Beispiel #1
0
/*----------------------------------------------------------------------
 * main function
 *----------------------------------------------------------------------*/
int
main(int argc, char *argv[])
{
  size_t len;
  ConfigVars_t XLAL_INIT_DECL(GV);
  UserVariables_t XLAL_INIT_DECL(uvar);

  /* ------------------------------
   * read user-input and set up shop
   *------------------------------*/
  XLAL_CHECK ( XLALInitUserVars ( &uvar, argc, argv ) == XLAL_SUCCESS, XLAL_EFUNC );

  XLAL_CHECK ( XLALInitMakefakedata ( &GV, &uvar ) == XLAL_SUCCESS, XLAL_EFUNC );

  MultiSFTVector *mSFTs = NULL;
  MultiREAL8TimeSeries *mTseries = NULL;

  PulsarParamsVector *injectionSources = NULL;
  if ( uvar.injectionSources ) {
    XLAL_CHECK ( (injectionSources = XLALPulsarParamsFromUserInput ( uvar.injectionSources, NULL ) ) != NULL, XLAL_EFUNC );
  }

  CWMFDataParams XLAL_INIT_DECL(DataParams);
  DataParams.multiIFO           = GV.multiIFO;
  DataParams.multiNoiseFloor    = GV.multiNoiseFloor;
  DataParams.multiTimestamps 	= (*GV.multiTimestamps);
  DataParams.randSeed           = uvar.randSeed;
  DataParams.SFTWindowType      = uvar.SFTWindowType;
  DataParams.SFTWindowBeta      = uvar.SFTWindowBeta;
  if ( GV.inputMultiTS == NULL )
    {
      DataParams.fMin               = uvar.fmin;
      DataParams.Band               = uvar.Band;
      DataParams.inputMultiTS       = NULL;
    }
  else // current limitation: FIXME
    {
      DataParams.fMin               = 0;
      DataParams.Band               = 0;
      DataParams.inputMultiTS       = GV.inputMultiTS;
    }

  XLAL_CHECK ( XLALCWMakeFakeMultiData ( &mSFTs, &mTseries, injectionSources, &DataParams, GV.edat ) == XLAL_SUCCESS, XLAL_EFUNC );

  XLALDestroyPulsarParamsVector ( injectionSources );
  injectionSources = NULL;

  // if noiseSFTs specified, load them and add them to the resulting SFT-vector
  if ( GV.multiNoiseCatalogView )
    {
      SFTtype *sft0 = &(mSFTs->data[0]->data[0]);
      /* load effective frequency-band from noise-SFTs */
      UINT4 numBins = sft0->data->length;
      REAL8 dFreq   = sft0->deltaF;
      REAL8 fMin    = sft0->f0;
      REAL8 fMax    = fMin + ( numBins - 1 ) * dFreq;
      MultiSFTVector *mNoiseSFTs;
      XLAL_CHECK ( (mNoiseSFTs = XLALLoadMultiSFTsFromView ( GV.multiNoiseCatalogView, fMin, fMax )) != NULL, XLAL_EFUNC );
      XLAL_CHECK ( XLALMultiSFTVectorAdd ( mSFTs, mNoiseSFTs ) == XLAL_SUCCESS, XLAL_EFUNC );
      XLALDestroyMultiSFTVector ( mNoiseSFTs );
    }

  if (uvar.outSFTdir)
    {
      XLAL_CHECK ( is_directory ( uvar.outSFTdir ), XLAL_EINVAL );

      /* generate comment string */
      CHAR *logstr;
      XLAL_CHECK ( (logstr = XLALUserVarGetLog ( UVAR_LOGFMT_CMDLINE )) != NULL, XLAL_EFUNC );
      char *comment = XLALCalloc ( 1, len = strlen ( logstr ) + strlen(GV.VCSInfoString) + 512 );
      XLAL_CHECK ( comment != NULL, XLAL_ENOMEM, "XLALCalloc(1,%zu) failed.\n", len );
      sprintf ( comment, "Generated by:\n%s\n%s\n", logstr, GV.VCSInfoString );

      for ( UINT4 X=0; X < mSFTs->length; X ++ )
        {
          SFTVector *sfts = mSFTs->data[X];
          /* either write whole SFT-vector to single concatenated file */
          if ( uvar.outSingleSFT ) {
            XLAL_CHECK ( XLALWriteSFTVector2File( sfts, uvar.outSFTdir, comment, uvar.outLabel ) == XLAL_SUCCESS, XLAL_EFUNC );
          } else {	// or as individual SFT-files
            XLAL_CHECK ( XLALWriteSFTVector2Dir( sfts, uvar.outSFTdir, comment, uvar.outLabel ) == XLAL_SUCCESS, XLAL_EFUNC );
          }
        } // for X < numIFOs

      XLALFree ( logstr );
      XLALFree ( comment );

    } /* if outSFTdir */


   /* output ASCII time-series if requested */
  if ( uvar.TDDfile )
    {
      CHAR *fname = XLALCalloc (1, len = strlen(uvar.TDDfile) + 10 );
      XLAL_CHECK ( fname != NULL, XLAL_ENOMEM, "XLALCalloc(1,%zu) failed\n", len );

      for ( UINT4 X=0; X < mTseries->length; X ++ )
        {
          const REAL8TimeSeries *TS = mTseries->data[X];
          sprintf (fname, "%c%c-%s", TS->name[0], TS->name[1], uvar.TDDfile );
          XLAL_CHECK ( XLALdumpREAL8TimeSeries ( fname, TS ) == XLAL_SUCCESS, XLAL_EFUNC );

        } // for X < numDet

      XLALFree (fname);
    } /* if outputting ASCII time-series */

  /* output time-series to frames if requested */
#ifdef HAVE_LIBLALFRAME
  if ( GV.outFrameDir != NULL )
    {
      XLAL_CHECK ( XLALCheckValidDescriptionField ( uvar.outLabel ) == XLAL_SUCCESS, XLAL_EFUNC );
      len = strlen(GV.outFrameDir) + strlen(uvar.outLabel) + 100;
      char *fname;

      char *hist = XLALUserVarGetLog (UVAR_LOGFMT_CMDLINE);
      if ( XLALUserVarWasSet ( &uvar.outFrChannels ) ) {
        XLAL_CHECK ( uvar.outFrChannels->length == mTseries->length, XLAL_EINVAL, "--outFrChannels: number of channel names (%d) must agree with number of IFOs (%d)\n",
                     uvar.outFrChannels->length, mTseries->length );
      }

      for ( UINT4 X=0; X < mTseries->length; X ++ )
        {
          REAL8TimeSeries *Tseries = mTseries->data[X];

          /* use standard frame output filename format */
          char IFO[2] = { Tseries->name[0], Tseries->name[1] };
          LIGOTimeGPS startTimeGPS = Tseries->epoch;
          REAL8 duration = Tseries->data->length * Tseries->deltaT;
          XLAL_CHECK ( (fname = LALCalloc (1, len )) != NULL, XLAL_ENOMEM );
          size_t written = snprintf ( fname, len, "%s/%c-%c%c_%s-%d-%d.gwf",
                                      GV.outFrameDir, IFO[0], IFO[0], IFO[1], uvar.outLabel, startTimeGPS.gpsSeconds, (int)duration );
          XLAL_CHECK ( written < len, XLAL_ESIZE, "Frame-filename exceeds expected maximal length (%zu): '%s'\n", len, fname );

          /* define the output frame */
          LALFrameH *outFrame;
          XLAL_CHECK ( (outFrame = XLALFrameNew ( &startTimeGPS, duration, uvar.outLabel, 1, 0, 0 )) != NULL, XLAL_EFUNC );

          /* add timeseries to the frame - make sure to change the timeseries name since this is used as the channel name */
          char buffer[LALNameLength];
          // if output frame channel names given, use those
          if ( XLALUserVarWasSet ( &uvar.outFrChannels ) ) {
            written = snprintf ( buffer, sizeof(buffer), "%s", uvar.outFrChannels->data[X] );
            if ( buffer[2] == ':' ) { // check we got correct IFO association
              XLAL_CHECK ( (buffer[0] == Tseries->name[0]) && (buffer[1] == Tseries->name[1]), XLAL_EINVAL,
                           "Possible IFO mismatch: outFrChannel[%d] = '%s', IFO = '%c%c': be careful about --outFrChannel ordering\n", X, buffer, Tseries->name[0], Tseries->name[1] );
            } // if buffer[2]==':'
          } else if ( XLALUserVarWasSet ( &uvar.inFrChannels ) ) { // otherwise: if input frame channel names given, use them for output, append "-<outLabel>"
            written = snprintf ( buffer, sizeof(buffer), "%s-%s", uvar.inFrChannels->data[X], uvar.outLabel );
          } else { // otherwise: fall back to <IFO>:<outLabel> channel name
            written = snprintf ( buffer, sizeof(buffer), "%c%c:%s", Tseries->name[0], Tseries->name[1], uvar.outLabel );
          }
          XLAL_CHECK ( written < LALNameLength, XLAL_ESIZE, "Output frame name exceeded max length (%d): '%s'\n", LALNameLength, buffer );
          strcpy ( Tseries->name, buffer );

          XLAL_CHECK ( (XLALFrameAddREAL8TimeSeriesProcData ( outFrame, Tseries ) == XLAL_SUCCESS ) , XLAL_EFUNC );

          /* Here's where we add extra information into the frame - first we add the command line args used to generate it */
          XLALFrameAddFrHistory ( outFrame, __FILE__, hist );

          /* then we add the version string */
          XLALFrameAddFrHistory ( outFrame, __FILE__, GV.VCSInfoString );

          /* output the frame to file - compression level 1 (higher values make no difference) */
          XLAL_CHECK ( XLALFrameWrite ( outFrame, fname ) == XLAL_SUCCESS , XLAL_EFUNC );

          /* free the frame, frame file name and history memory */
          XLALFrameFree ( outFrame );
          XLALFree ( fname );

        } // for X < numDetectors

      XLALFree ( hist );

    } /* if GV.outFrameDir: outputting time-series to frames */
#endif // HAVE_LIBLALFRAME

  /* ---------- free memory ---------- */
  XLALDestroyMultiREAL8TimeSeries ( mTseries );
  XLALDestroyMultiSFTVector ( mSFTs );

  XLALFreeMem ( &GV );	/* free the config-struct */

  LALCheckMemoryLeaks();

  return 0;
} /* main */
Beispiel #2
0
/** The main function of binary2sft.c
 *
 */
int main( int argc, char *argv[] )  {

  UserInput_t uvar = empty_UserInput;           /* user input variables */
  INT4 i,j;                                     /* counter */
  SFTVector *SFTvect = NULL;
  char *noisestr = XLALCalloc(1,sizeof(char));

  /**********************************************************************************/
  /* register and read all user-variables */
  if (XLALReadUserVars(argc,argv,&uvar)) {
    LogPrintf(LOG_CRITICAL,"%s : XLALReadUserVars() failed with error = %d\n",__func__,xlalErrno);
    return 1;
  }
  LogPrintf(LOG_DEBUG,"%s : read in uservars\n",__func__);

  /**********************************************************************************/
  /* read in the cache file */
  FILE *cachefp = NULL;
  if ((cachefp = fopen(uvar.cachefile,"r")) == NULL) {
    LogPrintf(LOG_CRITICAL,"%s : failed to open binary input file %s\n",__func__,uvar.cachefile);
    return 1;
  }
  i = 0;
  while (fscanf(cachefp,"%*s %*d %*d")!=EOF) i++;
  INT4 Nfiles = i;
  fclose(cachefp);
  LogPrintf(LOG_DEBUG,"%s : counted %d files listed in the cache file.\n",__func__,Nfiles);

  /* allocate memory */
  char **filenames = LALCalloc(Nfiles,sizeof(char*));
  LIGOTimeGPSVector fileStart;
  fileStart.data = LALCalloc(Nfiles,sizeof(LIGOTimeGPS));
  for (i=0;i<Nfiles;i++) filenames[i] = LALCalloc(512,sizeof(char));

  if ((cachefp = fopen(uvar.cachefile,"r")) == NULL) {
    LogPrintf(LOG_CRITICAL,"%s : failed to open binary input file %s\n",__func__,uvar.cachefile);
    return 1;
  }

  for (i=0;i<Nfiles;i++) {
    fscanf(cachefp,"%s %d %d %*d",filenames[i],&(fileStart.data[i].gpsSeconds),&(fileStart.data[i].gpsNanoSeconds));
  }
  fclose(cachefp);

  /* initialise the random number generator */
  gsl_rng * r;
  if (XLALInitgslrand(&r,uvar.seed)) {
    LogPrintf(LOG_CRITICAL,"%s: XLALinitgslrand() failed with error = %d\n",__func__,xlalErrno);
    XLAL_ERROR(XLAL_EFAULT);
  }

  /* setup the binaryToSFT parameters */
  BinaryToSFTparams par;
  par.tsft = uvar.tsft;
  par.freq = uvar.freq;
  par.freqband = uvar.freqband;
  par.tsamp = uvar.tsamp;
  par.highpassf = uvar.highpassf;
  par.amp_inj = uvar.amp_inj;
  par.f_inj = uvar.f_inj;
  par.asini_inj = uvar.asini_inj;
  XLALGPSSetREAL8(&(par.tasc_inj),uvar.tasc_inj);
  par.tref = fileStart.data[0];
  par.P_inj = uvar.P_inj;
  par.phi_inj = uvar.phi_inj;
  par.r = r;

  /**********************************************************************************/
  /* loop over the input files */
  long int ntot = 0;
  for (j=0;j<Nfiles;j++) {

    UINT4 k = 0;
    INT8Vector *np = NULL;
    REAL8Vector *R = NULL;
    par.tstart = fileStart.data[j];
    REAL8 norm1 = par.tsamp/par.tsft;
    REAL8 norm2 = 1.0/(par.tsamp*par.tsft);
    UINT4 oldlen;
    if (SFTvect==NULL) oldlen = 0;
    else oldlen = SFTvect->length;
    LogPrintf(LOG_DEBUG,"%s : working on file %s\n",__func__,filenames[j]);

    if (XLALBinaryToSFTVector(&SFTvect,filenames[j],&(fileStart.data[j]),&par,&np,&R)) {
      LogPrintf(LOG_CRITICAL,"%s : failed to convert binary input file %s to sfts\n",__func__,filenames[j]);
      return 1;
    }
    if ((np!=NULL) && (R!=NULL)) {
      for (k=0;k<np->length;k++) {
        ntot += np->data[k];
        char temp[64];
        sprintf(temp,"%d %e %e\n",SFTvect->data[oldlen+k].epoch.gpsSeconds,(REAL8)np->data[k]*norm1,R->data[k]*norm2);
        noisestr = (char *)XLALRealloc(noisestr,sizeof(char)*(1+strlen(noisestr)+strlen(temp)));
        strcat(noisestr,temp);
      }
      XLALDestroyINT8Vector(np);
      XLALDestroyREAL8Vector(R);
    }

  }  /* end loop over input files */

  /**********************************************************************************/
  /* create a noise string */


  /**********************************************************************************/
  /* generate comment string */
  char *VCSInfoString = XLALGetVersionString(0);
  XLAL_CHECK ( VCSInfoString != NULL, XLAL_EFUNC, "XLALGetVersionString(0) failed.\n" );
  CHAR *logstr;
  size_t len;
  XLAL_CHECK ( (logstr = XLALUserVarGetLog ( UVAR_LOGFMT_CMDLINE )) != NULL, XLAL_EFUNC );
  char *comment = XLALCalloc ( 1, len = strlen ( logstr ) + strlen(VCSInfoString) + strlen(noisestr) + 512 );
  XLAL_CHECK ( comment != NULL, XLAL_ENOMEM, "XLALCalloc(1,%zd) failed.\n", len );
  sprintf ( comment, "Generated by:\n%s\n%s\nTotal number of photons = %ld\n%s\n", logstr, VCSInfoString, ntot, noisestr );

  /**********************************************************************************/
  /* either write whole SFT-vector to single concatenated file */
  if ( uvar.outSingleSFT ) {
    XLAL_CHECK ( XLALWriteSFTVector2File( SFTvect, uvar.outputdir, comment, uvar.outLabel ) == XLAL_SUCCESS, XLAL_EFUNC );
  } else {	/* or as individual SFT-files */
    XLAL_CHECK ( XLALWriteSFTVector2Dir( SFTvect, uvar.outputdir, comment, uvar.outLabel ) == XLAL_SUCCESS, XLAL_EFUNC );
  }

  /**********************************************************************************/
  /* free memory */
  XLALDestroySFTVector(SFTvect);
  XLALFree(logstr);
  XLALFree(comment);
  XLALFree(noisestr);

  LALCheckMemoryLeaks();

  return 0;

}
Beispiel #3
0
/*----------------------------------------------------------------------
 * main function
 *----------------------------------------------------------------------*/
int
main(int argc, char *argv[])
{
  SFTConstraints XLAL_INIT_DECL(constraints);
  LIGOTimeGPS XLAL_INIT_DECL(minStartTimeGPS);
  LIGOTimeGPS XLAL_INIT_DECL(maxStartTimeGPS);
  SFTCatalog *FullCatalog = NULL;
  CHAR *add_comment = NULL;
  UINT4 i;
  REAL8 fMin, fMax;

  UserInput_t XLAL_INIT_DECL(uvar);

  /* register all user-variables */
  XLAL_CHECK_MAIN ( initUserVars ( &uvar ) == XLAL_SUCCESS, XLAL_EFUNC );

  /* read cmdline & cfgfile  */
  XLAL_CHECK_MAIN ( XLALUserVarReadAllInput (argc, argv) == XLAL_SUCCESS, XLAL_EFUNC );

  if (uvar.help) {	/* help requested: we're done */
    exit (0);
  }

  /* ----- make sure output directory exists ---------- */
  if ( uvar.outputDir )
  {
    int ret;
    ret = mkdir ( uvar.outputDir, 0777);
    if ( (ret == -1) && ( errno != EEXIST ) )
      {
	int errsv = errno;
	LogPrintf (LOG_CRITICAL, "Failed to create directory '%s': %s\n", uvar.outputDir, strerror(errsv) );
	return -1;
      }
  }

  LIGOTimeGPSVector *timestamps = NULL;
  if ( uvar.timestampsFile )
    {
      if ( (timestamps = XLALReadTimestampsFile ( uvar.timestampsFile )) == NULL ) {
        XLALPrintError ("XLALReadTimestampsFile() failed to load timestamps from file '%s'\n", uvar.timestampsFile );
        return -1;
      }
    }

  /* use IFO-contraint if one given by the user */
  if ( LALUserVarWasSet ( &uvar.IFO ) ) {
    XLAL_CHECK_MAIN ( (constraints.detector = XLALGetChannelPrefix ( uvar.IFO )) != NULL, XLAL_EINVAL );
  }

  minStartTimeGPS.gpsSeconds = uvar.minStartTime;
  maxStartTimeGPS.gpsSeconds = uvar.maxStartTime;
  constraints.minStartTime = &minStartTimeGPS;
  constraints.maxStartTime = &maxStartTimeGPS;
  constraints.timestamps = timestamps;

  /* get full SFT-catalog of all matching (multi-IFO) SFTs */
  XLAL_CHECK_MAIN ( (FullCatalog = XLALSFTdataFind ( uvar.inputSFTs, &constraints )) != NULL, XLAL_EFUNC );

  if ( constraints.detector ) {
    XLALFree ( constraints.detector );
  }

  XLAL_CHECK_MAIN ( (FullCatalog != NULL) && (FullCatalog->length > 0), XLAL_EINVAL, "\nSorry, didn't find any matching SFTs with pattern '%s'!\n\n", uvar.inputSFTs );

  /* build up full comment-string to be added to SFTs: 1) converted by ConvertToSFTv2, VCS ID 2) user extraComment */
  {
    UINT4 len = 128;
    len += strlen ( uvar.inputSFTs );
    if ( uvar.extraComment )
      len += strlen ( uvar.extraComment );

    XLAL_CHECK_MAIN ( ( add_comment = LALCalloc ( 1, len )) != NULL, XLAL_ENOMEM );

    /** \deprecated FIXME: the following code uses obsolete CVS ID tags.
     *  It should be modified to use git version information. */
    sprintf ( add_comment, "Converted by $Id$, inputSFTs = '%s';", uvar.inputSFTs );
    if ( uvar.extraComment )
      {
	strcat ( add_comment, "\n");
	strcat ( add_comment, uvar.extraComment );
      }
  } /* construct comment-string */

  /* which frequency-band to extract? */
  fMin = -1;	/* default: all */
  fMax = -1;
  if ( LALUserVarWasSet ( &uvar.fmin ) )
    fMin = uvar.fmin;
  if ( LALUserVarWasSet ( &uvar.fmax ) )
    fMax = uvar.fmax;

  FILE *fpSingleSFT = NULL;
  if ( uvar.outputSingleSFT )
    XLAL_CHECK ( ( fpSingleSFT = fopen ( uvar.outputSingleSFT, "wb" )) != NULL,
                 XLAL_EIO, "Failed to open singleSFT file '%s' for writing\n", uvar.outputSingleSFT );

  /* loop over all SFTs in SFTCatalog */
  for ( i=0; i < FullCatalog->length; i ++ )
    {
      SFTCatalog oneSFTCatalog;
      SFTVector *thisSFT = NULL;
      const CHAR *sft_comment;
      CHAR *new_comment;
      UINT4 comment_len = 0;

      /* set catalog containing only one SFT */
      oneSFTCatalog.length = 1;
      oneSFTCatalog.data = &(FullCatalog->data[i]);

      comment_len = strlen ( add_comment ) + 10;
      sft_comment = oneSFTCatalog.data->comment;
      if ( sft_comment )
	comment_len += strlen ( sft_comment );

      XLAL_CHECK_MAIN ( ( new_comment  = LALCalloc (1, comment_len )) != NULL, XLAL_ENOMEM );

      if ( sft_comment ) {
	strcpy ( new_comment, sft_comment );
	strcat ( new_comment, ";\n");
      }
      strcat ( new_comment, add_comment );

      XLAL_CHECK_MAIN ( (thisSFT = XLALLoadSFTs ( &oneSFTCatalog, fMin, fMax )) != NULL, XLAL_EFUNC );

      if ( uvar.mysteryFactor != 1.0 ) {
	XLAL_CHECK_MAIN ( applyFactor2SFTs ( thisSFT, uvar.mysteryFactor ) == XLAL_SUCCESS, XLAL_EFUNC );
      }

      // if user asked for single-SFT output, add this SFT to the open file
      if ( uvar.outputSingleSFT )
        XLAL_CHECK ( XLAL_SUCCESS == XLALWriteSFT2fp( &(thisSFT->data[0]), fpSingleSFT, new_comment ),
                     XLAL_EFUNC,  "XLALWriteSFT2fp() failed to write SFT to '%s'!\n", uvar.outputSingleSFT );

      // if user asked for directory output, write this SFT into that directory
      if ( uvar.outputDir ) {
        XLAL_CHECK_MAIN ( XLALWriteSFTVector2Dir ( thisSFT, uvar.outputDir, new_comment, uvar.descriptionMisc ) == XLAL_SUCCESS, XLAL_EFUNC );
      }

      XLALDestroySFTVector ( thisSFT );

      XLALFree ( new_comment );

    } /* for i < numSFTs */

  if ( fpSingleSFT ) {
    fclose ( fpSingleSFT );
  }

  /* free memory */
  XLALFree ( add_comment );
  XLALDestroySFTCatalog ( FullCatalog );
  XLALDestroyUserVars();
  XLALDestroyTimestampVector ( timestamps );

  LALCheckMemoryLeaks();

  return 0;
} /* main */