         if (!warnedNoAttValues) {

           G4cout <<

   "*************************************************************************"

   "\n*  WARNING: G4TrajectoryDrawerUtils::GetPointsAndTimes: no att values."

   "\n*************************************************************************"

              << G4endl;

           warnedNoAttValues = true;

         }

         validity = InvalidTimes;

       } else {

         G4bool foundPreTime = false, foundPostTime = false;

         for (std::vector<G4AttValue>::iterator i =

            trajectoryPointAttValues->begin();

          i != trajectoryPointAttValues->end(); ++i) {

           if (i->GetName() == "PreT") {

         trajectoryPointPreTime =

           G4UIcommand::ConvertToDimensionedDouble(i->GetValue());

         foundPreTime = true;

           }

           if (i->GetName() == "PostT") {

         trajectoryPointPostTime =

           G4UIcommand::ConvertToDimensionedDouble(i->GetValue());

         foundPostTime = true;

           }

         }

         if (!foundPreTime || !foundPostTime) {

           static G4bool warnedTimesNotFound = false;

           if (!warnedTimesNotFound) {

         G4cout <<

   "*************************************************************************"

   "\n*  WARNING: G4TrajectoryDrawerUtils::GetPointsAndTimes: times not found."

   "\n*************************************************************************"

                << G4endl;

         warnedTimesNotFound = true;

           }

           validity = InvalidTimes;

         }

       }

     }


     const std::vector<G4ThreeVector>* auxiliaries

       = aTrajectoryPoint->GetAuxiliaryPoints();

     if (0 != auxiliaries) {

       for (size_t iAux=0; iAux<auxiliaries->size(); ++iAux) {

         const G4ThreeVector& auxPointPosition = (*auxiliaries)[iAux];

         if (positions.size() == 0 ||

         auxPointPosition != positions[positions.size()-1]) {

           // Only store if first or if different

           positions.push_back(trajectoryPointPosition);

           trajectoryLine.push_back(auxPointPosition);

           auxiliaryPoints.push_back(auxPointPosition);

           if (validity == ValidTimes) {

         // Interpolate time for auxiliary points...

         G4double s1 =

           (auxPointPosition - lastTrajectoryPointPosition).mag();

         G4double s2 =

           (trajectoryPointPosition - auxPointPosition).mag();

         G4double t = trajectoryPointPreTime +

           (trajectoryPointPostTime - trajectoryPointPreTime) *

           (s1 / (s1 + s2));

         trajectoryLineTimes.push_back(t);

         auxiliaryPointTimes.push_back(t);

           }

         }

       }

     }


     positions.push_back(trajectoryPointPosition);

     trajectoryLine.push_back(trajectoryPointPosition);

     stepPoints.push_back(trajectoryPointPosition);

     if (validity == ValidTimes) {

       trajectoryLineTimes.push_back(trajectoryPointPostTime);

       stepPointTimes.push_back(trajectoryPointPostTime);

     }

         lastTrajectoryPointPosition = trajectoryPointPosition;

       }

     }

     return validity;

   }


   static void SliceLine(G4double timeIncrement,

             G4Polyline& trajectoryLine,

             std::vector<G4double>& trajectoryLineTimes)

   {

     // Assumes valid arguments from GetPoints and GetTimes.


     G4Polyline newTrajectoryLine;

     std::vector<G4double> newTrajectoryLineTimes;


     newTrajectoryLine.push_back(trajectoryLine[0]);

     newTrajectoryLineTimes.push_back(trajectoryLineTimes[0]);

     size_t lineSize = trajectoryLine.size();

     if (lineSize > 1) {

       for (size_t i = 1; i < trajectoryLine.size(); ++i) {

     G4double deltaT = trajectoryLineTimes[i] - trajectoryLineTimes[i - 1];

     if (deltaT > 0.) {

       G4double practicalTimeIncrement =

         std::max(timeIncrement, deltaT / 100.);

       for (G4double t =

          (int(trajectoryLineTimes[i - 1]/practicalTimeIncrement) + 1) *

          practicalTimeIncrement;

            t <= trajectoryLineTimes[i];

            t += practicalTimeIncrement) {

         G4ThreeVector pos = trajectoryLine[i - 1] +

           (trajectoryLine[i] - trajectoryLine[i - 1]) *

           ((t - trajectoryLineTimes[i - 1]) / deltaT);

         newTrajectoryLine.push_back(pos);

         newTrajectoryLineTimes.push_back(t);

       }

     }

     newTrajectoryLine.push_back(trajectoryLine[i]);

     newTrajectoryLineTimes.push_back(trajectoryLineTimes[i]);

       }

     }


     trajectoryLine = newTrajectoryLine;

     trajectoryLineTimes = newTrajectoryLineTimes;

   }


   static void DrawWithoutTime(const G4VisTrajContext& myContext,

                   G4Polyline& trajectoryLine,

                   G4Polymarker& auxiliaryPoints,

                   G4Polymarker& stepPoints)

   {

     // Draw without time slice information


     G4VVisManager* pVVisManager = G4VVisManager::GetConcreteInstance();

     if (0 == pVVisManager) return;


     if (myContext.GetDrawLine()) {

       G4VisAttributes trajectoryLineAttribs(myContext.GetLineColour());

       trajectoryLineAttribs.SetVisibility(myContext.GetLineVisible());

       trajectoryLine.SetVisAttributes(&trajectoryLineAttribs);


       pVVisManager->Draw(trajectoryLine);

     }


     if (myContext.GetDrawAuxPts() && (auxiliaryPoints.size() > 0)) {

       auxiliaryPoints.SetMarkerType(myContext.GetAuxPtsType());

       auxiliaryPoints.SetSize(myContext.GetAuxPtsSizeType(), myContext.GetAuxPtsSize());

       auxiliaryPoints.SetFillStyle(myContext.GetAuxPtsFillStyle());


       G4VisAttributes auxiliaryPointsAttribs(myContext.GetAuxPtsColour());

       auxiliaryPointsAttribs.SetVisibility(myContext.GetAuxPtsVisible());

       auxiliaryPoints.SetVisAttributes(&auxiliaryPointsAttribs);


       pVVisManager->Draw(auxiliaryPoints);

     }


     if (myContext.GetDrawStepPts() && (stepPoints.size() > 0)) {

       stepPoints.SetMarkerType(myContext.GetStepPtsType());

       stepPoints.SetSize(myContext.GetStepPtsSizeType(), myContext.GetStepPtsSize());

       stepPoints.SetFillStyle(myContext.GetStepPtsFillStyle());


       G4VisAttributes stepPointsAttribs(myContext.GetStepPtsColour());

       stepPointsAttribs.SetVisibility(myContext.GetStepPtsVisible());

       stepPoints.SetVisAttributes(&stepPointsAttribs);


       pVVisManager->Draw(stepPoints);

     }

   }


   static void DrawWithTime(const G4VisTrajContext& myContext,

                G4Polyline& trajectoryLine,

                G4Polymarker& auxiliaryPoints,

                G4Polymarker& stepPoints,

                std::vector<G4double>& trajectoryLineTimes,

                std::vector<G4double>& auxiliaryPointTimes,

                std::vector<G4double>& stepPointTimes)

   {

     // Draw with time slice information


     G4VVisManager* pVVisManager = G4VVisManager::GetConcreteInstance();

     if (0 == pVVisManager) return;


     if (myContext.GetDrawLine()) {

       G4VisAttributes trajectoryLineAttribs(myContext.GetLineColour());

       trajectoryLineAttribs.SetVisibility(myContext.GetLineVisible());


       for (size_t i = 1; i < trajectoryLine.size(); ++i ) {

     G4Polyline slice;

     slice.push_back(trajectoryLine[i -1]);

     slice.push_back(trajectoryLine[i]);

     trajectoryLineAttribs.SetStartTime(trajectoryLineTimes[i - 1]);

     trajectoryLineAttribs.SetEndTime(trajectoryLineTimes[i]);

     slice.SetVisAttributes(&trajectoryLineAttribs);

     pVVisManager->Draw(slice);

       }

     }


     if (myContext.GetDrawAuxPts() && (auxiliaryPoints.size() > 0)) {

       G4VisAttributes auxiliaryPointsAttribs(myContext.GetAuxPtsColour());

       auxiliaryPointsAttribs.SetVisibility(myContext.GetAuxPtsVisible());


       for (size_t i = 0; i < auxiliaryPoints.size(); ++i ) {

     G4Polymarker point;

     point.push_back(auxiliaryPoints[i]);

     point.SetMarkerType(myContext.GetAuxPtsType());

     point.SetSize(myContext.GetAuxPtsSizeType(), myContext.GetAuxPtsSize());

     point.SetFillStyle(myContext.GetAuxPtsFillStyle());

     auxiliaryPointsAttribs.SetStartTime(auxiliaryPointTimes[i]);

     auxiliaryPointsAttribs.SetEndTime(auxiliaryPointTimes[i]);

     point.SetVisAttributes(&auxiliaryPointsAttribs);

     pVVisManager->Draw(point);

       }

     }


     if (myContext.GetDrawStepPts() && (stepPoints.size() > 0)) {

       G4VisAttributes stepPointsAttribs(myContext.GetStepPtsColour());

       stepPointsAttribs.SetVisibility(myContext.GetStepPtsVisible());


       for (size_t i = 0; i < stepPoints.size(); ++i ) {

     G4Polymarker point;

     point.push_back(stepPoints[i]);

     point.SetMarkerType(myContext.GetStepPtsType());

     point.SetSize(myContext.GetStepPtsSizeType(), myContext.GetStepPtsSize());

     point.SetFillStyle(myContext.GetStepPtsFillStyle());

     stepPointsAttribs.SetStartTime(stepPointTimes[i]);

     stepPointsAttribs.SetEndTime(stepPointTimes[i]);

     point.SetVisAttributes(&stepPointsAttribs);

     pVVisManager->Draw(point);

       }

     }

   }


   void DrawLineAndPoints(const G4VTrajectory& traj, const G4VisTrajContext& context)

   {

     // Return if don't need to do anything

     if (!context.GetDrawLine() && !context.GetDrawAuxPts() && !context.GetDrawStepPts()) return;


     // Get points and times (times are returned only if time-slicing

     // is requested).

     G4Polyline trajectoryLine;

     G4Polymarker stepPoints;

     G4Polymarker auxiliaryPoints;

     std::vector<G4double> trajectoryLineTimes;

     std::vector<G4double> stepPointTimes;

     std::vector<G4double> auxiliaryPointTimes;


     TimesValidity validity = GetPointsAndTimes

       (traj, context,

        trajectoryLine, auxiliaryPoints, stepPoints,

        trajectoryLineTimes, auxiliaryPointTimes, stepPointTimes);


     if (validity == ValidTimes) {


       SliceLine(context.GetTimeSliceInterval(),

         trajectoryLine, trajectoryLineTimes);


       DrawWithTime(context,

            trajectoryLine, auxiliaryPoints, stepPoints,

            trajectoryLineTimes, auxiliaryPointTimes, stepPointTimes);


     } else {


       DrawWithoutTime(context, trajectoryLine, auxiliaryPoints, stepPoints);


     }

   }

 }

G4VVisManager::Draw
virtual void Draw(const G4Circle &, const G4Transform3D &objectTransformation=G4Transform3D())=0

CLHEP::Hep3Vector
Definition: ThreeVector.h:41

G4VisTrajContext::GetAuxPtsFillStyle
G4VMarker::FillStyle GetAuxPtsFillStyle() const

G4VTrajectoryPoint.hh

G4VisTrajContext::GetStepPtsSize
G4double GetStepPtsSize() const

G4VisTrajContext::GetStepPtsFillStyle
G4VMarker::FillStyle GetStepPtsFillStyle() const

G4VisTrajContext::GetDrawLine
G4bool GetDrawLine() const

G4VTrajectoryPoint::GetAuxiliaryPoints
virtual const std::vector< G4ThreeVector > * GetAuxiliaryPoints() const
Definition: G4VTrajectoryPoint.hh:66

G4VVisManager::GetConcreteInstance
static G4VVisManager * GetConcreteInstance()
Definition: G4VVisManager.cc:39

G4TrajectoryDrawerUtils::InvalidTimes
Definition: G4TrajectoryDrawerUtils.cc:44

G4VisTrajContext::GetAuxPtsSize
G4double GetAuxPtsSize() const

G4VTrajectory::GetPoint
virtual G4VTrajectoryPoint * GetPoint(G4int i) const =0

G4VisAttributes::SetVisibility
void SetVisibility(G4bool)

G4Polymarker::SetMarkerType
void SetMarkerType(MarkerType)

G4VMarker::SetFillStyle
void SetFillStyle(FillStyle)

G4Polyline.hh

G4AttValue.hh

G4VVisManager
Definition: G4VVisManager.hh:93

G4VisTrajContext::GetAuxPtsColour
G4Colour GetAuxPtsColour() const

G4VisTrajContext::GetAuxPtsType
G4Polymarker::MarkerType GetAuxPtsType() const

G4VisTrajContext::GetTimeSliceInterval
G4double GetTimeSliceInterval() const

G4int
int G4int
Definition: G4Types.hh:78

G4TrajectoryDrawerUtils::TimesValidity
TimesValidity
Definition: G4TrajectoryDrawerUtils.cc:44

G4Polymarker.hh

G4UIcommand::ConvertToDimensionedDouble
static G4double ConvertToDimensionedDouble(const char *st)
Definition: G4UIcommand.cc:437

G4VisTrajContext::GetAuxPtsSizeType
G4VMarker::SizeType GetAuxPtsSizeType() const

G4VTrajectoryPoint::CreateAttValues
virtual std::vector< G4AttValue > * CreateAttValues() const
Definition: G4VTrajectoryPoint.hh:82

G4VTrajectoryPoint
Definition: G4VTrajectoryPoint.hh:51

G4VisTrajContext::GetAuxPtsVisible
G4bool GetAuxPtsVisible() const

G4VVisManager.hh

G4TrajectoryDrawerUtils::ValidTimes
Definition: G4TrajectoryDrawerUtils.cc:44

G4VisAttributes.hh

G4VTrajectory::GetPointEntries
virtual int GetPointEntries() const =0

G4TrajectoryDrawerUtils.hh

G4cout
G4GLOB_DLL std::ostream G4cout

G4UIcommand.hh

G4TrajectoryDrawerUtils::DrawLineAndPoints
void DrawLineAndPoints(const G4VTrajectory &traj, const G4VisTrajContext &)
Definition: G4TrajectoryDrawerUtils.cc:313

G4VisAttributes
Definition: G4VisAttributes.hh:65

G4VTrajectory
Definition: G4VTrajectory.hh:57

G4bool
bool G4bool
Definition: G4Types.hh:79

G4Colour.hh

G4VisTrajContext::GetLineVisible
G4bool GetLineVisible() const

G4VisTrajContext::GetStepPtsSizeType
G4VMarker::SizeType GetStepPtsSizeType() const

G4VMarker::SetSize
void SetSize(SizeType, G4double)
Definition: G4VMarker.cc:119

G4VisTrajContext::GetDrawStepPts
G4bool GetDrawStepPts() const

G4VisTrajContext.hh

context
const XML_Char * context
Definition: include/expat.h:434

G4Visible::SetVisAttributes
void SetVisAttributes(const G4VisAttributes *)
Definition: G4Visible.cc:80

G4VisTrajContext::GetLineColour
G4Colour GetLineColour() const

G4VTrajectoryPoint::GetPosition
virtual const G4ThreeVector GetPosition() const =0

G4VisTrajContext::GetStepPtsColour
G4Colour GetStepPtsColour() const

G4Polyline
Definition: G4Polyline.hh:47

G4INCL::Math::max
T max(const T t1, const T t2)
brief Return the largest of the two arguments
Definition: G4INCLGlobals.hh:116

G4VisTrajContext::GetStepPtsType
G4Polymarker::MarkerType GetStepPtsType() const

G4endl
#define G4endl
Definition: G4ios.hh:61

G4VisTrajContext
Definition: G4VisTrajContext.hh:36

G4VTrajectory.hh

G4VisTrajContext::GetDrawAuxPts
G4bool GetDrawAuxPts() const

G4double
double G4double
Definition: G4Types.hh:76

G4VisTrajContext::GetStepPtsVisible
G4bool GetStepPtsVisible() const

G4Polymarker
Definition: G4Polymarker.hh:43

G4TrajectoryDrawerUtils::GetPointsAndTimes
TimesValidity GetPointsAndTimes(const G4VTrajectory &traj, const G4VisTrajContext &context, G4Polyline &trajectoryLine, G4Polymarker &auxiliaryPoints, G4Polymarker &stepPoints, std::vector< G4double > &trajectoryLineTimes, std::vector< G4double > &auxiliaryPointTimes, std::vector< G4double > &stepPointTimes)
Definition: G4TrajectoryDrawerUtils.cc:47