#!/usr/bin/perl
#======================================================================
# E D I T P D 0
# doc: Mon Nov 25 20:24:31 2013
# dlm: Tue Nov 15 11:05:46 2016
# (c) 2013 A.M. Thurnherr
# uE-Info: 73 76 NIL 0 0 72 2 2 4 NIL ofnI
#======================================================================
# edit RDI PD0 file, e.g. to replace pitch/roll/heading with external values
# NOTES:
#
# - editing instructions can be provided either in an editing file (primarily
# for ensemble-specific editing), or with the -x option on the command line
# (only or editing applied to all ensembles)
#
# - Data-Editing Library:
# p(<pitch>) set pitch value (RDI not gimbal pitch) of current ensemble
# r(<roll>) set roll alue value of current ensemble
# h(<heading>) set heading alue value of current ensemble
#
# swap_beams(<b1>,<b2>) swap data from beams b1 and b2
# - input in beam coords required
# - beam rotation is equivalent to 3 consecutive beam swaps
# - basic BT data are swapped as well (not RL and not SIGNAL_STRENGTH)
#
# earth2beam() transform beam to earth coordinates
# - does not handle bin-remapping
# - input in earth coords required
#
# beam2earth() transform earth to beam coordinates
# - does not handle bin-remapping
# - input in beam coords required
#
# instrument2beam() transform instrument to earth coordinates
# - does not handle bin-remapping
# - input in instrument coords required
#
# ensure_UL() correct data for wrong transducer orientation
# ensure_DL() - sets correct flag & negates roll value
#
# - -x notes:
# - multiple perl expressions can be combined with ,
#
# - Edit File Syntax:
# - # comments ignored
# - empty lines ignored
# - [space] <ensemble-number|*> <space> <perl-expr>
# - Examples:
# 162 p(3), r(4), h(3.14)
# HISTORY:
# Nov 25, 2013: - created
# Dec 18, 2015: - added switch_beams()
# - added -x
# Jan 9, 2016: - renamed switch_beams() to swap_beams()
# - wrote documentation
# - change output data-source ID from 0x7F to 0xE0
# - updated getopts to current perl version
# - adapted to [ADCP_tools_lib.pl]
# Feb 15, 2016: - added ensure_UL() ensure_DL()
# Feb 23, 2016: - added -k
# Feb 26, 2016: - added basic BT data to swap_beams()
# - added earth2beam()
# Apr 12, 2016: - added instrument2beam()
# Jun 3, 2016: - added beam2earth()
# - BUG: instrument2earth() set wrong flag
# Jun 8, 2016: - adapted to new interface of velInstrumentToBeam()
# - added %-good to beam2earth and earth2beam
# - made single-ping ensemble requirement for most routines
# Jul 12, 2016: - updated ensure_{DL,UL} routines
# Nov 15, 2016: - BUG: ensure_{DL,UL} routines did not negate heading data
use Getopt::Std;
($ADCP_TOOLS) = ($0 =~ m{(.*/)[^/]+});
$ADCP_tools_minVersion = 1.4;
require "$ADCP_TOOLS/ADCP_tools_lib.pl";
$USAGE = "$0 @ARGV";
die("Usage: $0 " .
'-e) <edit-file> | -x) <expr> ' .
'-k)eep original data-source id' .
"<input file> <output file>\n")
unless (&getopts('ke:x:') && @ARGV == 2);
die("$0: -e <edit-file> or -x <expr> required\n")
unless (defined($opt_x) || -r $opt_e);
print(STDERR "Reading $ARGV[0]..."); # read data
readData($ARGV[0],\%dta);
printf(STDERR "done (%d complete ensembles)\n",
scalar(@{$dta{ENSEMBLE}}));
#----------------------------------------------------------------------
print(STDERR "Editing Data...");
#--------------------------------------------------
# Data Editing Library
#--------------------------------------------------
#
# override pitch/roll/heading
#
sub p($) { $dta{ENSEMBLE}[$e]->{PITCH} = $_[0]; return 1; }
sub r($) { $dta{ENSEMBLE}[$e]->{ROLL} = $_[0]; return 1; }
sub h($) { $dta{ENSEMBLE}[$e]->{HEADING} = $_[0]; return 1;}
#
# override transducer orientation
#
# These routines are intended to correct ADCP data for
# erroneous orientation switch readings, primarily because
# of a stuck switch.
# Roll: Based on text from the coord trans manual,
# it seems likely that the roll data need to
# be negated. In case of 2007(?) CLIVAR I08S
# profile #1 w gets much better with negated
# roll. Also, in 2016 CLIVAR P18 profile 003
# the instrument-offset calculation from
# compass and pitch/roll only agree with the
# roll negated.
# Hdg: Based on the time-series of headings recorded
# during P18 profile 003 the heading needs
# to be negated. Doing so yields a good profile.
sub ensure_DL()
{
if ($dta{ENSEMBLE}[$e]->{XDUCER_FACING_UP}) {
$dta{ENSEMBLE}[$e]->{ROLL} *= -1;
$dta{ENSEMBLE}[$e]->{HEADING} *= -1;
$dta{ENSEMBLE}[$e]->{HEADING} += 360
if ($dta{ENSEMBLE}[$e]->{HEADING} < 0);
$dta{ENSEMBLE}[$e]->{XDUCER_FACING_DOWN} = 1;
$dta{ENSEMBLE}[$e]->{XDUCER_FACING_UP} = undef;
}
return 1;
}
sub ensure_UL()
{
if ($dta{ENSEMBLE}[$e]->{XDUCER_FACING_DOWN}) {
$dta{ENSEMBLE}[$e]->{ROLL} *= -1;
$dta{ENSEMBLE}[$e]->{HEADING} *= -1;
$dta{ENSEMBLE}[$e]->{HEADING} += 360
if ($dta{ENSEMBLE}[$e]->{HEADING} < 0);
$dta{ENSEMBLE}[$e]->{XDUCER_FACING_UP} = 1;
$dta{ENSEMBLE}[$e]->{XDUCER_FACING_DOWN} = undef;
}
return 1;
}
#
# swap data from two mis-connected beams
#
sub swap_beams($$)
{
my($b1,$b2) = @_;
my($tmp);
# print(STDERR "\n entering swap_beams($b1,$b2) for ens = $e...");
die("$ARGV[0]: beam-coordinate data required\n")
unless ($dta{BEAM_COORDINATES});
die("$ARGV[0]: single-ping ensembles required\n")
unless ($dta{PINGS_PER_ENSEMBLE} == 1);
if ($dta{BT_PRESENT}) {
$tmp = $dta{ENSEMBLE}[$e]->{BT_RANGE}[$b1-1];
$dta{ENSEMBLE}[$e]->{BT_RANGE}[$b1-1] = $dta{ENSEMBLE}[$e]->{BT_RANGE}[$b2-1];
$dta{ENSEMBLE}[$e]->{BT_RANGE}[$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{BT_VELOCITY}[$b1-1];
$dta{ENSEMBLE}[$e]->{BT_VELOCITY}[$b1-1] = $dta{ENSEMBLE}[$e]->{BT_VELOCITY}[$b2-1];
$dta{ENSEMBLE}[$e]->{BT_VELOCITY}[$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{BT_CORRELATION}[$b1-1];
$dta{ENSEMBLE}[$e]->{BT_CORRELATION}[$b1-1] = $dta{ENSEMBLE}[$e]->{BT_CORRELATION}[$b2-1];
$dta{ENSEMBLE}[$e]->{BT_CORRELATION}[$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{BT_EVAL_AMPLITUDE}[$b1-1];
$dta{ENSEMBLE}[$e]->{BT_EVAL_AMPLITUDE}[$b1-1] = $dta{ENSEMBLE}[$e]->{BT_EVAL_AMPLITUDE}[$b2-1];
$dta{ENSEMBLE}[$e]->{BT_EVAL_AMPLITUDE}[$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{BT_PERCENT_GOOD}[$b1-1];
$dta{ENSEMBLE}[$e]->{BT_PERCENT_GOOD}[$b1-1] = $dta{ENSEMBLE}[$e]->{BT_PERCENT_GOOD}[$b2-1];
$dta{ENSEMBLE}[$e]->{BT_PERCENT_GOOD}[$b2-1] = $tmp;
}
for (my($bin)=0; $bin<$dta{N_BINS}; $bin++) {
$tmp = $dta{ENSEMBLE}[$e]->{VELOCITY}[$bin][$b1-1];
$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin][$b1-1] = $dta{ENSEMBLE}[$e]->{VELOCITY}[$bin][$b2-1];
$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin][$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{CORRELATION}[$bin][$b1-1];
$dta{ENSEMBLE}[$e]->{CORRELATION}[$bin][$b1-1] = $dta{ENSEMBLE}[$e]->{CORRELATION}[$bin][$b2-1];
$dta{ENSEMBLE}[$e]->{CORRELATION}[$bin][$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{ECHO_AMPLITUDE}[$bin][$b1-1];
$dta{ENSEMBLE}[$e]->{ECHO_AMPLITUDE}[$bin][$b1-1] = $dta{ENSEMBLE}[$e]->{ECHO_AMPLITUDE}[$bin][$b2-1];
$dta{ENSEMBLE}[$e]->{ECHO_AMPLITUDE}[$bin][$b2-1] = $tmp;
$tmp = $dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][$b1-1];
$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][$b1-1] = $dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][$b2-1];
$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][$b2-1] = $tmp;
}
return 1;
}
#
# transform earth to beam coordinates
#
{ my($checked);
sub earth2beam()
{
unless ($checked) {
die("$ARGV[0]: earth-coordinate data required\n")
unless ($dta{EARTH_COORDINATES});
die("$ARGV[0]: single-ping ensembles required\n")
unless ($dta{PINGS_PER_ENSEMBLE} == 1);
$dta{BEAM_COORDINATES} = 1; undef($dta{EARTH_COORDINATES});
$checked = 1;
}
for (my($bin)=0; $bin<$dta{N_BINS}; $bin++) {
if ($dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][3] == 100) { # 4-beam solution
@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]} =
velEarthToBeam(\%dta,$e,@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]});
@{$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin]} = (100,100,100,100);
} else { # 3-beam solution or no solution
undef(@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]});
@{$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin]} = (0,0,0,0);
}
}
return 1;
}
}
#
# transform instrument to beam coordinates
#
{ my($checked);
sub instrument2beam()
{
unless ($checked) {
die("$ARGV[0]: instrument-coordinate data required\n")
unless ($dta{INSTRUMENT_COORDINATES});
die("$ARGV[0]: single-ping ensembles required\n")
unless ($dta{PINGS_PER_ENSEMBLE} == 1);
$dta{BEAM_COORDINATES} = 1; undef($dta{INSTRUMENT_COORDINATES});
$checked = 1;
}
for (my($bin)=0; $bin<$dta{N_BINS}; $bin++) {
@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]} =
velInstrumentToBeam(\%dta,$e,@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]});
}
return 1;
}
}
#
# transform instrument to earth coordinates
#
{ my($checked);
sub instrument2earth()
{
unless ($checked) {
die("$ARGV[0]: instrument-coordinate data required\n")
unless ($dta{INSTRUMENT_COORDINATES});
die("$ARGV[0]: single-ping ensembles required\n")
unless ($dta{PINGS_PER_ENSEMBLE} == 1);
$dta{EARTH_COORDINATES} = 1; undef($dta{INSTRUMENT_COORDINATES});
$checked = 1;
}
for (my($bin)=0; $bin<$dta{N_BINS}; $bin++) {
@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]} =
velInstrumentToEarth(\%dta,$e,@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]});
}
return 1;
}
}
#
# transform beam to earth coordinates
#
{ my($checked);
sub beam2earth()
{
unless ($checked) {
die("$ARGV[0]: beam-coordinate data required\n")
unless ($dta{BEAM_COORDINATES});
die("$ARGV[0]: single-ping ensembles required\n")
unless ($dta{PINGS_PER_ENSEMBLE} == 1);
$dta{EARTH_COORDINATES} = 1; undef($dta{BEAM_COORDINATES});
$checked = 1;
}
for (my($bin)=0; $bin<$dta{N_BINS}; $bin++) {
@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]} =
velBeamToEarth(\%dta,$e,@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]});
$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][0] = 100*$RDI_Coords::threeBeamFlag; # 3-beam solution
$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][1] = 0; # error velocity not checked
$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][2] = # no solution -> more than 1 bad beam
@{$dta{ENSEMBLE}[$e]->{VELOCITY}[$bin]} ? 0 : 100;
$dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][2] = # 4-beam solution
100 - $dta{ENSEMBLE}[$e]->{PERCENT_GOOD}[$bin][0];
}
return 1;
}
}
#--------------------------------------------------
# Main Routine
#--------------------------------------------------
if (defined($opt_x)) { # edit instructions on the command line
push(@EE,'*');
my($id) = ($opt_x =~ m/^([A-Z]+)\s/); # e.g. PITCH, ROLL, HEADING
$opt_x = sprintf('$dta{ENSEMBLE}[$e]->{%s}',$id)
if defined($id);
push(@EX,$opt_x);
}
if (defined($opt_e)) { # edit instructions in edit file
open(EF,$opt_e) || die("$opt_e: $!\n");
while (<EF>) {
s/\#.*//;
next if m/^\s+$/;
my($ens,$expr) = m/^\s*(\*|\d+)\s+(.*)$/;
my($id) = ($expr =~ m/^([A-Z]+)\s/); # e.g. PITCH, ROLL, HEADING
$expr = sprintf('$dta{ENSEMBLE}[$e]->{%s}',$id)
if defined($id);
push(@EE,$ens);
push(@EX,$expr);
}
close(EF);
}
for (local($e)=my($eei)=0; $e<@{$dta{ENSEMBLE}}; $e++) { # local() needed for p(), r(), h()
$dta{ENSEMBLE}[$e]->{DATA_SOURCE_ID} = 0xE0 # mark all ensembles except first
unless ($opt_k || $e==0);
if ($EE[$eei] eq '*' || $EE[$eei] == $dta{ENSEMBLE}[$e]->{NUMBER}) { # match => edit
eval($EX[$eei]) || die("$@ while executing <$EX[$eei]>\n");
} elsif ($EE[$eei] > $dta{ENSEMBLE}[$e]->{NUMBER}) { # next edit later in file => skip
next;
} else { # need next edit
$eei++;
last if ($eei >= @EE);
redo;
}
}
print(STDERR "done\n");
#----------------------------------------------------------------------
print(STDERR "Writing $ARGV[1]..."); # write data
writeData($ARGV[1],\%dta);
print(STDERR "done\n");
exit(0);