/usr/include/vtk-5.8/Cosmo/ParticleDistribute.h is in libvtk5-dev 5.8.0-5.
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Copyright (c) 2007, Los Alamos National Security, LLC
All rights reserved.
Copyright 2007. Los Alamos National Security, LLC.
This software was produced under U.S. Government contract DE-AC52-06NA25396
for Los Alamos National Laboratory (LANL), which is operated by
Los Alamos National Security, LLC for the U.S. Department of Energy.
The U.S. Government has rights to use, reproduce, and distribute this software.
NEITHER THE GOVERNMENT NOR LOS ALAMOS NATIONAL SECURITY, LLC MAKES ANY WARRANTY,
EXPRESS OR IMPLIED, OR ASSUMES ANY LIABILITY FOR THE USE OF THIS SOFTWARE.
If software is modified to produce derivative works, such modified software
should be clearly marked, so as not to confuse it with the version available
from LANL.
Additionally, redistribution and use in source and binary forms, with or
without modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
- Neither the name of Los Alamos National Security, LLC, Los Alamos National
Laboratory, LANL, the U.S. Government, nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY LOS ALAMOS NATIONAL SECURITY, LLC AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL LOS ALAMOS NATIONAL SECURITY, LLC OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
=========================================================================*/
// .NAME ParticleDistribute - distribute particles to processors
//
// .SECTION Description
// ParticleDistribute takes a series of data files containing RECORD style
// .cosmo data or Gadget style BLOCK data
// along with parameters defining the box size for the data and for
// determining halos within the particle data. It distributes the data
// across processors including a healthy dead zone of particles belonging
// to neighbor processors. By definition all halos can be determined
// completely for any processor because of this dead zone. The serial
// halo finder is called on each processor.
//
#ifndef ParticleDistribute_h
#define ParticleDistribute_h
#ifdef USE_VTK_COSMO
#include "CosmoDefinition.h"
#include "vtkstd/string"
#include "vtkstd/vector"
using namespace vtkstd;
#else
#include "Definition.h"
#include <string>
#include <vector>
using namespace std;
#endif
#include "Message.h"
#include <cstdlib>
#ifdef USE_VTK_COSMO
class COSMO_EXPORT ParticleDistribute {
#else
class ParticleDistribute {
#endif
public:
ParticleDistribute();
~ParticleDistribute();
// Set parameters particle distribution
void setParameters(
const string& inName, // Base file name to read from
POSVEL_T rL, // Box size of the physical problem
string dataType); // BLOCK or RECORD structured input data
// Set parameters unit conversion of mass and distance
void setConvertParameters(
POSVEL_T massConvertFactor, // Multiply every mass by this
POSVEL_T distConvertFactor); // Multiply every position by this
// Set neighbor processor numbers and calculate dead regions
void initialize();
// Read particle files per processor and share round robin with others
// extracting only the alive particles
void readParticlesRoundRobin(int reserveQ=0);
void partitionInputFiles();
// Read one particle file per processor with alive particles
// and correct topology
void readParticlesOneToOne(int reserveQ=0);
// Get particle counts for allocating buffers
void findFileParticleCount();
// Round robin version must buffer for MPI sends to other processors
void readFromRecordFile(
ifstream* inStream, // Stream to read from
int firstParticle, // First particle index to read in this chunk
int numberOfParticles, // Number of particles to read in this chunk
POSVEL_T* fblock, // Buffer for read in data
ID_T* iblock, // Buffer for read in data
Message* message); // Message buffer for distribution
void readFromBlockFile(
ifstream* inStream, // Stream to read from
int firstParticle, // First particle index to read in this chunk
int numberOfParticles, // Number of particles to read in this chunk
int totParticles, // Total particles (used to get offset)
POSVEL_T* lblock, // Buffer for read in location data
POSVEL_T* vblock, // Buffer for read in velocity data
ID_T* iblock, // Buffer for read in data
Message* message); // Message buffer for distribution
// One to one version of read is simpler with no MPI buffering
void readFromRecordFile();
void readFromBlockFile();
// Reads for Gadget header and for possible byte swapping
void readGadgetHeader(ifstream* str);
string readString(ifstream* str, int size);
void readData(
bool swap,
void* data,
unsigned long size,
unsigned long count,
ifstream* inStr);
// Collect local alive particles from the input buffers
void distributeParticles(
Message* message1, // Double buffering for reads
Message* message2); // Double buffering for reads
void collectLocalParticles(
Message* message1, // Read buffer to extract local particles
Message* message2); // Remaining particles put here for next send
// Return data needed by other software
int getParticleCount() { return this->particleCount; }
void setParticles(vector<POSVEL_T>* xx,
vector<POSVEL_T>* yy,
vector<POSVEL_T>* zz,
vector<POSVEL_T>* vx,
vector<POSVEL_T>* vy,
vector<POSVEL_T>* vz,
vector<POSVEL_T>* mass,
vector<ID_T>* tag);
vector<POSVEL_T>* getXLocation() { return this->xx; }
vector<POSVEL_T>* getYLocation() { return this->yy; }
vector<POSVEL_T>* getZLocation() { return this->zz; }
vector<POSVEL_T>* getXVelocity() { return this->vx; }
vector<POSVEL_T>* getYVelocity() { return this->vy; }
vector<POSVEL_T>* getZVelocity() { return this->vz; }
vector<POSVEL_T>* getMass() { return this->ms; }
vector<ID_T>* getTag() { return this->tag; }
private:
int myProc; // My processor number
int numProc; // Total number of processors
string baseFile; // Base name of input particle files
int inputType; // BLOCK or RECORD structure
int maxFiles; // Maximum number of files per processor
vector<string> inFiles; // Files read by this processor
vector<long> fileParticles; // Number of particles in files on processor
struct GadgetHeader gadgetHeader;// Gadget file header
int gadgetFormat; // GADGET-1 or GADGET-2
bool gadgetSwap; // Endian swap needed
long int gadgetParticleCount; // Total particles in the file
long maxParticles; // Largest number of particles in any file
long maxRead; // Largest number of particles read at one time
int maxReadsPerFile; // Max number of reads per file
long totalParticles; // Number of particles on all files
int headerSize; // For BLOCK files
int nextProc; // Where to send buffers to be shared
int prevProc; // Where to receive buffers from be shared
int numberOfFiles; // Number of input files total
int processorsPerFile; // Multiple processors read same file
int numberOfFileSends; // Number of round robin sends to share buffers
int maxFileSends; // Max of round robin sends to share buffers
int layoutSize[DIMENSION]; // Decomposition of processors
int layoutPos[DIMENSION]; // Position of this processor in decomposition
long np; // Number of particles in the problem
POSVEL_T boxSize; // Physical box size (rL)
POSVEL_T massConvertFactor; // Multiply every mass read by this
POSVEL_T distConvertFactor; // Multiply every position read by this
long numberOfAliveParticles;
long particleCount; // Running index used to store data
// Ends up as the number of alive plus dead
POSVEL_T minAlive[DIMENSION]; // Minimum alive particle location on processor
POSVEL_T maxAlive[DIMENSION]; // Maximum alive particle location on processor
int neighbor[NUM_OF_NEIGHBORS]; // Neighbor processor ids
vector<POSVEL_T>* xx; // X location for particles on this processor
vector<POSVEL_T>* yy; // Y location for particles on this processor
vector<POSVEL_T>* zz; // Z location for particles on this processor
vector<POSVEL_T>* vx; // X velocity for particles on this processor
vector<POSVEL_T>* vy; // Y velocity for particles on this processor
vector<POSVEL_T>* vz; // Z velocity for particles on this processor
vector<POSVEL_T>* ms; // Mass for particles on this processor
vector<ID_T>* tag; // Id tag for particles on this processor
};
#endif
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