1 /*****************************************************************************
5 ** Purpose: Reconstruct an image from projections
6 ** Programmer: Kevin Rosenberg
7 ** Date Started: Aug 1984
9 ** This is part of the CTSim program
10 ** Copyright (C) 1983-2000 Kevin Rosenberg
12 ** $Id: pjrec.cpp,v 1.1 2000/07/13 07:01:35 kevin Exp $
14 ** This program is free software; you can redistribute it and/or modify
15 ** it under the terms of the GNU General Public License (version 2) as
16 ** published by the Free Software Foundation.
18 ** This program is distributed in the hope that it will be useful,
19 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
20 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 ** GNU General Public License for more details.
23 ** You should have received a copy of the GNU General Public License
24 ** along with this program; if not, write to the Free Software
25 ** Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
26 ******************************************************************************/
32 enum {O_INTERP, O_FILTER, O_FILTER_METHOD, O_ZEROPAD, O_FILTER_PARAM, O_BACKPROJ, O_PREINTERPOLATION_FACTOR, O_VERBOSE, O_TRACE, O_HELP, O_DEBUG, O_VERSION};
34 static struct option my_options[] =
36 {"interp", 1, 0, O_INTERP},
37 {"preinterpolation-factor", 1, 0, O_PREINTERPOLATION_FACTOR},
38 {"filter", 1, 0, O_FILTER},
39 {"filter-method", 1, 0, O_FILTER_METHOD},
40 {"zeropad", 1, 0, O_ZEROPAD},
41 {"filter-param", 1, 0, O_FILTER_PARAM},
42 {"backproj", 1, 0, O_BACKPROJ},
43 {"trace", 1, 0, O_TRACE},
44 {"debug", 0, 0, O_DEBUG},
45 {"verbose", 0, 0, O_VERBOSE},
46 {"help", 0, 0, O_HELP},
47 {"version", 0, 0, O_VERSION},
53 pjrec_usage (const char *program)
55 cout << "usage: " << fileBasename(program) << " raysum-file image-file nx-image ny-image [OPTIONS]" << endl;
56 cout << "Image reconstruction from raysum projections" << endl;
58 cout << " raysum-file Input raysum file" << endl;
59 cout << " image-file Output image file in SDF2D format" << endl;
60 cout << " nx-image Number of columns in output image" << endl;
61 cout << " ny-image Number of rows in output image" << endl;
62 cout << " --interp Interpolation method during backprojection" << endl;
63 cout << " nearest Nearest neighbor interpolation" << endl;
64 cout << " linear Linear interpolation" << endl;
65 #if HAVE_BSPLINE_INTERP
66 cout << " bspline B-spline interpolation" << endl;
68 cout << " --preinterpolate Preinterpolation factor (default = 1)\n";
69 cout << " Used only with frequency-based filtering\n";
70 cout << " --filter Filter name" << endl;
71 cout << " abs_bandlimit Abs * Bandlimiting (default)" << endl;
72 cout << " abs_sinc Abs * Sinc" << endl;
73 cout << " abs_cos Abs * Cosine" << endl;
74 cout << " abs_hamming Abs * Hamming" << endl;
75 cout << " shepp Shepp-Logan" << endl;
76 cout << " bandlimit Bandlimiting" << endl;
77 cout << " sinc Sinc" << endl;
78 cout << " cos Cosine" << endl;
79 cout << " triangle Triangle" << endl;
80 cout << " hamming Hamming" << endl;
81 cout << " --filter-method Filter method before backprojections\n";;
82 cout << " convolution Spatial filtering (default)\n";
83 cout << " fourier Frequency filtering with discete fourier\n";
84 cout << " fourier_table Frequency filtering with table lookup fourier\n";
85 cout << " fft Fast Fourier Transform\n";
87 cout << " fftw Fast Fourier Transform West library\n";
88 cout << " rfftw Fast Fourier Transform West (real-mode) library\n";
90 cout << " --zeropad n Set zeropad level (default = 0)\n";
91 cout << " set n to number of powers to two to pad\n";
92 cout << " --backproj Backprojection Method" << endl;
93 cout << " trig Trigometric functions at every point" << endl;
94 cout << " table Trigometric functions with precalculated table" << endl;
95 cout << " diff Difference method" << endl;
96 cout << " diff2 Optimized difference method (default)" << endl;
97 cout << " idiff2 Optimized difference method with integer math" << endl;
98 cout << " idiff3 Highly-optimized difference method with integer math" << endl;
99 cout << " --filter-param Alpha level for Hamming filter" << endl;
100 cout << " --trace Set tracing to level" << endl;
101 cout << " none No tracing (default)" << endl;
102 cout << " text Text level tracing" << endl;
103 cout << " phm Trace phantom" << endl;
104 cout << " rays Trace allrays" << endl;
105 cout << " plot Trace plotting" << endl;
106 cout << " clipping Trace clipping" << endl;
107 cout << " --verbose Turn on verbose mode" << endl;
108 cout << " --debug Turn on debug mode" << endl;
109 cout << " --version Print version" << endl;
110 cout << " --help Print this help message" << endl;
115 static void ScatterProjectionsMPI (MPIWorld& mpiWorld, Projections& projGlobal, Projections& projLocal, const int debug);
116 static void ReduceImageMPI (MPIWorld& mpiWorld, ImageFile* imLocal, ImageFile* imGlobal);
121 pjrec_main (int argc, char * argv[])
123 Projections projGlobal;
124 ImageFile* imGlobal = NULL;
125 char* filenameProj = NULL;
126 char* filenameImage = NULL;
132 int optTrace = TRACE_NONE;
133 double optFilterParam = -1;
134 string optFilterName = SignalFilter::FILTER_ABS_BANDLIMIT_STR;
135 string optFilterMethodName = SignalFilter::FILTER_METHOD_CONVOLUTION_STR;
136 string optInterpName = Backprojector::INTERP_LINEAR_STR;
137 string optBackprojName = Backprojector::BPROJ_IDIFF2_STR;
138 // string optFilterMethodName = SignalFilter::FILTER_METHOD_CONVOLUTION_STR;
139 int optPreinterpolationFactor = 1;
143 int mpi_nview, mpi_ndet;
144 double mpi_detinc, mpi_rotinc, mpi_phmlen;
145 MPIWorld mpiWorld (argc, argv);
151 if (mpiWorld.getRank() == 0) {
154 int c = getopt_long(argc, argv, "", my_options, NULL);
163 optInterpName = optarg;
165 case O_PREINTERPOLATION_FACTOR:
166 optPreinterpolationFactor = strtol(optarg, &endptr, 10);
167 if (endptr != optarg + strlen(optarg)) {
168 pjrec_usage(argv[0]);
173 optFilterName = optarg;
175 case O_FILTER_METHOD:
176 optFilterMethodName = optarg;
179 optBackprojName = optarg;
182 optFilterParam = strtod(optarg, &endptr);
183 if (endptr != optarg + strlen(optarg)) {
184 pjrec_usage(argv[0]);
189 optZeroPad = strtol(optarg, &endptr, 10);
190 if (endptr != optarg + strlen(optarg)) {
191 pjrec_usage(argv[0]);
202 if ((optTrace = convertTraceNameToID(optarg)) == TRACE_INVALID) {
203 pjrec_usage(argv[0]);
209 cout << "Version " << VERSION << endl;
211 cout << "Unknown version number" << endl;
216 pjrec_usage(argv[0]);
219 pjrec_usage(argv[0]);
224 if (optind + 4 != argc) {
225 pjrec_usage(argv[0]);
229 filenameProj = argv[optind];
231 filenameImage = argv[optind + 1];
233 nx = strtol(argv[optind + 2], &endptr, 10);
234 ny = strtol(argv[optind + 3], &endptr, 10);
236 ostringstream filterDesc;
237 if (optFilterParam >= 0)
238 filterDesc << optFilterName << ": alpha=" << optFilterParam;
240 filterDesc << optFilterName;
243 label << "pjrec: " << nx << "x" << ny << ", " << filterDesc.str() << ", " << optInterpName << ", preinterpolation=" << optPreinterpolationFactor << ", " << optBackprojName;
244 remark = label.str();
247 cout << "Remark: " << remark << endl;
253 if (mpiWorld.getRank() == 0) {
254 projGlobal.read (filenameProj);
256 projGlobal.printScanInfo();
258 mpi_ndet = projGlobal.nDet();
259 mpi_nview = projGlobal.nView();
260 mpi_detinc = projGlobal.detInc();
261 mpi_phmlen = projGlobal.phmLen();
262 mpi_rotinc = projGlobal.rotInc();
265 TimerCollectiveMPI timerBcast (mpiWorld.getComm());
266 mpiWorld.BcastString (optBackprojName);
267 mpiWorld.BcastString (optFilterName);
268 mpiWorld.BcastString (optFilterMethodName);
269 mpiWorld.BcastString (optInterpName);
270 mpiWorld.getComm().Bcast (&optVerbose, 1, MPI::INT, 0);
271 mpiWorld.getComm().Bcast (&optDebug, 1, MPI::INT, 0);
272 mpiWorld.getComm().Bcast (&optTrace, 1, MPI::INT, 0);
273 mpiWorld.getComm().Bcast (&optFilterParam, 1, MPI::DOUBLE, 0);
274 mpiWorld.getComm().Bcast (&optZeroPad, 1, MPI::INT, 0);
275 mpiWorld.getComm().Bcast (&optPreinterpolationFactor, 1, MPI::INT, 0);
276 mpiWorld.getComm().Bcast (&mpi_ndet, 1, MPI::INT, 0);
277 mpiWorld.getComm().Bcast (&mpi_nview, 1, MPI::INT, 0);
278 mpiWorld.getComm().Bcast (&mpi_detinc, 1, MPI::DOUBLE, 0);
279 mpiWorld.getComm().Bcast (&mpi_phmlen, 1, MPI::DOUBLE, 0);
280 mpiWorld.getComm().Bcast (&mpi_rotinc, 1, MPI::DOUBLE, 0);
281 mpiWorld.getComm().Bcast (&nx, 1, MPI::INT, 0);
282 mpiWorld.getComm().Bcast (&ny, 1, MPI::INT, 0);
284 timerBcast.timerEndAndReport ("Time to broadcast variables");
286 mpiWorld.setTotalWorkUnits (mpi_nview);
288 Projections projLocal (mpiWorld.getMyLocalWorkUnits(), mpi_ndet);
289 projLocal.setDetInc (mpi_detinc);
290 projLocal.setPhmLen (mpi_phmlen);
291 projLocal.setRotInc (mpi_rotinc);
293 TimerCollectiveMPI timerScatter (mpiWorld.getComm());
294 ScatterProjectionsMPI (mpiWorld, projGlobal, projLocal, optDebug);
296 timerScatter.timerEndAndReport ("Time to scatter projections");
298 if (mpiWorld.getRank() == 0) {
299 imGlobal = new ImageFile (nx, ny);
302 imLocal = new ImageFile (nx, ny);
304 projGlobal.read (filenameProj);
306 projGlobal.printScanInfo();
308 imGlobal = new ImageFile (nx, ny);
312 TimerCollectiveMPI timerReconstruct (mpiWorld.getComm());
313 projLocal.reconstruct (*imLocal, optFilterName.c_str(), optFilterParam, optFilterMethodName.c_str(), optZeroPad, optInterpName.c_str(), optPreinterpolationFactor, optBackprojName.c_str(), optTrace);
315 timerReconstruct.timerEndAndReport ("Time to reconstruct");
317 TimerCollectiveMPI timerReduce (mpiWorld.getComm());
318 ReduceImageMPI (mpiWorld, imLocal, imGlobal);
320 timerReduce.timerEndAndReport ("Time to reduce image");
322 projGlobal.reconstruct (*imGlobal, optFilterName.c_str(), optFilterParam, optFilterMethodName.c_str(), optZeroPad, optInterpName.c_str(), optPreinterpolationFactor, optBackprojName.c_str(), optTrace);
326 if (mpiWorld.getRank() == 0)
329 double calcTime = timerProgram.timerEnd();
330 imGlobal->labelAdd (projGlobal.getLabel());
331 imGlobal->labelAdd (Array2dFileLabel::L_HISTORY, remark.c_str(), calcTime);
332 imGlobal->fileWrite (filenameImage);
334 cout << "Run time: " << calcTime << " seconds" << endl;
344 //////////////////////////////////////////////////////////////////////////////////////
345 // MPI Support Routines
347 //////////////////////////////////////////////////////////////////////////////////////
350 static void ScatterProjectionsMPI (MPIWorld& mpiWorld, Projections& projGlobal, Projections& projLocal, const int optDebug)
352 if (mpiWorld.getRank() == 0) {
353 for (int iProc = 0; iProc < mpiWorld.getNumProcessors(); iProc++) {
354 for (int iw = mpiWorld.getStartWorkUnit(iProc); iw <= mpiWorld.getEndWorkUnit(iProc); iw++) {
355 DetectorArray& detarray = projGlobal.getDetectorArray( iw );
356 int nDet = detarray.nDet();
357 DetectorValue* detval = detarray.detValues();
359 double viewAngle = detarray.viewAngle();
360 mpiWorld.getComm().Send(&nDet, 1, MPI::INT, iProc, 0);
361 mpiWorld.getComm().Send(&viewAngle, 1, MPI::DOUBLE, iProc, 0);
362 mpiWorld.getComm().Send(detval, nDet, MPI::FLOAT, iProc, 0);
367 for (int iw = 0; iw < mpiWorld.getMyLocalWorkUnits(); iw++) {
371 DetectorValue* detval = projLocal.getDetectorArray(iw).detValues();
373 mpiWorld.getComm().Recv(&nDet, 1, MPI::INT, 0, 0, status);
374 mpiWorld.getComm().Recv(&viewAngle, 1, MPI::DOUBLE, 0, 0, status);
375 mpiWorld.getComm().Recv(detval, nDet, MPI::FLOAT, 0, 0, status);
376 projLocal.getDetectorArray(iw).setViewAngle( viewAngle );
381 ReduceImageMPI (MPIWorld& mpiWorld, ImageFile* imLocal, ImageFile* imGlobal)
383 ImageFileArray vLocal = imLocal->getArray();
385 for (int ix = 0; ix < imLocal->nx(); ix++) {
386 void *recvbuf = NULL;
387 if (mpiWorld.getRank() == 0) {
388 ImageFileArray vGlobal = imGlobal->getArray();
389 recvbuf = vGlobal[ix];
391 mpiWorld.getComm().Reduce (vLocal[ix], recvbuf, imLocal->ny(), imLocal->getMPIDataType(), MPI::SUM, 0);
400 main (int argc, char* argv[])
405 retval = pjrec_main(argc, argv);
406 } catch (exception e) {
407 cerr << "Exception: " << e.what() << endl;
409 cerr << "Unknown exception" << endl;