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[ctsim.git] / src / pjrec.cpp

/*****************************************************************************
** FILE IDENTIFICATION
**
**   Name:          pjrec.cpp
**   Purpose:       Reconstruct an image from projections
**   Programmer:    Kevin Rosenberg
**   Date Started:  Aug 1984
**
**  This is part of the CTSim program
**  Copyright (C) 1983-2000 Kevin Rosenberg
**
**  $Id: pjrec.cpp,v 1.2 2000/06/27 10:48:11 kevin Exp $
**
**  This program is free software; you can redistribute it and/or modify
**  it under the terms of the GNU General Public License (version 2) as
**  published by the Free Software Foundation.
**
**  This program is distributed in the hope that it will be useful,
**  but WITHOUT ANY WARRANTY; without even the implied warranty of
**  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
**  GNU General Public License for more details.
**
**  You should have received a copy of the GNU General Public License
**  along with this program; if not, write to the Free Software
**  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
******************************************************************************/

#include "ct.h"
#include "timer.h"


enum {O_INTERP, O_FILTER, O_FILTER_PARAM, O_BACKPROJ, O_VERBOSE, O_TRACE, O_HELP, O_DEBUG, O_VERSION};

static struct option my_options[] =
{
  {"interp", 1, 0, O_INTERP},
  {"filter", 1, 0, O_FILTER},
  {"filter-param", 1, 0, O_FILTER_PARAM},
  {"backproj", 1, 0, O_BACKPROJ},
  {"trace", 1, 0, O_TRACE},
  {"debug", 0, 0, O_DEBUG},
  {"verbose", 0, 0, O_VERBOSE},
  {"help", 0, 0, O_HELP},
  {"version", 0, 0, O_VERSION},
  {0, 0, 0, 0}
};


void 
pjrec_usage (const char *program)
{
  cout << "usage: " << fileBasename(program) << " raysum-file image-file nx-image ny-image [OPTIONS]" << endl;
  cout << "Image reconstruction from raysum projections" << endl;
  cout << endl;
  cout << "   raysum-file     Input raysum file" << endl;
  cout << "   image-file      Output image file in SDF2D format" << endl;
  cout << "   nx-image        Number of columns in output image" << endl;
  cout << "   ny-image        Number of rows in output image" << endl;
  cout << "   --interp        Interpolation method during backprojection" << endl;
  cout << "       nearest     Nearest neighbor interpolation" << endl;
  cout << "       linear      Linear interpolation" << endl;
#if HAVE_BSPLINE_INTERP
  cout << "       bspline     B-spline interpolation" << endl;
#endif
  cout << "    --filter       Filter name" << endl;
  cout << "       abs_bandlimit Abs * Bandlimiting (default)" << endl;
  cout << "       abs_sinc      Abs * Sinc" << endl;
  cout << "       abs_cos       Abs * Cosine" << endl;
  cout << "       abs_hamming   Abs * Hamming" << endl;
  cout << "       shepp         Shepp-Logan" << endl;
  cout << "       bandlimit     Bandlimiting" << endl;
  cout << "       sinc          Sinc" << endl;
  cout << "       cos           Cosine" << endl;
  cout << "       triangle      Triangle" << endl;
  cout << "       hamming       Hamming" << endl;
  cout << "    --backproj     Backprojection Method" << endl;
  cout << "       trig        Trigometric functions at every point" << endl;
  cout << "       table       Trigometric functions with precalculated table" << endl;
  cout << "       diff        Difference method" << endl;
  cout << "       diff2       Optimized difference method (default)" << endl;
  cout << "       idiff2      Optimized difference method with integer math" << endl;
  cout << "    --filter-param Alpha level for Hamming filter" << endl;
  cout << "    --trace        Set tracing to level" << endl;
  cout << "         none      No tracing (default)" << endl;
  cout << "         text      Text level tracing" << endl;
  cout << "         phm       Trace phantom" << endl;
  cout << "         rays      Trace allrays" << endl;
  cout << "         plot      Trace plotting" << endl;
  cout << "         clipping  Trace clipping" << endl;
  cout << "    --verbose      Turn on verbose mode" << endl;
  cout << "    --debug        Turn on debug mode" << endl;
  cout << "    --version      Print version" << endl;
  cout << "    --help         Print this help message" << endl;
}


#ifdef HAVE_MPI
static void ScatterProjectionsMPI (MPIWorld& mpiWorld, Projections& projGlobal, Projections& projLocal, const int debug);
static void ReduceImageMPI (MPIWorld& mpiWorld, ImageFile* imLocal, ImageFile* imGlobal);
#endif


int 
pjrec_main (int argc, char * argv[])
{
  Projections projGlobal;
  ImageFile* imGlobal = NULL;
  char* filenameProj = NULL;
  char* filenameImage = NULL;
  string remark;
  char *endptr;
  int optVerbose = 0;
  int optDebug = 0;
  int optTrace = TRACE_NONE;
  double optFilterParam = -1;
  string optFilterName = SignalFilter::FILTER_ABS_BANDLIMIT_STR;
  string optInterpName = Backprojector::INTERP_LINEAR_STR;
  string optBackprojName = Backprojector::BPROJ_IDIFF2_STR;
  //  string optFilterMethodName = SignalFilter::FILTER_METHOD_CONVOLUTION_STR;
  int optInterpParam = 1;
  int nx, ny;
#ifdef HAVE_MPI
  ImageFile* imLocal;
  int mpi_nview, mpi_ndet;
  double mpi_detinc, mpi_rotinc, mpi_phmlen;
  MPIWorld mpiWorld (argc, argv);
#endif

  Timer timerProgram;

#ifdef HAVE_MPI
  if (mpiWorld.getRank() == 0) {
#endif
    while (1) {
      int c = getopt_long(argc, argv, "", my_options, NULL);
      char *endptr = NULL;
      
      if (c == -1)
        break;
      
      switch (c)
        {
        case O_INTERP:
          optInterpName = optarg;
          break;
        case O_FILTER:
          optFilterName = optarg;
          break;
        case O_BACKPROJ:
          optBackprojName = optarg;
          break;
        case O_FILTER_PARAM:
          optFilterParam = strtod(optarg, &endptr);
          if (endptr != optarg + strlen(optarg)) {
            pjrec_usage(argv[0]);
          }
          break;
        case O_VERBOSE:
          optVerbose = 1;
          break;
        case O_DEBUG:
          optDebug = 1;
          break;
        case O_TRACE:
          if ((optTrace = opt_set_trace(optarg)) < 0) {
            pjrec_usage(argv[0]);
            return (1);
          }
          break;
        case O_VERSION:
#ifdef VERSION
          cout <<  "Version " <<  VERSION << endl;
#else
          cout << "Unknown version number" << endl;
#endif
          return (0);
        case O_HELP:
        case '?':
          pjrec_usage(argv[0]);
          return (0);
        default:
          pjrec_usage(argv[0]);
          return (1);
        }
    }
  
    if (optind + 4 != argc) {
      pjrec_usage(argv[0]);
      return (1);
    }

    filenameProj = argv[optind];
  
    filenameImage = argv[optind + 1];
  
    nx = strtol(argv[optind + 2], &endptr, 10);
    ny = strtol(argv[optind + 3], &endptr, 10);
  
    ostringstream filterDesc;
    if (optFilterParam >= 0)
      filterDesc << optFilterName << ": alpha=" << optFilterParam; 
    else
      filterDesc << optFilterName;

    ostringstream label;
    label << "pjrec: " << nx << "x" << ny << ", " << filterDesc.str() << ", " << optInterpName << ", " << optBackprojName;
    remark = label.str();
  
    if (optVerbose)
      cout << "Remark: " << remark << endl;
#ifdef HAVE_MPI
  }
#endif

#ifdef HAVE_MPI
  if (mpiWorld.getRank() == 0) {
    projGlobal.read (filenameProj);
    if (optVerbose)
      projGlobal.printScanInfo();

    mpi_ndet = projGlobal.nDet();
    mpi_nview = projGlobal.nView();
    mpi_detinc = projGlobal.detInc();
    mpi_phmlen = projGlobal.phmLen();
    mpi_rotinc = projGlobal.rotInc();
  }

  TimerCollectiveMPI timerBcast (mpiWorld.getComm());
  mpiWorld.BcastString (optBackprojName);
  mpiWorld.BcastString (optFilterName);
  mpiWorld.BcastString (optInterpName);
  mpiWorld.getComm().Bcast (&optVerbose, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&optDebug, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&optTrace, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&optFilterParam, 1, MPI::DOUBLE, 0);
  mpiWorld.getComm().Bcast (&optInterpParam, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&mpi_ndet, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&mpi_nview, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&mpi_detinc, 1, MPI::DOUBLE, 0);
  mpiWorld.getComm().Bcast (&mpi_phmlen, 1, MPI::DOUBLE, 0);
  mpiWorld.getComm().Bcast (&mpi_rotinc, 1, MPI::DOUBLE, 0);
  mpiWorld.getComm().Bcast (&nx, 1, MPI::INT, 0);
  mpiWorld.getComm().Bcast (&ny, 1, MPI::INT, 0);
  if (optVerbose)
      timerBcast.timerEndAndReport ("Time to broadcast variables");

  mpiWorld.setTotalWorkUnits (mpi_nview);

  Projections projLocal (mpiWorld.getMyLocalWorkUnits(), mpi_ndet);
  projLocal.setDetInc (mpi_detinc);
  projLocal.setPhmLen (mpi_phmlen);
  projLocal.setRotInc (mpi_rotinc);

  TimerCollectiveMPI timerScatter (mpiWorld.getComm());
  ScatterProjectionsMPI (mpiWorld, projGlobal, projLocal, optDebug);
  if (optVerbose)
      timerScatter.timerEndAndReport ("Time to scatter projections");

  if (mpiWorld.getRank() == 0) {
    imGlobal = new ImageFile (nx, ny);
  }

  imLocal = new ImageFile (nx, ny);
#else
  projGlobal.read (filenameProj);
  if (optVerbose)
    projGlobal.printScanInfo();

  imGlobal = new ImageFile (nx, ny);
#endif

#ifdef HAVE_MPI
  TimerCollectiveMPI timerReconstruct (mpiWorld.getComm());
  projLocal.reconstruct (*imLocal, optFilterName.c_str(), optFilterParam, optInterpName.c_str(), optInterpParam, optBackprojName.c_str(), optTrace);
  if (optVerbose)
      timerReconstruct.timerEndAndReport ("Time to reconstruct");

  TimerCollectiveMPI timerReduce (mpiWorld.getComm());
  ReduceImageMPI (mpiWorld, imLocal, imGlobal);
  if (optVerbose)
      timerReduce.timerEndAndReport ("Time to reduce image");
#else
  projGlobal.reconstruct (*imGlobal, optFilterName.c_str(), optFilterParam, optInterpName.c_str(), optInterpParam, optBackprojName.c_str(), optTrace);
#endif

#ifdef HAVE_MPI
  if (mpiWorld.getRank() == 0)
#endif
    {
      double calcTime = timerProgram.timerEnd();
      imGlobal->labelAdd (projGlobal.getLabel());
      imGlobal->labelAdd (Array2dFileLabel::L_HISTORY, remark.c_str(), calcTime);
      imGlobal->fileWrite (filenameImage);
      if (optVerbose)
        cout << "Run time: " << calcTime << " seconds" << endl;
    }
#ifdef HAVE_MPI
  MPI::Finalize();
#endif

  return (0);
}


//////////////////////////////////////////////////////////////////////////////////////
// MPI Support Routines
//
//////////////////////////////////////////////////////////////////////////////////////

#ifdef HAVE_MPI
static void ScatterProjectionsMPI (MPIWorld& mpiWorld, Projections& projGlobal, Projections& projLocal, const int optDebug)
{
  if (mpiWorld.getRank() == 0) {
    for (int iProc = 0; iProc < mpiWorld.getNumProcessors(); iProc++) {
      for (int iw = mpiWorld.getStartWorkUnit(iProc); iw <= mpiWorld.getEndWorkUnit(iProc); iw++) {
        DetectorArray& detarray = projGlobal.getDetectorArray( iw );
        int nDet = detarray.nDet();
        DetectorValue* detval = detarray.detValues();

        double viewAngle = detarray.viewAngle();
        mpiWorld.getComm().Send(&nDet, 1, MPI::INT, iProc, 0);
        mpiWorld.getComm().Send(&viewAngle, 1, MPI::DOUBLE, iProc, 0);
        mpiWorld.getComm().Send(detval, nDet, MPI::FLOAT, iProc, 0);
      }
    }
  }

  for (int iw = 0; iw < mpiWorld.getMyLocalWorkUnits(); iw++) {
    MPI::Status status;
    int nDet;
    double viewAngle;
    DetectorValue* detval = projLocal.getDetectorArray(iw).detValues();

    mpiWorld.getComm().Recv(&nDet, 1, MPI::INT, 0, 0, status);
    mpiWorld.getComm().Recv(&viewAngle, 1, MPI::DOUBLE, 0, 0, status);
    mpiWorld.getComm().Recv(detval, nDet, MPI::FLOAT, 0, 0, status);
    projLocal.getDetectorArray(iw).setViewAngle( viewAngle );
  }
}

static void
ReduceImageMPI (MPIWorld& mpiWorld, ImageFile* imLocal, ImageFile* imGlobal)
{
  ImageFileArray vLocal = imLocal->getArray();

  for (int ix = 0; ix < imLocal->nx(); ix++) {
    void *recvbuf = NULL;
    if (mpiWorld.getRank() == 0) {
      ImageFileArray vGlobal = imGlobal->getArray();
      recvbuf = vGlobal[ix];
    }
    mpiWorld.getComm().Reduce (vLocal[ix], recvbuf, imLocal->ny(), imLocal->getMPIDataType(), MPI::SUM, 0);
  }
}

#endif


#ifndef NO_MAIN
int 
main (int argc, char* argv[])
{
  int retval = 1;

  try {
    retval = pjrec_main(argc, argv);
  } catch (exception e) {
    cerr << "Exception: " << e.what() << endl;
  } catch (...) {
    cerr << "Unknown exception" << endl;
  }

  return (retval);
}
#endif