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G4SmartVoxelHeader.hh
Go to the documentation of this file.
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//
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// ********************************************************************
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// * License and Disclaimer *
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// * *
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// * The Geant4 software is copyright of the Copyright Holders of *
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// * the Geant4 Collaboration. It is provided under the terms and *
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// * conditions of the Geant4 Software License, included in the file *
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// * LICENSE and available at http://cern.ch/geant4/license . These *
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// * include a list of copyright holders. *
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// * *
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// * Neither the authors of this software system, nor their employing *
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// * institutes,nor the agencies providing financial support for this *
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// * work make any representation or warranty, express or implied, *
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// * regarding this software system or assume any liability for its *
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// * use. Please see the license in the file LICENSE and URL above *
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// * for the full disclaimer and the limitation of liability. *
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// * *
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// * This code implementation is the result of the scientific and *
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// * technical work of the GEANT4 collaboration. *
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// * By using, copying, modifying or distributing the software (or *
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// * any work based on the software) you agree to acknowledge its *
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// * use in resulting scientific publications, and indicate your *
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// * acceptance of all terms of the Geant4 Software license. *
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// ********************************************************************
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//
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//
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// $Id: G4SmartVoxelHeader.hh 66356 2012-12-18 09:02:32Z gcosmo $
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//
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// class G4SmartVoxelHeader
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//
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// Class description:
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//
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// Represents a set of voxels, created by a single axis of virtual division.
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// Contains the individual voxels, which are potentially further divided
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// along different axes.
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//
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// Member data:
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//
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// EAxis faxis
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// - The (cartesian) slicing/division axis
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// G4double fmaxExtent
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// G4double fminExtent
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// - Minimum and maximum coordiantes along the axis
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// std::vector<G4SmartVoxelProxy*> fslices
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// - The slices along the axis
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//
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// G4int fminEquivalent
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// G4int fmaxEquivalent
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// - Minimum and maximum equivalent slice nos.
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// [Applies to the level of the header, not its nodes]
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// History:
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// 18.04.01 G.Cosmo Migrated to STL vector
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// 13.07.95 P.Kent Initial version
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// --------------------------------------------------------------------
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#ifndef G4SMARTVOXELHEADER_HH
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#define G4SMARTVOXELHEADER_HH
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#include "
G4Types.hh
"
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#include "
geomdefs.hh
"
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#include "
G4SmartVoxelProxy.hh
"
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#include "
G4SmartVoxelNode.hh
"
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#include <vector>
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// Forward declarations
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class
G4LogicalVolume
;
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class
G4VoxelLimits
;
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class
G4VPhysicalVolume
;
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// Typedefs
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typedef
std::vector<G4SmartVoxelProxy*>
G4ProxyVector
;
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typedef
std::vector<G4SmartVoxelNode*>
G4NodeVector
;
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typedef
std::vector<G4int>
G4VolumeNosVector
;
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typedef
std::vector<G4double>
G4VolumeExtentVector
;
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class
G4SmartVoxelHeader
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{
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public
:
// with description
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G4SmartVoxelHeader
(
G4LogicalVolume
* pVolume,
G4int
pSlice=0);
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// Constructor for topmost header, to begin voxel construction at a
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// given logical volume. pSlice is used to set max and min equivalent
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// slice nos for the header - they apply to the level of the header,
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// not its nodes.
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~G4SmartVoxelHeader
();
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// Delete all referenced nodes [but *not* referenced physical volumes].
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G4int
GetMaxEquivalentSliceNo
()
const
;
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void
SetMaxEquivalentSliceNo
(
G4int
pMax);
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G4int
GetMinEquivalentSliceNo
()
const
;
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void
SetMinEquivalentSliceNo
(
G4int
pMin);
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// Access functions for min/max equivalent slices (nodes & headers).
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EAxis
GetAxis
()
const
;
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// Return the current division axis.
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EAxis
GetParamAxis
()
const
;
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// Return suggested division axis for parameterised volume.
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G4double
GetMaxExtent
()
const
;
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// Return the maximum coordinate limit along the current axis.
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G4double
GetMinExtent
()
const
;
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// Return the minimum coordinate limit along the current axis.
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G4int
GetNoSlices
()
const
;
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// Return the no of slices along the current axis.
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G4SmartVoxelProxy
*
GetSlice
(
G4int
n
)
const
;
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// Return ptr to the proxy for the nth slice (numbering from 0,
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// no bounds checking performed).
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G4bool
AllSlicesEqual
()
const
;
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// True if all slices equal (after collection).
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public
:
// without description
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G4bool
operator ==
(
const
G4SmartVoxelHeader
& pHead)
const
;
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friend
std::ostream&
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operator <<
(std::ostream&
s
,
const
G4SmartVoxelHeader
& h);
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protected
:
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G4SmartVoxelHeader
(
G4LogicalVolume
* pVolume,
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const
G4VoxelLimits
& pLimits,
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const
G4VolumeNosVector
* pCandidates,
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G4int
pSlice=0);
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// Build and refine voxels between specified limits, considering only
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// the physical volumes numbered `pCandidates'. pSlice is used to set max
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// and min equivalent slice nos for the header - they apply to the level
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// of the header, not its nodes.
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// `Worker' / operation functions:
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void
BuildVoxels
(
G4LogicalVolume
* pVolume);
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// Build and refine voxels for daughters of specified volume which
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// DOES NOT contain a REPLICATED daughter.
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void
BuildReplicaVoxels
(
G4LogicalVolume
* pVolume);
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// Build voxels for specified volume containing a single
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// replicated volume.
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void
BuildConsumedNodes
(
G4int
nReplicas);
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// Construct nodes in simple consuming case.
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void
BuildVoxelsWithinLimits
(
G4LogicalVolume
* pVolume,
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G4VoxelLimits
pLimits,
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const
G4VolumeNosVector
* pCandidates);
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// Build and refine voxels between specified limits, considering only
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// the physical volumes `pCandidates'. Main entry point for "construction".
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// Hardwired to stop at third level of refinement, using the xyz cartesian
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// axes in any order.
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void
BuildEquivalentSliceNos
();
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// Calculate and Store the minimum and maximum equivalent neighbour
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// values for all slices.
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void
CollectEquivalentNodes
();
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// Collect common nodes, deleting all but one to save memory,
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// and adjusting stored slice ptrs appropriately.
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void
CollectEquivalentHeaders
();
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// Collect common headers, deleting all but one to save memory,
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// and adjusting stored slice ptrs appropriately.
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G4ProxyVector
*
BuildNodes
(
G4LogicalVolume
* pVolume,
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G4VoxelLimits
pLimits,
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const
G4VolumeNosVector
* pCandidates,
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EAxis
pAxis);
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// Build the nodes corresponding to the specified axis, within
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// the specified limits, considering the daughters numbered pCandidates
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// of the logical volume.
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G4double
CalculateQuality
(
G4ProxyVector
*pSlice);
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// Calculate a "quality value" for the specified vector of voxels
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// The value returned should be >0 and such that the smaller the
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// number the higher the quality of the slice.
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// pSlice must consist of smartvoxelnodeproxies only.
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void
RefineNodes
(
G4LogicalVolume
* pVolume,
G4VoxelLimits
pLimits);
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// Examined each contained node, refine (create a replacement additional
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// dimension of voxels) when there is more than one voxel in the slice.
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G4int
fminEquivalent
;
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G4int
fmaxEquivalent
;
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// Min and max equivalent slice nos for previous level.
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EAxis
faxis
,
fparamAxis
;
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// Axis for slices.
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G4double
fmaxExtent
;
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G4double
fminExtent
;
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// Max and min coordinate along faxis.
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G4ProxyVector
fslices
;
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// Slices along axis.
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};
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#include "G4SmartVoxelHeader.icc"
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#endif
G4SmartVoxelHeader::fmaxExtent
G4double fmaxExtent
Definition:
G4SmartVoxelHeader.hh:194
G4SmartVoxelHeader::GetMaxEquivalentSliceNo
G4int GetMaxEquivalentSliceNo() const
G4SmartVoxelHeader::operator<<
friend std::ostream & operator<<(std::ostream &s, const G4SmartVoxelHeader &h)
Definition:
G4SmartVoxelHeader.cc:1304
G4Types.hh
G4SmartVoxelHeader::BuildVoxelsWithinLimits
void BuildVoxelsWithinLimits(G4LogicalVolume *pVolume, G4VoxelLimits pLimits, const G4VolumeNosVector *pCandidates)
Definition:
G4SmartVoxelHeader.cc:443
G4SmartVoxelHeader::CollectEquivalentNodes
void CollectEquivalentNodes()
Definition:
G4SmartVoxelHeader.cc:630
G4VolumeNosVector
std::vector< G4int > G4VolumeNosVector
Definition:
G4SmartVoxelHeader.hh:75
G4SmartVoxelHeader::CalculateQuality
G4double CalculateQuality(G4ProxyVector *pSlice)
Definition:
G4SmartVoxelHeader.cc:1073
G4SmartVoxelHeader::GetParamAxis
EAxis GetParamAxis() const
G4VPhysicalVolume
Definition:
G4VPhysicalVolume.hh:80
s
const XML_Char * s
Definition:
expat.h:262
G4SmartVoxelHeader::BuildConsumedNodes
void BuildConsumedNodes(G4int nReplicas)
Definition:
G4SmartVoxelHeader.cc:395
geomdefs.hh
G4SmartVoxelHeader::fmaxEquivalent
G4int fmaxEquivalent
Definition:
G4SmartVoxelHeader.hh:188
G4int
int G4int
Definition:
G4Types.hh:78
G4SmartVoxelNode.hh
n
Char_t n[5]
Definition:
comparison_ascii.C:55
G4SmartVoxelHeader::GetAxis
EAxis GetAxis() const
G4SmartVoxelHeader::GetMinExtent
G4double GetMinExtent() const
G4SmartVoxelHeader
Definition:
G4SmartVoxelHeader.hh:78
G4SmartVoxelHeader::CollectEquivalentHeaders
void CollectEquivalentHeaders()
Definition:
G4SmartVoxelHeader.cc:677
G4SmartVoxelHeader::faxis
EAxis faxis
Definition:
G4SmartVoxelHeader.hh:191
G4bool
bool G4bool
Definition:
G4Types.hh:79
G4SmartVoxelHeader::AllSlicesEqual
G4bool AllSlicesEqual() const
Definition:
G4SmartVoxelHeader.cc:1281
G4LogicalVolume
Definition:
G4LogicalVolume.hh:187
G4VolumeExtentVector
std::vector< G4double > G4VolumeExtentVector
Definition:
G4SmartVoxelHeader.hh:76
G4SmartVoxelHeader::GetNoSlices
G4int GetNoSlices() const
G4SmartVoxelHeader::GetMaxExtent
G4double GetMaxExtent() const
G4VoxelLimits
Definition:
G4VoxelLimits.hh:62
G4SmartVoxelHeader::fslices
G4ProxyVector fslices
Definition:
G4SmartVoxelHeader.hh:198
G4ProxyVector
std::vector< G4SmartVoxelProxy * > G4ProxyVector
Definition:
G4SmartVoxelHeader.hh:70
G4SmartVoxelHeader::BuildEquivalentSliceNos
void BuildEquivalentSliceNos()
Definition:
G4SmartVoxelHeader.cc:583
G4SmartVoxelProxy.hh
EAxis
EAxis
Definition:
geomdefs.hh:54
G4SmartVoxelHeader::G4SmartVoxelHeader
G4SmartVoxelHeader(G4LogicalVolume *pVolume, G4int pSlice=0)
Definition:
G4SmartVoxelHeader.cc:66
G4SmartVoxelHeader::fminEquivalent
G4int fminEquivalent
Definition:
G4SmartVoxelHeader.hh:187
G4SmartVoxelHeader::BuildNodes
G4ProxyVector * BuildNodes(G4LogicalVolume *pVolume, G4VoxelLimits pLimits, const G4VolumeNosVector *pCandidates, EAxis pAxis)
Definition:
G4SmartVoxelHeader.cc:750
G4SmartVoxelHeader::fparamAxis
EAxis fparamAxis
Definition:
G4SmartVoxelHeader.hh:191
G4SmartVoxelHeader::operator==
G4bool operator==(const G4SmartVoxelHeader &pHead) const
Definition:
G4SmartVoxelHeader.cc:183
G4SmartVoxelHeader::BuildReplicaVoxels
void BuildReplicaVoxels(G4LogicalVolume *pVolume)
Definition:
G4SmartVoxelHeader.cc:267
G4NodeVector
std::vector< G4SmartVoxelNode * > G4NodeVector
Definition:
G4SmartVoxelHeader.hh:74
G4SmartVoxelHeader::RefineNodes
void RefineNodes(G4LogicalVolume *pVolume, G4VoxelLimits pLimits)
Definition:
G4SmartVoxelHeader.cc:1139
G4SmartVoxelHeader::SetMinEquivalentSliceNo
void SetMinEquivalentSliceNo(G4int pMin)
G4SmartVoxelHeader::GetSlice
G4SmartVoxelProxy * GetSlice(G4int n) const
G4double
double G4double
Definition:
G4Types.hh:76
G4SmartVoxelHeader::fminExtent
G4double fminExtent
Definition:
G4SmartVoxelHeader.hh:195
G4SmartVoxelHeader::GetMinEquivalentSliceNo
G4int GetMinEquivalentSliceNo() const
G4SmartVoxelHeader::~G4SmartVoxelHeader
~G4SmartVoxelHeader()
Definition:
G4SmartVoxelHeader.cc:127
G4SmartVoxelProxy
Definition:
G4SmartVoxelProxy.hh:54
G4SmartVoxelHeader::SetMaxEquivalentSliceNo
void SetMaxEquivalentSliceNo(G4int pMax)
G4SmartVoxelHeader::BuildVoxels
void BuildVoxels(G4LogicalVolume *pVolume)
Definition:
G4SmartVoxelHeader.cc:247
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