C$$$ MAIN PROGRAM DOCUMENTATION BLOCK C . . . . C MAIN PROGRAM: RDMTRDUMP Dump & tutorial program for MADIS RDMTR C PRGMMR: M. BARTH ORG: FSL DATE: 03-07-02 C C ABSTRACT: Dump MADIS radiometer station info, observations, and C quality control (QC) information for a single time, based on the C user's selections specified in a text parameter file. The program C is also meant as a tutorial to demonstrate how a user can use the C MADIS library calls to write his or her own programs. C C PROGRAM HISTORY LOG: C 03-07-02 M. BARTH Original version -- MADIS Version 2.3 C 03-10-02 M. BARTH V2.4 - Changed comment re available datasets C 04-06-17 M. BARTH V2.5 - Changed comment re available datasets C 04-10-15 L. BENJAM V2.7 - Changed comment re available datasets C 05-10-27 L. BENJAMIN V2.9 - Changed comment re available datasets C 05-11-18 L. BENJAMIN V3.0 - Changed comment re available datasets C 07-06-22 L. BENJAMIN V3.4 - Changed comment re available datasets C 08-07-25 L. BENJAMIN V3.7 - Changed comment re available datasets C C USAGE: C INPUT FILES: (for the entire program) C C rdmtrdump.par Parameter file (in current directory) with C user's selections. C C MADIS initialization files in MADIS_STATIC directory C C MADIS observation files under MADIS_DATA directories C C OUTPUT FILES: C C rdmtrdump.txt Text output of station info, obs & QC C C standard output Log of what was done, errors C C SUBPROGRAMS CALLED: C LIBRARY: - MADISLIB: MINIT, MSETWIN, MSETRDMTRPVDR, MSETDOM, C MSETQC, MTRNTIM, MRDMTRSTA, MGETIJ, MGENVCN, C MGETVCN, MGETRDMTR, MGETRDMTRC, M_MKFNAM C C REMARKS: C C 1) This program can be used to exercise all options included in the C MADIS library for radiometer data. It is also meant to be used C as a tutorial to demonstrate how a user can write his or her own C programs. C C 2) See the INSTALL.* files in the MADIS doc directory for C instructions on how to install and build the MADIS library and C programs (INSTALL.unix for Unix/Linux, INSTALL.windows for C Windows). C C 3) See the rdmtrdump_usage.txt file in the MADIS doc directory for C instructions on how to set up a parameter file and run the C program. C C ATTRIBUTES: C LANGUAGE: FORTRAN 77 + EXTENSIONS C MACHINE: UNIX C C$$$ C----------------------------------------------------------------------- C C Declarations notes: C C 1) Key constants: C C - 0 successful status return C - 5 internal MADIS radiometer dataset code number C - 999999.0 missing data flag C - 1800 maximum number of radiometer station-time C records possible that can be returned in a C single time-windowed retrieval C - 100 maximum number of levels in a profile C implicit none integer success_p,rdmtr_ds_p real miss_p parameter (success_p = 0) parameter (rdmtr_ds_p = 5) parameter (miss_p = 999999.0) integer istatus,i,j,k,l,line,ipvd integer nsta,nvar,nobs,tform,ctime character*10 stanam(1800) character*9 atime character*6 db character*9 timeob(1800) integer wmoid(1800) character*10 provdr(1800) real lat(1800),lon(1800),elev(1800) integer nlevels(1800) real rdata100(100,1800,4) integer qca100(100,1800,4),qcr100(100,1800,4) character*1 qcd100(100,1800,4) real rdata1(1800,4) integer qca1(1800,4),qcr1(1800,4) character*1 qcd1(1800,4) equivalence (rdata100,rdata1) equivalence (qca100,qca1) equivalence (qcr100,qcr1) equivalence (qcd100,qcd1) character*51 cdata(1800,4) integer vcn,profile_type(4) character*7 vcode(4) character*21 vcstr(4) character*1 vtype(4),c character*13 tstr character*70 vline integer minbck,minfwd,recwin,qctyp,idmtyp real dummy,ri(1800),rj(1800) integer idummy,time,ising real rpar(7) integer ipar(2) character*10 pvdrnam,singsta character*63 twstr(0:4) integer twstrlen(0:4) character*16 qcstr(0:2) data twstr/ 1 'Return all records within the file containing nominal time', 2 'Return one record per fixed station, closest to nominal time', 3'Return one record per fixed station, closest to start of window', 4 'Return one record per fixed station, closest to end of window', 5 'Return all records in window'/ data twstrlen/58,60,63,61,28/ data qcstr/'No Filter','Coarse','Screened'/ C----------------------------------------------------------------------- C PROGRAM SETUP C ------------- C C Open an output file for this program. open(unit=1,file='rdmtrdump.txt',status='UNKNOWN') C Open the parameter file that will specify the user's selections. open(unit=2,file='rdmtrdump.par',status='OLD') C----------------------------------------------------------------------- C MANDATORY MADIS INITIALIZATION C ----------------------------- C C Mandatory initialization which must be done before C any other MADIS library calls. C C Initialize the MADIS radiometer subsystem C ----------------------------------------- C C The user selects the "subsystem" to be initialized by C specifying the following arguments to the MINIT call: C C 1) Name of the subsystem: C C 'SFC' Surface C 'RAOB' Radiosonde C 'NPN' NOAA Profiler Network C 'ACARS' Aircraft data (ACARS, AMDARS, etc.) C 'ACARSP' Aircraft data profiles at airports C 'MAP' Multi-Agency Profilers C 'HYDRO' Hydro C 'RDMTR' Radiometer (used here) C 'SATWND' Satellite wind C 'SATSND' Satellite soundings C 'SATRAD' Satellite radiance C 'SNOW' Snow C 'WISDOM' Wisdom balloon wind C C 2) Name of the database: C C 'FSL' Data obtained from FSL C 'AWIPS' Data obtained from AWIPS C C Note that the list of variables with QC found in the MADIS C documentation applies to the FSL database. For the AWIPS C database, the only QC is on sfc mesonet data. Otherwise, the C QC information returned by API calls will indicate that no C QC has been applied. C C Radiometer data are only currently available in the FSL C database. C C 3) Error handling (.true./.false.): C C If ".true.", then error messages will be written to standard C output. If ".false.", no error messages will be output (but C ISTATUS will still contain an error code). The error codes C can be found in errors.txt in the doc directory. db = 'FSL' CALL MINIT('RDMTR',db,.true.,istatus) if(istatus.ne.success_p)stop C----------------------------------------------------------------------- C OPTIONAL MADIS SETUP CALLS C ------------------------- C C Optional calls to limit which obs MADIS will return. C These can be selected at any time in the code, C and will then take effect upon the next call to C MRDMTRSTA (see below). The default behavior (what C happens if you don't call the routine) is described C below. C C Select time window C ------------------ C C The user selects the nominal time of the data to be returned C when using MADIS routines to read obs and station information. C Time "windowing" is used so that the MADIS routines will C know how close in time each station's observation time needs C to be to the nominal time in order to be included, and whether C or not duplicate records from the same station that are within C the time window should be included. The time window is C specified with the MSETWIN subroutine, which allows the user C to select the number of minutes before and after the nominal C time to be used for the window, and how duplicates should C be handled. For more details, see msetwin.txt in the doc C directory. C C If MSETWIN is not called, the default will be to return all C records where the observation time is during the hour specified C in the file's time. This will return all records in a standard C FSL hourly radiometer file, e.g., with a nominal time of 1200 UTC C data time-stamped 1200 through 1259 will be returned. C C Radiometer stations report observation times around the hour, and C many stations report multiple times per hour, so different time C window specifications can produce very different sets of data. C C The following sample MSETWIN call will return only one record C per station within the specified time window (-30 minutes --> C nominal time --> +30 minutes). If a station has multiple reports C within the time window, only the latest one within the window C will be returned (RECWIN = 3). C C Sample MSETWIN call: C C minbck = -30 C minfwd = 30 C recwin = 3 C CALL MSETWIN(minbck,minfwd,recwin,istatus) C PAR FILE INPUT: Time window parameters (minbck, minfwd, recwin) C [set all to 0 for default] C The necessary inputs are found in the parameter file, along with C a number of lines of explanation, section delimiters, etc. meant C to aid readability. Throughout this program, we'll be skipping C non-input lines, reading necessary inputs, and checking for I/O C errors. Otherwise, the validity of most of user's choices will C be tested by the affected MADIS library routines. Invalid choices C will be reported to standard output, and in most cases, the C program will then stop. line = 0 do i = 1, 3 line = line + 1 read(2,*,err=825,end=850) enddo write(*,500)'MADIS RDMTRDUMP Activity Log' 500 format(1x,a) write(*,500)'----------------------------' line = line + 1 read(2,*,err=825,end=850)minbck line = line + 1 read(2,*,err=825,end=850)minfwd line = line + 1 read(2,*,err=825,end=850)recwin write(*,501)'Time Window' 501 format(/,1x,a) if(recwin.ge.0.and.recwin.le.4)then write(*,401)twstr(recwin)(1:twstrlen(recwin)) 401 format(3x,a) if(minbck.ne.0.or.minfwd.ne.0.or.recwin.ne.0)then write(*,502)'Start minute relative to nominal time ',minbck 502 format(3x,a,i4) write(*,502)'End minute relative to nominal time ',minfwd CALL MSETWIN(minbck,minfwd,recwin,istatus) if(istatus.ne.success_p)stop endif else write(*,500)'RDMTRDUMP: INVALID WINDOW RECORD TYPE' stop endif C Select a subset of radiometer datasets C -------------------------------------- C C Radiometer datasets include different networks run by different C "providers". The MSETRDMTRPVDR subroutine can be used to select C only a subset of the total by specifying which providers are to C be included or excluded. C C If MSETRDMTRPVDR is not called, the default is to enable data from C all radiometer providers. C C Here's the list of provider names recognized by MADIS: C C 'ALL-RDMTR' All RDMTR providers C C For a list of the individual provider names that are currently C available from FSL, see: C C http://www-sdd.fsl.noaa.gov/MADIS/rdmtr_providers.html C C Here's an example of how to get only provider DOE/ARM. First you C disable everything, then select the one(s) you want. C C CALL MSETRDMTRPVDR('ALL-RDMTR',.false.,istatus) C CALL MSETRDMTRPVDR('DOE/ARM',.true.,istatus) C PAR FILE INPUT: Providers (0 - all providers, C N - N lines of provider names follow) do i = 1, 7 line = line + 1 read(2,*,err=825,end=850) enddo line = line + 1 read(2,*,err=825,end=850)ipvd line = line + 1 read(2,*,err=825,end=850) write(*,501)'Providers' if(ipvd.gt.0)then CALL MSETRDMTRPVDR('ALL-RDMTR',.false.,istatus) do i = 1, ipvd line = line + 1 read(2,145,err=825,end=850)pvdrnam 145 format(a) CALL MSETRDMTRPVDR(pvdrnam,.true.,istatus) if(istatus.ne.success_p)stop write(*,401)pvdrnam enddo else if(ipvd.eq.0)then write(*,401)'ALL-RDMTR' else write(*,500)'RDMTRDUMP: INVALID PROVIDER SELECTION' stop endif C Select a horizontal domain C -------------------------- C C The horizontal domain can be limited to match one of two map C projections (polar stereographic, Lambert conformal conic) or it C can be limited to a latitude/longitude rectangle. Only stations C within the domain will be returned. If one of the map projections C is selected, any winds (of any form) returned by subsequent C MGETRDMTR calls will be rotated to match the projection. See C msetdom.txt in the doc directory for an explanation of the C parameters needed to define the domains. C C If MSETDOM is not called, all available stations will be C returned, regardless of their location. C C The example given here is for the CONUS 212 Lambert conformal C conic projection. C C CALL MSETDOM(3,40635.25,12.19,-133.459,-95.0,25.0,25.0,dummy, C 1 185,129,istatus) C PAR FILE INPUT: Domain Filter (0 - don't filter, C 1 - lat/lon corners, C 2 - Polar Stereographic grid, C 3 - Lambert Conformal Conic grid) do i = 1, 3 line = line + 1 read(2,*,err=825,end=850) enddo line = line + 1 read(2,*,err=825,end=850)idmtyp C We'll read in the parameters appropriate for the selected C domain filter, and skip over all of the other lines in the C rest of this section of the parameter file. write(*,501)'Domain Filter' if(idmtyp.eq.1)then do i = 1, 6 line = line + 1 read(2,*,err=825,end=850) enddo do i = 1, 4 line = line + 1 read(2,*,err=825,end=850)rpar(i) enddo do i = 1, 23 line = line + 1 read(2,*,err=825,end=850) enddo write(*,401)'Latitude/Longitude Corners' write(*,402)'SW corner latitude (north) ', 1 rpar(1) 402 format(3x,a,f13.6) write(*,402)'SW corner longitude (east) ', 1 rpar(2) write(*,402)'NE corner latitude (north) ', 1 rpar(3) write(*,402)'NE corner longitude (east) ', 1 rpar(4) CALL MSETDOM(idmtyp,rpar(1),rpar(2),rpar(3),rpar(4),dummy, 1 dummy,dummy,idummy,idummy,istatus) else if(idmtyp.eq.2)then do i = 1, 13 line = line + 1 read(2,*,err=825,end=850) enddo do i = 1, 7 line = line + 1 read(2,*,err=825,end=850)rpar(i) enddo do i = 1, 2 line = line + 1 read(2,*,err=825,end=850)ipar(i) enddo do i = 1, 11 line = line + 1 read(2,*,err=825,end=850) enddo write(*,401)'Polar Stereographic Grid' write(*,402)'Grid box size (meters) ', 1 rpar(1) write(*,402)'Latitude (north) of 1st grid point ', 1 rpar(2) write(*,402)'Longitude (east) of 1st grid point ', 1 rpar(3) write(*,402)'Orientation longitude (east) ', 1 rpar(4) write(*,402)'I-coordinate of pole ', 1 rpar(5) write(*,402)'J-coordinate of pole ', 1 rpar(6) write(*,402)'Latitude (north) at which X-Y scale is true', 1 rpar(7) write(*,403)'Number of grid points (X) ', 1 ipar(1) write(*,403)'Number of grid points (Y) ', 1 ipar(2) 403 format(3x,a,i6) CALL MSETDOM(idmtyp,rpar(1),rpar(2),rpar(3),rpar(4),rpar(5), 1 rpar(6),rpar(7),ipar(1),ipar(2),istatus) else if(idmtyp.eq.3)then do i = 1, 25 line = line + 1 read(2,*,err=825,end=850) enddo do i = 1, 6 line = line + 1 read(2,*,err=825,end=850)rpar(i) enddo do i = 1, 2 line = line + 1 read(2,*,err=825,end=850)ipar(i) enddo write(*,401)'Lambert Conformal Conic Grid' write(*,402)'Grid box size (meters) ', 1 rpar(1) write(*,402)'Latitude (north) of 1st grid point ', 1 rpar(2) write(*,402)'Longitude (east) of 1st grid point ', 1 rpar(3) write(*,402)'Orientation longitude (east) ', 1 rpar(4) write(*,402)'Latitude (north) of 1st tangent ', 1 rpar(5) write(*,402)'Latitude (north) of 2nd tangent ', 1 rpar(6) write(*,403)'Number of grid points (X) ', 1 ipar(1) write(*,403)'Number of grid points (Y) ', 1 ipar(2) CALL MSETDOM(idmtyp,rpar(1),rpar(2),rpar(3),rpar(4),rpar(5), 1 rpar(6),dummy,ipar(1),ipar(2),istatus) else if(idmtyp.eq.0)then write(*,401)'No Filter' do i = 1, 33 line = line + 1 read(2,*,err=825,end=850) enddo else write(*,500)'RDMTRDUMP: INVALID DOMAIN TYPE' stop endif if(istatus.ne.success_p)stop C Select QC level of data to be returned C -------------------------------------- C C The primary variables in all MADIS datasets have been screened C by automated quality control (QC) checks. Different variables C have different levels of QC, or "stages", applied to them. C For example, temperature may have level 1 checks (validity) and C level 2 checks (internal consistency). Note that each level of C QC incorporates the previous levels, i.e., an ob that has passed C level 2 has also passed any applicable level 1 checks. See C rdmtr_qc_variable_list.txt in the doc directory for more C information. C C Each call to MGETRDMTR will return obs and associated QC C information. If the user doesn't want to interpret the QC info, C he or she can limit the returned obs to selectable levels of C quality. In that case, obs that don't meet the selected QC level C will be replaced with missing data flags, and the QC information C itself doesn't need to be examined by the calling program. C C If MSETQC is not called, all obs will be returned (along with QC C info). C C There are three ways that the user can request and process the QC C information: C C 1) Don't call MSETQC at all, and examine the QC info before C deciding whether or not to use each observation. This C allows the calling program the maximum amount of control C over what's available. C C 2) If you know ahead of time that the same level of QC is C available for all variables you'll be using, call MSETQC C one time to select the desired QC level. Note that the C level selected by MSETQC will stay in effect until the C next time MSETQC is called. C C 3) To require that all variables pass the highest level C of QC that are specified for them, call MSETQC one time C and select QC level 99. C C User's of MADIS data who want the data filtered by QC results, C but don't want to interpret the QC information themselves, should C call MSETQC one time and select QC level 99. C PAR FILE INPUT: QC level (0-none, 1-coarse, 2-screened, C 99-highest possible) do i = 1, 3 line = line + 1 read(2,*,err=825,end=850) enddo line = line + 1 read(2,*,err=825,end=850)qctyp write(*,501)'QC Filter' if(qctyp.ge.0.and.qctyp.le.3)then write(*,401)qcstr(qctyp) else if(qctyp.eq.99)then write(*,401)'Highest Possible' else write(*,500)'RDMTRDUMP: INVALID QC TYPE' stop endif C Select the QC level to be returned. CALL MSETQC(qctyp,istatus) if(istatus.ne.success_p)stop C----------------------------------------------------------------------- C SELECT NOMINAL TIME OF DATA TO BE RETURNED C ------------------------------------------ C C The MADIS library's native time zone and format is Universal C Coordinated Time, using a Julian date, in the form of "YYJJJHHMM", C where: C C YY = 2-digit year (good from 1980 - 2179) C JJJ = Julian date of the year (001-366) C HH = Hour (00-23) C MM = Minute (00-59) C C MADIS also provides support for a "Month/Day" date format, using C "YYYYMMDD_HHMM", where: C C YYYY = 4-digit year (still only good from 1980 - 2179) C MMDD = Month/Day C HHMM = Hour/Minute C C The MADIS library includes a basic set of routines that the caller C can use to: C C - Add & subtract time in the native format. (MCHGTIM) C - Translate the native format to integers representing year, C month, day, hour, and minute. (MINTTIM) C - Translate integers representing year, month, day, hour and C minute into the native format. (MCHRTIM) C - Translate between Julian and Month/Day formats (MTRNTIM) C C See time_routines.txt in the doc directory for details on how C to use these calls. C C Also note that nominal times can be specified at any minute, not C just at the top of the hour (minute 00). C PAR FILE INPUT: Time format to use (0 - Julian, 1 - Month/Day) write(*,501)'Nominal Time' do i = 1, 6 line = line + 1 read(2,*,err=825,end=850) enddo line = line + 1 read(2,*,err=825,end=850)tform if(tform.ne.0.and.tform.ne.1)then write(*,500)'RDMTRDUMP: INVALID TIME TRANSLATION FORMAT' stop endif C PAR FILE INPUT: Nominal time (0 - specified in par file, C 1 - use current time) line = line + 1 read(2,*,err=825,end=850) line = line + 1 read(2,*,err=825,end=850)ctime line = line + 1 read(2,*,err=825,end=850) C PAR FILE INPUT: Nominal time (in selected format) line = line + 1 read(2,144,err=825,end=850)tstr 144 format(a) C If the user wants to use the current time, get it and translate C that into the chosen format (via our internal formats). C Otherwise we have the chosen format in TSTR right now. if(ctime.eq.1)then i = TIME() i = i - 1325376000 CALL M_MKFNAM(i,atime,istatus) if(tform.eq.1)then CALL MTRNTIM(atime,2,tstr,istatus) else tstr = atime endif endif if(tform.eq.1)then CALL MTRNTIM(tstr,1,atime,istatus) if(istatus.ne.success_p)stop else atime = tstr endif write(*,401)tstr C For most purposes, you'll want to read data for all stations C that meet the criteria already specified above. For dump program C purposes, however, we offer the option to only get one station. write(*,501)'Station Selection' C PAR FILE INPUT: Station Selection (0 - all stations, 1 - single) do i = 1, 3 line = line + 1 read(2,*,err=825,end=850) enddo line = line + 1 read(2,*,err=825,end=850)ising line = line + 1 read(2,*,err=825,end=850) line = line + 1 read(2,144,err=825,end=850)singsta if(ising.eq.1)then write(*,401)singsta else write(*,401)'All stations' endif do i = 1, 3 line = line + 1 read(2,*,err=825,end=850) enddo C----------------------------------------------------------------------- C LOAD IN STATION INFO FOR SELECTED DATA C -------------------------------------- C C Load in the stations covering the selected domain. The MRDMTRSTA C call needs to be done as the first call when getting data for a C new time, or whenever any of the optional setup calls are used. C Thereafter, MGETRDMTR and MGETRDMTRC can be called as many times C as desired in order to read variables. CALL MRDMTRSTA(atime,nsta,stanam,wmoid,lat,lon,elev,timeob, 1 provdr,istatus) if(istatus.ne.success_p)stop C If one of the map projections has been selected for the horizontal C domain, the station latitude and longitude can be converted to a C floating point grid index into the 2-dimensional grid (RI,RJ). C Note that this works for grids laid out this way: C C NE (I=NX,J=NY) C C SW (I=1,J=1) C C If we're to convert LAT/LON to RI,RJ for the user's grid, do C so. Otherwise, fill in 0's so there'll be something in the C output line that isn't too messy. if(idmtyp.eq.2.or.idmtyp.eq.3)then do i = 1, nsta CALL MGETIJ(lat(i),lon(i),ri(i),rj(i),istatus) enddo else do i = 1, nsta ri(i) = 0 rj(i) = 0 enddo endif C----------------------------------------------------------------------- C LOOP THROUGH DESIRED VARIABLES: C ------------------------------- C C Variables are specified by code names. The list of code names C can be found in the first column of rdmtr_variable_list.txt in the C doc directory. C C This program will read in up to 4 variable codes per line in the C parameter file, read them, output them, then move on to the next C set of variables until the end of the parameter file is reached. write(*,501)'Variables' C PAR FILE INPUT: 1 to 4 variable codes (free-formatted) 100 read(2,145,end=900)vline C Parse the line to determine the number of variables and their C code names (1 to 4 code names separated by spaces). nvar = 0 l = -1 do i = 1, 4 j = l CALL M_FINDWORD(vline,70,j,k,l) if(k.eq.0)then go to 101 else nvar = nvar + 1 vcode(nvar) = vline(k:l) endif enddo 101 if(nvar.eq.0) go to 100 C Use internal MADIS routines (MGETVCN, MGENVCN) to translate the C variable code name into the MADIS variable code number, and to C determine the type (numeric or character) of the variable. The C code number is also then used to determine the profile type. C This is needed here because this program is an all-purpose utility C meant to handle any desired profile type. In general, a user's C MADIS program shouldn't have to determine the profile type (as you C would know what variables you're reading). C Profile Type C ------------------- C -20 Profile data C 0 Single-dimensioned (not a profile) do i = 1, nvar CALL MGETVCN(vcode(i),vcn,vtype(i),istatus) if(istatus.ne.success_p)stop CALL MGENVCN(vcn,rdmtr_ds_p,0,dummy,profile_type(i)) enddo C Make sure the user didn't select a mismatch by mixing variables C with different profile or data types on the same input line. C (This is against the rules in this program because we're expecting C the same number of levels for all variables output on the same C line -- one output line per level will result.) j = profile_type(1) c = vtype(1) do i = 2, nvar if(profile_type(i).ne.j.or.vtype(i).ne.c)then write(*,519)'Variable/profile type mismatch: ', 1 (vcode(k),k=1,nvar) 519 format(1x,a,4(1x,a)) go to 100 endif enddo do 150 i = 1, nvar write(*,505)vcode(i) 505 format(3x,'Processing',5x,a) C Read the desired variables and QC info. The returned arrays C will match the records in the station info arrays returned C from MRDMTRSTA. If a QC level has been selected, the obs will C only be returned if they meet or exceed the selected QC C level. if(vtype(1).eq.'N')then if(profile_type(1).eq.-20)then C The MGETRDMTR routine is used to read all numeric variables. C All variables are returned as Fortran REAL type (RDATA100), the C QC data descriptors are always CHARACTER*1 (QCD100), and the C bit masks showing the QC checks that were applied (QCA100) and C their results (QCR100) are always INTEGER. CALL MGETRDMTR(atime,vcode(i),nsta,nobs,nlevels, 1 rdata100(1,1,i),qcd100(1,1,i), 2 qca100(1,1,i),qcr100(1,1,i),istatus) else if(profile_type(1).eq.0)then CALL MGETRDMTR(atime,vcode(i),nsta,nobs,nlevels, 1 rdata1(1,i),qcd1(1,i),qca1(1,i),qcr1(1,i), 2 istatus) endif write(1,146)'var ',vcode(i),' total stns ',nsta, 1 ' # non-missing obs ',nobs 146 format(/,1x,a,a,a,i5,a,i5) if(istatus.ne.success_p)go to 150 C Put the variable code name into an array that will be used as C a label in header lines in the output file. vcstr(i) = vcode(i)//' QCD QCA QCR' else if(vtype(1).eq.'C')then C The MGETRDMTRC routine is used to read character variables. No QC C is currently available for any of these variables. Note that C there are no missing data flags for character data, and therefore C no equivalent of the NOBS argument returned from MGETRDMTR; C instead, blanks are filled in where no genuine data exist. CALL MGETRDMTRC(atime,vcode(i),nsta,cdata(1,i),istatus) write(1,146)'var ',vcode(i),' total stns ',nsta if(istatus.ne.success_p)go to 150 vcstr(i) = vcode(i) endif 150 continue C Output the station info, variables and QC. write(1,*) do 200 i = 1, nsta C If we're getting only one station, make sure this is it. if(ising.eq.1.and.singsta.ne.stanam(i))go to 200 C Use the time output format desired by the user. if(tform.eq.0)then tstr = ' '//timeob(i) else if(tform.eq.1)then CALL MTRNTIM(timeob(i),2,tstr,istatus) endif if(vtype(1).eq.'N')then if(nlevels(i).ne.0) 1 write(1,1000)stanam(i),provdr(i),elev(i),lat(i),lon(i), 2 ri(i),rj(i),nlevels(i),tstr, 3 (vcstr(j),j=1,nvar) 1000 format(1x,'Station Provider Elev(m) Lat(N) Lon(E) ', 1 'Grid I Grid J NumLev ObTime',/, 3 1x,a,1x,a,1x,f7.2,1x,f6.2,1x,f7.2,1x, 4 2(f8.3,1x),2x,i3,3x,a,/,/,1x,'Level ',4(a,5x)) do j = 1, nlevels(i) if(profile_type(1).eq.-20.and.nlevels(i).ne.1)then write(1,2000)j,(rdata100(j,i,k),qcd100(j,i,k), 1 qca100(j,i,k),qcr100(j,i,k),k=1,nvar) 2000 format(1x,i3,4(1x,f13.6,1x,a,1x,i4,1x,i4)) else if(profile_type(1).eq.0)then write(1,2000)j,(rdata1(i,k),qcd1(i,k), 1 qca1(i,k),qcr1(i,k),k=1,nvar) endif enddo if(i.ne.nsta.and.nlevels(i).ne.0)write(1,*) else if(vtype(1).eq.'C')then C Only write lines that have non-blank results. do j = 1, nvar if(cdata(i,j).ne.' ')then write(1,1000)stanam(i),provdr(i),elev(i),lat(i), 1 lon(i),ri(i),rj(i),1,tstr, 2 (vcstr(k),k=1,nvar) write(1,2001)1,(cdata(i,k),k=1,nvar) 2001 format(1x,i3,5x,a,3(18x,a)) if(i.ne.nsta)write(1,*) go to 200 endif enddo endif 200 continue C Process the next line of variables. go to 100 C----------------------------------------------------------------------- C PROGRAM EXIT C ------------ C C Error exits. 825 write(*,503)'RDMTRDUMP: READ ERROR IN PARAMETER FILE AT LINE ', 1 line 503 format(1x,a,i4) stop 850 write(*,500)'RDMTRDUMP: PREMATURE END OF PARAMETER FILE' C Normal exit. 900 stop end C**--------------------------------------------------------------------- C**REQUIRED STANDARD FSL DISCLAIMER (NOVEMBER 2000) C**--------------------------------------------------------------------- C** OPEN SOURCE LICENSE/DISCLAIMER, FORECAST SYSTEMS LABORATORY C** NOAA/OAR/FSL, 325 BROADWAY BOULDER, CO 80305 C** C** THIS SOFTWARE IS DISTRIBUTED UNDER THE OPEN SOURCE DEFINITION, C** WHICH MAY BE FOUND AT http://www.opensource.org/osd.html. C** C** IN PARTICULAR, REDISTRIBUTION AND USE IN SOURCE AND BINARY FORMS, C** WITH OR WITHOUT MODIFICATION, ARE PERMITTED PROVIDED THAT THE C** FOLLOWING CONDITIONS ARE MET: C** C** - REDISTRIBUTIONS OF SOURCE CODE MUST RETAIN THIS NOTICE, THIS LIST C** OF CONDITIONS AND THE FOLLOWING DISCLAIMER. C** C** - REDISTRIBUTIONS IN BINARY FORM MUST PROVIDE ACCESS TO THIS C** NOTICE, THIS LIST OF CONDITIONS AND THE FOLLOWING DISCLAIMER, AND C** THE UNDERLYING SOURCE CODE. C** C** - ALL MODIFICATIONS TO THIS SOFTWARE MUST BE CLEARLY DOCUMENTED, C** AND ARE SOLELY THE RESPONSIBILITY OF THE AGENT MAKING THE C** MODIFICATIONS. C** C** - IF SIGNIFICANT MODIFICATIONS OR ENHANCEMENTS ARE MADE TO THIS C** SOFTWARE, THE FSL SOFTWARE POLICY MANAGER C** (softwaremgr.fsl@noaa.gov) BE NOTIFIED. C** C** THIS SOFTWARE AND ITS DOCUMENTATION ARE IN THE PUBLIC DOMAIN AND C** ARE FURNISHED "AS IS." THE AUTHORS, THE UNITED STATES GOVERNMENT, C** ITS INSTRUMENTALITIES, OFFICERS, EMPLOYEES, AND AGENTS MAKE NO C** WARRANTY, EXPRESS OR IMPLIED, AS TO THE USEFULNESS OF THE SOFTWARE C** AND DOCUMENTATION FOR ANY PURPOSE. THEY ASSUME NO RESPONSIBILITY C** (1) FOR THE USE OF THE SOFTWARE AND DOCUMENTATION; OR (2) TO C** PROVIDE TECHNICAL SUPPORT TO USERS. C**---------------------------------------------------------------------