#======================================================================
# E D I T _ D A T A . P L
# doc: Sat May 22 21:35:55 2010
# dlm: Thu Dec 30 20:24:08 2010
# (c) 2010 A.M. Thurnherr
# uE-Info: 127 0 NIL 0 0 72 2 2 4 NIL ofnI
#======================================================================
# HISTORY:
# May 22, 2010: - created
# May 24, 2010: - added editSideLobesFromSeabed()
# Oct 29, 2010: - added editCorr_Earthcoords
# Dec 20, 2010: - BUG: DISTANCE_TO_BIN1_CENTER & BIN_LENGTH had been
# interpreted as along-beam, rather than vertical
# - replaced editPitchRoll by editTilt
# Dec 25, 2010: - adapted to changes in [LADCP_w]
# NOTES:
# - all bins must be edited (not just valid ones), to allow
# reflr calculations to use invalid bins
#======================================================================
# $vv = countValidVels($ens)
#======================================================================
sub countValidBeamVels($)
{
my($ens) = @_;
my($vv) = 0;
for (my($bin)=0; $bin<$LADCP{N_BINS}; $bin++) {
$vv += defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][0]);
$vv += defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][1]);
$vv += defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][2]);
$vv += defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][3]);
}
return $vv;
}
#======================================================================
# $edited = editCorr($ens,$threshold)
#
# NOTES:
# - called before Earth vels have been calculated
#======================================================================
sub editCorr($$)
{
my($ens,$lim) = @_;
my($nrm) = 0;
for (my($bin)=0; $bin<$LADCP{N_BINS}; $bin++) {
for (my($beam)=0; $beam<4; $beam++) {
next if ($LADCP{ENSEMBLE}[$ens]->{CORRELATION}[$bin][$beam] >= $lim ||
!defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][$beam]));
undef($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][$beam]);
$nrm++;
}
}
return $nrm;
}
sub editCorr_Earthcoords($$)
{
my($ens,$lim) = @_;
my($nrm) = 0;
for (my($bin)=0; $bin<$LADCP{N_BINS}; $bin++) {
my($beam);
for ($beam=0; $beam<4; $beam++) {
last unless ($LADCP{ENSEMBLE}[$ens]->{CORRELATION}[$bin][$beam] >= $lim);
}
if ($beam < 4) {
for (my($c)=0; $c<4; $c++) {
next unless defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][$c]);
undef($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][$c]);
$nrm++;
}
}
}
return $nrm;
}
#======================================================================
# $edited = editTilt($ens,$threshold)
#
# NOTES:
# - called before Earth vels have been calculated
# - sets TILT field for each ensemble as a side-effect
# - for consistency with editCorr() the individual velocities are counted
#======================================================================
sub editTilt($$)
{
my($ens,$lim) = @_;
$LADCP{ENSEMBLE}[$ens]->{TILT} =
&angle_from_vertical($LADCP{ENSEMBLE}[$ens]->{PITCH},$LADCP{ENSEMBLE}[$ens]->{ROLL});
return 0 if ($LADCP{ENSEMBLE}[$ens]->{TILT} <= $lim);
my($nrm) = 0;
for (my($bin)=0; $bin<$LADCP{N_BINS}; $bin++) {
for (my($beam)=0; $beam<4; $beam++) {
next unless defined($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][$beam]);
undef($LADCP{ENSEMBLE}[$ens]->{VELOCITY}[$bin][$beam]);
$nrm++;
}
}
return $nrm;
}
#======================================================================
# $edited = editErrVel($ens,$threshold)
#
# NOTES:
# - call after Earth vels have been calculated
#======================================================================
sub editErrVel($$)
{
my($ens,$lim) = @_;
my($nrm) = 0;
for (my($bin)=0; $bin<$LADCP{N_BINS}; $bin++) {
next if (abs($LADCP{ENSEMBLE}[$ens]->{ERRVEL}[$bin]) <= $lim);
undef($LADCP{ENSEMBLE}[$ens]->{W}[$bin]);
$nrm++
}
return $nrm;
}
#======================================================================
# ($nvrm,$nerm) = editSideLobes($fromEns,$toEns,$range)
#
# NOTES:
# 1) When this code is executed the sound speed is known. No attempt is made to correct for
# along-beam soundspeed variation, but the soundspeed at the transducer is accounted for.
#======================================================================
sub editSideLobes($$$)
{
my($fe,$te,$wd) = @_; # first & last ens to process, water depth for downlooker
my($nvrm) = 0; # of velocities removed
my($nerm) = 0; # of ensembles affected
for (my($e)=$fe; $e<=$te; $e++) {
next unless numberp($LADCP{ENSEMBLE}[$e]->{CTD_DEPTH});
my($range) = $LADCP{ENSEMBLE}[$e]->{XDUCER_FACING_UP}
? $LADCP{ENSEMBLE}[$e]->{CTD_DEPTH}
: $wd - $LADCP{ENSEMBLE}[$e]->{CTD_DEPTH};
my($sscorr) = $CTD{SVEL}[$LADCP{ENSEMBLE}[$e]->{CTD_SCAN}] / 1500;
my($goodBins) = ($range - $sscorr*$LADCP{DISTANCE_TO_BIN1_CENTER})
/ ($sscorr*$LADCP{BIN_LENGTH})
- 1.5;
my($dirty) = 0;
for (my($bin)=int($goodBins); $bin<$LADCP{N_BINS}; $bin++) { # NB: 2 good bins implies that bin 2 is bad
next unless ($bin>=0 && defined($LADCP{ENSEMBLE}[$e]->{W}[$bin]));
$dirty = 1;
$nvrm++;
undef($LADCP{ENSEMBLE}[$e]->{W}[$bin]);
}
$nerm += $dirty;
}
return ($nvrm,$nerm);
}
1;