[ViewVC] Diff of: OpenMD/branches/development/src/io/DumpWriter.cpp

Comparing trunk/src/io/DumpWriter.cpp (file contents):
Revision 963 by tim, Wed May 17 21:51:42 2006 UTC vs.
Revision 1437 by gezelter, Wed Apr 21 14:59:18 2010 UTC

+/*
-<
+ * Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
->
+ * Copyright (c) 2009 The University of Notre Dame. All Rights Reserved.
+ * The University of Notre Dame grants you ("Licensee") a
+ * non-exclusive, royalty free, license to use, modify and
+ * redistribute this software in source and binary code form, provided
+ * that the following conditions are met:
-<
+ * 1. Acknowledgement of the program authors must be made in any
-<
+ *    publication of scientific results based in part on use of the
-<
+ *    program.  An acceptable form of acknowledgement is citation of
-<
+ *    the article in which the program was described (Matthew
-<
+ *    A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
-<
+ *    J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
-<
+ *    Parallel Simulation Engine for Molecular Dynamics,"
-<
+ *    J. Comput. Chem. 26, pp. 252-271 (2005))
-<
+ *
-<
+ * 2. Redistributions of source code must retain the above copyright
->
+ * 1. Redistributions of source code must retain the above copyright
+ *    notice, this list of conditions and the following disclaimer.
-<
+ * 3. Redistributions in binary form must reproduce the above copyright
->
+ * 2. 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.
+ * arising out of the use of or inability to use software, even if the
+ * University of Notre Dame has been advised of the possibility of
+ * such damages.
-+
+ *
-+
+ * SUPPORT OPEN SCIENCE!  If you use OpenMD or its source code in your
-+
+ * research, please cite the appropriate papers when you publish your
-+
+ * work.  Good starting points are:
-+
+ *
-+
+ * [1]  Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).
-+
+ * [2]  Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).
-+
+ * [3]  Sun, Lin & Gezelter, J. Chem. Phys. 128, 24107 (2008).
-+
+ * [4]  Vardeman & Gezelter, in progress (2009).
+ */
+#include "io/DumpWriter.hpp"
+#include "io/gzstream.hpp"
+#include "io/Globals.hpp"
-+
+#ifdef IS_MPI
+#include <mpi.h>
+#endif //is_mpi
-<
+namespace oopse {
->
+using namespace std;
->
+namespace OpenMD {
+  DumpWriter::DumpWriter(SimInfo* info)
+    : info_(info), filename_(info->getDumpFileName()), eorFilename_(info->getFinalConfigFileName()){
+    createDumpFile_ = true;
+#ifdef HAVE_LIBZ
+    if (needCompression_) {
-<
+        filename_ += ".gz";
-<
+        eorFilename_ += ".gz";
->
+      filename_ += ".gz";
->
+      eorFilename_ += ".gz";
+#endif
+#ifdef IS_MPI
-<
+      if (worldRank == 0) {
->
+    if (worldRank == 0) {
+#endif // is_mpi
-–
-<
+        dumpFile_ = createOStream(filename_);
->
+      dumpFile_ = createOStream(filename_);
-<
+        if (!dumpFile_) {
-<
+          sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
-<
+                  filename_.c_str());
-<
+          painCave.isFatal = 1;
-<
+          simError();
-<
+        }
->
+      if (!dumpFile_) {
->
+        sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
->
+                filename_.c_str());
->
+        painCave.isFatal = 1;
->
+        simError();
->
+      }
+#ifdef IS_MPI
-<
+      }
->
+    }
-–
+      sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
-–
+      MPIcheckPoint();
-–
+#endif // is_mpi
-<
+    }
->
+  }
+  DumpWriter::DumpWriter(SimInfo* info, const std::string& filename)
+    createDumpFile_ = true;
+#ifdef HAVE_LIBZ
+    if (needCompression_) {
-<
+        filename_ += ".gz";
-<
+        eorFilename_ += ".gz";
->
+      filename_ += ".gz";
->
+      eorFilename_ += ".gz";
+#endif
+#ifdef IS_MPI
-<
+      if (worldRank == 0) {
->
+    if (worldRank == 0) {
+#endif // is_mpi
-<
+        dumpFile_ = createOStream(filename_);
->
+      dumpFile_ = createOStream(filename_);
-<
+        if (!dumpFile_) {
-<
+          sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
-<
+                  filename_.c_str());
-<
+          painCave.isFatal = 1;
-<
+          simError();
-<
+        }
->
+      if (!dumpFile_) {
->
+        sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
->
+                filename_.c_str());
->
+        painCave.isFatal = 1;
->
+        simError();
->
+      }
+#ifdef IS_MPI
-<
+      }
->
+    }
-–
+      sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
-–
+      MPIcheckPoint();
-–
+#endif // is_mpi
-<
+    }
->
+  }
+  DumpWriter::DumpWriter(SimInfo* info, const std::string& filename, bool writeDumpFile)
-<
+  : info_(info), filename_(filename){
->
+    : info_(info), filename_(filename){
+    Globals* simParams = info->getSimParams();
+    eorFilename_ = filename_.substr(0, filename_.rfind(".")) + ".eor";
+#ifdef IS_MPI
-+
-–
+    sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
-–
+    MPIcheckPoint();
-–
+#endif // is_mpi
-–
-–
-–
-–
-–
+  DumpWriter::~DumpWriter() {
+    if (worldRank == 0) {
+#endif // is_mpi
+      if (createDumpFile_){
-+
+        writeClosing(*dumpFile_);
+        delete dumpFile_;
+#ifdef IS_MPI
-<
+  void DumpWriter::writeCommentLine(std::ostream& os, Snapshot* s) {
->
+  void DumpWriter::writeFrameProperties(std::ostream& os, Snapshot* s) {
-<
+    RealType currentTime;
-<
+    Mat3x3d hmat;
-<
+    RealType chi;
-<
+    RealType integralOfChiDt;
-<
+    Mat3x3d eta;
-<
-<
+    currentTime = s->getTime();
-<
+    hmat = s->getHmat();
-<
+    chi = s->getChi();
-<
+    integralOfChiDt = s->getIntegralOfChiDt();
-<
+    eta = s->getEta();
-<
-<
+    os << currentTime << ";\t"
-<
+       << hmat(0, 0) << "\t" << hmat(1, 0) << "\t" << hmat(2, 0) << ";\t"
-<
+       << hmat(0, 1) << "\t" << hmat(1, 1) << "\t" << hmat(2, 1) << ";\t"
-<
+       << hmat(0, 2) << "\t" << hmat(1, 2) << "\t" << hmat(2, 2) << ";\t";
->
+    char buffer[1024];
-<
+    //write out additional parameters, such as chi and eta
->
+    os << "    <FrameData>\n";
-<
+    os << chi << "\t" << integralOfChiDt << ";\t";
->
+    RealType currentTime = s->getTime();
-<
+    os << eta(0, 0) << "\t" << eta(1, 0) << "\t" << eta(2, 0) << ";\t"
-<
+       << eta(0, 1) << "\t" << eta(1, 1) << "\t" << eta(2, 1) << ";\t"
-<
+       << eta(0, 2) << "\t" << eta(1, 2) << "\t" << eta(2, 2) << ";";
-<
-<
+    os << "\n";
->
+    if (isinf(currentTime) || isnan(currentTime)) {
->
+      sprintf( painCave.errMsg,
->
+               "DumpWriter detected a numerical error writing the time");
->
+      painCave.isFatal = 1;
->
+      simError();
->
+    }
->
->
+    sprintf(buffer, "        Time: %.10g\n", currentTime);
->
+    os << buffer;
->
->
+    Mat3x3d hmat;
->
+    hmat = s->getHmat();
->
->
+    for (unsigned int i = 0; i < 3; i++) {
->
+      for (unsigned int j = 0; j < 3; j++) {
->
+        if (isinf(hmat(i,j)) || isnan(hmat(i,j))) {
->
+          sprintf( painCave.errMsg,
->
+                   "DumpWriter detected a numerical error writing the box");
->
+          painCave.isFatal = 1;
->
+          simError();
->
+        }
->
+      }
->
+    }
->
->
+    sprintf(buffer, "        Hmat: {{ %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }}\n",
->
+            hmat(0, 0), hmat(1, 0), hmat(2, 0),
->
+            hmat(0, 1), hmat(1, 1), hmat(2, 1),
->
+            hmat(0, 2), hmat(1, 2), hmat(2, 2));
->
+    os << buffer;
->
->
+    RealType chi = s->getChi();
->
+    RealType integralOfChiDt = s->getIntegralOfChiDt();
->
+    if (isinf(chi) || isnan(chi) ||
->
+        isinf(integralOfChiDt) || isnan(integralOfChiDt)) {
->
+      sprintf( painCave.errMsg,
->
+               "DumpWriter detected a numerical error writing the thermostat");
->
+      painCave.isFatal = 1;
->
+      simError();
->
+    }
->
+    sprintf(buffer, "  Thermostat: %.10g , %.10g\n", chi, integralOfChiDt);
->
+    os << buffer;
->
->
+    Mat3x3d eta;
->
+    eta = s->getEta();
->
->
+    for (unsigned int i = 0; i < 3; i++) {
->
+      for (unsigned int j = 0; j < 3; j++) {
->
+        if (isinf(eta(i,j)) || isnan(eta(i,j))) {
->
+          sprintf( painCave.errMsg,
->
+                   "DumpWriter detected a numerical error writing the barostat");
->
+          painCave.isFatal = 1;
->
+          simError();
->
+        }
->
+      }
->
+    }
->
->
+    sprintf(buffer, "    Barostat: {{ %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }, { %.10g, %.10g, %.10g }}\n",
->
+            eta(0, 0), eta(1, 0), eta(2, 0),
->
+            eta(0, 1), eta(1, 1), eta(2, 1),
->
+            eta(0, 2), eta(1, 2), eta(2, 2));
->
+    os << buffer;
->
->
+    os << "    </FrameData>\n";
+  void DumpWriter::writeFrame(std::ostream& os) {
-–
+    const int BUFFERSIZE = 2000;
-–
+    const int MINIBUFFERSIZE = 100;
-<
+    char tempBuffer[BUFFERSIZE];
-<
+    char writeLine[BUFFERSIZE];
->
+#ifdef IS_MPI
->
+    MPI_Status istatus;
->
+#endif
-–
+    Quat4d q;
-–
+    Vector3d ji;
-–
+    Vector3d pos;
-–
+    Vector3d vel;
-–
+    Vector3d frc;
-–
+    Vector3d trq;
-–
+    Molecule* mol;
+    StuntDouble* integrableObject;
+    SimInfo::MoleculeIterator mi;
+    Molecule::IntegrableObjectIterator ii;
-–
-–
+    int nTotObjects;
-–
+    nTotObjects = info_->getNGlobalIntegrableObjects();
+#ifndef IS_MPI
-+
+    os << "  <Snapshot>\n";
-+
-+
+    writeFrameProperties(os, info_->getSnapshotManager()->getCurrentSnapshot());
-+
+    os << "    <StuntDoubles>\n";
-+
+    for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) {
-<
+    os << nTotObjects << "\n";
-<
-<
+    writeCommentLine(os, info_->getSnapshotManager()->getCurrentSnapshot());
->
->
+      for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
->
+           integrableObject = mol->nextIntegrableObject(ii)) {
->
+          os << prepareDumpLine(integrableObject);
->
->
+      }
->
+    }
->
+    os << "    </StuntDoubles>\n";
->
->
+    os << "  </Snapshot>\n";
-+
+    os.flush();
-+
+#else
-+
+    //every node prepares the dump lines for integrable objects belong to itself
-+
+    std::string buffer;
+    for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) {
-+
+      for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
-<
+           integrableObject = mol->nextIntegrableObject(ii)) {
-<
->
+           integrableObject = mol->nextIntegrableObject(ii)) {
->
+          buffer += prepareDumpLine(integrableObject);
->
+      }
->
+    }
->
->
+    const int masterNode = 0;
-<
+        pos = integrableObject->getPos();
-<
+        vel = integrableObject->getVel();
->
+    if (worldRank == masterNode) {
->
+      os << "  <Snapshot>\n";
->
+      writeFrameProperties(os, info_->getSnapshotManager()->getCurrentSnapshot());
->
+      os << "    <StuntDoubles>\n";
->
->
+      os << buffer;
-<
+        sprintf(tempBuffer, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
-<
+                integrableObject->getType().c_str(),
-<
+                pos[0], pos[1], pos[2],
-<
+                vel[0], vel[1], vel[2]);
->
+      int nProc;
->
+      MPI_Comm_size(MPI_COMM_WORLD, &nProc);
->
+      for (int i = 1; i < nProc; ++i) {
-<
+        strcpy(writeLine, tempBuffer);
->
+        // receive the length of the string buffer that was
->
+        // prepared by processor i
-<
+        if (integrableObject->isDirectional()) {
-<
+          q = integrableObject->getQ();
-<
+          ji = integrableObject->getJ();
->
+        int recvLength;
->
+        MPI_Recv(&recvLength, 1, MPI_INT, i, 0, MPI_COMM_WORLD, &istatus);
->
+        char* recvBuffer = new char[recvLength];
->
+        if (recvBuffer == NULL) {
->
+        } else {
->
+          MPI_Recv(recvBuffer, recvLength, MPI_CHAR, i, 0, MPI_COMM_WORLD, &istatus);
->
+          os << recvBuffer;
->
+          delete [] recvBuffer;
->
+        }
->
+      }
->
+      os << "    </StuntDoubles>\n";
->
->
+      os << "  </Snapshot>\n";
->
+      os.flush();
->
+    } else {
->
+      int sendBufferLength = buffer.size() + 1;
->
+      MPI_Send(&sendBufferLength, 1, MPI_INT, masterNode, 0, MPI_COMM_WORLD);
->
+      MPI_Send((void *)buffer.c_str(), sendBufferLength, MPI_CHAR, masterNode, 0, MPI_COMM_WORLD);
->
+    }
-<
+          sprintf(tempBuffer, "%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                  q[0], q[1], q[2], q[3],
-<
+                  ji[0], ji[1], ji[2]);
-<
+          strcat(writeLine, tempBuffer);
-<
+        } else {
-<
+          strcat(writeLine, "0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0");
-<
+        }
->
+#endif // is_mpi
-<
+        if (needForceVector_) {
-<
+          frc = integrableObject->getFrc();
-<
+          trq = integrableObject->getTrq();
-<
-<
+          sprintf(tempBuffer, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                  frc[0], frc[1], frc[2],
-<
+                  trq[0], trq[1], trq[2]);
-<
+          strcat(writeLine, tempBuffer);
-<
+        }
->
+  }
->
->
+  std::string DumpWriter::prepareDumpLine(StuntDouble* integrableObject) {
-<
+        strcat(writeLine, "\n");
-<
+        os << writeLine;
->
+    int index = integrableObject->getGlobalIntegrableObjectIndex();
->
+    std::string type("pv");
->
+    std::string line;
->
+    char tempBuffer[4096];
-<
+      }
->
+    Vector3d pos;
->
+    Vector3d vel;
->
+    pos = integrableObject->getPos();
->
->
+    if (isinf(pos[0]) || isnan(pos[0]) ||
->
+        isinf(pos[1]) || isnan(pos[1]) ||
->
+        isinf(pos[2]) || isnan(pos[2]) ) {
->
+      sprintf( painCave.errMsg,
->
+               "DumpWriter detected a numerical error writing the position"
->
+               " for object %d", index);
->
+      painCave.isFatal = 1;
->
+      simError();
-<
+    os.flush();
-<
+#else // is_mpi
-<
+    /*********************************************************************
-<
+     * Documentation?  You want DOCUMENTATION?
-<
+     *
-<
+     * Why all the potatoes below?
-<
+     *
-<
+     * To make a long story short, the original version of DumpWriter
-<
+     * worked in the most inefficient way possible.  Node 0 would
-<
+     * poke each of the node for an individual atom's formatted data
-<
+     * as node 0 worked its way down the global index. This was particularly
-<
+     * inefficient since the method blocked all processors at every atom
-<
+     * (and did it twice!).
-<
+     *
-<
+     * An intermediate version of DumpWriter could be described from Node
-<
+     * zero's perspective as follows:
-<
+     *
-<
+     *  1) Have 100 of your friends stand in a circle.
-<
+     *  2) When you say go, have all of them start tossing potatoes at
-<
+     *     you (one at a time).
-<
+     *  3) Catch the potatoes.
-<
+     *
-<
+     * It was an improvement, but MPI has buffers and caches that could
-<
+     * best be described in this analogy as "potato nets", so there's no
-<
+     * need to block the processors atom-by-atom.
-<
+     *
-<
+     * This new and improved DumpWriter works in an even more efficient
-<
+     * way:
-<
+     *
-<
+     *  1) Have 100 of your friend stand in a circle.
-<
+     *  2) When you say go, have them start tossing 5-pound bags of
-<
+     *     potatoes at you.
-<
+     *  3) Once you've caught a friend's bag of potatoes,
-<
+     *     toss them a spud to let them know they can toss another bag.
-<
+     *
-<
+     * How's THAT for documentation?
-<
+     *
-<
+     *********************************************************************/
-<
+    const int masterNode = 0;
->
+    vel = integrableObject->getVel();
-<
+    int * potatoes;
-<
+    int myPotato;
-<
+    int nProc;
-<
+    int which_node;
-<
+    RealType atomData[19];
-<
+    int isDirectional;
-<
+    char MPIatomTypeString[MINIBUFFERSIZE];
-<
+    int msgLen; // the length of message actually recieved at master nodes
-<
+    int haveError;
-<
+    MPI_Status istatus;
-<
+    int nCurObj;
-<
-<
+    // code to find maximum tag value
-<
+    int * tagub;
-<
+    int flag;
-<
+    int MAXTAG;
-<
+    MPI_Attr_get(MPI_COMM_WORLD, MPI_TAG_UB, &tagub, &flag);
-<
-<
+    if (flag) {
-<
+      MAXTAG = *tagub;
-<
+    } else {
-<
+      MAXTAG = 32767;
->
+    if (isinf(vel[0]) || isnan(vel[0]) ||
->
+        isinf(vel[1]) || isnan(vel[1]) ||
->
+        isinf(vel[2]) || isnan(vel[2]) ) {
->
+      sprintf( painCave.errMsg,
->
+               "DumpWriter detected a numerical error writing the velocity"
->
+               " for object %d", index);
->
+      painCave.isFatal = 1;
->
+      simError();
-<
+    if (worldRank == masterNode) { //master node (node 0) is responsible for writing the dump file
->
+    sprintf(tempBuffer, "%18.10g %18.10g %18.10g %13e %13e %13e",
->
+            pos[0], pos[1], pos[2],
->
+            vel[0], vel[1], vel[2]);
->
+    line += tempBuffer;
-<
+      // Node 0 needs a list of the magic potatoes for each processor;
->
+    if (integrableObject->isDirectional()) {
->
+      type += "qj";
->
+      Quat4d q;
->
+      Vector3d ji;
->
+      q = integrableObject->getQ();
-<
+      MPI_Comm_size(MPI_COMM_WORLD, &nProc);
-<
+      potatoes = new int[nProc];
-<
-<
+      //write out the comment lines
-<
+      for(int i = 0; i < nProc; i++) {
-<
+        potatoes[i] = 0;
->
+      if (isinf(q[0]) || isnan(q[0]) ||
->
+          isinf(q[1]) || isnan(q[1]) ||
->
+          isinf(q[2]) || isnan(q[2]) ||
->
+          isinf(q[3]) || isnan(q[3]) ) {
->
+        sprintf( painCave.errMsg,
->
+                 "DumpWriter detected a numerical error writing the quaternion"
->
+                 " for object %d", index);
->
+        painCave.isFatal = 1;
->
+        simError();
-+
+      ji = integrableObject->getJ();
-<
+      os << nTotObjects << "\n";
-<
+      writeCommentLine(os, info_->getSnapshotManager()->getCurrentSnapshot());
->
+      if (isinf(ji[0]) || isnan(ji[0]) ||
->
+          isinf(ji[1]) || isnan(ji[1]) ||
->
+          isinf(ji[2]) || isnan(ji[2]) ) {
->
+        sprintf( painCave.errMsg,
->
+                 "DumpWriter detected a numerical error writing the angular"
->
+                 " momentum for object %d", index);
->
+        painCave.isFatal = 1;
->
+        simError();
->
+      }
-<
+      for(int i = 0; i < info_->getNGlobalMolecules(); i++) {
->
+      sprintf(tempBuffer, " %13e %13e %13e %13e %13e %13e %13e",
->
+              q[0], q[1], q[2], q[3],
->
+              ji[0], ji[1], ji[2]);
->
+      line += tempBuffer;
->
+    }
-<
+        // Get the Node number which has this atom;
->
+    if (needForceVector_) {
->
+      type += "f";
->
+      Vector3d frc;
-<
+        which_node = info_->getMolToProc(i);
->
+      frc = integrableObject->getFrc();
-<
+        if (which_node != masterNode) { //current molecule is in slave node
-<
+          if (potatoes[which_node] + 1 >= MAXTAG) {
-<
+            // The potato was going to exceed the maximum value,
-<
+            // so wrap this processor potato back to 0:
-<
-<
+            potatoes[which_node] = 0;
-<
+            MPI_Send(&potatoes[which_node], 1, MPI_INT, which_node, 0,
-<
+                     MPI_COMM_WORLD);
-<
+          }
-<
-<
+          myPotato = potatoes[which_node];
-<
-<
+          //recieve the number of integrableObject in current molecule
-<
+          MPI_Recv(&nCurObj, 1, MPI_INT, which_node, myPotato,
-<
+                   MPI_COMM_WORLD, &istatus);
-<
+          myPotato++;
-<
-<
+          for(int l = 0; l < nCurObj; l++) {
-<
+            if (potatoes[which_node] + 2 >= MAXTAG) {
-<
+              // The potato was going to exceed the maximum value,
-<
+              // so wrap this processor potato back to 0:
-<
-<
+              potatoes[which_node] = 0;
-<
+              MPI_Send(&potatoes[which_node], 1, MPI_INT, which_node,
-<
+, MPI_COMM_WORLD);
-<
+            }
-<
-<
+            MPI_Recv(MPIatomTypeString, MINIBUFFERSIZE, MPI_CHAR,
-<
+                     which_node, myPotato, MPI_COMM_WORLD,
-<
+                     &istatus);
-<
-<
+            myPotato++;
-<
-<
+            MPI_Recv(atomData, 19, MPI_REALTYPE, which_node, myPotato,
-<
+                     MPI_COMM_WORLD, &istatus);
-<
+            myPotato++;
-<
-<
+            MPI_Get_count(&istatus, MPI_REALTYPE, &msgLen);
-<
-<
+            if (msgLen == 13 || msgLen == 19)
-<
+              isDirectional = 1;
-<
+            else
-<
+              isDirectional = 0;
-<
-<
+            // If we've survived to here, format the line:
-<
-<
+            if (!isDirectional) {
-<
+              sprintf(writeLine, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
-<
+                      MPIatomTypeString, atomData[0],
-<
+                      atomData[1], atomData[2],
-<
+                      atomData[3], atomData[4],
-<
+                      atomData[5]);
-<
-<
+              strcat(writeLine,
-<
+                     "0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0");
-<
+            } else {
-<
+              sprintf(writeLine,
-<
+                      "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                      MPIatomTypeString,
-<
+                      atomData[0],
-<
+                      atomData[1],
-<
+                      atomData[2],
-<
+                      atomData[3],
-<
+                      atomData[4],
-<
+                      atomData[5],
-<
+                      atomData[6],
-<
+                      atomData[7],
-<
+                      atomData[8],
-<
+                      atomData[9],
-<
+                      atomData[10],
-<
+                      atomData[11],
-<
+                      atomData[12]);
-<
+            }
-<
-<
+            if (needForceVector_) {
-<
+              if (!isDirectional) {
-<
+                sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                        atomData[6],
-<
+                        atomData[7],
-<
+                        atomData[8],
-<
+                        atomData[9],
-<
+                        atomData[10],
-<
+                        atomData[11]);
-<
+              } else {
-<
+                sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                        atomData[13],
-<
+                        atomData[14],
-<
+                        atomData[15],
-<
+                        atomData[16],
-<
+                        atomData[17],
-<
+                        atomData[18]);
-<
+              }
-<
+            }
-<
-<
+            sprintf(writeLine, "\n");
-<
+            os << writeLine;
-<
-<
+          } // end for(int l =0)
-<
-<
+          potatoes[which_node] = myPotato;
-<
+        } else { //master node has current molecule
-<
-<
+          mol = info_->getMoleculeByGlobalIndex(i);
-<
-<
+          if (mol == NULL) {
-<
+            sprintf(painCave.errMsg, "Molecule not found on node %d!", worldRank);
-<
+            painCave.isFatal = 1;
-<
+            simError();
-<
+          }
-<
-<
+          for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
-<
+               integrableObject = mol->nextIntegrableObject(ii)) {
-<
-<
+            pos = integrableObject->getPos();
-<
+            vel = integrableObject->getVel();
-<
-<
+            atomData[0] = pos[0];
-<
+            atomData[1] = pos[1];
-<
+            atomData[2] = pos[2];
-<
-<
+            atomData[3] = vel[0];
-<
+            atomData[4] = vel[1];
-<
+            atomData[5] = vel[2];
-<
-<
+            isDirectional = 0;
-<
-<
+            if (integrableObject->isDirectional()) {
-<
+              isDirectional = 1;
-<
-<
+              q = integrableObject->getQ();
-<
+              ji = integrableObject->getJ();
-<
-<
+              for(int j = 0; j < 6; j++) {
-<
+                atomData[j] = atomData[j];
-<
+              }
-<
-<
+              atomData[6] = q[0];
-<
+              atomData[7] = q[1];
-<
+              atomData[8] = q[2];
-<
+              atomData[9] = q[3];
-<
-<
+              atomData[10] = ji[0];
-<
+              atomData[11] = ji[1];
-<
+              atomData[12] = ji[2];
-<
+            }
-<
-<
+            if (needForceVector_) {
-<
+              frc = integrableObject->getFrc();
-<
+              trq = integrableObject->getTrq();
-<
-<
+              if (!isDirectional) {
-<
+                atomData[6] = frc[0];
-<
+                atomData[7] = frc[1];
-<
+                atomData[8] = frc[2];
-<
+                atomData[9] = trq[0];
-<
+                atomData[10] = trq[1];
-<
+                atomData[11] = trq[2];
-<
+              } else {
-<
+                atomData[13] = frc[0];
-<
+                atomData[14] = frc[1];
-<
+                atomData[15] = frc[2];
-<
+                atomData[16] = trq[0];
-<
+                atomData[17] = trq[1];
-<
+                atomData[18] = trq[2];
-<
+              }
-<
+            }
-<
-<
+            // If we've survived to here, format the line:
-<
-<
+            if (!isDirectional) {
-<
+              sprintf(writeLine, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
-<
+                      integrableObject->getType().c_str(), atomData[0],
-<
+                      atomData[1], atomData[2],
-<
+                      atomData[3], atomData[4],
-<
+                      atomData[5]);
-<
-<
+              strcat(writeLine,
-<
+                     "0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0");
-<
+            } else {
-<
+              sprintf(writeLine,
-<
+                      "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                      integrableObject->getType().c_str(),
-<
+                      atomData[0],
-<
+                      atomData[1],
-<
+                      atomData[2],
-<
+                      atomData[3],
-<
+                      atomData[4],
-<
+                      atomData[5],
-<
+                      atomData[6],
-<
+                      atomData[7],
-<
+                      atomData[8],
-<
+                      atomData[9],
-<
+                      atomData[10],
-<
+                      atomData[11],
-<
+                      atomData[12]);
-<
+            }
-<
-<
+            if (needForceVector_) {
-<
+              if (!isDirectional) {
-<
+              sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                      atomData[6],
-<
+                      atomData[7],
-<
+                      atomData[8],
-<
+                      atomData[9],
-<
+                      atomData[10],
-<
+                      atomData[11]);
-<
+              } else {
-<
+                sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
-<
+                        atomData[13],
-<
+                        atomData[14],
-<
+                        atomData[15],
-<
+                        atomData[16],
-<
+                        atomData[17],
-<
+                        atomData[18]);
-<
+              }
-<
+            }
-<
-<
+            sprintf(writeLine, "\n");
-<
+            os << writeLine;
-<
-<
+          } //end for(iter = integrableObject.begin())
-<
+        }
-<
+      } //end for(i = 0; i < mpiSim->getNmol())
-<
-<
+      os.flush();
-<
-<
+      sprintf(checkPointMsg, "Sucessfully took a dump.\n");
-<
+      MPIcheckPoint();
-<
-<
+      delete [] potatoes;
-<
+    } else {
-<
-<
+      // worldRank != 0, so I'm a remote node.
-<
-<
+      // Set my magic potato to 0:
-<
-<
+      myPotato = 0;
-<
-<
+      for(int i = 0; i < info_->getNGlobalMolecules(); i++) {
-<
-<
+        // Am I the node which has this integrableObject?
-<
+        int whichNode = info_->getMolToProc(i);
-<
+        if (whichNode == worldRank) {
-<
+          if (myPotato + 1 >= MAXTAG) {
-<
-<
+            // The potato was going to exceed the maximum value,
-<
+            // so wrap this processor potato back to 0 (and block until
-<
+            // node 0 says we can go:
-<
-<
+            MPI_Recv(&myPotato, 1, MPI_INT, 0, 0, MPI_COMM_WORLD,
-<
+                     &istatus);
-<
+          }
-<
-<
+          mol = info_->getMoleculeByGlobalIndex(i);
-<
-<
-<
+          nCurObj = mol->getNIntegrableObjects();
-<
-<
+          MPI_Send(&nCurObj, 1, MPI_INT, 0, myPotato, MPI_COMM_WORLD);
-<
+          myPotato++;
-<
-<
+          for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
-<
+               integrableObject = mol->nextIntegrableObject(ii)) {
-<
-<
+            if (myPotato + 2 >= MAXTAG) {
-<
-<
+              // The potato was going to exceed the maximum value,
-<
+              // so wrap this processor potato back to 0 (and block until
-<
+              // node 0 says we can go:
-<
-<
+              MPI_Recv(&myPotato, 1, MPI_INT, 0, 0, MPI_COMM_WORLD,
-<
+                       &istatus);
-<
+            }
-<
-<
+            pos = integrableObject->getPos();
-<
+            vel = integrableObject->getVel();
-<
-<
+            atomData[0] = pos[0];
-<
+            atomData[1] = pos[1];
-<
+            atomData[2] = pos[2];
-<
-<
+            atomData[3] = vel[0];
-<
+            atomData[4] = vel[1];
-<
+            atomData[5] = vel[2];
-<
-<
+            isDirectional = 0;
-<
-<
+            if (integrableObject->isDirectional()) {
-<
+              isDirectional = 1;
-<
-<
+              q = integrableObject->getQ();
-<
+              ji = integrableObject->getJ();
-<
-<
+              atomData[6] = q[0];
-<
+              atomData[7] = q[1];
-<
+              atomData[8] = q[2];
-<
+              atomData[9] = q[3];
-<
-<
+              atomData[10] = ji[0];
-<
+              atomData[11] = ji[1];
-<
+              atomData[12] = ji[2];
-<
+            }
-<
-<
+            if (needForceVector_) {
-<
+              frc = integrableObject->getFrc();
-<
+              trq = integrableObject->getTrq();
-<
-<
+              if (!isDirectional) {
-<
+                atomData[6] = frc[0];
-<
+                atomData[7] = frc[1];
-<
+                atomData[8] = frc[2];
-<
-<
+                atomData[9] = trq[0];
-<
+                atomData[10] = trq[1];
-<
+                atomData[11] = trq[2];
-<
+              } else {
-<
+                atomData[13] = frc[0];
-<
+                atomData[14] = frc[1];
-<
+                atomData[15] = frc[2];
-<
-<
+                atomData[16] = trq[0];
-<
+                atomData[17] = trq[1];
-<
+                atomData[18] = trq[2];
-<
+              }
-<
+            }
-<
-<
+            strncpy(MPIatomTypeString, integrableObject->getType().c_str(), MINIBUFFERSIZE);
-<
-<
+            // null terminate the  std::string before sending (just in case):
-<
+            MPIatomTypeString[MINIBUFFERSIZE - 1] = '\0';
-<
-<
+            MPI_Send(MPIatomTypeString, MINIBUFFERSIZE, MPI_CHAR, 0,
-<
+                     myPotato, MPI_COMM_WORLD);
-<
-<
+            myPotato++;
-<
-<
+            if (isDirectional && needForceVector_) {
-<
+              MPI_Send(atomData, 19, MPI_REALTYPE, 0, myPotato,
-<
+                       MPI_COMM_WORLD);
-<
+            } else if (isDirectional) {
-<
+              MPI_Send(atomData, 13, MPI_REALTYPE, 0, myPotato,
-<
+                       MPI_COMM_WORLD);
-<
+            } else if (needForceVector_) {
-<
+              MPI_Send(atomData, 12, MPI_REALTYPE, 0, myPotato,
-<
+                       MPI_COMM_WORLD);
-<
+            } else {
-<
+              MPI_Send(atomData, 6, MPI_REALTYPE, 0, myPotato,
-<
+                       MPI_COMM_WORLD);
-<
+            }
-<
-<
+            myPotato++;
-<
+          }
-<
-<
+        }
-<
->
+      if (isinf(frc[0]) || isnan(frc[0]) ||
->
+          isinf(frc[1]) || isnan(frc[1]) ||
->
+          isinf(frc[2]) || isnan(frc[2]) ) {
->
+        sprintf( painCave.errMsg,
->
+                 "DumpWriter detected a numerical error writing the force"
->
+                 " for object %d", index);
->
+        painCave.isFatal = 1;
->
+        simError();
-<
+      sprintf(checkPointMsg, "Sucessfully took a dump.\n");
-<
+      MPIcheckPoint();
->
+      sprintf(tempBuffer, " %13e %13e %13e",
->
+              frc[0], frc[1], frc[2]);
->
+      line += tempBuffer;
->
->
+      if (integrableObject->isDirectional()) {
->
+        type += "t";
->
+        Vector3d trq;
->
->
+        trq = integrableObject->getTrq();
->
->
+        if (isinf(trq[0]) || isnan(trq[0]) ||
->
+            isinf(trq[1]) || isnan(trq[1]) ||
->
+            isinf(trq[2]) || isnan(trq[2]) ) {
->
+          sprintf( painCave.errMsg,
->
+                   "DumpWriter detected a numerical error writing the torque"
->
+                   " for object %d", index);
->
+          painCave.isFatal = 1;
->
+          simError();
->
+        }
->
->
+        sprintf(tempBuffer, " %13e %13e %13e",
->
+                trq[0], trq[1], trq[2]);
->
+        line += tempBuffer;
->
+      }
-<
-<
+#endif // is_mpi
-<
->
->
+    sprintf(tempBuffer, "%10d %7s %s\n", index, type.c_str(), line.c_str());
->
+    return std::string(tempBuffer);
+  void DumpWriter::writeDump() {
+#ifdef IS_MPI
+    if (worldRank == 0) {
+#endif // is_mpi
-<
+    delete eorStream;
-<
->
+      writeClosing(*eorStream);
->
+      delete eorStream;
+#ifdef IS_MPI
+#endif // is_mpi
+#ifdef IS_MPI
+    if (worldRank == 0) {
+#endif // is_mpi
-<
+    delete eorStream;
-<
->
+      writeClosing(*eorStream);
->
+      delete eorStream;
+#ifdef IS_MPI
+#endif // is_mpi
-<
+std::ostream* DumpWriter::createOStream(const std::string& filename) {
->
+  std::ostream* DumpWriter::createOStream(const std::string& filename) {
+    std::ostream* newOStream;
+#ifdef HAVE_LIBZ
+    if (needCompression_) {
-<
+        newOStream = new ogzstream(filename.c_str());
->
+      newOStream = new ogzstream(filename.c_str());
+    } else {
-<
+        newOStream = new std::ofstream(filename.c_str());
->
+      newOStream = new std::ofstream(filename.c_str());
+#else
+    newOStream = new std::ofstream(filename.c_str());
+#endif
-+
+    //write out MetaData first
-+
+    (*newOStream) << "<OpenMD version=1>" << std::endl;
-+
+    (*newOStream) << "  <MetaData>" << std::endl;
-+
+    (*newOStream) << info_->getRawMetaData();
-+
+    (*newOStream) << "  </MetaData>" << std::endl;
+    return newOStream;
-<
+}
->
+  }
-<
+}//end namespace oopse
->
+  void DumpWriter::writeClosing(std::ostream& os) {
->
->
+    os << "</OpenMD>\n";
->
+    os.flush();
->
+  }
->
->
+}//end namespace OpenMD

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing trunk/src/io/DumpWriter.cpp (file contents): Revision 963 by tim, Wed May 17 21:51:42 2006 UTC vs. Revision 1437 by gezelter, Wed Apr 21 14:59:18 2010 UTC

Diff Legend

Comparing trunk/src/io/DumpWriter.cpp (file contents):
Revision 963 by tim, Wed May 17 21:51:42 2006 UTC vs.
Revision 1437 by gezelter, Wed Apr 21 14:59:18 2010 UTC