/// <summary>
        /// Implements Get next photon
        /// </summary>
        /// <param name="tissue">tissue</param>
        /// <returns>photon</returns>
        public Photon GetNextPhoton(ITissue tissue)
        {
            //Source starts from anywhere in the ellipsoid
            Position finalPosition = GetFinalPositionFromProfileType(_sourceProfile, _aParameter, _bParameter, _cParameter, Rng);

            // sample angular distribution
            Direction finalDirection = GetFinalDirection();

            //Find the relevent polar and azimuthal pair for the direction
            PolarAzimuthalAngles _rotationalAnglesOfPrincipalSourceAxis = SourceToolbox.GetPolarAzimuthalPairFromDirection(_newDirectionOfPrincipalSourceAxis);

            //Rotation and translation
            SourceToolbox.UpdateDirectionPositionAfterGivenFlags(
                ref finalPosition,
                ref finalDirection,
                _rotationalAnglesOfPrincipalSourceAxis,
                _translationFromOrigin,
                _rotationAndTranslationFlags);

            var photon = new Photon(finalPosition, finalDirection, tissue, _initialTissueRegionIndex, Rng);

            return(photon);
        }
Esempio n. 2
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        /// <summary>
        /// Implements Get next photon
        /// </summary>
        /// <param name="tissue">tissue</param>
        /// <returns>photon</returns>
        public Photon GetNextPhoton(ITissue tissue)
        {
            //Source starts from anywhere in the line
            Position finalPosition = GetFinalPosition(_beamDiameterFWHM, _lineLength, Rng);

            // sample angular distribution
            Direction finalDirection = GetFinalDirection(finalPosition);

            //Find the relevent polar and azimuthal pair for the direction
            PolarAzimuthalAngles _rotationalAnglesOfPrincipalSourceAxis = SourceToolbox.GetPolarAzimuthalPairFromDirection(_newDirectionOfPrincipalSourceAxis);

            //Rotation and translation
            SourceToolbox.UpdateDirectionPositionAfterGivenFlags(
                ref finalPosition,
                ref finalDirection,
                _rotationalAnglesOfPrincipalSourceAxis,
                _translationFromOrigin,
                _beamRotationFromInwardNormal,
                _rotationAndTranslationFlags);

            var photon = new Photon(finalPosition, finalDirection, tissue, _initialTissueRegionIndex, Rng);

            return(photon);
        }
        /// <summary>
        /// Implements Get next photon
        /// </summary>
        /// <param name="tissue">tissue</param>
        /// <returns>photon</returns>
        public Photon GetNextPhoton(ITissue tissue)
        {
            //Sample emitting side
            String cSide = SelectEmittingSurface(
                _cubeLengthX,
                _cubeWidthY,
                _cubeHeightZ,
                Rng);

            //sample angular distribution
            Direction finalDirection = SourceToolbox.GetDirectionForGivenPolarAzimuthalAngleRangeRandom(
                _polarAngleEmissionRange,
                SourceDefaults.DefaultAzimuthalAngleRange.Clone(),
                Rng);

            Position tempPosition  = null;
            Position finalPosition = null;

            switch (cSide)
            {
            case "xpos":
                tempPosition    = GetFinalPosition(_beamDiameterFWHM, _cubeHeightZ, _cubeWidthY, Rng);
                finalPosition.X = 0.5 * _cubeLengthX;
                finalPosition.Y = tempPosition.Y;
                finalPosition.Z = tempPosition.X;
                finalDirection  = SourceToolbox.UpdateDirectionAfterRotatingAroundXAxis(0.5 * Math.PI, finalDirection);
                break;

            case "xneg":
                tempPosition    = GetFinalPosition(_beamDiameterFWHM, _cubeHeightZ, _cubeWidthY, Rng);
                finalPosition.X = -0.5 * _cubeLengthX;
                finalPosition.Y = tempPosition.Y;
                finalPosition.Z = tempPosition.X;
                finalDirection  = SourceToolbox.UpdateDirectionAfterRotatingAroundXAxis(-0.5 * Math.PI, finalDirection);
                break;

            case "ypos":
                tempPosition    = GetFinalPosition(_beamDiameterFWHM, _cubeLengthX, _cubeHeightZ, Rng);
                finalPosition.X = tempPosition.X;
                finalPosition.Y = 0.5 * _cubeWidthY;
                finalPosition.Z = tempPosition.Y;
                finalDirection  = SourceToolbox.UpdateDirectionAfterRotatingAroundYAxis(0.5 * Math.PI, finalDirection);
                break;

            case "yneg":
                tempPosition    = GetFinalPosition(_beamDiameterFWHM, _cubeLengthX, _cubeHeightZ, Rng);
                finalPosition.X = tempPosition.X;
                finalPosition.Y = -0.5 * _cubeWidthY;
                finalPosition.Z = tempPosition.Y;
                finalDirection  = SourceToolbox.UpdateDirectionAfterRotatingAroundYAxis(-0.5 * Math.PI, finalDirection);
                break;

            case "zpos":
                tempPosition    = GetFinalPosition(_beamDiameterFWHM, _cubeLengthX, _cubeWidthY, Rng);
                finalPosition.X = tempPosition.X;
                finalPosition.Y = tempPosition.Y;
                finalPosition.Z = 0.5 * _cubeHeightZ;
                break;

            case "zneg":
                tempPosition    = GetFinalPosition(_beamDiameterFWHM, _cubeLengthX, _cubeWidthY, Rng);
                finalPosition.X = tempPosition.X;
                finalPosition.Y = tempPosition.Y;
                finalPosition.Z = -0.5 * _cubeHeightZ;
                //reverse signs
                finalDirection.Uz = -finalDirection.Uz;
                break;
            }

            //Find the relevent polar and azimuthal pair for the direction
            PolarAzimuthalAngles _rotationalAnglesOfPrincipalSourceAxis = SourceToolbox.GetPolarAzimuthalPairFromDirection(_newDirectionOfPrincipalSourceAxis);

            //Translation and source rotation
            SourceToolbox.UpdateDirectionPositionAfterGivenFlags(
                ref finalPosition,
                ref finalDirection,
                _rotationalAnglesOfPrincipalSourceAxis,
                _translationFromOrigin,
                _rotationAndTranslationFlags);

            var photon = new Photon(finalPosition, finalDirection, tissue, _initialTissueRegionIndex, Rng);

            return(photon);
        }
        /// <summary>
        /// Implements Get next photon
        /// </summary>
        /// <param name="tissue">tissue</param>
        /// <returns>photon</returns>
        public Photon GetNextPhoton(ITissue tissue)
        {
            double curved = 2 * Math.PI * _fiberRadius * _fiberHeightZ * _curvedSurfaceEfficiency;
            double bottom = Math.PI * _fiberRadius * _fiberRadius * _bottomSurfaceEfficiency;

            Direction finalDirection;
            Position  finalPosition;

            if (_fiberRadius > 0.0)
            {
                if (Rng.NextDouble() > bottom / (curved + bottom))
                {
                    //sample angular distribution
                    finalDirection = SourceToolbox.GetDirectionForGivenPolarAzimuthalAngleRangeRandom(
                        SourceDefaults.DefaultHalfPolarAngleRange.Clone(),
                        SourceDefaults.DefaultAzimuthalAngleRange.Clone(),
                        Rng);

                    //Translate the photon to _tubeRadius length below the origin. Ring lies on yz plane.
                    finalPosition = new Position(0.0, 0.0, _fiberRadius);

                    //Sample a ring that emits photons outside.
                    SourceToolbox.UpdateDirectionPositionAfterRotatingAroundXAxis(
                        2.0 * Math.PI * Rng.NextDouble(),
                        ref finalDirection,
                        ref finalPosition);

                    //Ring lies on xy plane. z= 0;
                    SourceToolbox.UpdateDirectionPositionAfterRotatingAroundYAxis(
                        0.5 * Math.PI,
                        ref finalDirection,
                        ref finalPosition);

                    //Sample tube height
                    finalPosition.Z = _fiberHeightZ * (2.0 * Rng.NextDouble() - 1.0);
                }
                else
                {
                    finalPosition = SourceToolbox.GetPositionInACircleRandomFlat(
                        SourceDefaults.DefaultPosition.Clone(),
                        0.0,
                        _fiberRadius,
                        Rng);

                    finalDirection = SourceToolbox.GetDirectionForGivenPolarAzimuthalAngleRangeRandom(
                        SourceDefaults.DefaultHalfPolarAngleRange.Clone(),
                        SourceDefaults.DefaultAzimuthalAngleRange.Clone(),
                        Rng);
                }
            }
            else
            {
                finalPosition = SourceToolbox.GetPositionInALineRandomFlat(
                    SourceDefaults.DefaultPosition.Clone(),
                    _fiberHeightZ,
                    Rng);

                finalDirection = SourceToolbox.GetDirectionForGivenPolarAzimuthalAngleRangeRandom(
                    SourceDefaults.DefaultFullPolarAngleRange.Clone(),
                    SourceDefaults.DefaultAzimuthalAngleRange.Clone(),
                    Rng);

                //Rotate 90degrees around y axis
                SourceToolbox.UpdateDirectionPositionAfterRotatingAroundYAxis(
                    0.5 * Math.PI,
                    ref finalDirection,
                    ref finalPosition);
            }


            //Find the relevent polar and azimuthal pair for the direction
            PolarAzimuthalAngles _rotationalAnglesOfPrincipalSourceAxis = SourceToolbox.GetPolarAzimuthalPairFromDirection(_newDirectionOfPrincipalSourceAxis);

            //Translation and source rotation
            SourceToolbox.UpdateDirectionPositionAfterGivenFlags(
                ref finalPosition,
                ref finalDirection,
                _rotationalAnglesOfPrincipalSourceAxis,
                _translationFromOrigin,
                _rotationAndTranslationFlags);

            var photon = new Photon(finalPosition, finalDirection, tissue, _initialTissueRegionIndex, Rng);

            return(photon);
        }