;+ ; ;NAME: ;iug_load_radiosonde_sgk_csv ; ;PURPOSE: ; Queries the Kyoto RISH server for the text data (press, temp, rh, uwnd, vwnd) ; of the troposphere in csv format taken by the radiosonde at Shigaraki MU Observatory ; and loads data into tplot format. ; ;SYNTAX: ; iug_load_radiosonde_sgk_csv, downloadonly=downloadonly, trange=trange, verbose=verbose ; ;KEYWOARDS: ; trange = (Optional) Time range of interest (2 element array), if ; this is not set, the default is to prompt the user. Note ; that if the input time range is not a full day, a full ; day's data is loaded. ; /downloadonly, if set, then only download the data, do not load it ; into variables. ; VERBOSE: [1,...,5], Get more detailed (higher number) command line output. ; ;CODE: ; A. Shinbori, 17/05/2013. ; ;MODIFICATIONS: ; A. Shinbori, 24/01/2014. ; ;ACKNOWLEDGEMENT: ; $LastChangedBy: jwl $ ; $LastChangedDate: 2014-02-10 16:12:40 -0800 (Mon, 10 Feb 2014) $ ; $LastChangedRevision: 14263 $ ; $URL $ ;- pro iug_load_radiosonde_sgk_csv, downloadonly=downloadonly, $ trange=trange, $ verbose=verbose ;************** ;keyword check: ;************** if (not keyword_set(verbose)) then verbose=2 ;====================== ;Calculation of height: ;====================== height = fltarr(1200) height[0]=350.0 for i=0L, n_elements(height)-2 do begin height[i+1] = height[i]+30.0 endfor ;================================================================== ;Download files, read data, and create tplot vars at each component ;================================================================== ;****************************************************************** ;Loop on downloading files ;****************************************************************** ;Define FILE_NAMES, and load data: ;================================= ;Definition of parameter and array: if ~size(fns,/type) then begin ;**************************** ;Get files for ith component: ;**************************** hour_res = 1 file_names = file_dailynames( $ file_format='YYYY/'+$ 'YYYYMMDDhh',trange=trange,hour_res=hour_res,times=times,/unique)+'*.csv' ;=============================== ;Define FILE_RETRIEVE structure: ;=============================== source = file_retrieve(/struct) source.verbose=verbose source.local_data_dir = root_data_dir() + 'iugonet/rish/misc/sgk/radiosonde/csv/' source.remote_data_dir = 'http://www.rish.kyoto-u.ac.jp/radar-group/mu/sondedb/' ;======================================================= ;Get files and local paths, and concatenate local paths: ;======================================================= local_paths=file_retrieve(file_names,_extra=source, /last_version) local_paths_all = ~(~size(local_paths_all,/type)) ? $ [local_paths_all, local_paths] : local_paths if ~(~size(local_paths_all,/type)) then local_paths=local_paths_all endif else file_names=fns ;--- Load data into tplot variables if (not keyword_set(downloadonly)) then downloadonly=0 if (downloadonly eq 0) then begin ;========================= ;Definition of parameters: ;========================= s='' sonde_time = 0 sonde_press = 0 sonde_temp = 0 sonde_rh = 0 sonde_uwind = 0 sonde_vwind = 0 ;============== ;Loop on files: ;============== for j=0L,n_elements(local_paths)-1 do begin file= local_paths[j] if file_test(/regular,file) then dprint,'Loading Shigaraki sonde data file: ',file $ else begin dprint,'Shigaraki sonde data file',file,'not found. Skipping' continue endelse ;---Open the read file: openr,lun,file,/get_lun ;---Read time and header information: readf,lun,s temp_name = strsplit(s,',', /extract) year = fix(strmid(temp_name[0],0,4)) month = fix(strmid(temp_name[0],5,2)) day = fix(strmid(temp_name[0],8,2)) hhmmss=temp_name[1] ;================== ;Loop on read data: ;================== while(not eof(lun)) do begin readf,lun,s ok=1 if strmid(s,0,1) eq '[' then ok=0 if ok && keyword_set(s) then begin dprint,s ,dlevel=5 data_comp = strsplit(s,' ', /extract) ;=================================================================== ;Append array of height, press., temp., rh, dewp, uwind, vwind data: ;=================================================================== append_array,height_data, float(data_comp[1]) append_array,press, float(data_comp[2]) append_array,temp, float(data_comp[3]) append_array,rh, float(data_comp[4]) append_array,uwind, float(data_comp[5]) append_array,vwind, float(data_comp[6]) continue endif endwhile free_lun,lun ;Close the file ;---Definition of parameters and arraies: h_num= 0 press2 = fltarr(1,n_elements(height))+!values.f_nan temp2 = fltarr(1,n_elements(height))+!values.f_nan rh2 = fltarr(1,n_elements(height))+!values.f_nan uwind2 = fltarr(1,n_elements(height))+!values.f_nan vwind2 = fltarr(1,n_elements(height))+!values.f_nan ;---Replace missing number by NaN for i=0L, n_elements(height_data)-1 do begin a = press[i] wbad = where(a eq -999.0,nbad) if nbad gt 0 then a[wbad] = !values.f_nan press[i] =a b = temp[i] wbad = where(b eq -999.0,nbad) if nbad gt 0 then b[wbad] = !values.f_nan temp[i] =b c = rh[i] wbad = where(c eq -999.0,nbad) if nbad gt 0 then c[wbad] = !values.f_nan rh[i] =c d = uwind[i] wbad = where(d eq -999.0,nbad) if nbad gt 0 then d[wbad] = !values.f_nan uwind[i] =d e = vwind[i] wbad = where(e eq -999.0,nbad) if nbad gt 0 then e[wbad] = !values.f_nan vwind[i] =e endfor ;---Convert time from UT to UNIX time time = time_double(string(year)+'-'+string(month)+'-'+string(day)+'/'+string(hhmmss)) $ -time_double(string(1970)+'-'+string(1)+'-'+string(1)+'/09:00:00') k=0L for i=0L, n_elements(height)-1 do begin idx = where((height_data ge height[i]-15) and (height_data lt height[i]+15),cnt) if idx[0] ne -1 then begin press2[0,i]=mean(press[idx],/NAN) temp2[0,i]=mean(temp[idx],/NAN) rh2[0,i]=mean(rh[idx],/NAN) uwind2[0,i]=mean(uwind[idx],/NAN) vwind2[0,i]=mean(vwind[idx],/NAN) endif endfor ;===================== ;Append time and data: ;===================== append_array, sonde_time, time append_array, sonde_press, press2 append_array, sonde_temp, temp2 append_array, sonde_rh, rh2 append_array, sonde_uwind, uwind2 append_array, sonde_vwind, vwind2 ;---Clear Buffer: time=0 height_data=0 press=0 temp=0 rh=0 uwind=0 vwind=0 endfor ;============================== ;Store data in TPLOT variables: ;============================== ;---Acknowlegment string (use for creating tplot vars) acknowledgstring = 'If you acquire radiosonde data, we ask that you acknowledge us in your use of the data. ' $ + 'This may be done by including text such as radiosonde data provided by Research Institute ' $ + 'for Sustainable Humanosphere of Kyoto University. We would also appreciate receiving a copy ' $ + 'of the relevant publications. The distribution of dawin sonde data' $ + 'has been partly supported by the IUGONET (Inter-university Upper atmosphere Global' $ + 'Observation NETwork) project (http://www.iugonet.org/) funded by the' $ + 'Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan.' if size(sonde_press,/type) eq 4 then begin ;---Create tplot variables and options dlimit=create_struct('data_att',create_struct('acknowledgment',acknowledgstring,'PI_NAME', 'H. Hashiguchi')) store_data,'iug_radiosonde_sgk_press',data={x:sonde_time, y:sonde_press, v:height/1000.0},dlimit=dlimit options,'iug_radiosonde_sgk_press',ytitle='RSND-sgk!CHeight!C[km]',ztitle='Press.!C[hPa]' store_data,'iug_radiosonde_sgk_temp',data={x:sonde_time, y:sonde_temp, v:height/1000.0},dlimit=dlimit options,'iug_radiosonde_sgk_temp',ytitle='RSND-sgk!CHeight!C[km]',ztitle='Temp.!C[deg.]' store_data,'iug_radiosonde_sgk_rh',data={x:sonde_time, y:sonde_rh, v:height/1000.0},dlimit=dlimit options,'iug_radiosonde_sgk_rh',ytitle='RSND-sgk!CHeight!C[km]',ztitle='RH!C[%]' store_data,'iug_radiosonde_sgk_uwnd',data={x:sonde_time, y:sonde_uwind, v:height/1000.0},dlimit=dlimit options,'iug_radiosonde_sgk_uwnd',ytitle='RSND-sgk!CHeight!C[km]',ztitle='uwnd!C[m/s]' store_data,'iug_radiosonde_sgk_vwnd',data={x:sonde_time, y:sonde_vwind, v:height/1000.0},dlimit=dlimit options,'iug_radiosonde_sgk_vwnd',ytitle='RSND-sgk!CHeight!C[km]',ztitle='vwnd!C[m/s]' options, ['iug_radiosonde_sgk_press','iug_radiosonde_sgk_temp',$ 'iug_radiosonde_sgk_rh',$ 'iug_radiosonde_sgk_uwnd','iug_radiosonde_sgk_vwnd'], 'spec', 1 endif ;---Clear time and data buffer: sonde_time = 0 sonde_press = 0 sonde_temp = 0 sonde_rh = 0 sonde_dewp = 0 sonde_uwind = 0 sonde_vwind = 0 ;---Add tdegap new_vars=tnames('iug_radiosonde_*') if new_vars[0] ne '' then begin tdegap, 'iug_radiosonde_sgk_press',/overwrite tdegap, 'iug_radiosonde_sgk_temp',/overwrite tdegap, 'iug_radiosonde_sgk_rh',/overwrite tdegap, 'iug_radiosonde_sgk_uwnd',/overwrite tdegap, 'iug_radiosonde_sgk_vwnd',/overwrite endif endif new_vars=tnames('iug_radiosonde_*') if new_vars[0] ne '' then begin print,'***************************** print,'Data loading is successful!!' print,'***************************** endif ;************************** ;Print of acknowledgement: ;************************** print, '**************************************************************** print, 'Acknowledgement' print, '**************************************************************** print, 'If you acquire radiosonde data, we ask that you acknowledge us in ' print, 'your use of the data.This may be done by including text such as ' print, 'radiosonde data provided by Research Institute for Sustainable ' print, 'Humanosphere of Kyoto University. We would also appreciate ' print, 'receiving a copy of the relevant publications. The distribution ' print, 'of dawin sonde datahas been partly supported by the IUGONET ' print, '(Inter-university Upper atmosphere Global Observation NETwork) ' print, 'project (http://www.iugonet.org/) funded by theMinistry of Education, ' print, 'Culture, Sports, Science and Technology (MEXT), Japan.' end