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Дата изменения: Thu Jun 29 00:31:24 2006
Дата индексирования: Sat Dec 22 12:35:56 2007
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Поисковые слова: п п п п п п п п
Algorithm XMM-Newton SAS Home Page
XMM-Newton Science Analysis System


rgssources (rgssources-5.31.1) [xmmsas_20060628_1801-7.0.0]

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Algorithm

  read parameters;

################# start format upgrade section.

  if (filemode eq 'modify') {
    # convert old-style source list if necessary:
    if (! instrument_supplied) {
      if (hasAttribute(set, 'INSTRUME')) {
        instrument = stringAttribute(oldListSet, 'INSTRUME');
      } else {
        # attempt to get it from file name:
if (! instrument_in_filename) {call error;}
      }
    }

    call CAL_setState(instrument=instrumentId);

    rename table to 'SRCLIST';
    get attitude from *_REF keywords;
    write_generic_keywords;
    if (writeobskwds) {write_observation_keywords;}
    if (writeexpkwds) {
      if (! exposure_supplied) {
        if (hasAttribute(set, 'EXP_ID')) {
          exposure = stringAttribute(oldListSet, 'EXP_ID');
        } else {
          # attempt to get it from file name:
if (! exposure_in_filename) {call error;}
        }
      }
    }

    # Convert columns:
    n_offaxis_sources = 0;
    foreach (source) {
      fixed_on_sky = true; # default
      process      = false; # default
      bkg_exclude  = false; # default
      if (old_label eq 'proposal') {
        new_label = 'PROPOSAL';
        new_ra    = old_ra;
        new_dec   = old_dec;

      } elsif (label eq 'onaxis') {
        new_label    = 'ON_AXIS';
        new_ra       = attitude_ra;
        new_dec      = attitude_dec;
        delta_disp   = 0;
        delta_xdsp   = 0;
        new_fov_phi  = 0;
        new_fov_r    = 0;
        fixed_on_sky = false;

      } elsif (label eq 'epic') {
        new_label = 'OLDEPIC'.id_band.ml_id_src;
        new_ra    = old_ra;
        new_dec   = old_dec;
        epic_file = number of bands found;

      } elsif (label eq 'offaxis') {
        n_offaxis_sources = n_offaxis_sources + 1;

        new_label    = 'OFFAXIS'.n_offaxis_sources;
        delta_disp   = rgs_disp;
        delta_xdsp   = rgs_xdsp;
        calculate new_fov_phi, new_fov_r;
        fixed_on_sky = false;

      } else { # assume is user-added source.
        new_label = upper_case(old_label);
        new_ra    = old_ra;
        new_dec   = old_dec;
      }
      new_rate = old_rate;
      if (src_select  > 0) {process     = true;}
      if (back_select > 0) {bkg_exclude = true;}
      if (fixed_on_sky) {
        calculate delta_disp;
        calculate delta_xdsp;
        calculate new_fov_phi;
        calculate new_fov_r;

      } else {
        calculate new_ra;
        calculate new_dec;
      }
    }

  calculate_confusion(src_data, prime_index);
  delete old columns;
  write column data to new columns;
  write epic keywords;
  }

################# end format upgrade section.

  # get the instrument:
  if (filemode eq 'modify') {
    instrument = stringAttribute(oldListSet, 'INSTRUME');
  } else {
    # get instrument from parameter;
if (instrument parameter at default value) {call error;}
  }
  # get the exposure number:
  expid_is_valid = true;
  if (filemode eq 'modify') {
    exposure = int32Attribute(oldListSet, 'EXP_ID');
  } else {
    # get exposure from parameter;
    if (exposure parameter at default value) {
      expid_is_valid = false;
    }
  }

  call CAL_setState(instrument=instrumentId);

  # get the pointing:
  if (filemode .eq. 'modify' && ! changeAttitude) {
    # read attitude from old source list;
  } elsif (attitudeStyle .eq. 'user') {
    # read attitude from attra, attdec and attapos parameters;
  } else {
if (!expid_is_valid) {call error;}
    call OAL_setState(instrument=instrument, exposureNr=exposure);
    if (attitudeStyle .eq. 'start') {
      # get attitude from attitude at start of observation;
    } elsif (attitudeStyle .eq. 'mean') {
      # get attitude from mean of attitude history file values;
    } elsif (attitudeStyle .eq. 'median') {
      # get attitude from median of attitude history file values;
    }
  }

  allocate(src_data(max_number_sources));

  if (filemode eq 'create') {
    proposal position -> src_data(1);
    attitude position -> src_data(2);

  } else { # filemode eq 'modify'
    open(old rgs set, 'READ');
    call check(old rgs list); # This checks that all label names are unique,
    # and that there is a proposal and attitude source.

    old rgs sources -> src_data;
    release(old rgs set);

    if (changeattitude) {attitude position -> src_data(index of onaxis src);}
  }

  if (withepicset) {
    clone(old epic set);
    if (enablefilter) {spatial filtering of cloned epic set;}
    foreach(epic source) {
      label = 'epiclabelprefix'.column('*_ID_SRC');
      foreach(source already in src_data) {
        if (label eq src_data(LABEL)) {
          no_label_clash = F;
          if (clobberonlabel) {
      last;
          } else {
call error;
          }
        }
      }
      if (no_label_clash) {
        epic source -> src_data;
      }
    }
    release(old epic set);
  }

  if (addusersource) {
    foreach(source already in src_data) {
      if (label eq src_data(LABEL)) {
        no_label_clash = F;
        if (clobberonlabel) {
    last;
        } else {
call error;
        }
      }
    }
    if (no_label_clash) {
      user source -> src_data;
    }
  }

  # Possible routine in this place that filters out (or at least identifies)
  # all pairs of too-close sources.

  if (changeattitude or null in column) {
    foreach(source in src_data) {
      # Calculate ra/dec or delta_disp/delta_xdsp/fov_phi/fov_r, as appropriate;
    }
  }

  # Write the data to file:
  if (filemode eq 'create') {
    open(new rgs set, 'CREATE');
    # write keywords to header:
    write_generic_keywords;
    if (writeobskwds) {write_observation_keywords;}
    if (writeexpkwds && expid_is_valid) {write_exposure_keywords;}

  } else { # filemode eq 'modify'
    open(old rgs set, 'MODIFY');
    if (changeattitude) {
      rewrite attitude attributes (#RA_PNT etc);
      delete all region extensions;
      set PROCESS and BKG_EXCLUDE to false;
    }
    delete all table entries;
  }

  src_data -> new rgs set;
  if (withepicset) {
    write_epic_specific_keywords;
  }

  if (enablefilter) {check that all members of the src list are within the
  fov, warn if not;}

  # Now calculate prime source index value:
  if (filemode eq 'modify' && !changeprime) {
    prime_index = prime_index in old file;
  } else {
    if (addusersource && userasprime) {
      prime_index = index of (last) user-added source;
    } else {
      if (primestyle eq 'label') {
        prime_index = index of source with label=primesourcelabel;
      } elsif(primestyle eq 'index') {
        prime_index = primesourceindex;
      } elsif(primestyle eq 'brightest') {
        prime_index = index of brightest source;
      } elsif(primestyle eq 'auto') {
        if (proposal source is within FOV) {
          prime_index = index of proposal source;
        } elsif (there are some epic sources within FOV) {
          prime_index = index of brightest within-FOV epic source;
        } else {
          prime_index = index of pointing (ONAXIS) source;
        }
      }
    }
  } else {
    prime_index = previous prime_index;
  }

  if (filemode eq 'create' || changeprime) {
    prime_index -> #PRIMESRC;
  }

  call calculate_confusion(src_data, prime_index);
  # Write the confusion data to file:
  # release the data set.



XMM-Newton SOC/SSC -- 2006-06-28