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#include <cstdlib> |
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#include <cstring> |
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#include <cmath> |
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#include <mpi.h> |
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#include <mpi++.h> |
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#include "fortranWrappers.hpp" |
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#include "randomSPRNG.hpp" |
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#define BASE_SEED 123456789 |
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mpiSimulation* mpiSim; |
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mpiSimulation::~mpiSimulation(){ |
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delete[] MolToProcMap; |
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delete[] MolComponentType; |
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delete[] AtomToProcMap; |
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delete mpiPlug; |
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// perhaps we should let fortran know the party is over. |
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int nComponents; |
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MoleculeStamp** compStamps; |
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randomSPRNG myRandom; |
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randomSPRNG *myRandom; |
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int* componentsNmol; |
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int* AtomsPerProc; |
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int molIndex, atomIndex, compIndex, compStart; |
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int done; |
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int nLocal, molLocal; |
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int i, index; |
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int i, j, loops, which_proc, nmol_local, natoms_local; |
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int nmol_global, natoms_global; |
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int local_index, index; |
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int smallDiff, bigDiff; |
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int baseSeed = BASE_SEED; |
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int testSum; |
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mpiPlug->nSRIGlobal = entryPlug->n_SRI; |
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mpiPlug->nMolGlobal = entryPlug->n_mol; |
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myRandom = new randomSPRNG(); |
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myRandom = new randomSPRNG( baseSeed ); |
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a = (double)mpiPlug->nMolGlobal / (double)mpiPlug->nAtomsGlobal; |
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// Pick a processor at random |
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which_proc = (int) (myRandom.getRandom() * mpiPlug->numberProcessors); |
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which_proc = (int) (myRandom->getRandom() * mpiPlug->numberProcessors); |
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// How many atoms does this processor have? |
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if (old_atoms >= nTarget) continue; |
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add_atoms = compStamps[MolComponentType[i]]->getNatoms(); |
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add_atoms = compStamps[MolComponentType[i]]->getNAtoms(); |
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new_atoms = old_atoms + add_atoms; |
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// If we can add this molecule to this processor without sending |
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// where a = 1 / (average atoms per molecule) |
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x = (double) (new_atoms - nTarget); |
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y = myRandom.getRandom(); |
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y = myRandom->getRandom(); |
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if (exp(- a * x) > y) { |
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MolToProcMap[i] = which_proc; |
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// Spray out this nonsense to all other processors: |
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MPI::COMM_WORLD.Bcast(&MolToProcMap, mpiPlug->nMolGlobal, |
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MPI::COMM_WORLD.Bcast(MolToProcMap, mpiPlug->nMolGlobal, |
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MPI_INT, 0); |
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MPI::COMM_WORLD.Bcast(&AtomToProcMap, mpiPlug->nAtomsGlobal, |
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MPI::COMM_WORLD.Bcast(AtomToProcMap, mpiPlug->nAtomsGlobal, |
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MPI_INT, 0); |
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MPI::COMM_WORLD.Bcast(&MolComponentType, mpiPlug->nMolGlobal, |
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MPI::COMM_WORLD.Bcast(MolComponentType, mpiPlug->nMolGlobal, |
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MPI_INT, 0); |
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MPI::COMM_WORLD.Bcast(&AtomsPerProc, mpiPlug->numberProcessors, |
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MPI::COMM_WORLD.Bcast(AtomsPerProc, mpiPlug->numberProcessors, |
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MPI_INT, 0); |
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} else { |
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// Listen to your marching orders from processor 0: |
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MPI::COMM_WORLD.Bcast(&MolToProcMap, mpiPlug->nMolGlobal, |
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MPI::COMM_WORLD.Bcast(MolToProcMap, mpiPlug->nMolGlobal, |
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MPI_INT, 0); |
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MPI::COMM_WORLD.Bcast(&AtomToProcMap, mpiPlug->nAtomsGlobal, |
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MPI::COMM_WORLD.Bcast(AtomToProcMap, mpiPlug->nAtomsGlobal, |
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MPI_INT, 0); |
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MPI::COMM_WORLD.Bcast(&MolComponentType, mpiPlug->nMolGlobal, |
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MPI::COMM_WORLD.Bcast(MolComponentType, mpiPlug->nMolGlobal, |
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MPI_INT, 0); |
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MPI::COMM_WORLD.Bcast(&AtomsPerProc, mpiPlug->numberProcessors, |
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MPI::COMM_WORLD.Bcast(AtomsPerProc, mpiPlug->numberProcessors, |
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MPI_INT, 0); |
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} |
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globalIndex[local_index] = i; |
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} |
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} |
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index = mpiPlug->myAtomStart; |
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// for( i=0; i<mpiPlug->myNlocal; i++){ |
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// globalIndex[i] = index; |
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// index++; |
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// } |
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// return globalIndex; |
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return globalIndex; |
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} |
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