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#!/afs/isis/pkg/perl-582/bin/perl |
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#tower_strip.perl |
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#Time-stamp: <2006-06-12 11:52:14 lstearns> |
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# |
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#Abstract: |
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# This script is designed to parse existing tower data for a given |
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# time range and save the output as a netcdf file containing the |
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# converted data values as well as ancillary information. |
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# |
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# ./tower_parse.perl -help |
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# For more information on input arguments |
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# |
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#Created: 2003.09?.?? maybe |
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#Author: Luke Stearns |
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#Modifications: started back up 2004.03.?? still going.... |
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# |
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# Luke Stearns 2006.03.15 - going back to improve some of the comments |
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# |
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###################################################################### |
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# Set up libraries and paths. |
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use lib '/opt/local/seacoos/bin/'; |
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use lib '/opt/local/seacoos/bin/meta_data/'; |
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use meta_data; |
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$bin_dir = '/opt/local/seacoos/bin/meta_data/'; |
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#meta_data.pm is a module I wrote to access some data tables in |
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#/opt/local/seacoos/bin/meta_data/ |
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#I intended these tables as a first step towards designing a relational |
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#database to store instrument configuration and deployment information. |
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|
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#Development paths and libraries: |
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# use lib '/afs/isis.unc.edu/depts/marine/workspace/hseim/sablam4/'. |
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# 'lstearns/perl/test_nemo/'; |
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# use lib '/afs/isis.unc.edu/depts/marine/workspace/hseim/sablam4/'. |
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# 'lstearns/perl/test_nemo/meta_data/'; |
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# use meta_data; |
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# $bin_dir = '/afs/isis.unc.edu/depts/marine/workspace/hseim/sablam4/'. |
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# 'lstearns/perl/test_nemo/meta_data/'; |
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|
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#Other included modules: |
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use NetCDF; |
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use Date::Manip; |
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use Statistics::Basic::StdDev; |
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use Math::BigFloat; |
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|
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###################################################################### |
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# Keep track of the time it takes to run the script |
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$starttime = time; |
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|
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###################################################################### |
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# Handle input arguments, namely a date string and a path, if given |
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# I'd like to handle a variety of input arguments |
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&handle_input; |
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|
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###################################################################### |
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# Read information about variables from the tables: parsing info, |
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# conversions, and meta-data |
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#This is now handled by the 'use meta_data;' line above. |
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###################################################################### |
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# Read in the data files and parse each line of data! |
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# This subroutine drives the bulk of the script! |
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if ($debug) {print "\nReading data files:\n";} |
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$first_one = 1; |
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&read_data; |
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###################################################################### |
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# Finally, write the data to the NetCDF file. This is where it |
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# crashes more often than not. |
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#&test_data; |
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&write_netcdf; |
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###################################################################### |
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# Let us know how long it took! |
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$cummtime = time - $starttime; |
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if ($debug) { |
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print "Closing NetCDF files:\nALL DONE!"; |
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print "\nTotal time $cummtime sec\n"; |
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} |
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if ($nemo) { |
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print "Attempting to scp file to nemo... (will require passwd)\n"; |
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system("scp $out_data_dir$out_file_name nemo.isis.unc.edu:/seacoos/". |
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"data/nc-coos/roof/"); |
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} |
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###################################################################### |
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####################### BEGIN SUBROUTINES ############################ |
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###################################################################### |
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###################################################################### |
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### Read Data ######################################################## |
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sub read_data { |
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#Set the starting time index (will be incremented to 0 first) |
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$time_index = -1; |
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$file_index = -1; |
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#Set the fill value in case of missing data. |
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$fill_value = -9999; |
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#Get all of the filenames (including path) to the files in the |
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#directory of data that satisfy the matching pattern. |
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@tower_files = (); |
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|
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#For each of the dates determined by the user input (&handle_input |
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#takes us to &handle_date that sets the array @dates) find the files |
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#for that date and store them in the array @tower_files |
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foreach $date_string (@dates) { |
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$data_sub_dir = $month_dirs{$date_string}; |
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@t_files = glob("${d_data_dir}/$data_sub_dir/${tower_id}_${date_string}*.tx*"); |
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push(@tower_files,@t_files); |
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} |
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if ($debug) { |
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print "... Found ".eval($#tower_files +1)." files.\n"; |
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} |
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#I'm not sure where else to put this... I want to hang on to the |
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#sample loop time, and this is where I put it... |
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$expected_vars{time} = "SAMPLE_LOOP"; |
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#Loop through the filenames loading, then reading each file... |
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foreach $file (@tower_files) { |
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$file_time = $file; |
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#$file_time =~m/([0-9_]+).txt/; |
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$file_time =~m/([0-9]{4})([0-9]{2})([0-9]{2})_([0-9]{2})([0-9]{2})[0-9]+.txt/; |
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$file_time_str = "$1/$2/$3 $4:$5:00"; |
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#Convert to number of seconds since epoch |
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$file_u_date = &UnixDate(&ParseDate("$file_time_str UTC"),"%s"); |
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#1970/01/01 00:00:00 as a datenum |
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$epoch_dn = 719529; |
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#Convert the seconds since epoch to a datenum |
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$file_datenum = $file_u_date/86400 + $epoch_dn; |
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$file_index++; |
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${$Vars{'file_time'}}[$file_index] = $file_datenum; |
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open(DATA_FILE,$file); |
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#Loop through all lines of data |
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while ($data_line=<DATA_FILE>) { |
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#Here's the work! Seperate all of the data and store it in |
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#a way that we can easily stuff it into the NetCDF files at |
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#the end of it all |
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&seperate_sensors; |
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} #Done reading this file |
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close(DATA_FILE); |
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} #Done looping through the files |
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#Just a thought here... perhaps all parsing and conversions should |
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#occur here, operating on the arrays of data, rather than for each |
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#time... That might also be a better way to handle derived |
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#variables like pir, density, etc. Maybe later. |
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} |
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###################################################################### |
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### Test Data ######################################################## |
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sub test_data { |
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print "Trying all keys of data array\n"; |
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foreach $param (@vars) { |
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print "...$param,"; |
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@temp_array = @{$Vars{$param}}; |
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print "Array: $#temp_array, $temp_array[0]\n"; |
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} |
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} |
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###################################################################### |
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### Write Netcdf ##################################################### |
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sub write_netcdf { |
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#I think I'd like to pull this out into another script. The point |
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#of this subroutine is to initialize and populate the NetCDF file |
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#that will contain the data. |
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#################################################################### |
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# Create a NetCDF file to work with! |
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if ($debug) { |
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print "\nCreating NetCDF files:\n"; |
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} |
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$nc_name = "${out_data_dir}$out_file_name"; |
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$nc_sname = "${out_data_dir}$out_file_sname"; |
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unless ($#platform_time>0) { |
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print "Exiting Now! \nFATAL ERROR:\n"; |
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die " There must be at least one valid record!\n". |
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" Please try another date range!\n"; |
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} |
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$ncid = NetCDF::create($nc_name,NetCDF::CLOBBER); |
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die "Couldn't open $nc_name\n" if $ncid<0; |
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$ncid_system = NetCDF::create($nc_sname,NetCDF::CLOBBER); |
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die "Couldn't open $nc_sname\n" if $ncid_system<0; |
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#################################################################### |
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# Put Global Attributes... |
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if ($debug) { |
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print "... Putting global variables\n"; |
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} |
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#I had this, but it puts them in random order, so I'll use the order |
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#direct from globals.table |
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foreach $global_att (@globals) { |
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$g_a_value = eval("$global_value{$global_att}"); |
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$g_a_format = $global_format{$global_att}; |
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unless ($g_a_value =~/N\/A/) { |
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if ($debug>2) { |
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print "$global_att is $g_a_value\n" |
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} |
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$attid = NetCDF::attput($ncid,NetCDF::GLOBAL,"$global_att", |
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eval('NetCDF::'.$g_a_format), |
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"$g_a_value"); |
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$attid = NetCDF::attput($ncid_system,NetCDF::GLOBAL,"$global_att", |
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eval('NetCDF::'.$g_a_format), |
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"$g_a_value"); |
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$attid != -1 || die "\n Couldn't write global attribute $global_att\n"; |
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} |
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} |
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#################################################################### |
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# Define dimensions, fixed ones first |
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@{$Vars{LONGITUDE}} = ($tower_lon{$tower_id}); |
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@{$Vars{LATITUDE}} = ($tower_lat{$tower_id}); |
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#I did it this way because I was starting from Brians script (which |
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#was generally extremely helpful) |
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%dims = ( |
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LONGITUDE => 1, |
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LATITUDE => 1, |
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TOWER_FILES => $#tower_files+1, |
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CHARACTERS => 50, |
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time => $#platform_time+1 |
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); |
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%dim_names = ( |
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'a' => 'LATITUDE', |
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'o' => 'LONGITUDE', |
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'f' => 'TOWER_FILES', |
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'c' => 'CHARACTERS', |
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't' => 'time' |
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); |
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foreach $dim (keys %dims) { |
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if ($dimensions{$dim}=~/[fc]/){ |
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$ncid{$dim} = $ncid_system; |
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} |
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elsif ($dimensions{$dim}=~/[tao]/) { |
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$ncid{$dim} = $ncid; |
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} |
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unless ($dim =~/time/) { |
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$dimid{$dim} = NetCDF::dimdef($ncid{$dim},$dim,$dims{$dim}); |
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die "Couldn't define $dim dimension\n" if $dimid{$dim}<0; |
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} |
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} |
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#################################################################### |
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# Define time dimension |
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$dimid{time} = NetCDF::dimdef($ncid,"time",NetCDF::UNLIMITED); |
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die "Couldn't define record dimension\n" if $dimid{time}<0; |
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#################################################################### |
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# Define variables and put attributes, fixed ones first |
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if ($debug) { |
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print "... Defining variables and putting attributes\n"; |
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} |
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#################################################################### |
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# Define variables and put attributes, now time dependant ones |
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#Dimension variables like lat and lon. |
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@all_attributes = ('long_name', 'standard_name', 'units', |
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'description', 'range', 'precision' |
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); |
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@zeros = (0,0,0); #Variables are dependant at most on 4 dimensions |
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#foreach $param (keys %Vars) { |
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foreach $param (@vars) { |
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if ($param =~/CLOCK/ || $param =~/BBAD/) { |
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#We'll skip these for now... |
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} |
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elsif (defined $Vars{$param}) { |
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&vardef_attput; |
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} |
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} |
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#################################################################### |
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# End Definition period! |
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$status = NetCDF::endef($ncid); |
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die "Couldn't end definition\n" if $status<0; |
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$status = NetCDF::endef($ncid_system); |
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die "Couldn't end definition\n" if $status<0; |
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#################################################################### |
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# Start putting variables, first the fixed variables |
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if ($debug) { |
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print "... Putting variables:\n\n"; |
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} |
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#foreach $param (keys %Vars) { |
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foreach $param (@vars) { |
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if ($param =~/CLOCK/ || $param =~/BBAD/) { |
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#We'll skip these for now... |
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} |
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elsif (defined $Vars{$param}) { |
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&varput; |
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} |
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} |
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#################################################################### |
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# All done, let's close up! |
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$status = NetCDF::close($ncid); |
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$status = NetCDF::close($ncid_system); |
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} |
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###################################################################### |
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### Seperate Sensors ################################################# |
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sub seperate_sensors { |
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#This subroutine parses each line of data in a data file: determines |
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#what the format of the line is, and sends the results onward to |
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#compute derived variables, parse complicated data strings, and |
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#convert to scientific units. The organization of this one is |
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#pretty confusing... |
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@data_line = split(', ',$data_line); |
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@va = (); |
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#If there is at least one comma in the data line it is of the usual |
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#data format (not ADCP!) and we'll treat it normally. |
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|
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if ($#data_line) { |
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#Everything other than the CTD and ADCP should fit this... |
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if ($#data_line == 5) { |
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($time,$param_id,$type,$value,$units,$error_string) = @data_line; |
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} |
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#The CTD is still a special case becuase data is comma delimited. |
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elsif ($#data_line == 8) { |
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($time,$param_id,$type,$va[0],$va[1],$va[2],$va[3],$units, |
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$error_string) = @data_line; |
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$value = join(',',@va); |
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$value =~s/\s+//g; |
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} |
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|
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#The CTD is still a special case becuase data is comma delimited. |
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elsif ($#data_line == 9) { |
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#print "9\n@data_line\n"; |
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|
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($time,$param_id,$type,$va[0],$va[1],$va[2],$va[3],$va[4], |
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$units,$error_string) = @data_line; |
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$value = join(',',@va); |
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$value =~s/\s+//g; |
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} |
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|
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#The CTD is still a special case becuase data is comma delimited. |
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elsif ($#data_line == 10) { |
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#print "10\n@data_line\n"; |
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|
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($time,$param_id,$type,$va[0],$va[1],$va[2],$va[3],$va[4], |
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$va[5],$units,$error_string) = @data_line; |
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$value = join(',',@va); |
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$value =~s/\s+//g; |
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} |
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|
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else { |
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#print "WARNING: Data line not parsed correctly!\n@data_line\n"; |
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#This is so a failed parse doesn't end up going to the previous |
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#param_id |
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($time,$param_id,$type,@junk) = @data_line; |
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#print "!!!!$param_id\n"; |
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|
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#$param_id = 'failed'; |
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$value = "$fill_value,$fill_value,$fill_value,$fill_value"; |
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|
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} |
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if($param_id=~m/CTD1/) { |
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#$press = 0; |
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#print "HEY! @data_line"; |
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#print "$sal = $temp = $press = $cond = $fill_value\n"; |
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} |
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|
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#If it has failed the previous two options, than something is wrong. |
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#In fact, the second choice shouldn't ever occur, because Sara has |
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#implemented a change that puts quotes around data values that need |
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#special parsing. |
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|
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#elsif ($debug>2) { |
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#print "Error suspected for data line:\n$data_line\n"; |
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#} |
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$big_type = $type; |
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$big_type =~s/\([0-9]\)//g; |
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|
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#This is a first attempt at dealing with variables that contain |
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#a number of sub variables. For example the CTD output string |
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#contains temparature conductivity salinity and density. |
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#our (@sub_vars,%sub_vars); |
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|
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@sub_vars = @{$sub_vars{$param_id}}; |
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|
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&compute_sub_vars; |
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|
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|
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#If we are at the start of a file, keep track of the settings |
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#listed, especially the param_id's that we expect to be in |
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#each record, so that we can insert fill values where needed. |
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|
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if ($type=~/SETTING/ && $param_id=~/ACTIVE/) { |
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#The following pattern is used in several of these cases. It |
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#should probably be a subroutine... |
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#1. Get rid of double quotes in the data string |
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#2. Seperate the string into an array (each character is an entry) |
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431 |
#3. If it is empty put in a dash as the first character (not sure |
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432 |
# why I chose that... |
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#4. Fill the unused portion of the 50 character array with spaces |
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434 |
#5. Add the result to the master hash array for this param_id |
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|
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#1 |
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$value =~s/\"//g; |
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438 |
#2 |
---|
439 |
@value = split("","$value"); |
---|
440 |
@this_val = @value; |
---|
441 |
#3 |
---|
442 |
unless ($#value+1) { |
---|
443 |
@value = ("-"); |
---|
444 |
} |
---|
445 |
#4 |
---|
446 |
for ($ii=$#value+1; $ii<50; $ii++) { |
---|
447 |
@this_val[$ii] = " "; |
---|
448 |
} |
---|
449 |
#5 |
---|
450 |
push(@{$Vars{$param_id}},@this_val); |
---|
451 |
|
---|
452 |
$expected_vars = $value; |
---|
453 |
$expected_vars=~s/\"//g; |
---|
454 |
@expected_vars = split('\s',$expected_vars); |
---|
455 |
|
---|
456 |
|
---|
457 |
my($t_type) = $param_id; |
---|
458 |
$t_type =~s/^ACTIVE\_//; |
---|
459 |
|
---|
460 |
@{$expected_vars{$t_type}} = @expected_vars; |
---|
461 |
} |
---|
462 |
elsif ($type=~/CPU/) { |
---|
463 |
#see if ($type=~/SETTING/ && $param_id=~/ACTIVE/) { |
---|
464 |
$value =~s/\"//g; |
---|
465 |
@value = split("","$value"); |
---|
466 |
@this_val = @value; |
---|
467 |
unless ($#value+1) { |
---|
468 |
@value = (" "); |
---|
469 |
} |
---|
470 |
for ($ii=$#value+1; $ii<50; $ii++) { |
---|
471 |
@this_val[$ii] = " "; |
---|
472 |
} |
---|
473 |
push(@{$Vars{$param_id}},@this_val); |
---|
474 |
} |
---|
475 |
elsif ($type=~/CLOCK/) { |
---|
476 |
#see if ($type=~/SETTING/ && $param_id=~/ACTIVE/) { |
---|
477 |
$value =~s/\"//g; |
---|
478 |
@value = split("","$value"); |
---|
479 |
@this_val = @value; |
---|
480 |
unless ($#value+1) { |
---|
481 |
@value = (" "); |
---|
482 |
} |
---|
483 |
for ($ii=$#value+1; $ii<50; $ii++) { |
---|
484 |
@this_val[$ii] = " "; |
---|
485 |
} |
---|
486 |
push(@{$Vars{$param_id}},@this_val); |
---|
487 |
} |
---|
488 |
|
---|
489 |
#The next little clause here is sort of weird. There are some |
---|
490 |
#computed or parsed variables that are not in the raw file as |
---|
491 |
#a param_id. For example PIRA PIRB and PIRC are all parameters |
---|
492 |
#but we really want to know what PIR is and we don't care about |
---|
493 |
#the raw data that goes into it... I'm just letting the script |
---|
494 |
#know to expect these variables to be included later. |
---|
495 |
|
---|
496 |
elsif ($#{$expected_vars{$big_type}}) { |
---|
497 |
push(@{$loop_vars{$big_type}},$param_id); |
---|
498 |
|
---|
499 |
if ($param_id=~/LINK$/) { |
---|
500 |
if ($first_one) { |
---|
501 |
@expected_vars = ('LINK','LINK_AMPS','LINK_VOLTS','LINK_AMP_HRS', |
---|
502 |
'LINK_TEMP'); |
---|
503 |
push(@{$expected_vars{$big_type}},@expected_vars); |
---|
504 |
|
---|
505 |
@expected_vars = ('SAMPLE_LOOP','BBAD_SAMPLE_LOOP'); |
---|
506 |
push(@{$expected_vars{TIME}},@expected_vars); |
---|
507 |
|
---|
508 |
@expected_vars = ('PIR'); |
---|
509 |
push(@{$expected_vars{RLCAD}},@expected_vars); |
---|
510 |
|
---|
511 |
$first_one = 0; |
---|
512 |
} |
---|
513 |
push(@{$loop_vars{$big_type}}, 'LINK','LINK_AMPS','LINK_VOLTS', |
---|
514 |
'LINK_AMP_HRS','LINK_TEMP'); |
---|
515 |
} |
---|
516 |
} |
---|
517 |
|
---|
518 |
|
---|
519 |
#If we are at the start of a data record, use this time for the |
---|
520 |
#rest of the samples in this loop (may want to change this...) |
---|
521 |
if ($param_id=~/ATEMP/) { |
---|
522 |
$time_index++; |
---|
523 |
#Here I'm trying to work in some logic to deal with times when |
---|
524 |
#not every expected variable gets reported in the loop, for |
---|
525 |
#example when the BBAD has a time-out error. This leads to |
---|
526 |
#the system not reporting WSPDA or WDIRA, which is otherwise |
---|
527 |
#not noticed, and the empty values lead to a segmentation fault |
---|
528 |
#when the netcdf file is written. |
---|
529 |
foreach $expected_type (keys %expected_vars) { |
---|
530 |
$num_expected = $#{$expected_vars{$expected_type}}; |
---|
531 |
$num_recieved = $#{$loop_vars{$expected_type}}; |
---|
532 |
|
---|
533 |
#Check to see if the number expected is greater than the number |
---|
534 |
#recieved (and also greater than 0, to deal with system info that |
---|
535 |
#doesn't describe variables in the loop!) |
---|
536 |
if ($num_expected>$num_recieved && $num_expected && $time_index>=0) { |
---|
537 |
|
---|
538 |
#For every parameter that we are expecting, we should put in a |
---|
539 |
#fill value. Actually this all should probably go outside the |
---|
540 |
#loop as part of the initialization process. |
---|
541 |
foreach $expected_var (@{$expected_vars{$expected_type}}) { |
---|
542 |
#write fill value! |
---|
543 |
|
---|
544 |
${$Vars{$expected_var}}[$time_index] = $fill_value; |
---|
545 |
} #End Foreach expected var |
---|
546 |
|
---|
547 |
#Okay, this one is a bit wierd. Clock (sample_loop) is not |
---|
548 |
#yet included in RLCAD, BBAD, or SERIAL, so it isn't expected. |
---|
549 |
#Thus if it isn't reported, we need to insert a fill_value |
---|
550 |
|
---|
551 |
#In the current version, this IS fixed. In fact CLOCK isn't used |
---|
552 |
#at all. It has been replaced by SAMPLE_LOOP. |
---|
553 |
unless(${$Vars{"CLOCK"}}[$time_index]) { |
---|
554 |
${$Vars{"CLOCK"}}[$time_index] = $fill_value; |
---|
555 |
} #end unless clock thing... |
---|
556 |
}#end if still expecting more... |
---|
557 |
}#end foreach expected type |
---|
558 |
|
---|
559 |
%loop_vars = (); |
---|
560 |
|
---|
561 |
|
---|
562 |
#Now that is out of the way, time is a bit more normal, but still |
---|
563 |
#needs to be dealt with seperately as it occurs only once per |
---|
564 |
#sample loop and is not explicitly a loop variable. |
---|
565 |
|
---|
566 |
$platform_time[$time_index] = $time; |
---|
567 |
$u_date = &UnixDate(&ParseDate("$time"),"%Y,%m,%d,%H,%M,%S"); |
---|
568 |
($year,$month,$day,$hour,$minute,$second) = split(',',$u_date); |
---|
569 |
|
---|
570 |
$u_date = &UnixDate(&ParseDate("$time UTC"),"%s"); |
---|
571 |
$um1_date = &UnixDate(&ParseDate("$platform_time[$time_index -1] UTC"), |
---|
572 |
"%s"); |
---|
573 |
$sample_interval = $u_date - $um1_date; |
---|
574 |
$hrs_per_sample = $sample_interval/3600; #Seconds/hr |
---|
575 |
|
---|
576 |
unless ($time_index) { |
---|
577 |
$hrs_per_sample = 1/30; |
---|
578 |
} |
---|
579 |
#1970/01/01 00:00:00 as a datenum |
---|
580 |
$epoch_dn = 719529; |
---|
581 |
|
---|
582 |
#Convert the seconds since epoch to a datenum |
---|
583 |
$datenum = $u_date/86400 + $epoch_dn; |
---|
584 |
|
---|
585 |
${$Vars{'year'}}[$time_index] = $year; |
---|
586 |
${$Vars{'month'}}[$time_index] = $month; |
---|
587 |
${$Vars{'day'}}[$time_index] = $day; |
---|
588 |
${$Vars{'hour'}}[$time_index] = $hour; |
---|
589 |
${$Vars{'minute'}}[$time_index] = $minute; |
---|
590 |
${$Vars{'second'}}[$time_index] = $second; |
---|
591 |
${$Vars{'time'}}[$time_index] = $datenum; |
---|
592 |
|
---|
593 |
}#end if ATEMP |
---|
594 |
|
---|
595 |
#Apply information from the parse table to split up the output |
---|
596 |
&parse_vars; |
---|
597 |
|
---|
598 |
if ($param_id=~/GPS1/) { |
---|
599 |
$param_id = 'GPSLON'; |
---|
600 |
&convert_vars; |
---|
601 |
$param_id = 'GPSLAT'; |
---|
602 |
&convert_vars; |
---|
603 |
$param_id = 'GPS1'; |
---|
604 |
} |
---|
605 |
|
---|
606 |
|
---|
607 |
#Use the coefficients and formulas from the conversions table to |
---|
608 |
#apply any necessary conversions |
---|
609 |
&convert_vars; |
---|
610 |
|
---|
611 |
#I'm not sure of a good way to get it to automatically convert |
---|
612 |
#and derive pir from the case temperature and the thermistor... |
---|
613 |
#This way is definitely a hack... |
---|
614 |
|
---|
615 |
#If we have data for PIRA and PIRC, then we can compute PIR |
---|
616 |
if ($param_id =~/PIRC/ | $param_id =~/PIRA/) { |
---|
617 |
|
---|
618 |
if ($Vars{PIRA}[-1]!=~/$fill_value/ && |
---|
619 |
$Vars{PIRC}[-1]!=~/$fill_value/){ |
---|
620 |
$temporary_param = $param_id; |
---|
621 |
$param_id = 'PIR'; |
---|
622 |
|
---|
623 |
$pir_ct = $Vars{PIRA}[-1]; |
---|
624 |
$pir_th = $Vars{PIRC}[-1]; |
---|
625 |
|
---|
626 |
&convert_vars; |
---|
627 |
$param_id = $temporary_param; |
---|
628 |
} |
---|
629 |
else { |
---|
630 |
$Vars{PIR} = $fill_value; |
---|
631 |
} |
---|
632 |
} |
---|
633 |
$value = undef; |
---|
634 |
|
---|
635 |
} |
---|
636 |
|
---|
637 |
#Otherwise the data line has no commas, so it must be an adcp line |
---|
638 |
else { |
---|
639 |
#I haven't put any logic in here yet |
---|
640 |
#&parse_adcp; |
---|
641 |
} |
---|
642 |
} |
---|
643 |
|
---|
644 |
###################################################################### |
---|
645 |
### Parse Vars ####################################################### |
---|
646 |
sub parse_vars { |
---|
647 |
|
---|
648 |
#Seperate out the output from matching conditions |
---|
649 |
|
---|
650 |
#The hash array parse_output comes from the meta_data perl module that |
---|
651 |
#looks into the data tables. It explains the string format for each |
---|
652 |
#variable and how to assign the variables given that format. |
---|
653 |
$output = $parse_output{$param_id}; |
---|
654 |
@output = split(',',$output); |
---|
655 |
|
---|
656 |
|
---|
657 |
if ($units{$param_id}=~/string/) { |
---|
658 |
#It was complaining about the gps checksum until I added '' |
---|
659 |
eval("$output[0] = '$value';"); |
---|
660 |
} |
---|
661 |
else { |
---|
662 |
#Apply matching conditions from the parse table |
---|
663 |
$old_v = $value; |
---|
664 |
|
---|
665 |
#Okay, this is hard wired... I know it's better to avoid, but I wanted |
---|
666 |
#a quick fix... This handles wind, which is an array of values separated |
---|
667 |
#by spaces. An average value should be presented for later conversion. |
---|
668 |
if ($parse_info{$param_id}=~/\@avg/) { |
---|
669 |
#Spit up space delimited values and ignore fill values |
---|
670 |
$old_v =~s/\ \-9999//g; |
---|
671 |
@value = split(' ',$old_v); |
---|
672 |
eval("$output[0]".' = @value;'); |
---|
673 |
} |
---|
674 |
elsif ($parse_info{$param_id}=~/\@gva/) { |
---|
675 |
#This is for the compass pitch and roll which is weird... |
---|
676 |
@comp = @pitch = @roll = (); |
---|
677 |
|
---|
678 |
@value = split('\$',$old_v); |
---|
679 |
foreach $vals (@value) { |
---|
680 |
$vals =~m/$C([0-9\.\-]*)P([0-9\.\-]*)R([0-9\.\-]*)T.*/; |
---|
681 |
push(@comp,$1); |
---|
682 |
push(@pitch,$2); |
---|
683 |
push(@roll,$3); |
---|
684 |
#print "so $1, $2, $3\n"; |
---|
685 |
} |
---|
686 |
#eval("$output[0]".' = @value;'); |
---|
687 |
} |
---|
688 |
|
---|
689 |
#If the output is one parameter (applies to almost all sensors) |
---|
690 |
elsif ($#output==0) { |
---|
691 |
#Assign the output value to the parse_info matching condition |
---|
692 |
#Here $1 signifies the part that matches what is inside the |
---|
693 |
#first set of parenthesis in a matching condition. |
---|
694 |
#Example: if $value is "PS=+14.693" |
---|
695 |
# then $value =~m/"PS\=\+(.*)"/; |
---|
696 |
# sets $1 to be 14.693 |
---|
697 |
$value =~m/$parse_info{$param_id}/; |
---|
698 |
@value = $1; |
---|
699 |
|
---|
700 |
#As long as there is a defined value, set the output to that |
---|
701 |
if (defined $value[0]) { |
---|
702 |
eval("$output[0]".' = $value[0];'); |
---|
703 |
} |
---|
704 |
else { |
---|
705 |
eval("$output[0] = $fill_value;"); |
---|
706 |
} |
---|
707 |
|
---|
708 |
} |
---|
709 |
|
---|
710 |
#Applies to the ctd and the link, in particular |
---|
711 |
elsif ($#output>0) { |
---|
712 |
if ($param_id =~m/CTD/) { |
---|
713 |
#As long as the string begins with '"#0' proceed. |
---|
714 |
if ($value=~m/^\"\#0/) { |
---|
715 |
$pi = $parse_info{$param_id}; |
---|
716 |
} |
---|
717 |
else { |
---|
718 |
$pi = 'NOBAD!!'; |
---|
719 |
} |
---|
720 |
} |
---|
721 |
else { |
---|
722 |
|
---|
723 |
$pi = $parse_info{$param_id}; |
---|
724 |
} |
---|
725 |
if ($param_id=~/LINK/) { |
---|
726 |
#print "$value\n$pi\n"; |
---|
727 |
} |
---|
728 |
elsif ($param_id=~/GPS1/) { |
---|
729 |
#print "$value\n"; |
---|
730 |
@v = split('',$value); |
---|
731 |
$mygps_lat = join('',@v[11..17]); |
---|
732 |
$mygps_lon = join('',@v[19..25]); |
---|
733 |
|
---|
734 |
} |
---|
735 |
$value =~m/$pi/; |
---|
736 |
|
---|
737 |
#Loop through each output parameter and assign the value |
---|
738 |
#For example suppose there were three variables in the matching |
---|
739 |
#condition '$value =~m/$pi/;', then they will be assigned to |
---|
740 |
#$1,$2, and $3, thus you want to assign them as |
---|
741 |
#eval("$output[0] = $1;"); |
---|
742 |
#so if @output = ($temp,$humidity,$pressure) |
---|
743 |
#then you have $temp set to the contents of $1. Clear??? |
---|
744 |
for ($out_num=1; $out_num<=$#output+1; $out_num++) { |
---|
745 |
eval("$output[$out_num-1] =\$$out_num;"); |
---|
746 |
} |
---|
747 |
if ($param_id=~/LINK/) { |
---|
748 |
#print ": $link_time, $link_volts, \n"; |
---|
749 |
} |
---|
750 |
elsif ($param_id=~/GPS1/) { |
---|
751 |
if ($mygps_lat+0) {$gps_lat = $mygps_lat;} |
---|
752 |
else {$gps_lat = $fill_value;} |
---|
753 |
if ($mygps_lon+0) {$gps_lon = $mygps_lon;} |
---|
754 |
else {$gps_lon = $fill_value;} |
---|
755 |
} |
---|
756 |
} |
---|
757 |
} |
---|
758 |
} |
---|
759 |
|
---|
760 |
###################################################################### |
---|
761 |
### Convert Vars ##################################################### |
---|
762 |
sub convert_vars { |
---|
763 |
our($fill_value); |
---|
764 |
|
---|
765 |
#Again, these coefficients and formulas are coming from the |
---|
766 |
#meta_data perl module, and the corresponding data tables. |
---|
767 |
|
---|
768 |
#Since conversion coefficients are different for the different |
---|
769 |
#platforms it looks like this $R4_conversion_coeff{PSP} |
---|
770 |
|
---|
771 |
#Get conversion coefficients and formula from hash array for |
---|
772 |
#each tower id and each parameter id. |
---|
773 |
eval ('$c_coeff = $'.$tower_id.'_conversion_coeff{$param_id};'); |
---|
774 |
eval ('$c_formula = $'.$tower_id.'_conversion_formula{$param_id};'); |
---|
775 |
|
---|
776 |
#Split up conversion coefficients from the converstions table |
---|
777 |
@v = split(',',$c_coeff); |
---|
778 |
|
---|
779 |
#If there is any set of conversion coefficients (and hence a |
---|
780 |
#conversion to be applied), apply them! |
---|
781 |
if ($#v+1) { |
---|
782 |
$temp_var = ''; |
---|
783 |
if ($c_formula=~/^\&/) { |
---|
784 |
#If the conversion formula is a subroutine call, evaluate! |
---|
785 |
eval("$c_formula"); |
---|
786 |
} |
---|
787 |
else { |
---|
788 |
#As long as the output wasn't the fill value, convert it. |
---|
789 |
my ($out) = eval("$output[0]"); |
---|
790 |
unless($out=~/$fill_value/) { |
---|
791 |
$temp_var = eval("$c_formula"); |
---|
792 |
} |
---|
793 |
|
---|
794 |
#Otherwise, we don't want to convert a fill value to |
---|
795 |
#something else! |
---|
796 |
else { |
---|
797 |
$temp_var = $fill_value; |
---|
798 |
} |
---|
799 |
|
---|
800 |
#Set the array index based upon the record dimension |
---|
801 |
&set_index; |
---|
802 |
|
---|
803 |
#This should go somewhere else... |
---|
804 |
if ($param_id=~/RAIN/) { |
---|
805 |
#print "Hrs per : $hrs_per_sample\n"; |
---|
806 |
$temp_var = $temp_var/$hrs_per_sample; |
---|
807 |
} |
---|
808 |
|
---|
809 |
#Finally, set this value of the Vars super duper array |
---|
810 |
#for this time to the value that we've computed |
---|
811 |
unless ($index +1) { |
---|
812 |
print "Warning. $param_id has index $index. Adjusting...\n"; |
---|
813 |
${$Vars{$param_id}}[$index+1] = $temp_var; |
---|
814 |
} |
---|
815 |
else { |
---|
816 |
${$Vars{$param_id}}[$index] = $temp_var; |
---|
817 |
} |
---|
818 |
} |
---|
819 |
} |
---|
820 |
|
---|
821 |
else { |
---|
822 |
#print "No conversion info available for $param_id at $tower_id\n"; |
---|
823 |
} |
---|
824 |
} |
---|
825 |
|
---|
826 |
|
---|
827 |
###################################################################### |
---|
828 |
### Handle Input ##################################################### |
---|
829 |
sub handle_input { |
---|
830 |
|
---|
831 |
#By putting default values in a file, the script should easily switch |
---|
832 |
#back and forth between the afs version and the local nemo version! |
---|
833 |
open(DEFAULTS,"${bin_dir}tower_parse.defaults"); |
---|
834 |
while (<DEFAULTS>) { |
---|
835 |
#Get rid of the newline |
---|
836 |
chop; |
---|
837 |
#Ignore comments starting with # |
---|
838 |
$_=~s/#.*//; |
---|
839 |
#If the line is non-empty |
---|
840 |
if ($_) { |
---|
841 |
my($var_name, $default_value) = split(','); |
---|
842 |
eval("$var_name = $default_value;"); |
---|
843 |
} |
---|
844 |
} |
---|
845 |
|
---|
846 |
($date_string,%varargin) = @ARGV; |
---|
847 |
|
---|
848 |
#Associate each input argument pair with the appropriate variable |
---|
849 |
%varargout = ( |
---|
850 |
'-out' => '$out_file_name', |
---|
851 |
'-d' => '$debug', |
---|
852 |
'-t' => '$tower_id', |
---|
853 |
'-p' => '$package', |
---|
854 |
); |
---|
855 |
|
---|
856 |
#Set each variable to the value of the associated input argument |
---|
857 |
#Example 1: '-d 1' sets the debug flag to true |
---|
858 |
#Example 2: '-out 2004_06.nc' sets the output file name to 2004_06.nc |
---|
859 |
foreach $argin (keys %varargin) { |
---|
860 |
eval("$varargout{$argin} = '$varargin{$argin}';"); |
---|
861 |
} |
---|
862 |
|
---|
863 |
$d_data_dir = "$d_data_dir$tower_id/"; |
---|
864 |
$out_data_dir = "$out_data_dir$tower_id/"; |
---|
865 |
|
---|
866 |
#Since there are a few different types of date string inputs, we need |
---|
867 |
#to figure out how to deal with this one! |
---|
868 |
if ($date_string) { |
---|
869 |
&handle_date; |
---|
870 |
} |
---|
871 |
|
---|
872 |
#If there's no date string, then we don't know what to look for! |
---|
873 |
else { |
---|
874 |
die "Must at least input a date string!\n". |
---|
875 |
"./tower_parse.perl '200406' -out 2004_06.nc -d 1\n"; |
---|
876 |
} |
---|
877 |
|
---|
878 |
#Helps the user chooose an appropriate filename |
---|
879 |
unless ($out_file_name=~/.nc$/) { |
---|
880 |
if ($out_file_name) { |
---|
881 |
$out_file_sname = "${out_file_name}_sys.nc"; |
---|
882 |
$out_file_name = "${out_file_name}.nc"; |
---|
883 |
} |
---|
884 |
else { |
---|
885 |
$out_file_name = $d_out_file_name; |
---|
886 |
@do = split('',$d_out_file_name); |
---|
887 |
$out_file_sname = join('',@do[0..$#do-3],'_sys.nc'); |
---|
888 |
} |
---|
889 |
} |
---|
890 |
else { |
---|
891 |
unless ($out_file_sname) { |
---|
892 |
@do = split('',$out_file_name); |
---|
893 |
$out_file_sname = join('',@do[0..$#do-3],'_sys.nc'); |
---|
894 |
} |
---|
895 |
} |
---|
896 |
|
---|
897 |
#This will come up many times throughout the script. Another way of |
---|
898 |
#looking at the debug flag is that it turns on comments (verbose). |
---|
899 |
if ($debug) { |
---|
900 |
print "\n\nData dir : $d_data_dir\nOutput dir : $out_data_dir\n". |
---|
901 |
"Outfile name : $out_file_name and $out_file_sname\n"; |
---|
902 |
if ($#dates) { |
---|
903 |
print "\nLooking for data between $dates[0] and $dates[-1]\n"; |
---|
904 |
} |
---|
905 |
} |
---|
906 |
|
---|
907 |
|
---|
908 |
} |
---|
909 |
|
---|
910 |
|
---|
911 |
###################################################################### |
---|
912 |
### Handle Date ###################################################### |
---|
913 |
sub handle_date { |
---|
914 |
#Deal with date input. |
---|
915 |
if ($date_string=~/\ /) { |
---|
916 |
($st_date,$en_date) = split(' ',$date_string); |
---|
917 |
@st_date = split('',$st_date); |
---|
918 |
@en_date = split('',$en_date); |
---|
919 |
|
---|
920 |
#print "So $st_date, $en_date is $#st_date or @st_date\n"; |
---|
921 |
$st_date = join('',(@st_date[0..3],' ',@st_date[4..5],' ',@st_date[6..7])); |
---|
922 |
$en_date = join('',(@en_date[0..3],' ',@en_date[4..5],' ',@en_date[6..7])); |
---|
923 |
|
---|
924 |
#print "So $st_date, $en_date is @st_date\n"; |
---|
925 |
$this_date = $st_date; |
---|
926 |
$this_parsed = &ParseDate($st_date); |
---|
927 |
$en_parsed = &ParseDate($en_date); |
---|
928 |
|
---|
929 |
@dates = (); |
---|
930 |
%month_dirs = (); |
---|
931 |
|
---|
932 |
while ($this_parsed <= $en_parsed) { |
---|
933 |
$ymd = &UnixDate($this_parsed,"%Y%m%d"); |
---|
934 |
push(@dates,$ymd); |
---|
935 |
$month_dirs{$ymd} = &UnixDate($this_parsed,"%Y_%m"); |
---|
936 |
$this_date = &UnixDate(&DateCalc($this_date,"+ 1 day"), "%Y %m %d"); |
---|
937 |
$this_parsed = &ParseDate($this_date); |
---|
938 |
} |
---|
939 |
#print "$#dates Dates! @dates\n"; |
---|
940 |
} |
---|
941 |
elsif ($date_string=~/latest/) { |
---|
942 |
$today = &ParseDate("today"); |
---|
943 |
$date1 = &UnixDate(&DateCalc("$today","- 2 day"),"%Y%m%d"); |
---|
944 |
$date2 = &UnixDate(&DateCalc("$today","- 1 day"),"%Y%m%d"); |
---|
945 |
$date3 = &UnixDate("$today","%Y%m%d"); |
---|
946 |
$mond1 = &UnixDate(&DateCalc("$today","- 2 day"),"%Y_%m"); |
---|
947 |
$mond2 = &UnixDate(&DateCalc("$today","- 1 day"),"%Y_%m"); |
---|
948 |
$mond3 = &UnixDate("$today","%Y_%m"); |
---|
949 |
@dates = ($date1,$date2,$date3); |
---|
950 |
%month_dirs = ($date1,$mond1,$date2,$mond2,$date3,$mond3); |
---|
951 |
#print "@dates\n"; |
---|
952 |
} |
---|
953 |
elsif ($date_string =~/help/) { |
---|
954 |
#oops this isn't a date string at all! |
---|
955 |
# I should probably put this somewhere else... |
---|
956 |
print "\nUsage: ./tower_parse.perl date_string\n\n". |
---|
957 |
"Optional argument pairs:\n". |
---|
958 |
" -out output file name\n". |
---|
959 |
" -d debug\n". |
---|
960 |
# " -dir directory path to data\n". |
---|
961 |
" -t tower id\n". |
---|
962 |
" -nemo scp data file to nemo\n\n"; |
---|
963 |
print "Date string can have any of the following formats:\n". |
---|
964 |
" yyyymm Finds all data for the month\n". |
---|
965 |
" yyyymmdd Finds data just for one day\n". |
---|
966 |
" 'yyyymmdd yyyymmdd' Finds data within the date range\n". |
---|
967 |
" latest Finds today, yesterday and the previous day\n"; |
---|
968 |
die "\n"; |
---|
969 |
} |
---|
970 |
else { |
---|
971 |
@dates = ($date_string); |
---|
972 |
@date_str = split('',$date_string); |
---|
973 |
$fn = join('',(@date_str[0..3],'_',@date_str[4..5])); |
---|
974 |
|
---|
975 |
unless($out_file_name) { |
---|
976 |
#Unless it has been input by the user! |
---|
977 |
$out_file_name = "${tower_id}_${fn}.nc"; |
---|
978 |
$out_file_sname = "${tower_id}_${fn}_sys.nc"; |
---|
979 |
} |
---|
980 |
|
---|
981 |
#Also change default data directory! |
---|
982 |
$month_dirs{$date_string} = $fn; |
---|
983 |
} |
---|
984 |
@month_dirs = values (%month_dirs); |
---|
985 |
} |
---|
986 |
|
---|
987 |
|
---|
988 |
###################################################################### |
---|
989 |
### Parse ADCP ####################################################### |
---|
990 |
sub parse_adcp { |
---|
991 |
|
---|
992 |
#print "We have ADCP data!\n"; |
---|
993 |
#$data = join('',@data); |
---|
994 |
|
---|
995 |
} |
---|
996 |
|
---|
997 |
|
---|
998 |
###################################################################### |
---|
999 |
### Vardef Attput #################################################### |
---|
1000 |
sub vardef_attput { |
---|
1001 |
|
---|
1002 |
#This is the generic variable definition and attribute put used by |
---|
1003 |
#write_netcdf. |
---|
1004 |
$format = 'NetCDF::'.$format{$param}; |
---|
1005 |
if ($debug>2) { |
---|
1006 |
print "$param is of format $format\n"; |
---|
1007 |
} |
---|
1008 |
|
---|
1009 |
@dimensions = split('\s',$dimensions{$param}); |
---|
1010 |
@dim_names = @dim_names{@dimensions}; |
---|
1011 |
@dim_ids = @dimid{@dim_names}; |
---|
1012 |
|
---|
1013 |
$dimensions = join('',@dimensions); |
---|
1014 |
|
---|
1015 |
#Set the record dimension to be time or file number based on |
---|
1016 |
#contents of variables.table |
---|
1017 |
if ($dimensions=~/f/) { |
---|
1018 |
$ncid{$param} = $ncid_system; |
---|
1019 |
} |
---|
1020 |
elsif ($dimensions=~/t/) { |
---|
1021 |
$ncid{$param} = $ncid; |
---|
1022 |
} |
---|
1023 |
|
---|
1024 |
|
---|
1025 |
$varid{$param} = NetCDF::vardef($ncid{$param},$param, |
---|
1026 |
eval("$format"), |
---|
1027 |
[@dim_ids]); |
---|
1028 |
|
---|
1029 |
die "Couldn't define variable $param\n" if $varid{$param}<0; |
---|
1030 |
|
---|
1031 |
|
---|
1032 |
#print "$param should have $#all_attributes\n"; |
---|
1033 |
foreach $attribute (@all_attributes) { |
---|
1034 |
$att_val = eval('\$'.$attribute.'{$param}'); |
---|
1035 |
if (defined $att_val && $att_val!=~/^N\/A/) { |
---|
1036 |
$attid = NetCDF::attput($ncid{$param},$varid{$param},"$attribute", |
---|
1037 |
NetCDF::CHAR, |
---|
1038 |
eval('\$'.$attribute.'{$param}')); |
---|
1039 |
}#end if |
---|
1040 |
}#end foreach $attribute |
---|
1041 |
} |
---|
1042 |
|
---|
1043 |
###################################################################### |
---|
1044 |
### Varput ########################################################### |
---|
1045 |
sub varput { |
---|
1046 |
$format = 'NetCDF::'.$format{$param}; |
---|
1047 |
|
---|
1048 |
@dimensions = split('\s',$dimensions{$param}); |
---|
1049 |
@dim_names = @dim_names{@dimensions}; |
---|
1050 |
#@dim_ids = @dimid{@dim_names}; |
---|
1051 |
@dim_counts = @dims{@dim_names}; |
---|
1052 |
@dim_starts = @zeros[0..$#dim_names]; |
---|
1053 |
|
---|
1054 |
unless ($param =~/CLOCK/ || $param =~/BBAD/ || |
---|
1055 |
$param =~/GPS$/ || $param =~/LINK$/) { |
---|
1056 |
|
---|
1057 |
#No matter how good it looks, test the arrray for undefined values! |
---|
1058 |
#(This is painfully slow and really should be replaced by initializing |
---|
1059 |
#the arrays at the start...) |
---|
1060 |
@temp_array = @{$Vars{$param}}; |
---|
1061 |
for ($ii=0; $ii<=$#temp_array; $ii++) { |
---|
1062 |
unless (defined($temp_array[$ii])) { |
---|
1063 |
${$Vars{$param}}[$ii] = $fill_value; |
---|
1064 |
} |
---|
1065 |
} |
---|
1066 |
|
---|
1067 |
if ($debug>1) { |
---|
1068 |
print "$param length ".eval($#{$Vars{$param}}+1). |
---|
1069 |
", id $varid{$param}\n"; |
---|
1070 |
} |
---|
1071 |
|
---|
1072 |
unless ($format=~/CHAR/) { |
---|
1073 |
#Put the variable into the netcdf file! |
---|
1074 |
$status = NetCDF::varput($ncid{$param},$varid{$param}, |
---|
1075 |
\@dim_starts,\@dim_counts, |
---|
1076 |
\@{$Vars{$param}}); |
---|
1077 |
} |
---|
1078 |
else { |
---|
1079 |
#Test to make sure it is as long as we expected... |
---|
1080 |
if ($#{$Vars{$param}}+1==($#tower_files+1)*50) { |
---|
1081 |
$status = NetCDF::varput($ncid{$param},$varid{$param}, |
---|
1082 |
\@dim_starts,\@dim_counts, |
---|
1083 |
\@{$Vars{$param}}); |
---|
1084 |
} |
---|
1085 |
elsif ($debug>1) { |
---|
1086 |
print "Didn't have enough values for $param\n"; |
---|
1087 |
} |
---|
1088 |
} |
---|
1089 |
}#End unless that ignores clock,bbad,gps and link strings |
---|
1090 |
else { |
---|
1091 |
print "$param being ignored\n"; |
---|
1092 |
} |
---|
1093 |
} |
---|
1094 |
|
---|
1095 |
###################################################################### |
---|
1096 |
### Compute Sub Vars ################################################# |
---|
1097 |
sub compute_sub_vars { |
---|
1098 |
|
---|
1099 |
if ($#sub_vars +1) { |
---|
1100 |
$orig_param = $param_id; |
---|
1101 |
|
---|
1102 |
foreach $sub_param (@sub_vars) { |
---|
1103 |
$param_id = $sub_param; |
---|
1104 |
&convert_vars; |
---|
1105 |
} |
---|
1106 |
$param_id = $orig_param; |
---|
1107 |
} |
---|
1108 |
} |
---|
1109 |
|
---|
1110 |
###################################################################### |
---|
1111 |
### Set Index ######################################################## |
---|
1112 |
sub set_index { |
---|
1113 |
|
---|
1114 |
#If the record dimension is time, use the time index |
---|
1115 |
if ($dimensions{$param_id}=~/t/) { |
---|
1116 |
$index = $time_index; |
---|
1117 |
} |
---|
1118 |
#If the record dimension is file number use that index |
---|
1119 |
elsif ($dimensions{$param_id}=~/f/) { |
---|
1120 |
$index = $file_index; |
---|
1121 |
} |
---|
1122 |
} |
---|
1123 |
|
---|
1124 |
|
---|
1125 |
###################################################################### |
---|
1126 |
### Avg Wind ######################################################### |
---|
1127 |
sub avg_wind { |
---|
1128 |
#1. Check for all necessary components: |
---|
1129 |
# a. 'spda' -> WSPDA |
---|
1130 |
# b. 'dira' -> WDIRA |
---|
1131 |
# c. 'spdb' -> WSPDB (Optional) [alternative is 'spdn' if empty] |
---|
1132 |
# d. 'dirb' -> WDIRB (Optional) [alternative is 'dirn' if empty] |
---|
1133 |
# e. 'cmp1' -> COMP1 (Optional) [alternative is an offset, which |
---|
1134 |
# defaults to 0 unless otherwise set... Does not requre pkgb] |
---|
1135 |
# f. 'cmp2' -> COMP2 [Not Used!] |
---|
1136 |
# |
---|
1137 |
#2. Loop through times: |
---|
1138 |
# a. Replace out of range values or empty package with fill_value |
---|
1139 |
# b. Apply direction offset |
---|
1140 |
# c. Compute vector components (u,v) |
---|
1141 |
# |
---|
1142 |
#3. Compute statistics |
---|
1143 |
# |
---|
1144 |
#4. Store data values |
---|
1145 |
|
---|
1146 |
my(@junk) = (); |
---|
1147 |
my(@input) = (@_); |
---|
1148 |
%names = ('spda'=>'wi_spd_a', |
---|
1149 |
'dira'=>'wi_dir_a', |
---|
1150 |
'spdb'=>'wi_spd_b', |
---|
1151 |
'dirb'=>'wi_dir_b', |
---|
1152 |
'spdn'=>'junk', |
---|
1153 |
'dirn'=>'junk', |
---|
1154 |
'cmp1'=>'comp_1', |
---|
1155 |
'cmp2'=>'comp_2'); |
---|
1156 |
|
---|
1157 |
|
---|
1158 |
#1. Check for all necessary components: |
---|
1159 |
if ($input[0]=~/spda/) { |
---|
1160 |
#First variable on the list, initialize temporary data arrays |
---|
1161 |
|
---|
1162 |
#If we've already been through the loop once... |
---|
1163 |
if ($dira[0]) { |
---|
1164 |
$real_last_var = $last_var; |
---|
1165 |
|
---|
1166 |
if ($#cmp1<0) { |
---|
1167 |
#No compass data. Nor is there an available offset. |
---|
1168 |
@cmp1 = (0); |
---|
1169 |
} |
---|
1170 |
} |
---|
1171 |
else { |
---|
1172 |
#for the first one, so it doesn't confuse the real_last_var |
---|
1173 |
$real_last_var = 'NOPE'; |
---|
1174 |
} |
---|
1175 |
|
---|
1176 |
#Now initialize the arrays |
---|
1177 |
@spda = @dira = @spdb = @dirb = @cmp1 = @cmp2 = (); |
---|
1178 |
} |
---|
1179 |
elsif ($input[0]=~/dir/) { |
---|
1180 |
if ($#input==1) { |
---|
1181 |
#Then we have been given a directional offset and should |
---|
1182 |
#apply it! |
---|
1183 |
$offset = $input[1]; |
---|
1184 |
} |
---|
1185 |
else { |
---|
1186 |
$offset = 0; |
---|
1187 |
} |
---|
1188 |
} |
---|
1189 |
#print("\@$input[0] = \@$names{$input[0]};\n"); |
---|
1190 |
eval("\@$input[0] = \@$names{$input[0]};"); |
---|
1191 |
|
---|
1192 |
if ($input[0]=~/$real_last_var/) { |
---|
1193 |
#Write the data from this sample. |
---|
1194 |
&handle_wind; |
---|
1195 |
&write_wind; |
---|
1196 |
} |
---|
1197 |
|
---|
1198 |
$last_var = $input[0]; |
---|
1199 |
} |
---|
1200 |
|
---|
1201 |
|
---|
1202 |
###################################################################### |
---|
1203 |
### Handle Wind ###################################################### |
---|
1204 |
sub handle_wind { |
---|
1205 |
#This subroutine works for average_wind: once data arrays are |
---|
1206 |
#collected it preforms all the necessary operations on them. |
---|
1207 |
|
---|
1208 |
my($time); |
---|
1209 |
our($u_mean_a,$u_max_a,$u_std_a,$u_mean_b,$u_max_b,$u_std_b, |
---|
1210 |
$v_mean_a,$v_max_a,$v_std_a,$v_mean_b,$v_max_b,$v_std_b, |
---|
1211 |
$mean_spd_a,$mean_dir_a,$mean_spd_b,$mean_dir_b,$spd_std_a, |
---|
1212 |
$dir_std_a,$spd_std_b,$dir_std_b,$gust_a,$gust_b) = $fill_value; |
---|
1213 |
|
---|
1214 |
my(@u_a,@v_a,@u_b,@v_b,@temp_cmp,@comp_off) = (); |
---|
1215 |
|
---|
1216 |
|
---|
1217 |
#Loop through samples... |
---|
1218 |
for ($time=0; $time<=$#spda; $time++) { |
---|
1219 |
|
---|
1220 |
#Make sure there is some directional offset to apply! |
---|
1221 |
if ($#cmp1<1) { |
---|
1222 |
#If compass data wasn't parsed correctly, fix it! |
---|
1223 |
if ($cmp1[0]=~/\ /) { |
---|
1224 |
@temp_cmp = split(' ',$cmp1[0]); |
---|
1225 |
@cmp1 = @temp_cmp; |
---|
1226 |
$comp_off[$time] = &volts2comp($cmp1[$time]) + $offset; |
---|
1227 |
} |
---|
1228 |
#No compass, using fixed offset |
---|
1229 |
else { |
---|
1230 |
$comp_off[$time] = &volts2comp($cmp1[0]) + $offset; |
---|
1231 |
} |
---|
1232 |
} |
---|
1233 |
else{ |
---|
1234 |
#There is a compass reading so use that (buoy) |
---|
1235 |
$comp_off[$time] = &volts2comp($cmp1[$time]) + $offset; |
---|
1236 |
} |
---|
1237 |
|
---|
1238 |
|
---|
1239 |
#Apply simple, static conversion from voltage to scientific values |
---|
1240 |
($spda[$time],$dira[$time]) = &volts2spddir($spda[$time],$dira[$time]); |
---|
1241 |
($spdb[$time],$dirb[$time]) = &volts2spddir($spdb[$time],$dirb[$time]); |
---|
1242 |
|
---|
1243 |
|
---|
1244 |
#Make sure speeds are reasonable and if speed or direction are |
---|
1245 |
#bad, both are badflagged |
---|
1246 |
$bada = ($spda[$time]>100 | $spda[$time]==$fill_value | |
---|
1247 |
$dira[$time]==$fill_value); |
---|
1248 |
if ($bada) { |
---|
1249 |
$spda[$time] = $dira[$time] = $u_a[$time] = $v_a[$time] = $fill_value; |
---|
1250 |
} |
---|
1251 |
else { |
---|
1252 |
#Take the direction mod 360 |
---|
1253 |
$dira[$time] = &modulo($dira[$time] + $comp_off[$time], 360); |
---|
1254 |
#Convert Spd and Dir to U and V components |
---|
1255 |
($u_a[$time],$v_a[$time]) = &spddir2uv($spda[$time],$dira[$time]); |
---|
1256 |
} |
---|
1257 |
|
---|
1258 |
#Ditto for the b package! (as long as there is a b package...) |
---|
1259 |
unless ($#spdb<0) { |
---|
1260 |
$badb = ($spdb[$time]>100 | $spdb[$time]==$fill_value | |
---|
1261 |
$dirb[$time]==$fill_value); |
---|
1262 |
if ($badb) { |
---|
1263 |
$spdb[$time] = $dirb[$time] = $u_b[$time] = |
---|
1264 |
$v_b[$time] = $fill_value; |
---|
1265 |
} |
---|
1266 |
else { |
---|
1267 |
$dirb[$time] = &modulo($dirb[$time] + $comp_off[$time], 360); |
---|
1268 |
($u_b[$time],$v_b[$time]) = &spddir2uv($spdb[$time],$dirb[$time]); |
---|
1269 |
} |
---|
1270 |
} |
---|
1271 |
} |
---|
1272 |
|
---|
1273 |
#a package stats |
---|
1274 |
#($mean,$std,$max) = &fill_stats(@array); |
---|
1275 |
($u_mean_a,$u_std_a,$u_max_a) = &fill_stats(@u_a); |
---|
1276 |
($v_mean_a,$v_std_a,$v_max_a) = &fill_stats(@v_a); |
---|
1277 |
#In terms of speed, mean speed is wrong |
---|
1278 |
(undef,$spd_std_a,$gust_a) = &fill_stats(@spda); |
---|
1279 |
#For direction, only std dev is right... |
---|
1280 |
(undef,$dir_std_a,undef) = &fill_stats(@dira); |
---|
1281 |
|
---|
1282 |
($mean_spd_a,$mean_dir_a) = &uv2spddir($u_mean_a,$v_mean_a); |
---|
1283 |
|
---|
1284 |
($comp_mean,$comp_std,undef) = &fill_stats(@comp_off); |
---|
1285 |
|
---|
1286 |
#b package stats |
---|
1287 |
unless ($#u_b<0) { |
---|
1288 |
($u_mean_b,$u_std_b,$u_max_b) = &fill_stats(@u_b); |
---|
1289 |
($v_mean_b,$v_std_b,$v_max_b) = &fill_stats(@v_b); |
---|
1290 |
#In terms of speed, mean speed is wrong |
---|
1291 |
(undef,$spd_std_b,$gust_b) = &fill_stats(@spdb); |
---|
1292 |
#For direction, only std dev is right... |
---|
1293 |
(undef,$dir_std_b,undef) = &fill_stats(@dirb); |
---|
1294 |
|
---|
1295 |
($mean_spd_b,$mean_dir_b) = &uv2spddir($u_mean_b,$v_mean_b); |
---|
1296 |
} |
---|
1297 |
} |
---|
1298 |
|
---|
1299 |
###################################################################### |
---|
1300 |
### Write_Wind ######################################################## |
---|
1301 |
sub write_wind { |
---|
1302 |
|
---|
1303 |
unless ($mean_dir_a == $fill_value || |
---|
1304 |
$mean_spd_a == $fill_value) { |
---|
1305 |
#put variables into array!!! |
---|
1306 |
${$Vars{WSPDA}}[$index] = $mean_spd_a; |
---|
1307 |
${$Vars{WDIRA}}[$index] = $mean_dir_a; |
---|
1308 |
${$Vars{WEASTA}}[$index] = $u_mean_a; |
---|
1309 |
${$Vars{WNORTHA}}[$index] = $v_mean_a; |
---|
1310 |
${$Vars{WSPDSTDA}}[$index] = $spd_std_a; |
---|
1311 |
${$Vars{WDIRSTDA}}[$index] = $dir_std_a; |
---|
1312 |
${$Vars{WGSTA}}[$index] = $gust_a; |
---|
1313 |
} |
---|
1314 |
else { |
---|
1315 |
${$Vars{WSPDA}}[$index] = $fill_value; |
---|
1316 |
${$Vars{WDIRA}}[$index] = $fill_value; |
---|
1317 |
${$Vars{WEASTA}}[$index] = $fill_value; |
---|
1318 |
${$Vars{WNORTHA}}[$index] = $fill_value; |
---|
1319 |
${$Vars{WSPDSTDA}}[$index] = $fill_value; |
---|
1320 |
${$Vars{WDIRSTDA}}[$index] = $fill_value; |
---|
1321 |
${$Vars{WGSTA}}[$index] = $fill_value; |
---|
1322 |
} |
---|
1323 |
unless ($mean_dir_b == $fill_value || |
---|
1324 |
$mean_spd_b == $fill_value) { |
---|
1325 |
#put variables into array!!! |
---|
1326 |
${$Vars{WSPDB}}[$index] = $mean_spd_b; |
---|
1327 |
${$Vars{WDIRB}}[$index] = $mean_dir_b; |
---|
1328 |
${$Vars{WEASTB}}[$index] = $u_mean_b; |
---|
1329 |
${$Vars{WNORTHB}}[$index] = $v_mean_b; |
---|
1330 |
${$Vars{WSPDSTDB}}[$index] = $spd_std_b; |
---|
1331 |
${$Vars{WDIRSTDB}}[$index] = $dir_std_b; |
---|
1332 |
${$Vars{WGSTB}}[$index] = $gust_b; |
---|
1333 |
} |
---|
1334 |
else { |
---|
1335 |
${$Vars{WSPDB}}[$index] = $fill_value; |
---|
1336 |
${$Vars{WDIRB}}[$index] = $fill_value; |
---|
1337 |
${$Vars{WEASTB}}[$index] = $fill_value; |
---|
1338 |
${$Vars{WNORTHB}}[$index] = $fill_value; |
---|
1339 |
${$Vars{WSPDSTDB}}[$index] = $fill_value; |
---|
1340 |
${$Vars{WDIRSTDB}}[$index] = $fill_value; |
---|
1341 |
${$Vars{WGSTB}}[$index] = $fill_value; |
---|
1342 |
} |
---|
1343 |
|
---|
1344 |
unless ($comp_std == 0 || |
---|
1345 |
$comp_mean == -9999) { |
---|
1346 |
${$Vars{COMP1}}[$index] = $comp_mean; |
---|
1347 |
} |
---|
1348 |
else { |
---|
1349 |
${$Vars{COMP1}}[$index] = $fill_value; |
---|
1350 |
} |
---|
1351 |
} |
---|
1352 |
|
---|
1353 |
###################################################################### |
---|
1354 |
### Handle Comp ###################################################### |
---|
1355 |
sub handle_comp { |
---|
1356 |
#This subroutine works for average_wind: once data arrays are |
---|
1357 |
#collected it preforms all the necessary operations on them. |
---|
1358 |
|
---|
1359 |
#Trying to figure out what to do with hourly compass measurements |
---|
1360 |
#including pitch and roll. Need mean and std |
---|
1361 |
|
---|
1362 |
#print "HANDLE COMP!$#comp $#pitch $#roll\n"; |
---|
1363 |
|
---|
1364 |
our($compd_mean,$compd_std,$compd_max,$pitch_mean,$pitch_std, |
---|
1365 |
$pitch_max,$roll_mean,$roll_std,$roll_max) = $fill_value; |
---|
1366 |
|
---|
1367 |
my(@u_c,@v_c,@u_p,@v_p,@u_r,@v_r) = (); |
---|
1368 |
|
---|
1369 |
#print "Okay? $comp[0] $pitch[0] $roll[0]?\n"; |
---|
1370 |
if ($#comp>0) { |
---|
1371 |
#print "ARRAY: @comp\n"; |
---|
1372 |
#print "Looping compass...\n"; |
---|
1373 |
#Loop through samples... |
---|
1374 |
for ($time=0; $time<=$#comp; $time++) { |
---|
1375 |
#Since we don't have a speed, we will use the unit vector for |
---|
1376 |
#the averaging... |
---|
1377 |
|
---|
1378 |
#print "C: $comp[$time] P: $pitch[$time] R: $roll[$time] at 1\n"; |
---|
1379 |
|
---|
1380 |
#Take the direction mod 360 |
---|
1381 |
$comp[$time] = &modulo($comp[$time], 360); |
---|
1382 |
$pitch[$time] = &modulo($pitch[$time], 360); |
---|
1383 |
$roll[$time] = &modulo($roll[$time], 360); |
---|
1384 |
|
---|
1385 |
#print "C: $comp[$time] P: $pitch[$time] R: $roll[$time] at 2\n"; |
---|
1386 |
|
---|
1387 |
#Convert Spd and Dir to U and V components |
---|
1388 |
($u_c[$time],$v_c[$time]) = &spddir2uv(1,$comp[$time]); |
---|
1389 |
($u_p[$time],$v_p[$time]) = &spddir2uv(1,$pitch[$time]); |
---|
1390 |
($u_r[$time],$v_r[$time]) = &spddir2uv(1,$roll[$time]); |
---|
1391 |
|
---|
1392 |
#print "C: $u_c[$time] $v_c[$time] P: $u_p[$time] $v_p[$time]". |
---|
1393 |
#" R: $u_r[$time] $v_r[$time] at 3\n"; |
---|
1394 |
} |
---|
1395 |
|
---|
1396 |
#($mean,$std,$max) = &fill_stats(@array); |
---|
1397 |
($u_c_mean,$u_c_std,$u_c_max) = &fill_stats(@u_c); |
---|
1398 |
($u_p_mean,$u_p_std,$u_p_max) = &fill_stats(@u_p); |
---|
1399 |
($u_r_mean,$u_r_std,$u_r_max) = &fill_stats(@u_r); |
---|
1400 |
|
---|
1401 |
($v_c_mean,$v_c_std,$v_c_max) = &fill_stats(@v_c); |
---|
1402 |
($v_p_mean,$v_p_std,$v_p_max) = &fill_stats(@v_p); |
---|
1403 |
($v_r_mean,$v_r_std,$v_r_max) = &fill_stats(@v_r); |
---|
1404 |
|
---|
1405 |
#Now get back to the direction! |
---|
1406 |
(undef,$compd_mean) = &uv2spddir($u_c_mean,$v_c_mean); |
---|
1407 |
(undef,$compd_std) = ($u_c_std**2+$v_c_std**2)**(1/2); |
---|
1408 |
(undef,$compd_max) = &uv2spddir($u_c_max,$v_c_max); |
---|
1409 |
|
---|
1410 |
(undef,$pitch_mean) = &uv2spddir($u_p_mean,$v_p_mean); |
---|
1411 |
(undef,$pitch_std) = ($u_p_std**2+$v_p_std**2)**(1/2); |
---|
1412 |
(undef,$pitch_max) = &uv2spddir($u_p_max,$v_p_max); |
---|
1413 |
|
---|
1414 |
(undef,$roll_mean) = &uv2spddir($u_r_mean,$v_r_mean); |
---|
1415 |
(undef,$roll_std) = ($u_r_std**2+$v_r_std**2)**(1/2); |
---|
1416 |
(undef,$roll_max) = &uv2spddir($u_r_max,$v_r_max); |
---|
1417 |
|
---|
1418 |
|
---|
1419 |
#print "Compass: $comp_mean, $comp_std, $comp_max\n@comp\n"; |
---|
1420 |
#print "Pitch: $pitch_mean, $pitch_std, $pitch_max\n@pitch\n"; |
---|
1421 |
#print "Roll: $roll_mean, $roll_std, $roll_max\n@roll\n"; |
---|
1422 |
|
---|
1423 |
${$Vars{COMPMEAN}}[$file_index] = $compd_mean; |
---|
1424 |
${$Vars{COMPSTD}}[$file_index] = $compd_std; |
---|
1425 |
${$Vars{COMPMAX}}[$file_index] = $compd_max; |
---|
1426 |
${$Vars{PITCHMEAN}}[$file_index] = $pitch_mean; |
---|
1427 |
${$Vars{PITCHSTD}}[$file_index] = $pitch_std; |
---|
1428 |
${$Vars{PITCHMAX}}[$file_index] = $pitch_max; |
---|
1429 |
${$Vars{ROLLMEAN}}[$file_index] = $roll_mean; |
---|
1430 |
${$Vars{ROLLSTD}}[$file_index] = $roll_std; |
---|
1431 |
${$Vars{ROLLMAX}}[$file_index] = $roll_max; |
---|
1432 |
} |
---|
1433 |
else { |
---|
1434 |
#print "Nope...\n"; |
---|
1435 |
${$Vars{COMPMEAN}}[$file_index] = $fill_value; |
---|
1436 |
${$Vars{COMPSTD}}[$file_index] = $fill_value; |
---|
1437 |
${$Vars{COMPMAX}}[$file_index] = $fill_value; |
---|
1438 |
${$Vars{PITCHMEAN}}[$file_index] = $fill_value; |
---|
1439 |
${$Vars{PITCHSTD}}[$file_index] = $fill_value; |
---|
1440 |
${$Vars{PITCHMAX}}[$file_index] = $fill_value; |
---|
1441 |
${$Vars{ROLLMEAN}}[$file_index] = $fill_value; |
---|
1442 |
${$Vars{ROLLSTD}}[$file_index] = $fill_value; |
---|
1443 |
${$Vars{ROLLMAX}}[$file_index] = $fill_value; |
---|
1444 |
} |
---|
1445 |
} |
---|
1446 |
|
---|
1447 |
|
---|
1448 |
|
---|
1449 |
###################################################################### |
---|
1450 |
### Volts2SpdDir ##################################################### |
---|
1451 |
sub volts2spddir { |
---|
1452 |
|
---|
1453 |
my($volts_spd,$volts_dir) = @_; |
---|
1454 |
my($wind_spd,$wind_dir) = undef; |
---|
1455 |
|
---|
1456 |
unless($volts_spd=~/$fill_value/) { |
---|
1457 |
#0->1 V : 0 60 m/s |
---|
1458 |
$wind_spd = $volts_spd*60; |
---|
1459 |
} |
---|
1460 |
else { $wind_spd = $fill_value; } |
---|
1461 |
|
---|
1462 |
unless($volts_dir=~/$fill_value/) { |
---|
1463 |
#0->1 V : 0 360 deg |
---|
1464 |
$wind_dir = $volts_dir*360; |
---|
1465 |
} |
---|
1466 |
else { $wind_dir = $fill_value; } |
---|
1467 |
|
---|
1468 |
return ($wind_spd,$wind_dir); |
---|
1469 |
} |
---|
1470 |
|
---|
1471 |
###################################################################### |
---|
1472 |
### Volts2Comp ####################################################### |
---|
1473 |
sub volts2comp { |
---|
1474 |
|
---|
1475 |
my($volts_comp) = @_; |
---|
1476 |
|
---|
1477 |
unless($volts_comp=~/$fill_value/) { |
---|
1478 |
#0->1 V : 0 360 deg |
---|
1479 |
return $volts_comp*360; |
---|
1480 |
} |
---|
1481 |
else { return $fill_value; } |
---|
1482 |
} |
---|
1483 |
|
---|
1484 |
|
---|
1485 |
|
---|
1486 |
###################################################################### |
---|
1487 |
### SpdDir2UV ######################################################## |
---|
1488 |
sub spddir2uv { |
---|
1489 |
#convert speed and direction to u and v |
---|
1490 |
my($wind_spd,$wind_dir) = @_; |
---|
1491 |
my($deg2rad) = .0174533; |
---|
1492 |
my($wind_u,$wind_v) = undef; |
---|
1493 |
|
---|
1494 |
|
---|
1495 |
unless($wind_spd=~/$fill_value/ || $wind_dir=~/$fill_value/) { |
---|
1496 |
#okay this is terrible but I'm at a loss what else to do. |
---|
1497 |
$wind_v = ($wind_spd)*cos($wind_dir*$deg2rad); |
---|
1498 |
$wind_u = ($wind_spd)*sin($wind_dir*$deg2rad); |
---|
1499 |
return ($wind_u,$wind_v); |
---|
1500 |
} |
---|
1501 |
else { |
---|
1502 |
#print "no!?"; |
---|
1503 |
return ($fill_value,$fill_value); |
---|
1504 |
} |
---|
1505 |
} |
---|
1506 |
|
---|
1507 |
###################################################################### |
---|
1508 |
### UV2SpdDir ######################################################## |
---|
1509 |
sub uv2spddir { |
---|
1510 |
#convert speed and direction to u and v |
---|
1511 |
my($wind_u,$wind_v) = @_; |
---|
1512 |
my($deg2rad) = .0174533; |
---|
1513 |
my($wind_spd,$wind_dir) = undef; |
---|
1514 |
|
---|
1515 |
unless($wind_u=~/$fill_value/ || $wind_v=~/$fill_value/) { |
---|
1516 |
$wind_spd = ($wind_u**2 + $wind_v**2)**(1/2); |
---|
1517 |
$wind_dir = &modulo(atan2($wind_u, $wind_v)/$deg2rad,360); |
---|
1518 |
return ($wind_spd,$wind_dir); |
---|
1519 |
} |
---|
1520 |
else { |
---|
1521 |
return ($fill_value,$fill_value); |
---|
1522 |
} |
---|
1523 |
} |
---|
1524 |
|
---|
1525 |
###################################################################### |
---|
1526 |
### Avg Rain ######################################################### |
---|
1527 |
sub avg_rain { |
---|
1528 |
#Convert cumulative rainfall readings for self siphoning rain |
---|
1529 |
#guage into a rainfall amount over the sampling period. |
---|
1530 |
|
---|
1531 |
#I haven't figured this out yet... |
---|
1532 |
#print "RAIN???\n"; |
---|
1533 |
|
---|
1534 |
#First I need to check the voltage -> volume. |
---|
1535 |
#Then, make sure it isn't in the process of dumping (look at diff, |
---|
1536 |
#confirm that it isn't largely negative) |
---|
1537 |
#Finally look at the change since the previous sample loop to get |
---|
1538 |
#the cumulative rain (and if it is negative, add the dumping |
---|
1539 |
#volume) |
---|
1540 |
|
---|
1541 |
#print "Testing rain:\n"; |
---|
1542 |
|
---|
1543 |
#my ($ind,$raindiff); |
---|
1544 |
#for($ind=1;$ind<$#cumrain;$ind++) { |
---|
1545 |
# $raindiff = $cumrain[$ind]-$cumrain[$ind-1]; |
---|
1546 |
# if ($raindiff<-.05) { |
---|
1547 |
# print "Dumping???\n"; |
---|
1548 |
# } |
---|
1549 |
# elsif ($raindiff>.05) { |
---|
1550 |
# print "Raining???\n"; |
---|
1551 |
# } |
---|
1552 |
#} |
---|
1553 |
my($maxrain); |
---|
1554 |
$maxrain = &max(@cumrain); |
---|
1555 |
|
---|
1556 |
|
---|
1557 |
unless ($maxrain=~/$fill_value/) { |
---|
1558 |
$maxrain = $maxrain*10; |
---|
1559 |
} |
---|
1560 |
else { |
---|
1561 |
$maxrain = $fill_value; |
---|
1562 |
} |
---|
1563 |
${$Vars{RAIN}}[$index] = $maxrain; |
---|
1564 |
} |
---|
1565 |
|
---|
1566 |
|
---|
1567 |
|
---|
1568 |
|
---|
1569 |
###################################################################### |
---|
1570 |
### Fill Stats ####################################################### |
---|
1571 |
sub fill_stats(@array) { |
---|
1572 |
|
---|
1573 |
my(@array,$mean_value); |
---|
1574 |
@array = @_; |
---|
1575 |
|
---|
1576 |
$array = join(',',@array); |
---|
1577 |
$array =~s/$fill_value//g; |
---|
1578 |
$array =~s/\,\,/\,/g; |
---|
1579 |
@array = split(',',$array); |
---|
1580 |
|
---|
1581 |
unless ($#array<0) { |
---|
1582 |
($mean) = &mean(@array); |
---|
1583 |
($std) = &std_dev(@array); |
---|
1584 |
($max) = &max(@array); |
---|
1585 |
return ($mean,$std,$max); |
---|
1586 |
} |
---|
1587 |
else { |
---|
1588 |
return ($fill_value,$fill_value,$fill_value); |
---|
1589 |
} |
---|
1590 |
} |
---|
1591 |
|
---|
1592 |
###################################################################### |
---|
1593 |
### Mean ############################################################# |
---|
1594 |
sub mean(@array) { |
---|
1595 |
my(@array,$mean_value); |
---|
1596 |
@array = @_; |
---|
1597 |
|
---|
1598 |
$sum_array = join('+',@array); |
---|
1599 |
|
---|
1600 |
if ($sum_array =~m/\+\+/) { |
---|
1601 |
return $fill_value; |
---|
1602 |
} |
---|
1603 |
#print "Averaging!\n$sum_array\n"; |
---|
1604 |
|
---|
1605 |
eval('$mean_value = ('."$sum_array".')/($#array+1);'); |
---|
1606 |
return $mean_value; |
---|
1607 |
} |
---|
1608 |
|
---|
1609 |
###################################################################### |
---|
1610 |
### Std Dev ########################################################## |
---|
1611 |
sub std_dev(@array) { |
---|
1612 |
my(@array,$std_dev); |
---|
1613 |
@array = @_; |
---|
1614 |
|
---|
1615 |
my $temp_std = new Statistics::Basic::StdDev(\@array); |
---|
1616 |
$std_dev = $temp_std -> query; |
---|
1617 |
|
---|
1618 |
return $std_dev; |
---|
1619 |
} |
---|
1620 |
|
---|
1621 |
###################################################################### |
---|
1622 |
### Max ############################################################## |
---|
1623 |
sub max { |
---|
1624 |
#From perldoc.com |
---|
1625 |
my $max = shift(@_); |
---|
1626 |
foreach $foo (@_) { |
---|
1627 |
$max = $foo if $max < $foo; |
---|
1628 |
} |
---|
1629 |
return $max; |
---|
1630 |
} |
---|
1631 |
|
---|
1632 |
###################################################################### |
---|
1633 |
### Modulo ########################################################### |
---|
1634 |
sub modulo($element,$modulus) { |
---|
1635 |
#Do modulus of the element, but don't throw away the remainder |
---|
1636 |
|
---|
1637 |
my($element,$modulus,$el,$floor) = @_; |
---|
1638 |
|
---|
1639 |
if ($element < 0) { |
---|
1640 |
return $element + $modulus; |
---|
1641 |
} |
---|
1642 |
elsif ($element <= $modulus) { |
---|
1643 |
return $element; |
---|
1644 |
} |
---|
1645 |
elsif ($element > 3*$modulus) { |
---|
1646 |
#print "Wow $element is HUGE!\n"; |
---|
1647 |
return $fill_value; |
---|
1648 |
} |
---|
1649 |
elsif ($element > 2*$modulus) { |
---|
1650 |
return $element - 2*$modulus; |
---|
1651 |
} |
---|
1652 |
elsif ($element > $modulus) { |
---|
1653 |
return $element - $modulus; |
---|
1654 |
} |
---|
1655 |
} |
---|
1656 |
|
---|
1657 |
|
---|
1658 |
|
---|
1659 |
|
---|