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geometry.m
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368 lines (353 loc) · 15.5 KB
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% geometry.m -- create daily geometry file
%
% Assumes index has been generated and exists in workspace
% anders.eriksson@irfu.se 2012-03-29
%
% Relies on one being able to log on to IRF Umeå for some data.
%
% Not used anymore. Will never be used again?!
% Erik P G Johansson 2015-12-15?
% Path to geometry files:
gpath = 'geofiles/';
% Define file start times:
t0 = [index.t0]';
% Find days for which data exist in archive:
% (need not be consecutive)
dayjumps = find(diff(floor(t0)));
days = floor(t0(1));
if(~isempty(dayjumps))
days = [days; floor(t0(dayjumps+1))];
end
ndays = length(days); % Number of days with data
for d = 1:ndays % Create daily geometry files
day = days(d);
fprintf(1,'Processing %s...\n',datestr(day,1));
m = min(find(floor(t0) == day));
n = max(find(floor(t0) == day));
% All file start times during day d
t = t0(m:n);
% Start and stop s/c clock for later use when writing label:
sct0 = index(m).sct0str;
sct1 = index(n).sct0str; % Note: should not be sct1str (geometry calculated for start of data file)
% Only use times differing > 16 s (others considered duplicated):
ind = find(diff(t) > 16/86400);
ind = [1; ind+1];
gt = t(ind);
% Write these times to file gtimes.txt:
tf = fopen('gtimes.txt','w');
for i=1:length(gt)
%fprintf(tf,'%sT%s\n',datestr(gt(i),29),datestr(gt(i),13));
fprintf(tf,'%sT%s\n',datestr(gt(i),29),datestr(gt(i),'HH:MM:SS.FFF'));
end
fclose(tf);
% Geometry file name:
gtname = sprintf('RPCLAP%s_%d_GEOM.TAB',datestr(day,'yymmdd'),processlevel);
glname = sprintf('RPCLAP%s_%d_GEOM.LBL',datestr(day,'yymmdd'),processlevel);
% Upload gtimes, call geometry routines and make raw version of daily geometry file:
fprintf(1,'Uploading gtimes...\n');
str1 = sprintf('scp -P 431 gtimes.txt %s@vroom.umea.irf.se:.',ume_user);
unix(str1);
fprintf(1,'Running SPICE...\n');
str = sprintf('ssh -p 431 %s@vroom.umea.irf.se ''ros_spice_pds -target %s -list gtimes.txt -noverbose'' > gout.txt',ume_user,target);
unix(str);
% unix('rm gtimes.txt');
% Reformat raw file to final geometry tab file:
gr = fopen('gout.txt','r');
gt = fopen(strcat(gpath,gtname),'w');
r = fgetl(gr);
ir = 0;
gtime0 = sprintf('%s-%s-%sT%s:%s:%s.%s',r(1:4),r(5:6),r(7:8),r(12:13),r(14:15),r(16:17),r(22:24));
while(ischar(r))
gtime1 = sprintf('%s-%s-%sT%s:%s:%s.%s',r(1:4),r(5:6),r(7:8),r(12:13),r(14:15),r(16:17),r(22:24));
fprintf(gt,'%s',gtime1);
rr = sscanf(r(29:length(r)),'%f');
if(fix_geom_bug)
% Fix to get positions and velocity of s/c wrt target, not the reverse:
rr(1:9) = -rr(1:9);
end
for(rrr=1:22)
fprintf(gt,', %16f',rr(rrr));
end
fprintf(gt,'\n'); % NOTE: No added \r (line feed) since code later calls "todos" (Linux command) for TAB file. TODO/PROPOSAL: Remove "todos" and print line feed directly instead.
ir = ir+1;
r = fgetl(gr);
end
fclose(gr);
fclose(gt);
unix('rm gout.txt');
str = sprintf('todos %s',strcat(gpath,gtname));
unix(str); % unix2dos on tab file
% Write label file:
gl = fopen(strcat(gpath,glname),'w');
fprintf(gl, 'PDS_VERSION_ID = PDS3\r\n');
fprintf(gl, 'RECORD_TYPE = FIXED_LENGTH\r\n');
fprintf(gl, 'RECORD_BYTES = 422\r\n'); % Now counting linefeed
fprintf(gl, 'FILE_RECORDS = %d\r\n',ir);
fprintf(gl, 'FILE_NAME = "%s"\r\n',glname);
fprintf(gl, '^TABLE = "%s"\r\n',gtname);
fprintf(gl, 'DATA_SET_ID = "%s"\r\n',datasetid);
fprintf(gl, 'DATA_SET_NAME = "%s"\r\n',datasetname);
fprintf(gl, 'DATA_QUALITY_ID = "1"\r\n');
fprintf(gl, 'MISSION_ID = ROSETTA\r\n');
fprintf(gl, 'MISSION_NAME = "INTERNATIONAL ROSETTA MISSION"\r\n');
fprintf(gl, 'MISSION_PHASE_NAME = "%s"\r\n',missionphase);
fprintf(gl, 'PRODUCER_INSTITUTION_NAME = "SWEDISH INSTITUTE OF SPACE PHYSICS, UPPSALA"\r\n');
fprintf(gl, 'PRODUCER_ID = EJ\r\n');
fprintf(gl, 'PRODUCER_FULL_NAME = "ERIK P G JOHANSSON"\r\n');
fprintf(gl, 'LABEL_REVISION_NOTE = "%s, %s, %s"\r\n',lbltime,lbleditor,lblrev);
mm = length(gtname);
fprintf(gl, 'PRODUCT_ID = "%s"\r\n',gtname(1:(mm-4)));
fprintf(gl, 'PRODUCT_TYPE = "EDR"\r\n'); % No idea what this means...
fprintf(gl, 'PRODUCT_CREATION_TIME = %s\r\n',datestr(now,'yyyy-mm-ddTHH:MM:SS.FFF'));
fprintf(gl, 'INSTRUMENT_HOST_ID = RO\r\n');
fprintf(gl, 'INSTRUMENT_HOST_NAME = "ROSETTA-ORBITER"\r\n');
fprintf(gl, 'INSTRUMENT_NAME = "ROSETTA PLASMA CONSORTIUM - LANGMUIR PROBE"\r\n');
fprintf(gl, 'INSTRUMENT_ID = RPCLAP\r\n');
fprintf(gl, 'INSTRUMENT_TYPE = "PLASMA INSTRUMENT"\r\n');
fprintf(gl, 'INSTRUMENT_MODE_ID = "N/A"\r\n');
fprintf(gl, 'TARGET_NAME = "%s"\r\n',targetfullname);
fprintf(gl, 'TARGET_TYPE = "%s"\r\n',targettype);
fprintf(gl, 'PROCESSING_LEVEL_ID = "%d"\r\n',processlevel);
fprintf(gl, 'START_TIME = %s\r\n',gtime0);
fprintf(gl, 'STOP_TIME = %s\r\n',gtime1);
fprintf(gl, 'SPACECRAFT_CLOCK_START_COUNT = %s\r\n',sct0);
fprintf(gl, 'SPACECRAFT_CLOCK_STOP_COUNT = %s\r\n',sct1);
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = TABLE\r\n');
fprintf(gl, 'NAME = "RPCLAP-%d-%s-GEOM"\r\n',processlevel,shortphase);
fprintf(gl, 'INTERCHANGE_FORMAT = ASCII\r\n');
fprintf(gl, 'ROWS = %d\r\n',ir);
fprintf(gl, 'COLUMNS = 23\r\n');
fprintf(gl, 'ROW_BYTES = 422\r\n');
fprintf(gl, 'DESCRIPTION = "GEOMETRY DATA. TIME AND 22 GEOMETRY PARAMETERS."\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = TIME_UTC\r\n');
fprintf(gl, 'DATA_TYPE = TIME\r\n');
fprintf(gl, 'START_BYTE = 1\r\n');
fprintf(gl, 'BYTES = 23\r\n');
fprintf(gl, 'UNIT = SECONDS\r\n');
fprintf(gl, 'DESCRIPTION = "TIME OF GEOMETRY DATA YYYY-MM-DDTHH:MM:SS.sss"\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_SUN_POS_X\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 26\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "HELIOCENTRIC ECLIPJ2000 POSITION X"\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_SUN_POS_Y\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 44\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "HELIOCENTRIC ECLIPJ2000 POSITION Y"\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_SUN_POS_Z\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 62\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "HELIOCENTRIC ECLIPJ2000 POSITION Z"\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_POS_X\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 80\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "TARGET CENTRED ECLIPJ2000 POSITION X. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_POS_Y\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 98\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "TARGET CENTRED ECLIPJ2000 POSITION Y. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_POS_Z\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 116\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "TARGET CENTRED ECLIPJ2000 POSITION Z. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_VEL_X\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 134\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km/s"\r\n');
fprintf(gl, 'DESCRIPTION = "ECLIPJ2000 VELOCITY X RELATIVE TO TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_VEL_Y\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 152\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km/s"\r\n');
fprintf(gl, 'DESCRIPTION = "ECLIPJ2000 VELOCITY Y RELATIVE TO TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_VEL_Z\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 170\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km/s"\r\n');
fprintf(gl, 'DESCRIPTION = "ECLIPJ2000 VELOCITY Z RELATIVE TO TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = ALTITUDE\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 188\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km"\r\n');
fprintf(gl, 'DESCRIPTION = "DISTANCE TO SURFACE OF CURRENT TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = LATITUDE\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 206\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "degrees"\r\n');
fprintf(gl, 'DESCRIPTION = "LATITUDE ON SURFACE OF CURRENT TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = LONGITUDE\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 224\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "degrees"\r\n');
fprintf(gl, 'DESCRIPTION = "LONGITUDE ON SURFACE OF CURRENT TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_TGT_SPEED\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 242\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "km/s"\r\n');
fprintf(gl, 'DESCRIPTION = "SPEED RELATIVE TO CURRENT TARGET. ZERO WHEN NO TARGET."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_X_ECLIPJ2000FR_X\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 260\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME X EXPRESSED IN ECLIPTIC J2000 FRAME X."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_X_ECLIPJ2000FR_Y\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 278\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME X EXPRESSED IN ECLIPTIC J2000 FRAME Y."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_X_ECLIPJ2000FR_Z\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 296\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME X EXPRESSED IN ECLIPTIC J2000 FRAME Z."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_Y_ECLIPJ2000FR_X\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 314\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME Y EXPRESSED IN ECLIPTIC J2000 FRAME X."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_Y_ECLIPJ2000FR_Y\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 332\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME Y EXPRESSED IN ECLIPTIC J2000 FRAME Y."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_Y_ECLIPJ2000FR_Z\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 350\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME Y EXPRESSED IN ECLIPTIC J2000 FRAME Z."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_Z_ECLIPJ2000FR_X\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 368\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME Z EXPRESSED IN ECLIPTIC J2000 FRAME X."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_Z_ECLIPJ2000FR_Y\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 386\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME Z EXPRESSED IN ECLIPTIC J2000 FRAME Y."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'OBJECT = COLUMN\r\n');
fprintf(gl, 'NAME = SC_Z_ECLIPJ2000FR_Z\r\n');
fprintf(gl, 'DATA_TYPE = ASCII_REAL\r\n');
fprintf(gl, 'START_BYTE = 404\r\n');
fprintf(gl, 'BYTES = 16\r\n');
fprintf(gl, 'UNIT = "N/A"\r\n');
fprintf(gl, 'DESCRIPTION = "SPACECRAFT FRAME Z EXPRESSED IN ECLIPTIC J2000 FRAME Z."\r\n');
fprintf(gl, 'END_OBJECT = COLUMN\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'END_OBJECT = TABLE\r\n');
fprintf(gl, '\r\n');
fprintf(gl, 'END');
fclose(gl);
str = sprintf('todos %s',strcat(gpath,glname));
unix(str); % unix2dos on lbl file
% Copy geometry file and label to original data set directory:
if(export_geometry)
switch(processlevel)
case 2
levstr = 'EDITED';
case 3
levstr = 'CALIBRATED';
end
dstr = datestr(day);
pth = strcat('/',dstr(8:11),'/',upper(dstr(4:6)),'/D',dstr(1:2));
ptht = sprintf('cp %s %s/DATA/%s%s/%s',strcat(gpath,gtname),archivepath,levstr,pth,gtname);
pthl = sprintf('cp %s %s/DATA/%s%s/%s',strcat(gpath,glname),archivepath,levstr,pth,glname);
unix(ptht);
unix(pthl);
end
end % End of day loop
% End of geometry.m