Пример #1
0
void smf_create_qualname( const char *mode, int indf, IRQLocs **qlocs,
                          int *status ) {

  int fixed;                 /* Flag to denote whether quality bit is fixed */
  size_t i;                  /* loop counter */
  int value;                 /* Value of current quality bit */
  int there = 0;             /* Flag to denote presence of NDF extension */
  HDSLoc *smurfloc = NULL;   /* HDS locator for the SMURF extension */

  if ( *status != SAI__OK ) return;

  /* Check for access mode */
  if (strncmp(mode,"READ",4) == 0 ) {
    msgOutif(MSG__DEBUG, "",
	     "Input file is read-only - unable to create quality names "
             "extension",
	     status);
    return;
  }

  msgOutif(MSG__DEBUG, "", "Creating quality names extension", status);
  ndfXstat( indf, SMURF__EXTNAME, &there, status );
  if (!there) {
    /* Create SMURF extension if it does not already exist */
    ndfXnew( indf, SMURF__EXTNAME, SMURF__EXTTYPE, 0, NULL, &smurfloc, status );
  }

  /* Create new quality names extension */
  irqNew( indf, SMURF__EXTNAME, qlocs, status );

  /* Add SMURF quality names -- check against smf_qual_str */
  msgOutif(MSG__DEBUG, "", "Adding SMURF quality names", status);
  for (i=0; i<SMF__NQBITS_TSERIES; i++) {
    const char * qdesc = NULL; /* Description of quality */
    const char * qstr = NULL;  /* Quality string identifier */
    qstr = smf_qual_str( SMF__QFAM_TSERIES, 1, i, &qdesc, status );

    /* Set the quality name */
    irqAddqn( *qlocs, qstr, 0, qdesc, status );

    /* Now fix the bits to the desired values */
    irqFxbit( *qlocs, qstr, i+1, &fixed, status );

    /* Set names to read only */
    irqRwqn( *qlocs, qstr, 1, 1, &value, status );
  }

  if ( smurfloc ) datAnnul( &smurfloc, status);
}
Пример #2
0
smf_qual_t * smf_qual_unmap( ThrWorkForce *wf, int indf, smf_qfam_t family,
                             smf_qual_t * qual, smf_qual_t mask, int * status ) {
  int canwrite = 0;   /* can we write to the file? */
  size_t nqbits = 0;  /* Number of quality bits in this family */
  SmfQualUnmapData *job_data = NULL;
  SmfQualUnmapData *pdata;
  int nw;
  size_t step;
  int iw;

  if (*status != SAI__OK) goto CLEANUP;

  /* do nothing if there is no quality */
  if (!qual) return NULL;

  /* if we do not have an NDF identifier we just free the memory */
  if (indf == NDF__NOID) goto CLEANUP;

  /* See if we have WRITE access to the file */
  ndfIsacc( indf, "WRITE", &canwrite, status );

  /* if we have WRITE access and the data were not mapped we have
     to copy to the file. Also check we have a non-NULL input pointer.
     If the data were mapped we still have to make sure the quality names
     are stored. */
  if ( canwrite && qual ) {
    int highbit = -1; /* highest bit used */
    size_t i;
    int itemp;
    int lowbit = -1;  /* Lowest bit used */
    size_t nout;
    int nqual = 0;
    void *qpntr[1];
    size_t qcount[SMF__NQBITS]; /* statically allocate the largest array */
    IRQLocs *qlocs;
    unsigned char * qmap;
    int there;

    ndfMsg( "FILE", indf );
    msgOutif( MSG__DEBUG, "", "Finalising quality for file ^FILE", status);

    if (family == SMF__QFAM_TCOMP ) {
      /* note that TCOMP is not an allowed quality because SMURF should not be
         using it anywhere in a permanent way. */
      *status = SAI__ERROR;
      ndfMsg( "NDF", indf );
      errRepf( "", "Unsupported quality family '%s' for quality unmapping of "
               "file ^NDF", status, smf_qfamily_str(family,status) );
      goto CLEANUP;
    } else if (family == SMF__QFAM_NULL) {
      /* In this case we have to assume that we just cast the quality
         to UBYTE and copy it without changing anything or naming the
         entries. Use a simple type conversion. */
      ndfMap( indf, "QUALITY", "_UBYTE", "WRITE", &qpntr[0], &itemp, status );
      qmap = qpntr[0];
      nout = itemp;

      for (i = 0; i<nout; i++) {
        qmap[i] = qual[i];
      }
      ndfUnmap( indf, "QUALITY", status );

      /* Turn on all quality */
      ndfSbb( 255, indf, status );

      /* we are finished so jump to tidy up */
      goto CLEANUP;
    }

    /* work out how many quality items are in this family */
    nqbits = smf_qfamily_count( family, status );

    /* initialize qcount */
    for (i=0; i<SMF__NQBITS; i++) {
      qcount[i] = 0;
    }

    /* how many pixels in NDF (assumed to be number in quality) */
    ndfSize( indf, &itemp, status );
    nout = itemp;

    /* How many threads do we get to play with */
    nw = wf ? wf->nworker : 1;

    /* Find how many elements to process in each worker thread. */
    step = nout/nw;
    if( step == 0 ) step = 1;

    /* Allocate job data for threads, and store common values. Ensure that the
       last thread picks up any left-over elements.  */
    job_data = astCalloc( nw, sizeof(*job_data) );
    if( *status == SAI__OK ) {
      for( iw = 0; iw < nw; iw++ ) {
        pdata = job_data + iw;
        pdata->i1 = iw*step;
        if( iw < nw - 1 ) {
          pdata->i2 = pdata->i1 + step - 1;
        } else {
          pdata->i2 = nout - 1 ;
        }
        pdata->nqbits = nqbits;
        pdata->qual = qual;
        pdata->nout = nout;
      }
    }

    /* Work out which bits are actually used */
    if (*status == SAI__OK) {
      size_t k;
      /* now we try to be a bit clever. It may be a mistake since we have to
         do multiple passes through "qual". First determine how many quality
         bits are actually set. */

      for( iw = 0; iw < nw; iw++ ) {
        pdata = job_data + iw;
        pdata->operation = 1;
        thrAddJob( wf, 0, pdata, smf1_qual_unmap, 0, NULL, status );
      }
      thrWait( wf, status );

      for( iw = 0; iw < nw; iw++ ) {
        pdata = job_data + iw;
        for( k=0; k<nqbits; k++ ) {
          qcount[k] += pdata->qcount[k];
        }
      }

      /* Reset the counts to zero for any bits that are not required
         (i.e. are not set in "mask").  */
      for( k=0; k<nqbits; k++ ) {
         if( ! (mask & (1<<k)) ) qcount[k] = 0;
      }

      /* see how many we got */
      for (k=0; k<nqbits; k++) {

        if ( qcount[k] ) {
          nqual++;
          highbit = k;
          if (lowbit < 0) lowbit = k;
        }
      }
    }

    /* for IRQ we need to ensure the SMURF extension exists so open and annul it if it is missing.
       We are completely rewriting any IRQ information so we have to delete any previously existing
       IRQ extension. */
    irqDelet( indf, status );
    ndfXstat( indf, SMURF__EXTNAME, &there, status );
    if (!there) {
      HDSLoc * smurfloc = NULL;
      /* Create SMURF extension if it does not already exist */
      ndfXnew( indf, SMURF__EXTNAME, SMURF__EXTTYPE, 0, NULL, &smurfloc, status );
      if (smurfloc) datAnnul( &smurfloc, status );
    }
    irqNew( indf, SMURF__EXTNAME, &qlocs, status );

    /* malloced so we need to map and copy over the values. IRQ
       names need to be set BEFORE we copy. */

    /* Map the quality component with WRITE access */
    ndfMap( indf, "QUALITY", "_UBYTE", "WRITE", &qpntr[0], &itemp, status );
    qmap = qpntr[0];

    /* we assume the number of elements in "qual" is the same as in "qmap" */
    if (*status == SAI__OK) {
      size_t k;

      /* if we only have 8 or fewer bits active we can just compress
         by mapping them to the lower 8 bits. This will work if we also
         set the IRQ quality names in the NDF. */
      if (nqual == 0 ) {
        /* easy */
        memset( qmap, 0, nout * smf_dtype_sz( SMF__UBYTE, status ) );
      } else if ( nqual <= 8 ) {
        size_t curbit = 0;

        /* and the quality names. Start at lowbit and go to highbit
           knowing that we have shifted them down so that lowbit in qual
           is bit 0 in NDF. */
        for (k=lowbit; k<=(size_t)highbit; k++) {
          if (qcount[k]) {
            int fixed = 0;             /* is bit fixed? */
            const char * qdesc = NULL; /* Description of quality */
            const char * qstr = NULL;  /* Quality string identifier */
            curbit++;
            qstr = smf_qual_str( family, 1, k, &qdesc, status );

            irqAddqn( qlocs, qstr, 0, qdesc, status );
            irqFxbit( qlocs, qstr, curbit, &fixed, status );
          }
        }

        /* shift them down */
        for( iw = 0; iw < nw; iw++ ) {
          pdata = job_data + iw;
          pdata->operation = 2;
          pdata->qmap = qmap;
          pdata->highbit = highbit;
          pdata->lowbit = lowbit;
          for( k=0; k<nqbits; k++ ) {
            pdata->qcount[k] = qcount[k];
          }
          thrAddJob( wf, 0, pdata, smf1_qual_unmap, 0, NULL, status );
        }
        thrWait( wf, status );

      } else {
        size_t curbit = 0;

        /* Quality names are now needed and we have to write them
           all out because we have not compressed the bits in the
           output quality array we've only compressed the input.
           To limit the number of active bits we'd have to copy the
           compressed bits to the output and then set the quality
           names but IRQ does not let you do that so you would need
           to run through the entire array first counting which bits
           were used. */

        for (k=0; k<SMF__NQBITS_TCOMP; k++) {
          int fixed = 0;
          const char * qdesc = NULL; /* Description of quality */
          const char * qstr = NULL;  /* Quality string identifier */
          qstr = smf_qual_str( SMF__QFAM_TCOMP, 1, k, &qdesc, status );

          /* Set the quality name */
          irqAddqn( qlocs, qstr, 0, qdesc, status );
          curbit++;
          irqFxbit( qlocs, qstr, curbit, &fixed, status );
        }

        /* compress them */
        for( iw = 0; iw < nw; iw++ ) {
          pdata = job_data + iw;
          pdata->operation = 3;
          pdata->qmap = qmap;
          thrAddJob( wf, 0, pdata, smf1_qual_unmap, 0, NULL, status );
        }
        thrWait( wf, status );

      }
    }

    /* Unmap quality */
    ndfUnmap( indf, "QUALITY", status );

    /* Set the badbits mask to enable all quality by default.
       Do not do this for MAP quality at the moment. */
    if (family != SMF__QFAM_MAP) ndfSbb( 255, indf, status );

    /* release IRQ resources */
    irqRlse( &qlocs, status );
  }

 CLEANUP:
  /* Tidy up */
  qual = astFree( qual );
  job_data = astFree( job_data );
  return NULL;

}
Пример #3
0
smf_qual_t * smf_qual_unmap( int indf, smf_qfam_t family, smf_qual_t * qual, int * status ) {
  int canwrite = 0;   /* can we write to the file? */
  size_t nqbits = 0;  /* Number of quality bits in this family */

  if (*status != SAI__OK) goto CLEANUP;

  /* do nothing if there is no quality */
  if (!qual) return NULL;

  /* if we do not have an NDF identifier we just free the memory */
  if (indf == NDF__NOID) goto CLEANUP;

  /* See if we have WRITE access to the file */
  ndfIsacc( indf, "WRITE", &canwrite, status );

  /* if we have WRITE access and the data were not mapped we have
     to copy to the file. Also check we have a non-NULL input pointer.
     If the data were mapped we still have to make sure the quality names
     are stored. */
  if ( canwrite && qual ) {
    int highbit = -1; /* highest bit used */
    size_t i;
    int itemp;
    int lowbit = -1;  /* Lowest bit used */
    size_t nout;
    int nqual = 0;
    void *qpntr[1];
    size_t qcount[SMF__NQBITS]; /* statically allocate the largest array */
    IRQLocs *qlocs;
    unsigned char * qmap;
    int there;

    ndfMsg( "FILE", indf );
    msgOutif( MSG__DEBUG, "", "Finalising quality for file ^FILE", status);

    if (family == SMF__QFAM_TCOMP ) {
      /* note that TCOMP is not an allowed quality because SMURF should not be
         using it anywhere in a permanent way. */
      *status = SAI__ERROR;
      ndfMsg( "NDF", indf );
      errRepf( "", "Unsupported quality family '%s' for quality unmapping of "
               "file ^NDF", status, smf_qfamily_str(family,status) );
      goto CLEANUP;
    } else if (family == SMF__QFAM_NULL) {
      /* In this case we have to assume that we just cast the quality
         to UBYTE and copy it without changing anything or naming the
         entries. Use a simple type conversion. */
      ndfMap( indf, "QUALITY", "_UBYTE", "WRITE", &qpntr[0], &itemp, status );
      qmap = qpntr[0];
      nout = itemp;

      for (i = 0; i<nout; i++) {
        qmap[i] = qual[i];
      }
      ndfUnmap( indf, "QUALITY", status );

      /* Turn on all quality */
      ndfSbb( 255, indf, status );

      /* we are finished so jump to tidy up */
      goto CLEANUP;
    }

    /* work out how many quality items are in this family */
    nqbits = smf_qfamily_count( family, status );

    /* initialize qcount */
    for (i=0; i<SMF__NQBITS; i++) {
      qcount[i] = 0;
    }

    /* how many pixels in NDF (assumed to be number in quality) */
    ndfSize( indf, &itemp, status );
    nout = itemp;

    /* Work out which bits are actually used */
    if (*status == SAI__OK) {
      size_t k;
      /* now we try to be a bit clever. It may be a mistake since we have to
         do multiple passes through "qual". First determine how many quality
         bits are actually set. */
      for (i = 0; i<nout; i++) {
        /* try all the bits */
        for( k=0; k<nqbits; k++ ) {
          if( qual[i] & BIT_TO_VAL(k) ) {
            qcount[k]++;
          }
        }
      }

      /* see how many we got */
      for (k=0; k<nqbits; k++) {
        if ( qcount[k] ) {
          nqual++;
          highbit = k;
          if (lowbit < 0) lowbit = k;
        }
      }
    }

    /* for IRQ we need to ensure the SMURF extension exists so open and annul it if it is missing.
       We are completely rewriting any IRQ information so we have to delete any previously existing
       IRQ extension. */
    irqDelet( indf, status );
    ndfXstat( indf, SMURF__EXTNAME, &there, status );
    if (!there) {
      HDSLoc * smurfloc = NULL;
      /* Create SMURF extension if it does not already exist */
      ndfXnew( indf, SMURF__EXTNAME, SMURF__EXTTYPE, 0, NULL, &smurfloc, status );
      if (smurfloc) datAnnul( &smurfloc, status );
    }
    irqNew( indf, SMURF__EXTNAME, &qlocs, status );

    /* malloced so we need to map and copy over the values. IRQ
       names need to be set BEFORE we copy. */

    /* Map the quality component with WRITE access */
    ndfMap( indf, "QUALITY", "_UBYTE", "WRITE", &qpntr[0], &itemp, status );
    qmap = qpntr[0];

    /* we assume the number of elements in "qual" is the same as in "qmap" */
    if (*status == SAI__OK) {
      size_t k;

      /* if we only have 8 or fewer bits active we can just compress
         by mapping them to the lower 8 bits. This will work if we also
         set the IRQ quality names in the NDF. */
      if (nqual == 0 ) {
        /* easy */
        memset( qmap, 0, nout * smf_dtype_sz( SMF__UBYTE, status ) );
      } else if ( nqual <= 8 ) {
        size_t curbit = 0;

        /* and the quality names. Start at lowbit and go to highbit
           knowing that we have shifted them down so that lowbit in qual
           is bit 0 in NDF. */
        for (k=lowbit; k<=(size_t)highbit; k++) {
          if (qcount[k]) {
            int fixed = 0;             /* is bit fixed? */
            const char * qdesc = NULL; /* Description of quality */
            const char * qstr = NULL;  /* Quality string identifier */
            curbit++;
            qstr = smf_qual_str( family, 1, k, &qdesc, status );

            irqAddqn( qlocs, qstr, 0, qdesc, status );
            irqFxbit( qlocs, qstr, curbit, &fixed, status );
          }
        }

        /* shift them down */
        for (i=0; i<nout; i++) {
          curbit = 0;
          qmap[i] = 0;

          for (k=lowbit; k<=(size_t)highbit; k++) {
            /* was this bit used by this data array? */
            if (qcount[k]) {
              /* was the bit set for this location? */
              if ( qual[i]&BIT_TO_VAL(k)) {
                qmap[i] |= BIT_TO_VAL(curbit);
              }
              curbit++;
            }
          }
        }

      } else {
        size_t curbit = 0;

        /* Quality names are now needed and we have to write them
           all out because we have not compressed the bits in the
           output quality array we've only compressed the input.
           To limit the number of active bits we'd have to copy the
           compressed bits to the output and then set the quality
           names but IRQ does not let you do that so you would need
           to run through the entire array first counting which bits
           were used. */

        for (k=0; k<SMF__NQBITS_TCOMP; k++) {
          int fixed = 0;
          const char * qdesc = NULL; /* Description of quality */
          const char * qstr = NULL;  /* Quality string identifier */
          qstr = smf_qual_str( SMF__QFAM_TCOMP, 1, k, &qdesc, status );

          /* Set the quality name */
          irqAddqn( qlocs, qstr, 0, qdesc, status );
          curbit++;
          irqFxbit( qlocs, qstr, curbit, &fixed, status );
        }

        /* compress them */
        for (i = 0; i<nout; i++) {
          qmap[i] = 0;
          if (qual[i]) {
            if ( qual[i] & (SMF__Q_BADDA|SMF__Q_BADB|SMF__Q_NOISE) ) {
              qmap[i] |= SMF__TCOMPQ_BAD;
            }
            if ( qual[i] & (SMF__Q_APOD|SMF__Q_PAD) ) {
              qmap[i] |= SMF__TCOMPQ_ENDS;
            }
            if ( qual[i] & (SMF__Q_JUMP|SMF__Q_SPIKE|SMF__Q_FILT|SMF__Q_EXT|SMF__Q_LOWAP|SMF__Q_BADEF) ) {
              qmap[i] |= SMF__TCOMPQ_BLIP;
            }
            if ( qual[i] & (SMF__Q_COM) ) {
              qmap[i] |= SMF__TCOMPQ_MATCH;
            }
            if ( qual[i] & (SMF__Q_STAT) ) {
              qmap[i] |= SMF__TCOMPQ_TEL;
            }
            if (qmap[i] == 0 ) {
              /* something went wrong. We missed a quality bit somewhere */
              msgOutiff(MSG__QUIET, "", FUNC_NAME ": Untested quality bit found"
                        " in position %zu with value %u", status,
                        i, (unsigned int)qual[i]);
            }
          }
        }

      }
    }

    /* Unmap quality */
    ndfUnmap( indf, "QUALITY", status );

    /* Set the badbits mask to enable all quality by default.
       Do not do this for MAP quality at the moment. */
    if (family != SMF__QFAM_MAP) ndfSbb( 255, indf, status );

    /* release IRQ resources */
    irqRlse( &qlocs, status );
  }

 CLEANUP:
  /* Tidy up */
  if (qual) qual = astFree( qual );
  return NULL;

}