aboutsummaryrefslogtreecommitdiff
path: root/htdp.f
diff options
context:
space:
mode:
Diffstat (limited to 'htdp.f')
-rw-r--r--htdp.f9123
1 files changed, 9123 insertions, 0 deletions
diff --git a/htdp.f b/htdp.f
new file mode 100644
index 0000000..56926a4
--- /dev/null
+++ b/htdp.f
@@ -0,0 +1,9123 @@
+ PROGRAM HTDP
+
+**************************************************************
+* NAME: HTDP (Horizontal Time-Dependent Positioning)
+*
+* WRITTEN BY: Richard A. Snay & Chris Pearson
+*
+* PURPOSE: Transform coordinates across time
+* and between reference frames
+*
+****************************************************************
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+ character HTDP_version*10
+ CHARACTER OPTION*1
+ character cont*5
+
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /VERSION/ HTDP_version
+
+C You must change HTDP version here if necessary
+
+ HTDP_version = 'v3.2.8'
+
+*** Introduce variables for file id's
+
+ LUIN = 5
+* interactive input
+ LUOUT = 6
+* interactive output
+ I1 = 11
+* input of velocity grid in GETVEL
+* input of earthquake parameters in GETEQ
+* input of blue-book BFILE in DLACE, VELOC, UPDATE and TRFPOS
+* input of blue-book GFILE in UPDATE
+ I2 = 12
+* output of predicted displacements in DLACE
+* output of predicted velocities in VELOC
+* output of updated blue-book BFILE in UPDATE
+* output of updated blue-book GFILE in UPDATE
+* output of updated coordinates in UPDATE
+ I3 = 13
+* output of point-velocity records in VELOC
+ I4 = 14
+* storage of reference latitude & longitude & region
+ I5 = 15
+* storage of earthquake parameters
+C OPEN(I5, FILE='TEMPQK' , ACCESS = 'DIRECT', RECL = 72,
+C 1 FORM='UNFORMATTED')
+ I6 = 16
+* output of transformed blue-book BFILE in TRFPOS
+
+*** Obtain parameters defining crustal motion model
+ CALL MODEL
+
+*** Initialize transformation parameters between reference frames
+ CALL SETTP
+
+*** Initialize conversion table between reference frame identifiers
+ CALL SETRF
+
+ WRITE(LUOUT,5) HTDP_version
+ 5 FORMAT(
+ 1 '********************************************************'/
+ 1 '* HTDP (Horizontal Time-Dependent Positioning) *'/
+ 1 '* SOFTWARE VERSION ',a10 /
+ 1 '* *'/)
+ WRITE(LUOUT,501)
+ 501 FORMAT(
+ 1 '* AUTHORS: Richard Snay, Chris Pearson & Jarir Saleh *'/
+ 1 '* Email: ngs.cors.htdp@noaa.gov *'/
+ 1 '* *'/
+ 1 '********************************************************'/)
+ WRITE(LUOUT,10)
+ 10 FORMAT(
+ 1 ' This software incorporates numerical models that',/
+ 3 ' characterize continuous crustal motion as well as ',/
+ 3 ' the episodic motion associated with earthquakes.'/)
+ WRITE(LUOUT,11)
+ 11 FORMAT(
+ 5 ' The User Guide contains additional information and a set'/
+ 5 ' of exercises to familiarize users with the software.'//
+ 5 ' Hit ENTER or RETURN to continue. ')
+ read(luin, '(a5)',err=51,iostat=ios) cont
+ if (ios /= 0) goto 51
+
+ 25 WRITE(LUOUT,26)
+ 26 FORMAT(' ***************************************'/
+ 1 ' MAIN MENU:',/
+ 6 ' 0... Exit software.',/
+ 7 ' 1... Estimate displacements between two dates.'/
+ 8 ' 2... Estimate velocities.'/
+ 9 ' 3... Update positions and/or observations '
+ & ,'to a specified date.'/
+ & ' 4... Transform positions between reference frames. '/
+ & ' 5... Transform velocities between reference frames. ')
+ 30 READ(LUIN,35,err=52,iostat=ios) OPTION
+ if (ios /= 0) goto 52
+ 35 FORMAT(A1)
+ IF(OPTION .EQ. '0') THEN
+ GO TO 50
+ ELSEIF(OPTION .EQ. '1') THEN
+ CALL DPLACE
+ ELSEIF(OPTION .EQ. '2') THEN
+ CALL VELOC
+ ELSEIF(OPTION .EQ. '3') THEN
+ CALL UPDATE(HTDP_version)
+ elseif(option .eq. '4') then
+ call TRFPOS
+ elseif(option .eq. '5') then
+ call TRFVEL
+ ELSE
+ WRITE(LUOUT,40)
+ 40 FORMAT(' Improper entry--select again ')
+ GO TO 30
+ ENDIF
+ GO TO 25
+ 50 CONTINUE
+ stop
+C CLOSE(I5, STATUS = 'DELETE')
+
+ 51 write (*,'(/)')
+ write (*,*) 'You did not hit enter : ios = ',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ STOP
+
+ 52 write (*,'(/)')
+ write (*,*) 'Problem with reading OPTION: ios = ',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ STOP
+
+ END
+*****************************************************************************
+ SUBROUTINE MODEL
+
+*** Obtain parameters defining crustal motion model
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /TIMREF/ ITREF
+
+ A = 6.378137D06
+ F = 1.D0 / 298.257222101D0
+ E2 = 0.6694380022903146D-2
+ AF = A / (1.D0 -F)
+ EPS = F*(2.D0 - F) / ((1.D0 -F)**2)
+ PI = 4.D0 * DATAN(1.D0)
+ RHOSEC = (180.D0 * 3600.D0) / PI
+ TWOPI = PI + PI
+
+C*** Set default reference epoch to Jan. 1, 2010
+ IYRREF = 2010
+ IMOREF = 1
+ IDYREF = 1
+ CALL IYMDMJ (IYRREF, IMOREF, IDYREF, MJD)
+ ITREF = MJD * 24 * 60
+
+ CALL GETBDY
+
+ RETURN
+ END
+
+*******************************************************************
+ SUBROUTINE GETBDY
+
+*** Obtain coordinates for vertices that form the polygons
+*** that correspond to the boundaries for the regions.
+*** Region 1 is the San Andreas fault in central California
+*** Region 2 is southern California
+*** Region 3 is Northern California
+*** Region 4 is the Pacific Noerthwest
+*** Region 5 is western CONUS
+*** Region 6 is CONUS
+*** Region 7 is St. Elias, Alaska
+*** Region 8 is south-central Alaska
+*** Region 9 is southeast Alaska
+*** Region 10 is All Mainland Alaska
+*** Region 11 is the North American plate
+*** Region 12 is the Caribbean plate
+*** Region 13 is the Pacific plate
+*** Region 14 is the Juan de Fuca plate
+*** Region 15 is the Cocos plate
+*** Region 16 is the Mariana plate
+*** REGION 17 is the Philippine Sea plate
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NMREGN = 17)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /BNDRY/ X(4000), Y(4000), NPOINT(30)
+
+ IEND = NPOINT(NMREGN + 1) - 1
+ DO 10 J = 1, IEND
+ X(J) = (X(J) * 3600.D0)/RHOSEC
+ Y(J) = (Y(J) * 3600.D0)/RHOSEC
+ 10 CONTINUE
+ RETURN
+ END
+*******************************************************************
+ SUBROUTINE GETREG(X0,YKEEP,JREGN)
+
+*** Determine the region containing a given point.
+
+ IMPLICIT DOUBLE PRECISION(A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NMREGN = 17)
+ COMMON /BNDRY/ X(4000), Y(4000), NPOINT(30)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /CONST/ A, F, E2, EPS, AF, PI, TWOPI, RHOSEC
+
+ Y0 = TWOPI - YKEEP
+ IF (Y0 .lt. 0.d0) Y0 = Y0 + TWOPI
+ IR = 0
+ 1 IR = IR + 1
+ IF(IR .GT. NMREGN) THEN
+ JREGN = 0
+ RETURN
+ ENDIF
+ IBEGIN = NPOINT(IR)
+ NUMVER = NPOINT(IR + 1) - IBEGIN
+ CALL POLYIN(X0,Y0,X(IBEGIN),Y(IBEGIN), NUMVER, NTEST)
+ IF(NTEST .EQ. 0) GO TO 1
+ JREGN = IR
+
+ RETURN
+ END
+********************************************************
+ SUBROUTINE POLYIN (X0,Y0,X,Y,N,NPC)
+C SUBROUTINE TO DETERMINE IF A POINT AT (X0,Y0) IS INSIDE OR
+C OUTSIDE OF A CLOSED FIGURE DESCRIBED BY A SEQUENCE OF CONNECTED
+C STRAIGHT LINE SEGMENTS WITH VERTICES AT X, Y.
+C
+C INPUT -
+C X0, Y0 COORDINATES OF A POINT TO BE TESTED
+C Y0 corresponds to longitude and must be a number
+C between 0.0 and 2*PI
+C X, Y ARRAYS CONTAINING THE VERTICES, IN ORDER, OF A
+C CLOSED FIGURE DESCRIBED BY STRAIGHT LINE SEGMNENTS.
+C FOR EACH 'I', THE STRAIGHT LINE FROM (XI),Y(I)) TO
+C TO (X(I+1),Y(I+1)), IS AN EDGE OF THE FIGURE.
+C N DIMENSION OF X AND Y, NUMBER OF VERTICES, AND NUMBER
+C OF STRAIGHT LINE SEGMENTS IN FIGURE.
+C OUTPUT -
+C NPC NPC=0 WHEN X0,Y0 IS OUTSIDE OF FIGURE DESCRIBED
+C BY X,Y
+C NPC=1 WHEN X0,Y0 IS INSIDE FIGURE
+C NPC=2 WHEN X0,Y0 IS ON BORDER OF FIGURE
+C METHOD -
+C A COUNT IS MADE OF THE NUMBER OF TIMES THE LINE FROM (X0,Y0) TO
+C (X0,+ INFINITY) CROSSES THE BORDER OF THE FIGURE. IF THE COUNT
+C IS ODD, THE POINT IS INSIDE; IF THE COUNT IS EVEN THE POINT
+C IS OUTSIDE.
+C LIMITATIONS -
+C NONE. THE PROGRAM LOGIC IS VALID FOR ALL CLOSED FIGURES,
+C NO MATTER HOW COMPLEX.
+C ACCURACY -
+C MAINTAINS FULL ACCURACY OF INPUT COORDINATES.
+C
+ IMPLICIT INTEGER*4 (I-N)
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ DIMENSION X(N),Y(N)
+ DATA I6/6/
+ IS=0
+ NPC=0
+C
+C FIND STARTING POINT WHERE X(I).NE.X0
+ IP=0
+ 10 IP=IP+1
+ IF ((X(IP)-X0) == 0) goto 12
+ IF ((X(IP)-X0) < 0) goto 15
+ IF ((X(IP)-X0) > 0) goto 16
+c IF (X(IP)-X0) 15,12,16
+ 12 IF(IP.LE.N) GO TO 10
+ WRITE(I6,6001)
+ 6001 FORMAT('0 POLYGON INPUT ERROR - ALL POINTS ON LINE X = X0')
+ STOP
+ 15 IL=-1
+ GO TO 20
+ 16 IL=1
+ 20 XL=X(IP)
+ YL=Y(IP)
+C
+C SET UP SEARCH LOOP
+C
+ IP1=IP+1
+ IPN=IP+N
+ DO 100 II=IP1,IPN
+ I=II
+ IF(I.GT.N) I=I-N
+ IF(IL == 0) goto 50
+ IF(IL < 0) goto 30
+ IF(IL > 0) goto 40
+c IF(IL) 30,50,40
+
+ 30 IF(X(I)-X0 == 0) goto 32
+ IF(X(I)-X0 < 0) goto 90
+ IF(X(I)-X0 > 0) goto 34
+c 30 IF(X(I)-X0) 90,32,34
+ 32 IS=-1
+ GO TO 60
+ 34 IL=1
+ GO TO 80
+ 40 IF(X(I)-X0 == 0) goto 44
+ IF(X(I)-X0 < 0) goto 42
+ IF(X(I)-X0 > 0) goto 90
+c 40 IF(X(I)-X0) 42,44,90
+ 42 IL=-1
+ GO TO 80
+ 44 IS=1
+ GO TO 60
+ 50 IF(X(I)-X0 == 0) goto 55
+ IF(X(I)-X0 < 0) goto 52
+ IF(X(I)-X0 > 0) goto 54
+c 50 IF(X(I)-X0) 52,55,54
+ 52 IL=-1
+ IF(IS == 0) goto 140
+ IF(IS < 0) goto 90
+ IF(IS > 0) goto 80
+c IF(IS) 90,140,80
+ 54 IL=1
+ IF(IS == 0) goto 140
+ IF(IS < 0) goto 80
+ IF(IS > 0) goto 90
+c IF(IS) 80,140,90
+
+ 55 IF(Y(I)-Y0 == 0) goto 120
+ IF(Y(I)-Y0 < 0) goto 57
+ IF(Y(I)-Y0 > 0) goto 58
+c 55 IF(Y(I)-Y0) 57,120,58
+
+ 57 IF(YL-Y0 == 0) goto 120
+ IF(YL-Y0 < 0) goto 90
+ IF(YL-Y0 > 0) goto 120
+c 57 IF(YL-Y0) 90,120,120
+
+ 58 IF(YL-Y0 == 0) goto 120
+ IF(YL-Y0 < 0) goto 120
+ IF(YL-Y0 > 0) goto 90
+c 58 IF(YL-Y0) 120,120,90
+C
+ 60 IL=0
+ IF(Y(I)-Y0 == 0) goto 120
+ IF(Y(I)-Y0 < 0) goto 90
+ IF(Y(I)-Y0 > 0) goto 90
+c IF(Y(I)-Y0) 90,120,90
+
+ 80 IF(YL-Y0+(Y(I)-YL)*(X0-XL)/(X(I)-XL) == 0) goto 120
+ IF(YL-Y0+(Y(I)-YL)*(X0-XL)/(X(I)-XL) < 0) goto 90
+ IF(YL-Y0+(Y(I)-YL)*(X0-XL)/(X(I)-XL) > 0) goto 85
+c 80 IF(YL-Y0+(Y(I)-YL)*(X0-XL)/(X(I)-XL)) 90,120,85
+ 85 NPC=NPC+1
+ 90 XL=X(I)
+ YL=Y(I)
+ 100 CONTINUE
+ NPC=MOD(NPC,2)
+ RETURN
+ 120 NPC=2
+ RETURN
+ 140 WRITE(I6,6002)
+ 6002 FORMAT('0 POLYGON LOGIC ERROR - PROGRAM SHOULD NOT REACH THIS',
+ . ' POINT')
+ RETURN
+ END
+*****************************************************************
+ SUBROUTINE RADR8T (YLAT,VN,VE,VNR,VER)
+
+C Convert horizontal velocities from mm/yr to rad/yr
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+ CALL RADII (YLAT,RADMER,RADPAR)
+c write (*,*) "From RADR8T",RADMER,RADPAR
+ VNR = VN / (1000.D0 * RADMER)
+ VER = VE / (1000.D0 * RADPAR)
+c write (*,*) "From RADR8T",VNR,VER
+
+ RETURN
+ END
+*****************************************************************
+ SUBROUTINE COMVEL(YLAT,YLON,JREGN,VN,VE,VU)
+C
+C Compute the NAD_83(CORS96) velocity at a point in mm/yr !Not anymore since 09/12/2014
+ !Now the velocity refer to ITRF2008
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NUMGRD = 10)
+ parameter (NMREGN = 17)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /FILES/ LUIN, LUOUT, I1,I2,I3,I4,I5,I6
+ COMMON /VGRID/ B(210000)
+ DIMENSION WEI(2,2), VEL(2,2,3)
+
+c WRITE (6, 1001) JREGN
+c1001 FORMAT( 'JREGN = ', I6)
+
+ IF(JREGN .GT. NUMGRD .AND. JREGN .LE. NMREGN) THEN
+*** Use tectonic plate model to compute velocity relative
+*** to ITRF2008
+ IPLATE = JREGN - NUMGRD
+ ELON = - YLON
+ HT = 0.D0
+ CALL TOXYZ(YLAT, ELON, HT, X, Y, Z)
+ CALL PLATVL(IPLATE, X, Y, Z, VX, VY, VZ)
+ VX = VX * 1000.D0
+ VY = VY * 1000.D0
+ VZ = VZ * 1000.D0
+*** Convert ITRF2008 velocity to NAD_83(CORS96) velocity
+c CALL VTRANF(X, Y, Z, VX, VY, VZ, 15, 1) !No Do not. Leave the velocity in ITRF2008
+ CALL TOVNEU(YLAT, ELON, VX, VY, VZ, VN, VE, VU)
+
+ ELSEIF(JREGN .GE. 1 .AND. JREGN .LE. NUMGRD) THEN
+
+C*** Get indices for the lower left hand corner of the grid
+C*** and get the weights for the four corners
+ CALL GRDWEI (YLON, YLAT, JREGN, I, J, WEI)
+c write (*,*) 'HHHHHHHHHHHHHHHHHHHHHHHHH',JREGN,WEI
+c write (*,*) 'HHHHHHHHHHHHHHHHHHHHHHHHH',i,j
+
+C*** Get the velocity vectors at the four corners
+ CALL GRDVEC (JREGN, I, J, VEL, B)
+
+ VN = WEI(1,1) * VEL(1,1,1) + WEI(1,2) * VEL(1,2,1)
+ * + WEI(2,1) * VEL(2,1,1) + WEI(2,2) * VEL(2,2,1)
+
+ VE = WEI(1,1) * VEL(1,1,2) + WEI(1,2) * VEL(1,2,2)
+ * + WEI(2,1) * VEL(2,1,2) + WEI(2,2) * VEL(2,2,2)
+
+ VU = WEI(1,1) * VEL(1,1,3) + WEI(1,2) * VEL(1,2,3)
+ * + WEI(2,1) * VEL(2,1,3) + WEI(2,2) * VEL(2,2,3)
+
+c write (*,*) 'From COMVEL ',VN,VE,VU
+c write (*,*) 'From COMVEL ',I,J
+
+C*** If the point in one of the four Alaskan regions,
+C*** then set its vertical velocity to 0.0
+ IF(JREGN .GE. 7 .AND. JREGN .LE. 10) THEN
+ VU = 0.D0
+ ENDIF
+
+C*** If the point is in one of the first ten regions, then
+c*** the velocity grids contain the ITRF2008 velocity.
+c*** Hence, the following code transforms this ITRF2008 velocity
+c*** to the corresponding NAD 83 (CORS96) velocity.
+C
+c IF(JREGN .LE. NUMGRD) THEN !Starting09/12/2014, the velocities
+c ELON = - YLON !coming out of this routine are in ITRF2008
+c HT = 0.D0
+c CALL TOXYZ(YLAT, ELON, HT, X, Y, Z)
+c CALL TOVXYZ(YLAT, ELON, VN, VE, VU, VX, VY, VZ)
+c CALL VTRANF( X, Y, Z, VX, VY, VZ, 15, 1)
+c CALL TOVNEU(YLAT, ELON, VX, VY, VZ, VN, VE, VU)
+c ENDIF
+
+ ELSE
+ WRITE(LUOUT,100) JREGN
+ 100 FORMAT(' Improper region identifier ',I4,'in COMVEL.')
+ STOP
+ ENDIF
+ RETURN
+ END
+****************************************
+ SUBROUTINE PLATVL(IPLATE, X, Y, Z, VX, VY, VZ)
+*** Compute the ITRF2008 velocity at point on plate = IPLATE
+*** with coordinates X, Y, Z (in meters)
+*** The resulting velocities--VX, VY, and VZ--will be in meters/yr
+*** References
+*** Altamimi et al. 2012 = JGR (Paper on ITRF2008 plate motion)
+*** DeMets et al. 2010 = Geophysical Journal Int'l, vol 181,
+*** Snay 2003 = SALIS, Vol 63, No 1 (Paper on Frames for Pacific)
+
+ IMPLICIT DOUBLE PRECISION (A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ DIMENSION WX(7), WY(7), WZ(7)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+*** IPLATE = 1 --> North America (from Altamimi et al. 2012)
+*** 2 --> Caribbean (from Altamimi et al. 2012)
+*** 3 --> Pacific (from Altamimi et al. 2012)
+*** 4 --> Juan de Fuca (from DeMets et al. 2010)
+*** 5 --> Cocos (from DeMets et al. 2010)
+*** 6 --> Mariana (from Snay, 2003)
+*** 7 --> Philippine Sea (from DeMets et al. 2010)
+ DATA WX /0.170D-9, 0.238D-9, -1.993D-9,
+ 1 6.626D-9, -10.390D-9, -.097D-9, -0.841D-9/
+ DATA WY /-3.209D-9, -5.275D-9, 5.023D-9,
+ 1 11.708D-9, -14.954D-9, .509D-9, 3.989D-9/
+ DATA WZ /-0.485D-9, 3.219D-9,-10.501D-9,
+ 1 -10.615D-9, 9.148D-9,-1.682D-9, -10.626D-9/
+
+ IF (IPLATE .LE. 0 .OR. IPLATE .GT. 7) THEN
+ WRITE (LUOUT, 1) IPLATE
+ 1 FORMAT(' Improper plate ID in PLATVL = ', I6)
+ STOP
+ ENDIF
+
+ VX = -WZ(IPLATE) * Y + WY(IPLATE) * Z
+ VY = WZ(IPLATE) * X - WX(IPLATE) * Z
+ VZ = -WY(IPLATE) * X + WX(IPLATE) * Y
+
+*** The parameters--WX, WY, and WZ--refer to ITRF2000
+*** for the Mariana Plate (Snay, 2003). Hence,
+*** for this plate, VX, VY, and VZ, correspond to ITRF2000.
+*** The following code converts these to ITRF2008 velocities for
+*** this plate.
+ IF (IPLATE .EQ. 6) THEN
+ VX = VX*1000.d0
+ VY = VY*1000.d0
+ VZ = VZ*1000.d0
+ CALL VTRANF(X, Y, Z, VX, VY, VZ, 11, 15)
+ VX = VX/1000.d0
+ VY = VY/1000.d0
+ VZ = VZ/1000.d0
+*** The following translations rates are added per Altamimi et al. (2012)
+*** for the other six plates
+ ELSE
+ VX = 0.00041d0 + VX
+ VY = 0.00022d0 + VY
+ VZ = 0.00041d0 + VZ
+ ENDIF
+
+ RETURN
+ END
+**********************************************************************
+ SUBROUTINE PVPRNT(LATD,LATM,SLAT,LOND,LONM,SLON,VN,VE,VU)
+
+*** Print out a point-velocity (PV) record
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /FILES/ LUIN,LUOUT,I1,I2,I3,I4,I5, I6
+
+ LATS = IDINT(SLAT*100.D0 + 0.5D0)
+ LONS = IDINT(SLON*100.D0 + 0.5D0)
+ IVN = IDINT( VN*100.D0 + 0.5D0)
+ IVE = IDINT( VE*100.D0 + 0.5D0)
+ IVU = IDINT( VU*100.D0 + 0.5D0)
+ JVN = 300
+ JVE = 300
+ JVU = 500
+
+ WRITE(I3,10) LATD,LATM,LATS,LOND,LONM,LONS,
+ 1 IVN,JVN,IVE,JVE,IVU,JVU
+ 10 FORMAT('PV',I3,I2.2,I4.4,'N',I3,I2.2,I4.4,'W',6I6)
+ RETURN
+ END
+****************************************************************************
+ SUBROUTINE DSDA(LOCISN, LOCJSN, MIN1, MIN2, DS, DA)
+
+** Compute change in distance and change in azimuth.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ HTF = 0.0D0
+ HTT = 0.0D0
+
+ READ(I4,REC=LOCISN,err=50,iostat=ios) YLATF,YLONF,VNF,VEF,VUF
+ if (ios /= 0) goto 50
+ READ(I4,REC=LOCJSN,err=51,iostat=ios) YLATT,YLONT,VNT,VET,VUT
+ if (ios /= 0) goto 51
+
+ CALL COMPSN(YLATF1,YLONF1,HTF1,YLATF,YLONF,HTF,
+ 1 MIN1, VNF, VEF, VUF)
+ CALL COMPSN(YLATF2,YLONF2,HTF2,YLATF,YLONF,HTF,
+ 1 MIN2, VNF, VEF, VUF)
+ CALL COMPSN(YLATT1,YLONT1,HTT1,YLATT,YLONT,HTT,
+ 1 MIN1, VNT, VET, VUT)
+ CALL COMPSN(YLATT2,YLONT2,HTT2,YLATT,YLONT,HTT,
+ 1 MIN2, VNT, VET, VUT)
+
+ CALL HELINV(YLATF1,YLONF1,YLATT1,YLONT1,FAZ1,BAZ1,S1)
+ CALL HELINV(YLATF2,YLONF2,YLATT2,YLONT2,FAZ2,BAZ2,S2)
+ DS = S2 - S1
+ DA = FAZ2 - FAZ1
+ RETURN
+
+ 50 write (*,'(/)')
+ write (*,*) "wrong input for the 1st reading in DSDA:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 51 write (*,'(/)')
+ write (*,*) "wrong input for the 2nd reading in DSDA:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*********************************************************************
+ SUBROUTINE HELINV(GLAT1,GLON1,GLAT2,GLON2,FAZ,BAZ,S)
+C
+C *** SOLUTION OF THE GEODETIC INVERSE PROBLEM AFTER T.VINCENTY.
+C *** MODIFIED RAINSFORD WITH HELMERT ELLIPTICAL TERMS.
+C *** EFFECTIVE IN ANY AZIMUTH AND AT ANY DISTANCE SHORT OF ANTIPODAL.
+C *** STANDPOINT/FOREPOINT MUST NOT BE THE GEOGRAPHIC POLE .
+C
+C INPUT
+C GLAT1 = Latitude of from point (radians, positive north)
+C GLON1 = Longitude of from point (radians, positive west)
+C GLAT2 = Latitude of to point (radians, positive north)
+C GLON2 = Longitude of to point (radians, positive west)
+C
+C OUTPUT
+C FAZ = Foward azimuth (radians, clockwise from north)
+C BAZ = Back azimuth (radians, clockwise from north)
+C S = Distance (meters)
+C
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON/CONST/A,F,EPS2,EPS,AF,PI,TWOPI,RHOSEC
+ DATA TOL/0.5D-14/
+ R = 1.0D0-F
+ TU1 = R*DSIN(GLAT1)/DCOS(GLAT1)
+ TU2 = R*DSIN(GLAT2)/DCOS(GLAT2)
+ CU1 = 1.0D0/DSQRT(TU1*TU1+1.0D0)
+ SU1 = CU1*TU1
+ CU2 = 1.0D0/DSQRT(TU2*TU2+1.0D0)
+ S = CU1*CU2
+ BAZ = S*TU2
+ FAZ = BAZ*TU1
+ X = GLON1-GLON2
+ 100 SX = DSIN(X)
+ CX = DCOS(X)
+ TU1 = CU2*SX
+ TU2 = SU1*CU2*CX-BAZ
+ SY = DSQRT(TU1*TU1+TU2*TU2)
+ CY = S*CX+FAZ
+ Y = DATAN2(SY,CY)
+ SA = S*SX/SY
+ C2A = -SA*SA+1.0D0
+ CZ = FAZ+FAZ
+ IF(C2A .GT. 0.0D0)CZ = -CZ/C2A+CY
+ E = CZ*CZ*2.0D0-1.0D0
+ C = ((-3.0D0*C2A+4.0D0)*F+4.0D0)*C2A*F/16.0D0
+ D = X
+ X = ((E*CY*C+CZ)*SY*C+Y)*SA
+ X = (1.0D0-C)*X*F+GLON1-GLON2
+ IF(DABS(D-X) .GT. TOL)GO TO 100
+ FAZ = DATAN2(-TU1,TU2)
+ BAZ = DATAN2(CU1*SX,BAZ*CX-SU1*CU2)
+ FAZ = FAZ + PI
+ BAZ = BAZ + PI
+ IF(FAZ .LT. 0.0D0)FAZ = FAZ+TWOPI
+ IF(BAZ .LT. 0.0D0)BAZ = BAZ+TWOPI
+ IF(FAZ .GT. TWOPI)FAZ = FAZ - TWOPI
+ IF(BAZ .GT. TWOPI)BAZ = BAZ - TWOPI
+ X = DSQRT((1.0D0/R/R-1.0D0)*C2A+1.0D0)+1.0D0
+ X = (X-2.0D0)/X
+ C = 1.0D0-X
+ C = (X*X/4.0D0+1.0D0)/C
+ D = (0.375D0*X*X-1.0D0)*X
+ X = E*CY
+ S = 1.0D0-E-E
+ S = ((((SY*SY*4.0D0-3.0D0)*S*CZ*D/6.0D0-X)*D/4.0D0+CZ)*SY*D+Y)
+ 1 *C*A*R
+ RETURN
+ END
+*************************************************************************
+
+c SUBROUTINE TODMSA(val,id,im,s)
+
+*** convert position radians to deg,min,sec
+*** range is [-twopi to +twopi]
+
+c implicit double precision(a-h,o-z)
+c IMPLICIT INTEGER*4 (I-N)
+c common/CONST/A,F,E2,EP2,AF,PI,TWOPI,RHOSEC
+
+c 1 if(val.gt.twopi) then
+c val=val-twopi
+c go to 1
+c endif
+
+c 2 if(val.lt.-twopi) then
+c val=val+twopi
+c go to 2
+c endif
+
+c if(val.lt.0.d0) then
+c isign=-1
+c else
+c isign=+1
+c endif
+
+c s=dabs(val*RHOSEC/3600.D0)
+c id=idint(s)
+c s=(s-id)*60.d0
+c im=idint(s)
+c s=(s-im)*60.d0
+
+*** account for rounding error
+
+c is=idnint(s*1.d5)
+c if(is.ge.6000000) then
+c s=0.d0
+c im=im+1
+c endif
+c if(im.ge.60) then
+c im=0
+c id=id+1
+c endif
+
+c id = isign*id
+c im = isign*im
+c s = isign*s
+
+c return
+c end
+*********************************************************
+ SUBROUTINE TRFDAT(CARD,DATE,IREC12,IYEAR1,IYEAR2,MINS)
+
+C Convert blue-book date to time in minutes
+
+ IMPLICIT DOUBLE PRECISION (A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ CHARACTER CARD*80
+ CHARACTER DATE*6
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+
+ IF (IREC12 .EQ. 0) THEN
+ WRITE (LUOUT, 5)
+ 5 FORMAT(' ABORT: The blue-book needs a valid *12* record.')
+ STOP
+ ENDIF
+
+ READ (DATE, 10,err=50,iostat=ios) IYEAR, MONTH, IDAY
+ if (ios /= 0) goto 50
+ 10 FORMAT (3I2)
+
+ IF ( IYEAR1 .LE. (1900 + IYEAR) .AND.
+ 1 (1900 + IYEAR) .LE. IYEAR2) THEN
+ IYEAR = 1900 + IYEAR
+ ELSEIF ( IYEAR1 .LE. (2000 + IYEAR) .AND.
+ 1 (2000 + IYEAR) .LE. IYEAR2) THEN
+ IYEAR = 2000 + IYEAR
+ ELSEIF ( IYEAR1 .LE. (1800 + IYEAR) .AND.
+ 1 (1800 + IYEAR) .LE. IYEAR2) THEN
+ IYEAR = 1800 + IYEAR
+ ELSE
+ WRITE (LUOUT, 20) CARD
+ 20 FORMAT(' ABORT: The following record has a date'/
+ 1 ' which is inconsistent with the *12* record'/
+ 1 3x, A80)
+ ENDIF
+
+ IF (IYEAR .LE. 1906) THEN
+ WRITE (LUOUT, 30)
+ 30 FORMAT(' ***WARNING***'/
+ 1 ' The blue-book file contains an observation that'/
+ 1 ' predates 1906. The TDP model may not be valid'/
+ 1 ' and the computed corrections may be erroneous.')
+ ENDIF
+
+ IF (IDAY .EQ. 0) IDAY = 15
+
+ IF (MONTH .EQ. 0) THEN
+ MONTH = 7
+ IDAY = 1
+ ENDIF
+
+C CALL TOTIME(IYEAR,MONTH,IDAY, MINS)
+ CALL IYMDMJ(IYEAR,MONTH,IDAY, MJD)
+ MINS = MJD * 24 * 60
+ RETURN
+
+ 50 write (*,'(/)')
+ write (*,*) 'wrong IYEAR, IMONTH, IDAY:ios =',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+
+ END
+*********************************************************
+ SUBROUTINE TNFDAT(DATE,MINS)
+
+C Convert blue-book date to time in years
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ character DATE*8
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+ READ(DATE,10) IYEAR,MONTH,IDAY
+ 10 FORMAT(I4,I2,I2)
+ IF(IYEAR .LE. 1906) THEN
+ WRITE(LUOUT,20)
+ 20 FORMAT(' ***WARNING***'/
+ 1 ' The blue-book file contains an observation that'/
+ 2 ' predates 1906. The TDP model is not valid and the'/
+ 3 ' computed correction may be erroneous.')
+ ENDIF
+ IF(IDAY .EQ. 0) IDAY = 15
+ IF(MONTH .EQ. 0) THEN
+ MONTH = 7
+ IDAY = 1
+ ENDIF
+C CALL TOTIME(IYEAR,MONTH,IDAY,MINS)
+ CALL IYMDMJ(IYEAR,MONTH,IDAY,MJD)
+ MINS = MJD * 24 * 60
+ RETURN
+ END
+***************************************************************
+C SUBROUTINE GETTIM(MONTH, IDAY, IYEAR, DATE, MINS, TEST)
+C
+*** Read month-day-year and convert to decimal years
+*** and Julian time in minutes
+*** MONTH input - number from 1 to 12
+*** IDAY input - number from 1 to 31
+*** IYEAR input - must be after 1906
+*** DATE output - corresponding time in decimal years
+*** MINS output - corresponding julian time in minutes
+*** TEST output - if (true) then there is an error
+C
+C IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+C IMPLICIT INTEGER*4 (I-N)
+C LOGICAL TEST
+C COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+C READ(LUIN,*) MONTH,IDAY,IYEAR
+
+C IF(IYEAR .le. 1906) THEN
+C WRITE(LUOUT,10)
+C 10 FORMAT(' The model is not valid for dates prior ',
+C 1 'to 1906.'/)
+C TEST = .TRUE.
+C RETURN
+C ENDIF
+
+C IF(MONTH .le. 0 .or. MONTH .gt. 12) THEN
+C WRITE(LUOUT,20)
+C 20 FORMAT(' Improper month specified.'/)
+C TEST = .TRUE.
+C RETURN
+C ENDIF
+
+C IF(IDAY .le. 0 .or. IDAY .gt. 31) THEN
+C WRITE(LUOUT,30)
+C 30 FORMAT(' Improper day specified.'/)
+C TEST = .TRUE.
+C RETURN
+C ENDIF
+
+C CALL TOTIME(IYEAR, MONTH, IDAY, MINS)
+C CALL TOTIME(IYEAR, 1, 1, MIN00)
+C DATE = DBLE(IYEAR) + DBLE(MINS - MIN00)/525600.D0
+C TEST = .FALSE.
+C RETURN
+C END
+
+C************************************************************************
+ SUBROUTINE TOXYZ(glat,glon,eht,x,y,z)
+
+*** compute x,y,z
+*** ref p.17 geometric geodesy notes vol 1, osu, rapp
+
+ implicit double precision(a-h,o-z)
+ common/CONST/ a,f,e2,ep2,af,pi,twopi,rhosec
+
+ slat=dsin(glat)
+ clat=dcos(glat)
+ w=dsqrt(1.d0-e2*slat*slat)
+ en=a/w
+
+ x=(en+eht)*clat*dcos(glon)
+ y=(en+eht)*clat*dsin(glon)
+ z=(en*(1.d0-e2)+eht)*slat
+
+ return
+ end
+C************************************************************************
+ logical function FRMXYZ(x,y,z,glat,glon,eht)
+
+*** convert x,y,z into geodetic lat, lon, and ellip. ht
+*** ref: eq a.4b, p. 132, appendix a, osu #370
+*** ref: geom geod notes gs 658, rapp
+
+ implicit double precision(a-h,o-z)
+ parameter(maxint=10,tol=1.d-13)
+ common/CONST/ a,f,e2,ep2,af,pi,twopi,rhosec
+
+ ae2=a*e2
+
+*** compute initial estimate of reduced latitude (eht=0)
+
+ p=dsqrt(x*x+y*y)
+ icount=0
+ tgla=z/p/(1.d0-e2)
+
+*** iterate to convergence, or to max # iterations
+
+ 1 if(icount.le.maxint) then
+ tglax=tgla
+ tgla=z/(p-(ae2/dsqrt(1.d0+(1.d0-e2)*tgla*tgla)))
+ icount=icount+1
+ if(dabs(tgla-tglax).gt.tol) go to 1
+
+*** convergence achieved
+
+ frmxyz=.true.
+ glat=datan(tgla)
+ slat=dsin(glat)
+ clat=dcos(glat)
+ glon=datan2(y,x)
+ w=dsqrt(1.d0-e2*slat*slat)
+ en=a/w
+ if(dabs(glat).le.0.7854d0) then
+ eht=p/clat-en
+ else
+ eht=z/slat-en+e2*en
+ endif
+ glon=datan2(y,x)
+
+*** too many iterations
+
+ else
+ frmxyz=.false.
+ glat=0.d0
+ glon=0.d0
+ eht=0.d0
+ endif
+
+ return
+ end
+*********************************************************************
+ SUBROUTINE RADII(YLAT,RADMER,RADPAR)
+C
+C Computes the radius of curvature in the meridian
+C and the radius of curvature in a parallel of latitude
+C
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COSLAT = DCOS(YLAT)
+ DENOM = DSQRT(1.D0 + EPS*COSLAT*COSLAT)
+ RADMER = AF/(DENOM**3)
+ RADPAR = AF*COSLAT/DENOM
+ RETURN
+ END
+*********************************************************************
+ SUBROUTINE GETGRD(NAMEG,MINLAT,MAXLAT,ILAT,MINLON,MAXLON,ILON)
+
+*** Interactively obtain specifications for a grid.
+
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+ CHARACTER NAMEG*10
+ WRITE(LUOUT,200)
+ 200 FORMAT(' Enter name for grid (10 character max). ')
+ READ(LUIN,210,err=50,iostat=ios) NAMEG
+ if (ios /= 0) goto 50
+ 210 FORMAT(A10)
+ WRITE(LUOUT,220)
+ 220 FORMAT(' Enter minimum latitude for grid in deg-min-sec'/
+ 1 ' in free format (integer values only). ')
+ READ(LUIN,*,err=51,iostat=ios) ID1, IM1, IS1
+ if (ios /= 0) goto 51
+ WRITE(LUOUT,230)
+ 230 FORMAT(' Enter maximum latitude in same format. ')
+ READ(LUIN,*,err=52,iostat=ios) ID2, IM2, IS2
+ if (ios /= 0) goto 52
+ WRITE(LUOUT,240)
+ 240 FORMAT(' Enter latitude increment in seconds ',
+ 1 ' (integer value). ')
+ READ(LUIN,*,err=53,iostat=ios) ILAT
+ if (ios /= 0) goto 53
+ WRITE(LUOUT,250)
+ 250 FORMAT(' Enter minimum longitude with positive being west. ')
+ READ(LUIN,*,err=54,iostat=ios) JD1, JM1, JS1
+ if (ios /= 0) goto 54
+ WRITE(LUOUT,260)
+ 260 FORMAT(' Enter maximum longitude. ')
+ READ(LUIN,*,err=55,iostat=ios) JD2, JM2, JS2
+ if (ios /= 0) goto 55
+ WRITE(LUOUT,270)
+ 270 FORMAT(' Enter longitude increment in seconds ',
+ 1 ' (integer value). ')
+ READ(LUIN,*,err=56,iostat=ios) ILON
+ if (ios /= 0) goto 56
+ MINLAT = 3600*ID1 + 60*IM1 + IS1
+ MAXLAT = 3600*ID2 + 60*IM2 + IS2
+ MINLON = 3600*JD1 + 60*JM1 + JS1
+ MAXLON = 3600*JD2 + 60*JM2 + JS2
+ RETURN
+
+ 50 write (*,'(/)')
+ write (*,*) "Wrong grid name in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 51 write (*,'(/)')
+ write (*,*) "Wrong min lat in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 52 write (*,'(/)')
+ write (*,*) "Wrong max lat in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 53 write (*,'(/)')
+ write (*,*) "Wrong ILAT in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 54 write (*,'(/)')
+ write (*,*) "Wrong min lon in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 55 write (*,'(/)')
+ write (*,*) "Wrong max lon in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 56 write (*,'(/)')
+ write (*,*) "Wrong ILON in GETGRD:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*********************************************************************
+ SUBROUTINE GETLYN(NAMEG,XLAT,XLON,FAZ,BAZ,XMIN,XMAX,XINC)
+
+*** Interactively obtain the specifications for a line.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /FILES/ LUIN,LUOUT,I1,I2,I3,I4,I5,I6
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ CHARACTER NAMEG*10
+
+ WRITE(LUOUT,100)
+ 100 FORMAT(' Enter name for line (10 character max.) ')
+ READ(LUIN,110,err=50,iostat=ios) NAMEG
+ if (ios /= 0) goto 50
+ 110 FORMAT(A10)
+ WRITE(LUOUT,120)
+ 120 Format(' Specify the latitude for the origin of the line'/
+ 1 ' in deg-min-sec in free format. For example'/
+ 2 ' 35 17 28.3'/
+ 3 ' Positive is north. ')
+ READ(LUIN,*,err=51,iostat=ios) LATD,LATM,SLAT
+ if (ios /= 0) goto 51
+ XLAT = (DBLE(3600*LATD + 60*LATM)+SLAT)/RHOSEC
+ WRITE(LUOUT,130)
+ 130 FORMAT(' Specify the longitude for the origin of the line'/
+ 1 ' in free format with west being positive. ')
+ READ(LUIN,*,err=52,iostat=ios) LOND,LONM,SLON
+ if (ios /= 0) goto 52
+ XLON = (DBLE(3600*LOND+60*LONM)+SLON)/RHOSEC
+ WRITE(LUOUT,140)
+ 140 FORMAT(' Specify the orientation of the line clockwise from'/
+ 1 ' north in decimal degrees, eg., 43.7. ')
+ READ(LUIN,*,err=53,iostat=ios) FAZ
+ if (ios /= 0) goto 53
+ FAZ = 3600.D0*FAZ/RHOSEC
+ BAZ = FAZ + PI
+ IF(BAZ .GT. TWOPI) BAZ = BAZ - TWOPI
+ WRITE(LUOUT,150)
+ 150 FORMAT(' Specify minimum and maximum distance from origin in'/
+ 1 ' meters, eg., -40000. 30000. '/
+ 2 ' NOTE: negative distance corresponds to distance in'/
+ 3 ' the opposite direction. ')
+ READ(LUIN,*,err=54,iostat=ios) XMIN,XMAX
+ if (ios /= 0) goto 54
+ WRITE(LUOUT,160)
+ 160 FORMAT(' Specify distance increment in meters. ')
+ READ(LUIN,*,err=55,iostat=ios) XINC
+ if (ios /= 0) goto 55
+ RETURN
+
+ 50 write (*,'(/)')
+ write (*,*) 'Wrong name of line in GETLYN: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 51 write (*,'(/)')
+ write (*,*) 'Wrong LATD,LATM,SLAT in GETLYN: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 52 write (*,'(/)')
+ write (*,*) 'Wrong LOND,LONM,SLON in GETLYN: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 53 write (*,'(/)')
+ write (*,*) 'Wrong FAZ in GETLYN: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 54 write (*,'(/)')
+ write (*,*) 'Wrong min and max D in GETLYN: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 55 write (*,'(/)')
+ write (*,*) 'Wrong increment in GETLYN: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*******************************************************************
+ SUBROUTINE DIRCT1(GLAT1,GLON1,GLAT2,GLON2,FAZ,BAZ,S)
+C
+C *** SOLUTION OF THE GEODETIC DIRECT PROBLEM AFTER T.VINCENTY
+C *** MODIFIED RAINSFORD'S METHOD WITH HELMERT'S ELLIPTICAL TERMS
+C *** EFFECTIVE IN ANY AZIMUTH AND AT ANY DISTANCE SHORT OF ANTIPODAL
+C
+C *** A IS THE SEMI-MAJOR AXIS OF THE REFERENCE ELLIPSOID
+C *** FINV IS THE FLATTENING OF THE REFERENCE ELLIPSOID
+C *** LATITUDES AND LONGITUDES IN RADIANS POSITIVE NORTH AND EAST
+C *** AZIMUTHS IN RADIANS CLOCKWISE FROM NORTH
+C *** GEODESIC DISTANCE S ASSUMED IN UNITS OF SEMI-MAJOR AXIS A
+C
+C *** PROGRAMMED FOR CDC-6600 BY LCDR L.PFEIFER NGS ROCKVILLE MD 20FEB75
+C *** MODIFIED FOR SYSTEM 360 BY JOHN G GERGEN NGS ROCKVILLE MD 750608
+C
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /CONST/ A,FINV,E2,EPI,AF,PI,TWOPI,RHOSEC
+ DATA EPS/0.5D-13/
+ R=1.D0-FINV
+ TU=R*DSIN(GLAT1)/DCOS(GLAT1)
+ SF=DSIN(FAZ)
+ CF=DCOS(FAZ)
+ BAZ=0.D0
+ IF(CF.NE.0.D0) BAZ=DATAN2(TU,CF)*2.D0
+ CU=1.D0/DSQRT(TU*TU+1.D0)
+ SU=TU*CU
+ SA=CU*SF
+ C2A=-SA*SA+1.D0
+ X=DSQRT((1.D0/R/R-1.D0)*C2A+1.D0)+1.D0
+ X=(X-2.D0)/X
+ C=1.D0-X
+ C=(X*X/4.D0+1.D0)/C
+ D=(0.375D0*X*X-1.D0)*X
+ TU=S/R/A/C
+ Y=TU
+ 100 SY=DSIN(Y)
+ CY=DCOS(Y)
+ CZ=DCOS(BAZ+Y)
+ E=CZ*CZ*2.D0-1.D0
+ C=Y
+ X=E*CY
+ Y=E+E-1.D0
+ Y=(((SY*SY*4.D0-3.D0)*Y*CZ*D/6.D0+X)*D/4.D0-CZ)*SY*D+TU
+ IF(DABS(Y-C).GT.EPS)GO TO 100
+ BAZ=CU*CY*CF-SU*SY
+ C=R*DSQRT(SA*SA+BAZ*BAZ)
+ D=SU*CY+CU*SY*CF
+ GLAT2=DATAN2(D,C)
+ C=CU*CY-SU*SY*CF
+ X=DATAN2(SY*SF,C)
+ C=((-3.D0*C2A+4.D0)*FINV+4.D0)*C2A*FINV/16.D0
+ D=((E*CY*C+CZ)*SY*C+Y)*SA
+ GLON2=GLON1+X-(1.D0-C)*D*FINV
+ IF (GLON2.GE.TWOPI) GLON2=GLON2-TWOPI
+ IF(GLON2.LT.0.D0) GLON2=GLON2+TWOPI
+ BAZ=DATAN2(SA,BAZ)+PI
+ IF (BAZ.GE.TWOPI) BAZ=BAZ-TWOPI
+ IF (BAZ.LT.0.D0) BAZ=BAZ+TWOPI
+ RETURN
+ END
+***********************************************************
+ SUBROUTINE TOCHAR(ORIG,CHAR14)
+
+*** Convert double precision real number to character*14
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ CHARACTER CHAR14*14
+
+ ORIG = ORIG*10000.D0
+ WRITE(CHAR14,10) ORIG
+ 10 FORMAT(F14.0)
+ RETURN
+ END
+*********************************************************
+
+ SUBROUTINE DDXYZ(ISN, JSN, MIN1, MIN2,
+ 1 DDX, DDY, DDZ)
+
+** Compute change in DX,DY,DZ-vector from time MIN1 to MIN2.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ character PIDs*6
+ parameter (nbbdim = 10000)
+ COMMON /ARRAYS/ HT(nbbdim), LOC(nbbdim),PIDs(nbbdim)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ READ(I4,REC=LOC(ISN),err=50,iostat=ios) GLATI,GLONI,VNI,VEI,VUI
+ if (ios /= 0) goto 50
+ READ(I4,REC=LOC(JSN),err=51,iostat=ios) GLATJ,GLONJ,VNJ,VEJ,VUJ
+ if (ios /= 0) goto 51
+
+ CALL COMPSN(YLATI1,YLONI1,HTI1,GLATI,GLONI,HT(ISN),
+ 1 MIN1,VNI, VEI, VUI)
+ CALL COMPSN(YLATI2,YLONI2,HTI2,GLATI,GLONI,HT(ISN),
+ 1 MIN2, VNI, VEI, VUI)
+ CALL COMPSN(YLATJ1,YLONJ1,HTJ1,GLATJ,GLONJ,HT(JSN),
+ 1 MIN1, VNJ, VEJ, VUJ)
+ CALL COMPSN(YLATJ2,YLONJ2,HTJ2,GLATJ,GLONJ,HT(JSN),
+ 1 MIN2, VNJ, VEJ, VUJ)
+
+ XLONI1 = -YLONI1
+ XLONI2 = -YLONI2
+ XLONJ1 = -YLONJ1
+ XLONJ2 = -YLONJ2
+
+ CALL TOXYZ(YLATI1,XLONI1,HTI1,XI1,YI1,ZI1)
+ CALL TOXYZ(YLATI2,XLONI2,HTI2,XI2,YI2,ZI2)
+ CALL TOXYZ(YLATJ1,XLONJ1,HTJ1,XJ1,YJ1,ZJ1)
+ CALL TOXYZ(YLATJ2,XLONJ2,HTJ2,XJ2,YJ2,ZJ2)
+
+ DDX = (XJ2 - XI2) - (XJ1 - XI1)
+ DDY = (YJ2 - YI2) - (YJ1 - YI1)
+ DDZ = (ZJ2 - ZI2) - (ZJ1 - ZI1)
+
+ RETURN
+
+ 50 write (*,'(/)')
+ write (*,*) "Failed in 1st read statement in DDXYZ:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 51 write (*,'(/)')
+ write (*,*) "Failed in 2nd read statement in DDXYZ:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*************************************************************
+ SUBROUTINE DISLOC (YLAT,YLON,STRIKE,HL,EQLAT,EQLON,
+ & SS,DS,DIP,DEPTH,WIDTH,DNORTH,DWEST,DUP)
+
+*** Compute 3-dimensional earthquake displacement at point
+*** using dislocation theory
+*
+* INPUT:
+* YLAT = Latitude in radians (positive north)
+* YLON = Longitude in radians (positive west)
+* STRIKE = strike in radians clockwise from north such
+* that the direction of dip is pi/2 radians
+* counterclockwise from the direction of strike
+* HL = Half-length in meters
+* EQLAT = Latitude in radians of midpoint of the
+* rectangle's upper edge (positive north)
+* EQLON = Longitude in radians of midpoint of the
+* rectangle's upper edge (positive west)
+* SS = strike slip in meters (positive = right lateral)
+* DS = dip slip in meters (positive = normal faulting)
+* DIP = dip in radians
+* DEPTH = Vertical depth of rectangle's upper edge
+* in meters
+* WIDTH = width of rectangle in meters
+*
+* OUTPUT:
+* DNORTH = northward displacement in radians
+* DWEST = westward displacement in radians
+* DUP = upward displacement in meters
+**************
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+*** Compute radii of curvature at fault center
+ CALL RADII (EQLAT, RMER, RPAR)
+
+*** Compute planar coordinates in meters
+ DLAT = (YLAT - EQLAT) * RMER
+ DLON = (YLON - EQLON) * RPAR
+ COSSTR = DCOS(STRIKE)
+ SINSTR = DSIN(STRIKE)
+ X1 = COSSTR*DLAT - SINSTR*DLON
+ X2 = SINSTR*DLAT + COSSTR*DLON
+
+*** Compute displacements in fault-oriented coordinates
+ CALL OKADA(X1,X2,HL,DEPTH,WIDTH,DIP,U1SS,U2SS,
+ & U3SS,U1DS,U2DS,U3DS)
+ U1 = U1SS*SS + U1DS*DS
+ U2 = U2SS*SS + U2DS*DS
+ DUP = U3SS*SS + U3DS*DS
+
+*** Convert horizontal displacements to radians
+*** in north-west coordinate system
+ DNORTH = ( COSSTR*U1 + SINSTR*U2) / RMER
+ DWEST = (-SINSTR*U1 + COSSTR*U2) / RPAR
+
+ RETURN
+ END
+****************************************************
+ SUBROUTINE OKADA(X1,X2,XL,DU,W,DIP,
+ 1 U1SS,U2SS,U3SS,U1DS,U2DS,U3DS)
+
+************************************************************
+* This subroutine computes displacements at the point X1,X2
+* on the Earth's surface due to 1.0 meter of right-lateral
+* strike slip (SS) and 1.0 meter of normal dip slip (DS)
+* along a rectangular fault.
+*
+* The rectangular fault dips in the direction of the positive
+* X2-axis. The rectangle's strike parallels the X1-axis.
+* With the X3-axis directed upward out of the Earth, the X1-,
+* X2-, and X3-axes form a right-handed system.
+*
+* The equations of dislocation theory are employed whereby
+* Earth is represented an a homogeneous, isotropic half-space
+* with a Poisson ratio of PNU.
+*
+* REFERENCE: Okada, Y., Surface deformation due to shear and
+* tensile faults in a half-space, Bulletin of the
+* Seismological Society of America, vol. 75, pp. 1135-1154 (1985)
+*
+* The X3 = 0 plane corresponds to the Earth's surface. The plane's
+* origin is located directly above the midpoint of the rectangle's
+* upper edge.
+*
+* INPUT:
+* X1,X2 - Location in meters
+* XL - Rectangle's half-length in meters
+* DU - Vertical depth to rectangle's upper edge in meters
+* (always positive or zero)
+* W - Rectangle's width in meters
+* DIP - Rectangle's dip in radians (always between 0 and PI/2
+*
+* OUTPUT
+* U1SS - Displacement in X1-direction due to 1.0 meters
+* of right-lateral strike slip
+* U2SS - Displacement in X2-direction due to 1.0 meters
+* of right-lateral strike slip
+* U3SS - Displacement in X3-direction due to 1.0 meters
+* of right-lateral strike slip
+* U1DS - Displacement in X1-direction due to 1.0 meters
+* of normal dip slip
+* U2DS - Displacement in X2-direction due to 1.0 meters
+* of normal dip slip
+* U3DS - Displacement in X3-direction due to 1.0 meters
+* of normal dip slip
+*******************************************************************
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ LOGICAL VERT
+ PI = 3.141593D0
+ TWOPI = PI + PI
+ PNU = 0.25D0
+ RATIO = 1.D0 - 2.D0*PNU
+
+ IF(DABS(PI/2.D0 - DIP) .LT. .01D0)THEN
+ DIPK = -PI/2.D0
+ VERT = .TRUE.
+ ELSE
+ DIPK = -DIP
+ VERT = .FALSE.
+ ENDIF
+
+ SDIP = DSIN(DIPK)
+ CDIP = DCOS(DIPK)
+ P = X2*CDIP + DU*SDIP
+ Q = X2*SDIP - DU*CDIP
+
+ PSI = X1 + XL
+ ETA = P
+ CALL OKADAW(PSI,ETA,Q,SDIP,CDIP,RATIO,TWOPI,
+ 1 VERT,U1SS,U2SS,U3SS,U1DS,U2DS,U3DS)
+
+ PSI = X1 + XL
+ ETA = P - W
+ CALL OKADAW(PSI,ETA,Q,SDIP,CDIP,RATIO,TWOPI,
+ 1 VERT,C1SS,C2SS,C3SS,C1DS,C2DS,C3DS)
+ U1SS = U1SS - C1SS
+ U2SS = U2SS - C2SS
+ U3SS = U3SS - C3SS
+ U1DS = U1DS - C1DS
+ U2DS = U2DS - C2DS
+ U3DS = U3DS - C3DS
+
+ PSI = X1 - XL
+ ETA = P
+ CALL OKADAW(PSI,ETA,Q,SDIP,CDIP,RATIO,TWOPI,
+ 1 VERT,C1SS,C2SS,C3SS,C1DS,C2DS,C3DS)
+ U1SS = U1SS - C1SS
+ U2SS = U2SS - C2SS
+ U3SS = U3SS - C3SS
+ U1DS = U1DS - C1DS
+ U2DS = U2DS - C2DS
+ U3DS = U3DS - C3DS
+
+ PSI = X1 - XL
+ ETA = P - W
+ CALL OKADAW(PSI,ETA,Q,SDIP,CDIP,RATIO,TWOPI,
+ 1 VERT,C1SS,C2SS,C3SS,C1DS,C2DS,C3DS)
+ U1SS = U1SS + C1SS
+ U2SS = U2SS + C2SS
+ U3SS = U3SS + C3SS
+ U1DS = U1DS + C1DS
+ U2DS = U2DS + C2DS
+ U3DS = U3DS + C3DS
+ RETURN
+ END
+*************************************************************
+ SUBROUTINE OKADAW(PSI,ETA,Q,SDIP,CDIP,RATIO,TWOPI,
+ 1 VERT,U1SS,U2SS,U3SS,U1DS,U2DS,U3DS)
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ LOGICAL VERT
+
+ YBAR = ETA*CDIP + Q*SDIP
+ DBAR = ETA*SDIP - Q*CDIP
+ R = DSQRT(PSI*PSI + ETA*ETA + Q*Q)
+ X = DSQRT(PSI*PSI + Q*Q)
+ IF(DABS(Q) .LE. 0.1d0) THEN
+ TERM = 0.D0
+ ELSE
+ TERM = DATAN(PSI*ETA/(Q*R))
+ ENDIF
+
+ IF(VERT) THEN
+ F5 = -RATIO*PSI*SDIP/(R + DBAR)
+ F4 = -RATIO*Q/(R + DBAR)
+ F3 = 0.5D0*RATIO*(ETA/(R + DBAR)
+ 1 + YBAR*Q/((R + DBAR)*(R + DBAR))
+ 2 - DLOG(R + ETA))
+ F1 = -0.5D0*RATIO*PSI*Q/
+ 1 ((R + DBAR)*(R + DBAR))
+ ELSE
+ IF(DABS(PSI) .LE. 0.1D0) then
+ F5 = 0.d0
+ ELSE
+ F5 = 2.D0*RATIO*
+ 1 DATAN((ETA*(X+Q*CDIP)+X*(R+X)*SDIP)/(PSI*(R+X)*CDIP))
+ 2 /CDIP
+ ENDIF
+ F4 = RATIO*(DLOG(R+DBAR)-SDIP*DLOG(R+ETA))/CDIP
+ F3 = RATIO*(YBAR/(CDIP*(R+DBAR)) - DLOG(R+ETA))
+ 1 + SDIP*F4/CDIP
+ F1 = -RATIO*(PSI/(CDIP*(R+DBAR))) - SDIP*F5/CDIP
+ ENDIF
+ F2 = -RATIO*DLOG(R+ETA) - F3
+
+ U1SS = -(PSI*Q/(R*(R+ETA))
+ 1 + TERM + F1*SDIP)/TWOPI
+ U2SS = -(YBAR*Q/(R*(R+ETA))
+ 1 + Q*CDIP/(R+ETA)
+ 2 + F2*SDIP)/TWOPI
+ U3SS = -(DBAR*Q/(R*(R+ETA))
+ 1 + Q*SDIP/(R+ETA)
+ 2 + F4*SDIP)/TWOPI
+ U1DS = -(Q/R - F3*SDIP*CDIP)/TWOPI
+ U2DS = -(YBAR*Q/(R*(R+PSI))
+ 1 + CDIP*TERM - F1*SDIP*CDIP)/TWOPI
+ U3DS = -(DBAR*Q/(R*(R+PSI))
+ 1 + SDIP*TERM - F5*SDIP*CDIP)/TWOPI
+ RETURN
+ END
+*******************************************************************
+
+C SUBROUTINE GRDCHK (POSX, POSY, INSIDE)
+
+C
+C ROUTINE CHECKS IF THE POINT HAVING COORDINATES (POSX, POSY)
+C IS WITHIN THE REGION SPANNED BY THE GRID
+C
+C IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+C IMPLICIT INTEGER*4 (I-N)
+C LOGICAL INSIDE
+C COMMON /CDGRID/ GRDLX, GRDUX, GRDLY, GRDUY, ICNTX, ICNTY
+
+C INSIDE = .TRUE.
+
+C IF (POSX .LT. GRDLX .OR. POSX .GT. GRDUX) THEN
+C INSIDE = .FALSE.
+C ENDIF
+C IF (POSY .LT. GRDLY .OR. POSY .GT. GRDUY) THEN
+C INSIDE = .FALSE.
+C ENDIF
+
+C RETURN
+C END
+
+*******************************************************************
+
+ SUBROUTINE GRDWEI (YLON, YLAT, JREGN, I, J, WEI)
+
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C
+C NAME: GRDWEI
+C VERSION: 9302.01 (YYMM.DD)
+C WRITTEN BY: MR. C. RANDOLPH PHILIPP
+C PURPOSE: THIS SUBROUTINE RETURNS THE INDICES OF THE LOWER-LEFT
+C HAND CORNER OF THE GRID CELL CONTAINING THE POINT
+C AND COMPUTES NORMALIZED WEIGHTS FOR
+C BI-LINEAR INTERPOLATION OVER A PLANE
+C
+C INPUT PARAMETERS FROM ARGUMENT LIST:
+C ------------------------------------
+C YLON LONGITUDE OF POINT IN RADIANS, POSITIVE WEST
+C YLAT LATITUDE OF POINT IN RADIANS, POSITIVE NORTH
+C JREGN ID OF GEOGRAPHIC REGION CONTAINING POINT
+C
+C OUTPUT PARAMETERS FROM ARGUMENT LIST:
+C -------------------------------------
+C I, J THE COORDINATES OF LOWER LEFT CORNER OF THE GRID
+C CONTAINING THE ABOVE POSITION
+C WEI A TWO BY TWO ARRAY CONTAINING THE NORMALIZED WEIGHTS
+C FOR THE CORNER VECTORS
+C
+C GLOBAL VARIABLES AND CONSTANTS:
+C -------------------------------
+C NONE
+C
+C THIS MODULE CALLED BY: COMVEL
+C
+C THIS MODULE CALLS: NONE
+C
+C INCLUDE FILES USED: NONE
+C
+C COMMON BLOCKS USED: /CDGRID/, /CONST/
+C
+C REFERENCES: SEE RICHARD SNAY
+C
+C COMMENTS:
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C MOFICATION HISTORY:
+C::9302.11, CRP, ORIGINAL CREATION FOR DYNAP
+C::9511.09, RAS, MODIFIED FOR HTDP
+C::9712.05, RAS, MODIFIED TO ACCOUNT FOR MULTIPLE GRIDS
+C********1*********2*********3*********4*********5*********6*********7**
+
+C**** COMPUTES THE WEIGHTS FOR AN ELEMENT IN A GRID
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NUMGRD = 10)
+ DIMENSION WEI(2,2)
+ COMMON /CDGRID/ GRDLX(NUMGRD), GRDUX(NUMGRD),
+ 1 GRDLY(NUMGRD), GRDUY(NUMGRD),
+ 1 ICNTX(NUMGRD), ICNTY(NUMGRD), NBASE(NUMGRD)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+C*** Convert input coordinates to degrees
+ POSX = (TWOPI - YLON) * 180.D0 / PI
+ POSY = YLAT * 180.D0 / PI
+
+C*** Obtain indices for the lower-left corner of the cell
+C*** containing the point
+ STEPX = (GRDUX(JREGN) - GRDLX(JREGN)) / ICNTX(JREGN)
+ STEPY = (GRDUY(JREGN) - GRDLY(JREGN)) / ICNTY(JREGN)
+ I = IDINT((POSX - GRDLX(JREGN))/STEPX) + 1
+ J = IDINT((POSY - GRDLY(JREGN))/STEPY) + 1
+c write(6,1001) JREGN, I, J
+c1001 format(1x, 'jregn = ', I5 /
+c 1 1x, ' i = ', I5 /
+c 1 1x, ' j = ', I5)
+
+C*** Compute the limits of the grid cell
+ GRLX = GRDLX(JREGN) + (I - 1) * STEPX
+ GRUX = GRLX + STEPX
+ GRLY = GRDLY(JREGN) + (J - 1) * STEPY
+ GRUY = GRLY + STEPY
+
+C*** Compute the normalized weights for the point
+ DENOM = (GRUX - GRLX) * (GRUY - GRLY)
+ WEI(1,1) = (GRUX - POSX) * (GRUY - POSY) / DENOM
+ WEI(2,1) = (POSX - GRLX) * (GRUY - POSY) / DENOM
+ WEI(1,2) = (GRUX - POSX) * (POSY - GRLY) / DENOM
+ WEI(2,2) = (POSX - GRLX) * (POSY - GRLY) / DENOM
+
+ RETURN
+ END
+
+C*********************************************************************
+C
+ SUBROUTINE GRDVEC (JREGN, I, J, VEL, B)
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C
+C NAME: GRDVEC
+C VERSION: 9302.01 (YYMM.DD)
+C WRITTEN BY: MR. C. RANDOLPH PHILIPP
+C PURPOSE: THIS SUBROUTINE RETRIEVES THE APPROXIMATE VALUES OF THE
+C GRID NODE VELOCITIES FOR GRID (I,J)
+C
+C INPUT PARAMETERS FROM ARGUMENT LIST:
+C ------------------------------------
+C JREGN ID OF GEOGRAPHIC REGION CORRESPONDING TO GRID
+C I, J THE COORDINATES OF LOWER LEFT CORNER OF THE GRID
+C CONTAINING THE ABOVE POSITION
+C B THE ARRAY CONTAINING ALL THE APPROXIMATE VALUES
+C FOR THE ADJUSTMENT
+C
+C OUTPUT PARAMETERS FROM ARGUMENT LIST:
+C -------------------------------------
+C VEL A TWO BY TWO ARRAY CONTAINING THE VELOCITY VECTORS
+C FOR THE CORNERS OF THE GRID
+C
+C GLOBAL VARIABLES AND CONSTANTS:
+C -------------------------------
+C NONE
+C
+C THIS MODULE CALLED BY: COMVEL
+C
+C THIS MODULE CALLS: NONE
+C
+C INCLUDE FILES USED: NONE
+C
+C COMMON BLOCKS USED: NONE
+C
+C REFERENCES: SEE RICHARD SNAY
+C
+C COMMENTS:
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C MOFICATION HISTORY:
+C::9302.11, CRP, ORIGINAL CREATION FOR DYNAP
+C::9712.05, RAS, MODIFIED FOR HTDP (version 2.2)
+C********1*********2*********3*********4*********5*********6*********7**
+
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ DIMENSION VEL(2,2,3), B(*)
+
+ DO 30 II = 0,1
+ DO 20 IJ = 0,1
+ DO 10 IVEC = 1, 3
+ INDEX = IUNGRD(JREGN, I + II, J + IJ, IVEC)
+ VEL(II + 1, IJ + 1, IVEC) = B(INDEX)
+ 10 CONTINUE
+ 20 CONTINUE
+ 30 CONTINUE
+
+ RETURN
+ END
+
+C***************************************************
+
+ SUBROUTINE RDEG (INPUT,VAL,CNEG)
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+ CHARACTER INPUT*10
+ CHARACTER CNEG*1
+ INTEGER DEG, MIN, ISEC
+
+ DO 10 I = 1, 9
+ IF (INPUT(I:I).EQ.' ') THEN
+ INPUT(I:I) = '0'
+ ENDIF
+ 10 CONTINUE
+
+ READ (INPUT,20) DEG, MIN, ISEC
+
+ 20 FORMAT(I3,I2,I4)
+
+ SEC = ISEC/100.D0
+
+ VAL = (DEG + (MIN/60.D0) + (SEC/3600.D0) )
+
+ IF (INPUT(10:10).EQ.CNEG) THEN
+ VAL = -VAL
+ ENDIF
+
+ RETURN
+ END
+
+C***************************************************
+
+ INTEGER FUNCTION IUNGRD(IREGN, I, J, IVEC)
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NUMGRD = 10)
+ COMMON /CDGRID/ GRDLX(NUMGRD), GRDUX(NUMGRD),
+ 1 GRDLY(NUMGRD), GRDUY(NUMGRD),
+ 1 ICNTX(NUMGRD), ICNTY(NUMGRD), NBASE(NUMGRD)
+
+ IUNGRD = NBASE(IREGN) +
+ 1 3 * ((J - 1) * (ICNTX(IREGN) + 1) + (I - 1)) + IVEC
+
+ RETURN
+ END
+
+C*********************************************************
+C
+ SUBROUTINE TOMNT( IYR, IMON, IDAY, IHR, IMN, MINS )
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C
+C NAME: TOMNT (ORIGINALLY IYMDMJ)
+C VERSION: 9004.17
+C WRITTEN BY: M. SCHENEWERK
+C PURPOSE: CONVERT DATE TO MODIFIED JULIAN DATE PLUS UT
+C
+C INPUT PARAMETERS FROM THE ARGUEMENT LIST:
+C -----------------------------------------
+C IDAY DAY
+C IMON MONTH
+C IYR YEAR
+C
+C OUTPUT PARAMETERS FROM ARGUEMENT LIST:
+C --------------------------------------
+C MINS MODIFIED JULIAN DATE IN MINUTES
+C
+C
+C LOCAL VARIABLES AND CONSTANTS:
+C ------------------------------
+C A TEMPORARY STORAGE
+C B TEMPORARY STORAGE
+C C TEMPORARY STORAGE
+C D TEMPORARY STORAGE
+C IMOP TEMPORARY STORAGE
+C IYRP TEMPORARY STORAGE
+C
+C GLOBAL VARIABLES AND CONSTANTS:
+C ------------------------------
+C
+C
+C THIS MODULE CALLED BY: GENERAL USE
+C
+C THIS MODULE CALLS: DINT
+C
+C INCLUDE FILES USED:
+C
+C COMMON BLOCKS USED:
+C
+C REFERENCES: DUFFETT-SMITH, PETER 1982, 'PRACTICAL
+C ASTRONOMY WITH YOUR CALCULATOR', 2ND
+C EDITION, CAMBRIDGE UNIVERSITY PRESS,
+C NEW YORK, P.9
+C
+C COMMENTS: THIS SUBROUTINE REQUIRES THE FULL YEAR,
+C I.E. 1992 RATHER THAN 92.
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C::LAST MODIFICATION
+C::8909.06, MSS, DOC STANDARD IMPLIMENTED
+C::9004.17, MSS, CHANGE ORDER YY MM DD
+C********1*********2*********3*********4*********5*********6*********7**
+C
+ IMPLICIT DOUBLE PRECISION(A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+C
+ INTEGER*4 A, B, C, D
+
+ IYRP = IYR
+C
+C........ 0.0 EXPLICIT INITIALIZATION
+C
+ IF( IMON .LT. 3 ) THEN
+ IYRP= IYRP - 1
+ IMOP= IMON + 12
+ ELSE
+ IMOP= IMON
+ END IF
+C
+C........ 1.0 CALCULATION
+C
+ A= IYRP*0.01D0
+ B= 2 - A + DINT( A*0.25D0 )
+ C= 365.25D0*IYRP
+ D= 30.6001D0*(IMOP + 1)
+ MINS = (B + C + D + IDAY - 679006) * (24 * 60)
+ & + (60 * IHR) + IMN
+C
+ RETURN
+ END
+*****************************************************
+ SUBROUTINE TOVNEU(GLAT,GLON,VX,VY,VZ,VN,VE,VU)
+
+*** Convert velocities from vx,vy,vz to vn,ve,vu
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+ SLAT = DSIN(GLAT)
+ CLAT = DCOS(GLAT)
+ SLON = DSIN(GLON)
+ CLON = DCOS(GLON)
+
+ VN = -SLAT*CLON*VX - SLAT*SLON*VY + CLAT*VZ
+ VE = -SLON*VX + CLON*VY
+ VU = CLAT*CLON*VX + CLAT*SLON*VY + SLAT*VZ
+
+ RETURN
+ END
+***************************************************
+ SUBROUTINE TOVXYZ(GLAT,GLON,VN,VE,VU,VX,VY,VZ)
+*** Convert velocities from vn,ve,vu to vx,vy,vz
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+ SLAT = DSIN(GLAT)
+ CLAT = DCOS(GLAT)
+ SLON = DSIN(GLON)
+ CLON = DCOS(GLON)
+
+ VX = -SLAT*CLON*VN - SLON*VE + CLAT*CLON*VU
+ VY = -SLAT*SLON*VN + CLON*VE + CLAT*SLON*VU
+ VZ = CLAT*VN + SLAT*VU
+
+ RETURN
+ END
+*****************************************************
+ SUBROUTINE DPLACE
+
+*** Predict displacements between two dates.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (numref = 16)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+ CHARACTER CARD*80
+ CHARACTER record*120
+ CHARACTER NAMEF*30,NAME*30,NAMEBB*30, NAMEIF*30
+ CHARACTER NAME24
+ CHARACTER BLAB*17
+ CHARACTER NAMEG*10
+ CHARACTER TYPE*4
+ CHARACTER OPTION*1,JN*1,JW*1, VOPT*1
+ CHARACTER LATDIR*1, LONDIR*1
+ CHARACTER ANSWER*1
+ character frame1*24
+ LOGICAL TEST
+
+ BLAB = 'OUTSIDE OF REGION'
+
+ WRITE(LUOUT,10)
+ 10 FORMAT(
+ 1 ' Displacements will be predicted from time T1 to time T2.')
+ WRITE(LUOUT,* ) ' Please enter T1 '
+ 20 CALL GETMDY(MONTH1,IDAY1,IYEAR1,DATE1,MIN1,TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter T1? (y/n)'
+ read (luin,21,err=600,iostat=ios) ANSWER
+ if (ios /= 0) goto 600
+ 21 format( A1 )
+ IF (ANSWER .eq. 'y' .or. ANSWER .eq. 'Y') GO TO 20
+ RETURN
+ ENDIF
+ WRITE(LUOUT,*) ' Please enter T2 '
+ 35 CALL GETMDY(MONTH2,IDAY2,IYEAR2,DATE2,MIN2,TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter T2? (y/n) '
+ read(luin,21,err=600,iostat=ios) ANSWER
+ if (ios /= 0) goto 600
+ if (ANSWER .eq. 'y' .or. ANSWER .eq. 'Y') GO TO 35
+ RETURN
+ ENDIF
+
+ WRITE(LUOUT,45)
+ 45 FORMAT(
+ 1 ' Please enter the name for the file to contain'/
+ 2 ' the predicted displacements. ')
+ READ(LUIN,50,err=601,iostat=ios) NAMEF
+ if (ios /= 0) goto 601
+ 50 FORMAT(A30)
+ OPEN(I2,FILE=NAMEF,STATUS='UNKNOWN')
+ CALL HEADER
+
+*** Choosing reference frame for displacements
+ 56 WRITE(LUOUT,55)
+ 55 FORMAT(' ************************************************'/
+ 1 ' Select the reference frame to be used for specifying'/
+ 2 ' positions and displacements. '/)
+ call MENU1(iopt, frame1)
+
+ IF(IOPT .GE. 1 .AND . IOPT .LE. numref) THEN
+ WRITE(I2,57) frame1
+ 57 FORMAT(' DISPLACEMENTS IN METERS RELATIVE TO ', a24)
+ ELSE
+ WRITE(LUOUT,70)
+ 70 FORMAT(' Improper selection--try again. ')
+ GO TO 56
+ ENDIF
+
+ WRITE(I2,71) MONTH1,IDAY1,IYEAR1,MONTH2,IDAY2,IYEAR2,
+ 1 DATE1, DATE2
+ 71 FORMAT (
+ 1 ' FROM ',I2.2,'-',I2.2,'-',I4,' TO ',
+ 2 I2.2,'-',I2.2,'-',I4,' (month-day-year)'/
+ 2 ' FROM ',F8.3, ' TO ',F8.3, ' (decimal years)'//
+ 3 'NAME OF SITE LATITUDE LONGITUDE ',
+ 4 ' NORTH EAST UP ')
+ 75 WRITE(LUOUT,80)
+ 80 FORMAT(' ********************************'/
+ 1 ' Displacements will be predicted at each point whose',/
+ 2 ' horizontal position is specified.',/
+ 4 ' Please indicate how you wish to supply positions.'/ )
+ 85 WRITE(LUOUT,86)
+ 86 FORMAT(
+ 5 ' 0. No more points. Return to main menu.'/
+ 6 ' 1. Individual points entered interactively.'/
+ 7 ' 2. Points on a specified grid.'/
+ 8 ' 3. The *80* records in a specified blue-book file.'/
+ 9 ' 4. Points on a specified line. ' /
+ 1 ' 5. Batch file of delimited records of form: ' /
+ 2 ' LAT,LON,TEXT ' /
+ 4 ' LAT = latitude in degrees (positive north/DBL PREC)' /
+ 5 ' LON = longitude in degrees (positive west/DBL PREC)' /
+ 7 ' TEXT = Descriptive text (CHARACTER*24) ' /
+ 8 ' Example: ' /
+ 9 ' 40.731671553,112.212671753,SALT AIR '/)
+ READ(LUIN,'(A1)',err=602,iostat=ios) OPTION
+ if (ios /= 0) goto 602
+
+ IF(OPTION .EQ. '0') THEN
+ GO TO 510
+ ELSEIF(OPTION .EQ. '1') THEN
+ CALL GETPNT(LATD,LATM,SLAT,LATDIR,LOND,LONM,SLON,
+ 1 LONDIR,NAME24, X,Y,Z,YLAT,YLON,EHT)
+ ELON = - YLON
+ call GETVLY(YLAT,ELON,VX,VY,VZ,VN,VE,VU,VOPT,210)
+ if (vopt .eq. '0') then
+ call PREDV( ylat, ylon, eht, date1, iopt,
+ 1 jregn, vn, ve, vu)
+ if (jregn .eq. 0) then
+ write(luout, 140)
+ go to 85
+ endif
+ endif
+ call NEWCOR(ylat, ylon, eht, min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+ 140 FORMAT(' ****************************************'/
+ 1 ' A displacement can not be predicted because'/
+ 1 ' the point is outside of the modeled region.'/
+ 2 ' For additional displacements, please indicate how'/
+ 3 ' you wish to supply the horizontal coordinates.'/)
+ WRITE(LUOUT,150) DN, DE,DU
+ 150 FORMAT(' *************************************'/
+ 1 ' Northward displacement = ',F7.3,' meters.'/
+ 1 ' Eastward displacement = ',F7.3,' meters.'/
+ 1 ' Upward displacement = ',F7.3,' meters.'/
+ 1 ' ****************************************'//
+ 2 ' For additional displacements, please indicate how'/
+ 3 ' you wish to supply the horizontal coordinates.'/)
+ WRITE(I2,160) NAME24,LATD,LATM,SLAT,LATDIR,
+ 1 LOND,LONM,SLON,LONDIR,DN,DE,DU
+ 160 FORMAT(A24,1X,I2,1X,I2,1X,F8.5,1X,A1,2X,
+ 1 I3,1X,I2,1X,F8.5,1X,A1,1X,3F8.3)
+ ELSEIF(OPTION .EQ. '2') THEN
+ CALL GETGRD(NAMEG,MINLAT,MAXLAT,IDS,MINLON,MAXLON,JDS)
+ I = -1
+ 280 I = I + 1
+ LAT = MINLAT + I*IDS
+ IF(LAT .GT. MAXLAT) GO TO 296
+ XLAT = DBLE(LAT)/RHOSEC
+ CALL TODMSS(XLAT,LATD,LATM,SLAT,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ J = -1
+ 290 J = J + 1
+ YLAT = XLAT
+ LON = MINLON + J*JDS
+ IF(LON .GT. MAXLON) GO TO 280
+ YLON = DBLE(LON)/RHOSEC
+ CALL TODMSS(YLON,LOND,LONM,SLON,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ EHT = 0.D0
+ call PREDV(ylat,ylon, eht, date1, iopt,
+ 1 jregn, vn, ve, vu)
+ IF(JREGN .eq. 0) THEN
+ WRITE(I2,291)NAMEG,I,J,LATD,LATM,SLAT,LATDIR,LOND,
+ 1 LOND,LONM,SLON,LONDIR,BLAB
+ 291 FORMAT(A10,2I4, 7X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,
+ 1 1X,I2,1X,F8.5,1X,A1,1X,A17)
+ ELSE
+ call NEWCOR( ylat, ylon, eht, min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+ WRITE(I2,295)NAMEG,I,J,LATD,LATM,SLAT,LATDIR,
+ 1 LOND,LONM,SLON,LONDIR,DN,DE,DU
+ 295 FORMAT(A10,2I4, 7X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,
+ 1 1X,F8.5,1X,A1,1X,3F8.3)
+ ENDIF
+ GO TO 290
+ 296 WRITE(LUOUT,297)
+ 297 FORMAT(' ***********************************'/
+ 1 ' Displacements have been calculated for the specified'/
+ 2 ' grid. If you wish to calculate additional displacements,'/
+ 3 ' please indicate how you will supply the coordinates.'/)
+ ELSEIF(OPTION .EQ. '3') THEN
+ VOPT = '0'
+ WRITE(LUOUT,300)
+ 300 FORMAT(' Enter name of blue-book file ')
+ READ(LUIN,310,err=603,iostat=ios) NAMEBB
+ if (ios /= 0) goto 603
+ 310 FORMAT(A30)
+ OPEN(I1,FILE=NAMEBB,STATUS='OLD')
+ 320 READ(I1,330,END=350,err=604,iostat=ios) CARD
+ if (ios /= 0) goto 604
+ 330 FORMAT(A80)
+ TYPE = CARD(7:10)
+ IF(TYPE .EQ. '*80*') THEN
+ READ(CARD,340,err=605,iostat=ios) NAME,LATD,LATM,SLAT,JN,
+ 1 LOND,LONM,SLON,JW
+ if (ios /= 0) goto 605
+ 340 FORMAT(BZ,14X,A30,I2,I2,F7.5,A1,I3,I2,F7.5,A1)
+ NAME24 = NAME(1:24)
+C IF(JN.EQ.'S' .OR. JW.EQ.'E')GO TO 320
+ YLAT =(DBLE((LATD*60+LATM)*60)+SLAT)/RHOSEC
+ IF (JN .eq. 'S') YLAT = -YLAT
+ YLON =(DBLE((LOND*60+LONM)*60)+SLON)/RHOSEC
+ IF (JW .eq. 'E') YLON = -YLON
+ EHT = 0.D0
+ call PREDV( ylat, ylon, eht, date1, iopt,
+ 1 jregn, vn, ve, vu)
+ IF(JREGN .EQ. 0) THEN
+ WRITE(I2,345)NAME24,LATD,LATM,SLAT,JN,LOND,LONM,SLON,
+ 1 JW,BLAB
+ 345 FORMAT(A24,1X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,1X,
+ 1 F8.5,1X,A1,1X,A17)
+ ELSE
+ call NEWCOR( ylat, ylon, eht, min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+ WRITE(I2,160)NAME24,LATD,LATM,SLAT,JN,LOND,LONM,SLON,
+ 1 JW,DN,DE,DU
+ ENDIF
+ ENDIF
+ GO TO 320
+ 350 CLOSE(I1,STATUS='KEEP')
+ WRITE(LUOUT,360)
+ 360 FORMAT(' ************************************'/
+ 1 ' Displacements have been calculated for the specified'/
+ 2 ' blue-book file. If you wish to calculate additional'/
+ 3 ' displacements, please indicate how you will supply'/
+ 4 ' the horizontal coordinates.'/)
+ ELSEIF(OPTION .EQ. '4') THEN
+ VOPT = '0'
+ CALL GETLYN(NAMEG,XLAT,XLON,FAZ,BAZ,XMIN,XMAX,XINC)
+ XLON = TWOPI - XLON
+ I = -1
+ 400 I = I + 1
+ S = XMIN + I*XINC
+ IF(S .GT. XMAX) GO TO 430
+ IF(S .LT. 0.0D0) THEN
+ S1 = -S
+ AZ = BAZ
+ ELSE
+ S1 = S
+ AZ = FAZ
+ ENDIF
+ CALL DIRCT1(XLAT,XLON,YLAT,YLON,AZ,AZ1,S1)
+ YLON = TWOPI - YLON
+ CALL TODMSS(YLAT,LATD,LATM,SLAT,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ CALL TODMSS(YLON,LOND,LONM,SLON,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ EHT = 0.D0
+ call PREDV( ylat, ylon, eht, date1, iopt,
+ 1 jregn, vn, ve, vu)
+ IF(JREGN .eq. 0) THEN
+ WRITE(I2,405)NAMEG,I,LATD,LATM,SLAT,LATDIR,
+ 1 LOND,LONM,SLON,LONDIR, BLAB
+ 405 FORMAT(A10,I4,11X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,1X,
+ 1 F8.5,1X,A1,1X,A17)
+ ELSE
+ call NEWCOR( ylat, ylon, eht, min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+ WRITE(I2,410)NAMEG,I,LATD,LATM,SLAT,LATDIR,LOND,LONM,
+ 1 SLON,LONDIR,DN,DE,DU
+ 410 FORMAT(A10,I4,11X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,
+ 1 1X,F8.5,1X,A1,1X,3F8.3)
+ ENDIF
+ GO TO 400
+ 430 WRITE(LUOUT,440)
+ 440 FORMAT(' ***************************************'/
+ 1 ' Displacements have been calculated for the specified'/
+ 2 ' line. If you wish to calculate additional displacements,'/
+ 3 ' please indicate how you will supply the coordinates.'/)
+ ELSEIF(OPTION .EQ. '5') THEN
+ VOPT = '0'
+ EHT = 0.0D0
+ write(luout,450)
+ 450 format(' Enter name of batch file ')
+ read(luin, 451,err=606,iostat=ios) NAMEIF
+ if (ios /= 0) goto 606
+ 451 format(a30)
+ open(I1,FILE=NAMEIF,STATUS='OLD')
+ 455 read(I1,'(a)',END=460,err=607,iostat=ios) record
+ if (ios /= 0) goto 607
+c write(i2, 457) record
+ call interprate_latlon_record (record,XLAT,XLON,name24)
+c write (i2,456) xlat, xlon
+c write(i2,457) record
+c 457 format (a50)
+c 456 format(1x,' xlat = ', f15.3, 'xlon = ', f15.3)
+ YLAT = (XLAT*3600.D0)/RHOSEC
+ YLON = (XLON*3600.D0)/RHOSEC
+ CALL TODMSS(YLAT,LATD,LATM,SLAT,ISIGN)
+ IF (ISIGN .EQ. 1) THEN
+ JN = 'N'
+ ELSE
+ JN = 'S'
+ ENDIF
+ CALL TODMSS(YLON, LOND,LONM,SLON,ISIGN)
+ IF (ISIGN .EQ. 1) THEN
+ JW = 'W'
+ ELSE
+ JW = 'E'
+ ENDIF
+ CALL PREDV(YLAT,YLON,EHT,DATE1,IOPT,
+ 1 JREGN,VN,VE,VU)
+ IF (JREGN .EQ. 0) THEN
+ Write(I2,345) NAME24,LATD,LATM,SLAT, JN,
+ 1 LOND,LONM,SLON,JW, BLAB
+ ELSE
+ CALL NEWCOR (YLAT, YLON, EHT, MIN1, MIN2,
+ 1 YLATT, YLONT, EHTNEW, DN,DE,DU,VN,VE,VU)
+ WRITE(I2, 160) NAME24, LATD, LATM, SLAT, JN,
+ 1 LOND, LONM, SLON, JW, DN, DE , DU
+ ENDIF
+ GO TO 455
+ 460 CLOSE(I1, STATUS = 'KEEP')
+ write(LUOUT, 470)
+ 470 format(' ******************************************'/
+ 1 ' Displacements have been calculated for the specified'/
+ 1 ' file. If you wish to calculate additional displacements,'/
+ 1 ' please indicate how you will supply the horizontal '/
+ 1 ' coordinates.'/)
+ ELSE
+ WRITE(LUOUT,500)
+ 500 FORMAT(' Improper entry--select again. ')
+ ENDIF
+ GO TO 85
+ 510 CONTINUE
+ CLOSE(I2, STATUS = 'KEEP')
+ RETURN
+
+ 600 write (*,'(/)')
+ write (*,*) 'Wrong answer in DPLACE: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 601 write (*,'(/)')
+ write (*,*) 'Wrong file name in DPLACE: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 602 write (*,'(/)')
+ write (*,*) 'Wrong OPTION in DPLACE: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 603 write (*,'(/)')
+ write (*,*) 'Wrong bbname in DPLACE: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 604 write (*,'(/)')
+ write (*,*) 'Wrong CARD from bbfile in DPLACE:ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 605 write (*,'(/)')
+ write (*,*) 'Wrong CARD80 from bbfile in DPLACE:ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 606 write (*,'(/)')
+ write (*,*) 'Wrong batch file name in DPLACE:ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 607 write (*,'(/)')
+ write (*,*) 'Wrong record from batch in DPLACE:ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+********************************************************************
+ SUBROUTINE VELOC
+
+*** Compute velocities at specified locations
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (numref = 16)
+ parameter (nrsrch = 0)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+ CHARACTER CARD*80
+ CHARACTER NAMEF*30,NAME*30,NAMEBB*30,PVFILE*30
+ CHARACTER NAME24*24
+ CHARACTER BLAB*17
+ CHARACTER NAMEG*10
+ CHARACTER TYPE*4
+ CHARACTER OPTION*1,JN*1,JW*1,PVOUT*1
+ CHARACTER LATDIR*1, LONDIR*1
+ character frame1*24
+ character record*120
+
+*** temporary code to plot results ****************
+ character TEMPNA
+
+ TEMPNA = ' '
+ DUMMY = 0.0D0
+*** end of temporary code *************************
+
+ BLAB = 'OUTSIDE OF REGION'
+
+ WRITE(LUOUT,10)
+ 10 FORMAT(' Please enter name for the file to contain the'/
+ 1 ' predicted velocities. ')
+ READ(LUIN,20,err=700,iostat=ios) NAMEF
+ if (ios /= 0) goto 700
+ 20 FORMAT(A30)
+ OPEN(I2,FILE=NAMEF,STATUS='UNKNOWN')
+ CALL HEADER
+
+ if (nrsrch .eq. 1) then
+ WRITE(LUOUT,21)
+ 21 FORMAT(
+ 1 ' Do you want to create a file of point-velocity (PV)'/
+ 1 ' records for use with the DYNAPG software (y/n)? ')
+ READ(LUIN,'(A1)',err=701,iostat=ios) PVOUT
+ if (ios /= 0) goto 701
+ IF(PVOUT .EQ. 'Y' .OR. PVOUT .EQ. 'y') THEN
+ PVOUT = 'Y'
+ WRITE(LUOUT,22)
+ 22 FORMAT(' Enter name for the file that is to contain'/
+ 1 ' the PV records. ')
+ READ(LUIN,'(A30)',err=702,iostat=ios) PVFILE
+ if (ios /= 0) goto 702
+ OPEN(I3,FILE = PVFILE, STATUS = 'UNKNOWN')
+ ENDIF
+ else
+ PVOUT = 'N'
+ endif
+
+*** Choosing reference system for velocities
+ 1000 WRITE(LUOUT,1001)
+ 1001 FORMAT(' **************************************************'/
+ 1 ' Select the reference frame to be used for specifying'/
+ 2 ' positions and velocities. '/
+c 6 ' 0...Positions in NAD 83 and velocities relative to'/
+c 6 ' a specified point having a specified velocity.')
+ 6 )
+ call MENU1(iopt, frame1)
+ if (iopt .ge. 1 .and. iopt .le. numref) then
+ WRITE(I2,1002) frame1
+ 1002 FORMAT('VELOCITIES IN MM/YR RELATIVE TO ', a24 /)
+ RVN = 0.0D0
+ RVE = 0.0D0
+ RVU = 0.0D0
+ ELSEIF(IOPT .EQ. 0) THEN
+ WRITE(LUOUT,1010)
+ CALL GETPNT(LATD,LATM,SLAT,LATDIR,LOND,LONM,SLON,
+ 1 LONDIR, NAME24, X,Y,Z,YLAT,YLON,EHT)
+ CALL GETREG(YLAT,YLON,JREGN)
+ IF(JREGN .EQ. 0 ) THEN
+ WRITE(LUOUT,1008)
+ 1008 FORMAT(' **********************************'/
+ 1 ' Point is not in modeled region and it can not'/
+ 1 ' be used as the reference location.'/)
+ GO TO 1000
+ ENDIF
+ WRITE(I2,1009)
+ 1009 FORMAT('VELOCITIES IN MM/YR IN A REFERENCE FRAME FOR ',
+ 1 'WHICH THE FIRST POINT LISTED'/
+ 2 'BELOW HAS THE VELOCITY AS LISTED'//
+ 4 '**************REFERENCE SITE')
+ 1010 FORMAT(' For the reference point...'/)
+ WRITE(LUOUT,1030)
+ 1030 FORMAT(' Enter northward velocity of reference location'/
+ 1 ' in mm/yr. ')
+ READ(LUIN,*,err=703,iostat=ios) SVN
+ if (ios /= 0) goto 703
+ WRITE(LUOUT,1040)
+ 1040 FORMAT(' Enter eastward velocity of reference location'/
+ 1 ' in mm/yr. ')
+ READ(LUIN,*,err=703,iostat=ios) SVE
+ if (ios /= 0) goto 703
+ WRITE(LUOUT,1050)
+ 1050 FORMAT(' Enter upward velocity of the reference location'/
+ 1 ' in mm/yr. ')
+ READ(LUIN,*,err=703,iostat=ios) SVU
+ if (ios /= 0) goto 703
+ CALL COMVEL(YLAT,YLON,JREGN,VN,VE,VU)
+ RVN = SVN - VN
+ RVE = SVE - VE
+ RVU = SVU - VU
+ GLON = -YLON
+ CALL TOVXYZ(YLAT,GLON,SVN,SVE,SVU,SVX,SVY,SVZ)
+ WRITE(I2,1060) NAME24,LATD,LATM,SLAT,LATDIR,SVN,LOND,LONM,
+ 1 SLON,LONDIR,SVE,EHT,SVU,X,SVX,Y,SVY,Z,SVZ
+ 1060 FORMAT(/10X,A24,/
+ 1'LATITUDE = ',2I3,F9.5,1X,A1,' NORTH VELOCITY =',F7.2,' mm/yr'/
+ 2'LONGITUDE = ',2I3,F9.5,1X,A1,' EAST VELOCITY =',F7.2,' mm/yr'/
+ 3'ELLIPS. HT. = ',F10.3,' m', 6X,'UP VELOCITY =',F7.2,' mm/yr'/
+ 4'X =',F13.3,' m',14X, 'X VELOCITY =',F7.2,' mm/yr'/
+ 5'Y =',F13.3,' m',14X, 'Y VELOCITY =',F7.2,' mm/yr'/
+ 6'Z =',F13.3,' m',14X, 'Z VELOCITY =',F7.2,' mm/yr')
+ WRITE(I2,1070)
+ 1070 FORMAT('******************************')
+ ELSE
+ write(luout, 1080)
+ 1080 format(' Improper selection -- try again. ')
+ GO TO 1000
+ ENDIF
+
+*** Choosing input format for locations where velocities are to be predicted
+ WRITE(LUOUT,30)
+ 30 FORMAT(' ************************************************'/
+ 1 ' Velocities will be predicted at each point whose'/
+ 2 ' horizontal position is specified. Please indicate'/
+ 4 ' how you wish to supply positions.'/)
+ 40 WRITE(LUOUT,50)
+ 50 FORMAT(
+ 1 ' 0... No more points. Return to main menu.'/
+ 2 ' 1... Individual points entered interactively.'/
+ 3 ' 2... Points on a specified grid.'/
+ 4 ' 3... The *80* records in a specified blue-book file.'/
+ 5 ' 4... Points on a specified line. '/
+ 6 ' 5... Batch file of delimited records of form: '/
+ 7 ' LAT,LON,TEXT '/
+ 8 ' LAT = latitude in degrees (positive north/DBL PREC) '/
+ 9 ' LON = longitude in degrees (positive west/DBL PREC) '/
+ 1 ' TEXT = Descriptive text (CHARACTER*24) '/
+ 1 ' Example: '/
+ 2 ' 40.731671553,112.212671753,SALT AIR '/)
+
+ READ(LUIN,60,err=704,iostat=ios) OPTION
+ if (ios /= 0) goto 704
+ 60 FORMAT(A1)
+
+ IF(OPTION .EQ. '0') THEN
+ GO TO 610
+ ELSEIF(OPTION .EQ. '1') THEN
+ CALL GETPNT(LATD,LATM,SLAT,LATDIR,LOND,LONM,SLON,
+ 1 LONDIR, NAME24, X,Y,Z,YLAT,YLON,EHT)
+ CALL GTOVEL(YLAT,YLON,EHT,RVN,RVE,RVU,
+ 1 VN,VE,VU,VX,VY,VZ,JREGN,IOPT)
+ IF(JREGN .eq. 0 ) THEN
+ WRITE(LUOUT,80)
+ 80 FORMAT(' *************************************'/
+ 1 ' A velocity can not be predicted because'/
+ 1 ' the point is outside of the modeled region.'/
+ 2 ' For additional velocities, please indicate how'/
+ 3 ' you wish to supply the horizontal coordinates.'/)
+ ELSE
+ WRITE(LUOUT,90) VN, VE, VU, VX, VY, VZ
+ 90 FORMAT(' **************************************'/
+ 1 ' Northward velocity = ',F6.2,' mm/yr'/
+ 1 ' Eastward velocity = ',F6.2,' mm/yr'/
+ 1 ' Upward velocity = ',F6.2,' mm/yr'//
+ 1 ' X-dim. velocity = ',F6.2,' mm/yr'/
+ 1 ' Y-dim. velocity = ',F6.2,' mm/yr'/
+ 1 ' Z-dim. velocity = ',F6.2,' mm/yr'/
+ 1 ' **************************************'//
+ 2 ' For additional velocities, please indicate how'/
+ 3 ' you wish to specify the horizontal coordinates.'/)
+ WRITE(I2,1060)NAME24,LATD,LATM,SLAT,LATDIR,VN,LOND,LONM,
+ 1 SLON, LONDIR, VE, EHT,VU,X,VX,Y,VY,Z,VZ
+ 100 FORMAT(A24,1X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,1X,F8.5,
+ 1 1X,A1,1X,3F8.2)
+ IF(PVOUT .EQ. 'Y') THEN
+ CALL PVPRNT(LATD,LATM,SLAT,LOND,LONM,SLON,VN,VE,VU)
+ ENDIF
+ ENDIF
+ ELSEIF(OPTION .EQ. '2') THEN
+ EHT = 0.D0
+ WRITE(I2,105)
+ 105 FORMAT(
+ 1 'NAME OF SITE',14X,'LATITUDE LONGITUDE ',
+ 2 ' NORTH EAST UP'/)
+ 106 FORMAT(
+ 1 'NAME OF LINE', 6X,'LATITUDE LONGITUDE ',
+ 2 ' NORTH EAST UP'/)
+ CALL GETGRD(NAMEG,MINLAT,MAXLAT,IDS,MINLON,MAXLON,JDS)
+ I = -1
+ 110 I = I + 1
+ LAT = MINLAT + I*IDS
+ IF(LAT .GT. MAXLAT) GO TO 150
+ XLAT = DBLE(LAT)/RHOSEC
+ CALL TODMSS(XLAT,LATD,LATM,SLAT,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ J = -1
+ 120 J = J + 1
+ YLAT = XLAT
+ ON = MINLON + J*JDS
+ IF(LON .GT. MAXLON) GO TO 110
+ YLON = DBLE(LON)/RHOSEC
+ CALL TODMSS(YLON,LOND,LONM,SLON,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ CALL GTOVEL(YLAT,YLON,EHT,RVN,RVE,RVU,
+ 1 VN,VE,VU,VX,VY,VZ,JREGN,IOPT)
+ IF(JREGN .EQ. 0 ) THEN
+ WRITE(I2,125)NAMEG,I,J,LATD,LATM,SLAT,LATDIR,LOND,LONM,
+ 1 SLON,LONDIR,BLAB
+ 125 FORMAT(A10,2I4, 7X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,
+ 1 1X,F8.5,1X,A1, 1X,A17)
+ ELSE
+
+*** temporary code to plot results
+ ZLAT = DBLE(LATD) + DBLE(LATM)/60.D0 + SLAT/3600.D0
+ ZLON = DBLE(LOND) + DBLE(LONM)/60.D0 + SLON/3600.D0
+ ZLON = 360.D0 - ZLON
+ TOTVEL = DSQRT(VN*VN + VE*VE)
+
+*** code to create vectors to be plotted
+c IF (TOTVEL .GE. 5.0D0 .AND. TOTVEL .LE. 50.D0) THEN
+c TVE = VE/10.D0
+c TVN = VN/10.D0
+c WRITE(I2,129) ZLON,ZLAT,TVE,TVN,DUMMY,DUMMY,DUMMY,
+c 1 TEMPNA
+c 129 FORMAT(F10.6, 2x, F9.6, 2X, 5(F7.2, 2x), A8)
+c ENDIF
+
+*** code to create contour plots
+C WRITE(I2,129) ZLON, ZLAT, TOTVEL
+C 129 FORMAT(F6.2, 1X, F6.2, 1X, F5.1)
+
+*** end of temporary code
+
+*** beginning of original code
+ WRITE(I2,130)NAMEG,I,J,LATD,LATM,SLAT,LATDIR,
+ 1 LOND,LONM,SLON,LONDIR,VN,VE,VU
+ 130 FORMAT(A10,2I4, 7X,I2,1X,I2,1X,F8.5,1X,A1,2X,
+ 1 I3,1X,I2,1X,F8.5,1X,A1,1X,3F8.2)
+*** end of original code
+
+ IF(PVOUT .EQ. 'Y') THEN
+ CALL PVPRNT(LATD,LATM,SLAT,LOND,LONM,SLON,VN,VE,VU)
+ ENDIF
+ ENDIF
+ GO TO 120
+ 150 WRITE(LUOUT,160)
+ 160 FORMAT(' **********************************************'/
+ 1 ' Velocities have been calculated for the specified grid.'/
+ 2 ' If you wish to calculate additional velocities, please'/
+ 3 ' indicate how you will specify positional coordinates.'/)
+ ELSEIF(OPTION .EQ. '3') THEN
+ EHT = 0.D0
+ WRITE(I2,105)
+ WRITE(LUOUT,200)
+ 200 FORMAT(' Enter name of blue-book file. ')
+ READ(LUIN,210,err=705,iostat=ios) NAMEBB
+ if (ios /= 0) goto 705
+ 210 FORMAT(A30)
+ OPEN(I1,FILE=NAMEBB,STATUS='OLD')
+ 220 READ(I1,230,END=250,err=706,iostat=ios) CARD
+ if (ios /= 0) goto 706
+ 230 FORMAT(A80)
+ TYPE = CARD(7:10)
+ IF(TYPE .EQ. '*80*') THEN
+ READ(CARD,240,err=707,iostat=ios)NAME,LATD,LATM,SLAT,JN,
+ 1 LOND,LONM,SLON,JW
+ if (ios /= 0) goto 707
+ 240 FORMAT(BZ,14X,A30,I2,I2,F7.5,A1,I3,I2,F7.5,A1)
+ NAME24 = NAME(1:24)
+ YLAT =(DBLE((LATD*60+LATM)*60)+SLAT)/RHOSEC
+ YLON =(DBLE((LOND*60+LONM)*60)+SLON)/RHOSEC
+ if (jn .eq. 'S') ylat = -ylat
+ if (jw .eq. 'E') ylon = -ylon
+ CALL GTOVEL(YLAT,YLON,EHT,RVN,RVE,RVU,
+ 1 VN,VE,VU,VX,VY,VZ,JREGN,IOPT)
+ IF(JREGN .EQ. 0 ) THEN
+ WRITE(I2,245)NAME24,LATD,LATM,SLAT,JN,LOND,LONM,
+ 1 SLON,JW,BLAB
+ 245 FORMAT(A24,1X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,
+ 1 1X,F8.5,1X,A1,1X,A17)
+ ELSE
+ WRITE(I2,100)NAME24,LATD,LATM,SLAT,JN,LOND,LONM,
+ 1 SLON,JW,VN,VE,VU
+ IF(PVOUT .EQ. 'Y') THEN
+ CALL PVPRNT(LATD,LATM,SLAT,LOND,LONM,SLON,VN,VE,VU)
+ ENDIF
+ ENDIF
+ ENDIF
+ GO TO 220
+ 250 CLOSE(I1,STATUS='KEEP')
+ WRITE(LUOUT,260)
+ 260 FORMAT(' ****************************************'/
+ 1 ' Velocities have been calculated for the specified '/
+ 2 ' blue-book file. If you wish to calculate additional'/
+ 3 ' velocities, please indicate how you will supply the'/
+ 4 ' horizontal coordinates.'/)
+ ELSEIF(OPTION .EQ. '4') THEN
+ EHT = 0.D0
+ WRITE(I2,106)
+ CALL GETLYN(NAMEG,XLAT,XLON,FAZ,BAZ,XMIN,XMAX,XINC)
+ XLON = TWOPI - XLON
+ I = -1
+ 300 I= I+1
+ S = XMIN + I*XINC
+ IF(S .GT. XMAX) GO TO 330
+ IF(S .LT. 0.0D0) THEN
+ S1 = -S
+ AZ = BAZ
+ ELSE
+ S1 = S
+ AZ = FAZ
+ ENDIF
+ CALL DIRCT1(XLAT,XLON,YLAT,YLON,AZ,AZ1,S1)
+ YLON = TWOPI - YLON
+ CALL TODMSS(YLAT,LATD,LATM,SLAT,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ CALL TODMSS(YLON,LOND,LONM,SLON,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ CALL GTOVEL(YLAT,YLON,EHT,RVN,RVE,RVU,
+ 1 VN,VE,VU,VX,VY,VZ,JREGN,IOPT)
+ IF(JREGN .EQ. 0 ) THEN
+ WRITE(I2,305)NAMEG,I,LATD,LATM,SLAT,LATDIR,LOND,LONM,
+ 1 SLON,LONDIR,BLAB
+ 305 FORMAT(A10,I4,3X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,
+ 1 I2,1X,F8.5,1X,A1,1X,A17)
+ ELSE
+ WRITE(I2,310)NAMEG,I,LATD,LATM,SLAT,LATDIR,LOND,LONM,SLON,
+ 1 LONDIR,VN,VE,VU
+ 310 FORMAT(A10,I4,3X,I2,1X,I2,1X,F8.5,1X,A1,2X,I3,1X,I2,1X,
+ 1 F8.5,1X,A1,1X,3F8.2)
+ IF(PVOUT .EQ. 'Y') THEN
+ CALL PVPRNT(LATD,LATM,SLAT,LOND,LONM,SLON,VN,VE,VU)
+ ENDIF
+ ENDIF
+ GO TO 300
+ 330 WRITE(LUOUT,340)
+ 340 FORMAT(' ***********************************************'/
+ 1 ' Velocities have been calculated for the specified line.'/
+ 2 ' If you wish to calculate additional velocities, please'/
+ 3 ' indicate how you will specify positional coordinates.'/)
+ ELSEIF(OPTION .EQ. '5') THEN
+ EHT = 0.0D0
+ WRITE(I2, 105)
+ WRITE(LUOUT,400)
+ 400 FORMAT(' Enter name of input file. ')
+ READ(LUIN,410,err=708,iostat=ios) NAMEBB
+ if (ios /= 0) goto 708
+ 410 FORMAT(A30)
+ OPEN(I1,FILE=NAMEBB,STATUS='OLD')
+ 420 READ(I1,'(a)',END=450,err=709,iostat=ios) record
+ call interprate_latlon_record (record,XLAT,XLON,NAME24)
+ if (ios /= 0) goto 709
+ YLAT = (XLAT*3600.D0)/RHOSEC
+ YLON = XLON*3600.d0/RHOSEC
+ CALL TODMSS(YLAT, LATD, LATM, SLAT, ISIGN)
+ IF (ISIGN .eq. 1) then
+ JN = 'N'
+ Else
+ JN = 'S'
+ endif
+ call TODMSS(YLON, LOND, LONM, SLON, ISIGN)
+ IF (ISIGN .eq. 1) then
+ JW = 'W'
+ else
+ JW = 'E'
+ endif
+ CALL GTOVEL(YLAT,YLON,EHT,RVN,RVE, RVU,
+ 1 VN,VE,VU,VX,VY,VZ,JREGN,IOPT)
+ IF (JREGN .eq. 0) then
+ write(I2,245)NAME24,LATD,LATM,SLAT,JN,
+ 1 LOND,LONM,SLON,JW,BLAB
+ ELSE
+ write(I2,100)NAME24,LATD,LATM,SLAT,JN,
+ 1 LOND,LONM,SLON,JW,VN,VE,VU
+ IF(PVOUT .EQ. 'Y') then
+ call PVPRNT(LATD,LATM,SLAT,LOND,LONM,SLON,VN,VE,VU)
+ ENDIF
+ ENDIF
+ GO TO 420
+ 450 CLOSE(I1, STATUS = 'KEEP')
+ write(LUOUT, 460)
+ 460 format(' ********************************'/
+ 1 ' Velocities have been calculated for the specified'/
+ 2 ' file. if you wish to calculate additional velocities, '/
+ 3 ' please indicate how you will supply the coordinates.'/)
+ ELSE
+ WRITE(LUOUT,600)
+ 600 FORMAT(' Improper entry--select again. ')
+ ENDIF
+ GO TO 40
+ 610 CONTINUE
+ CLOSE(I2, STATUS = 'KEEP')
+ IF( PVOUT .EQ. 'Y') CLOSE(I3, STATUS = 'KEEP')
+ RETURN
+
+ 700 write (*,'(/)')
+ write (*,*) 'Failed to read file name: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 701 write (*,'(/)')
+ write (*,*) 'Failed to read answer: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 702 write (*,'(/)')
+ write (*,*) 'Failed to read file name: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 703 write (*,'(/)')
+ write (*,*) 'Failed to read velocity: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 704 write (*,'(/)')
+ write (*,*) 'Failed to read OPTION: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 705 write (*,'(/)')
+ write (*,*) 'Failed to read name of bbfile: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 706 write (*,'(/)')
+ write (*,*) 'Failed to read card from bbfile: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 707 write (*,'(/)')
+ write (*,*) 'Failed to read card80 from bbfile: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 708 write (*,'(/)')
+ write (*,*) 'Failed to read file name: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 709 write (*,'(/)')
+ write (*,*) 'Failed to read bbfile: ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+
+ END
+**************************************************************************
+ SUBROUTINE GTOVEL(YLAT,YLON,EHT,RVN,RVE,RVU,
+ 1 VN,VE,VU,VX,VY,VZ,JREGN,IOPT)
+
+*** Compute velocity in appropriate reference frame for point with
+*** latitude YLAT (radians), longitude YLON (radians, positive west)
+*** and ellipsoid height EHT (meters) in this reference frame.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ logical Is_iopt_NAD83
+
+ Is_iopt_NAD83 = (IOPT == 1)
+
+*** Get reference latitude RLAT and reference longitude RLON in NAD 83
+c IF(IOPT .EQ. 0 .OR. IOPT .EQ. 1) THEN !Not NAD83 antmore
+ IF(IOPT .EQ. 15) THEN
+ RLAT = YLAT
+ RLON = YLON
+ ELSE
+ ELON = -YLON
+ CALL TOXYZ(YLAT,ELON,EHT,X,Y,Z)
+ DATE = 2010.0d0
+c CALL XTONAD(X,Y,Z,RLAT,RLON,EHTNAD,DATE,IOPT) !Removed on 09/12/2014. The velocity grids are not converted to NAD83 anymore.
+ CALL XTO08 (X,Y,Z,RLAT,RLON,EHT08,DATE,IOPT) !They are in ITRF2008
+ ENDIF
+
+*** Get velocity in NAD 83 !Not anymore since 09/12/2014. Now it is in ITRF2008
+ CALL GETREG(RLAT,RLON,JREGN)
+ IF (JREGN .EQ. 0) RETURN
+ CALL COMVEL(RLAT,RLON,JREGN,VN,VE,VU)
+
+ VN = VN + RVN
+ VE = VE + RVE
+ VU = VU + RVU
+ ELON = -YLON
+ CALL TOVXYZ(YLAT,ELON,VN,VE,VU,VX,VY,VZ)
+
+*** Convert velocity into another reference frame if needed
+c IF(IOPT .NE. 0 .AND. IOPT .NE. 1) THEN !Commented out on 09/12/2014
+ IF(IOPT .NE. 15) THEN
+ IF(Is_iopt_NAD83) THEN
+c CALL VTRANF(X,Y,Z,VX,VY,VZ, 1, IOPT) !No longer NAD83
+ CALL VTRANF(X,Y,Z,VX,VY,VZ, 15, IOPT) !No longer NAD83
+ else
+ CALL VTRANF_IERS(X,Y,Z,VX,VY,VZ, 15, IOPT) !Now ITRF2008
+ endif
+ CALL TOVNEU(YLAT, ELON, VX, VY, VZ, VN, VE, VU)
+ ENDIF
+
+ RETURN
+ END
+****************************************************************************
+ SUBROUTINE XTO08 (X,Y,Z,RLAT,WLON,EHT08,DATE,IOPT)
+
+*** Converts X,Y,Z in specified datum to latitude and
+*** longitude (in radians) and height (meters) in ITRF2008
+*** datum with longitude positive west.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ LOGICAL FRMXYZ
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+*** Convert to cartesian coordinates in ITRF2008
+c if (iopt .eq. 0 .or. iopt .eq. 1) then
+ if (iopt .eq. 15) then
+ x2 = x
+ y2 = y
+ z2 = z
+ elseif (iopt .eq. 1) then
+ call toit94(x,y,z,x1,y1,z1,date,iopt)
+ call frit94(x1,y1,z1,x2,y2,z2,date,15)
+ else
+ call toit94_iers(x,y,z,x1,y1,z1,date,iopt)
+ call frit94_iers(x1,y1,z1,x2,y2,z2,date,15)
+ endif
+
+***Convert to geodetic coordinates
+ IF(.NOT.FRMXYZ(X2,Y2,Z2,RLAT,ELON,EHT08))STOP 666
+
+ WLON = -ELON
+ 100 IF(WLON .LT. 0.D0) THEN
+ WLON = WLON + TWOPI
+ GO TO 100
+ ENDIF
+
+c write (*,*) "FROM XT08 ",RLAT*180.d0/pi,WLON*180.d0/pi,EHT08
+ RETURN
+ END
+
+****************************************************************************
+ SUBROUTINE XTONAD (X,Y,Z,RLAT,WLON,EHTNAD,DATE,IOPT)
+
+*** Converts X,Y,Z in specified datum to latitude and
+*** longitude (in radians) and height (meters) in NAD 83
+*** datum with longitude positive west.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ LOGICAL FRMXYZ
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+*** Convert to cartesian coordinates in NAD 83
+ if (iopt .eq. 0 .or. iopt .eq. 1) then
+ x2 = x
+ y2 = y
+ z2 = z
+ else
+ call toit94(x,y,z,x1,y1,z1,date,iopt)
+ jopt = 1
+ call frit94(x1,y1,z1,x2,y2,z2,date,jopt)
+ endif
+
+***Convert to geodetic coordinates
+ IF(.NOT.FRMXYZ(X2,Y2,Z2,RLAT,ELON,EHTNAD))STOP 666
+
+ WLON = -ELON
+ 100 IF(WLON .LT. 0.D0) THEN
+ WLON = WLON + TWOPI
+ GO TO 100
+ ENDIF
+ RETURN
+ END
+
+******************************************************
+ subroutine TRFPOS
+
+*** Transform position between reference frames
+
+ implicit double precision (a-h,o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+ parameter (nbbdim = 10000)
+ parameter (rad2deg = 180.d0/3.14159265358979d0)
+
+ double precision lat,lon
+ character card*80,namebb*80,nameif*80,name24*80
+ character record*120
+ character namef*30
+ character frame1*24, frame2*24
+ character jn*1,jw*1,LATDIR*1,LONDIR*1
+ character option*1, answer*1, vopt*1
+ character PID*6,PIDs*6
+ character HTDP_version*10
+ LOGICAL FRMXYZ
+ LOGICAL TEST
+ LOGICAL Is_inp_NAD83,Is_out_NAD83
+ LOGICAL Is_inp_NAD83PAC,Is_out_NAD83PAC
+ LOGICAL Is_inp_NAD83MAR,Is_out_NAD83MAR
+ logical am_I_in_or_near_AK
+ logical am_I_in_or_near_AS
+ logical am_I_in_or_near_CONUS
+ logical am_I_in_or_near_CQ
+ logical am_I_in_or_near_Guam
+ logical am_I_in_or_near_HI
+ logical am_I_in_or_near_PR
+ logical am_I_in_or_near_VQ
+ logical am_I_in_or_near_KW
+
+ COMMON /CONST/ A, F, E2, EPS, AF, PI, TWOPI, RHOSEC
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /ARRAYS/ HT(nbbdim), LOC(nbbdim),PIDs(nbbdim)
+ COMMON /VERSION/ HTDP_version
+
+ write(luout,80)
+ 80 format(
+ 1 ' Please enter the name for the file to contain'/
+ 2 ' the transformed positions. ')
+ read(luin,'(a30)',err=600,iostat=ios) namef
+ if (ios /= 0) goto 600
+ open(i2, file = namef, status = 'unknown')
+ CALL HEADER
+
+ 95 write(luout,100)
+ 100 format (' *******************************************'/
+ 1 ' Enter the reference frame of the input positions')
+ call MENU1(iopt1, frame1)
+ if (iopt1 .lt. 1 .or. iopt1 .gt. numref) then
+ write(luout,*) ' Improper selection -- try again. '
+ go to 95
+ endif
+ Is_inp_NAD83 = (iopt1 == 1 .and. frame1(1:3) /= "WGS")
+ Is_inp_NAD83PAC = (iopt1 == 12)
+ Is_inp_NAD83MAR = (iopt1 == 13)
+
+ 105 write(luout,110)
+ 110 format (/' Enter the reference frame for the output positions')
+ call MENU1(iopt2, frame2)
+ if (iopt2 .lt. 1 .or. iopt2 .gt. numref) then
+ write(luout,*) ' Improper selection -- try again. '
+ go to 105
+ endif
+ Is_out_NAD83 = (iopt2 == 1 .and. frame1(1:3) /= "WGS")
+ Is_out_NAD83PAC = (iopt2 == 12)
+ Is_out_NAD83MAR = (iopt2 == 13)
+
+ write(luout,120)
+ 120 format (/
+ 1 ' Enter the reference date of the input positions.')
+ 121 CALL GETMDY(MONTH1, IDAY1, IYEAR1, DATE1, MIN1, TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter the date? (y/n)'
+ read(luin, '(A1)',err=601,iostat=ios) ANSWER
+ if (ios /= 0) goto 601
+ if(ANSWER .eq. 'y' .or. ANSWER .eq. 'Y')GO TO 121
+ RETURN
+ ENDIF
+
+ write(luout,130)
+ 130 format(/
+ 1 ' Enter the reference date for the output positions. ')
+ 131 CALL GETMDY(MONTH2, IDAY2, IYEAR2, DATE2, MIN2, TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter the date? (y/n)'
+ read(luin, '(A1)',err=601,iostat=ios) ANSWER
+ if (ios /= 0) goto 601
+ if(ANSWER .eq. 'Y' .or. ANSWER .eq. 'y') GO TO 131
+ RETURN
+ ENDIF
+
+ write(i2, 150) frame1, month1, iday1, iyear1, date1,
+ 1 frame2, month2, iday2, iyear2, date2
+ 150 format(' TRANSFORMING POSITIONS FROM ',A24,' (EPOCH = ',
+ 1 I2.2,'-',I2.2,'-',I4,' (',F9.4,'))'/26X,
+ 1 'TO ', A24, ' (EPOCH = ',I2.2,'-',I2.2,'-',I4,' (',F9.4,'))'/)
+c 1 13X,'INPUT COORDINATES OUTPUT COORDINATES',
+c 1 4x, 'INPUT VELOCITY' /)
+
+ 160 write(luout, 170)
+ 170 format (/' ***************************************'/
+ 1 ' Coordinates will be transformed at each specified point.'/
+ 1 ' Please indicate how you wish to supply positions.'/
+ 1 ' 0... No more points. Return to main menu.'/
+ 1 ' 1... Individual points entered interactively.'/
+ 1 ' 2... The *80* records in a specified blue-book file. '/
+ 1 ' 3... Transform positions contained in batch file '/
+ 1 ' of delimited records of the form: '/
+ 1 ' LAT,LON,EHT,TEXT' /
+ 1 ' LAT = latitude in degrees (positive north/DBL PREC)'/
+ 1 ' LON = longitude in degrees (positive west/DBL PREC)'/
+ 1 ' EHT = ellipsoid height in meters (DBL PREC)'/
+ 1 ' TEXT = Descriptive text (CHARACTER*24) '/
+ 1 ' Example: '/
+ 1 ' 40.731671553,112.212671753,34.241,SALT AIR '/
+ 1 ' 4... Transform positions contained in batch file '/
+ 1 ' of delimited records of the form: '/
+ 1 ' X, Y, Z,TEXT' /
+ 1 ' X, Y, Z are Cartesian coordinates of the station'/
+ 1 ' TEXT = Descriptive text (CHARACTER*24) '/
+ 1 ' Example: '/
+ 1 ' -86682.104,-5394026.861,3391189.647,SALT AIR '/
+ 1 ' Necessary velocities predicted by HTDP '/
+ 1 ' 5... Transform positions using velocities contained in a '/
+ 1 ' batch file of delimited records of the form: '/
+ 1 ' X, Y, Z, Vx, Vy, Vz, TEXT' /
+ 1 ' X, Y, Z are Cartesian coordinates of the station'/
+ 1 ' Vx,Vy,Vz are Cartesian velocities in m/year '/
+ 1 ' TEXT = Descriptive text (CHARACTER*24) '/
+ 1 ' Example: '/
+ 1'-86682.104,-5394026.861,3391189.647,-0.012,-0.001,-0.001,SALT'/)
+
+ read(luin,'(a1)',err=602,iostat=ios) option
+ if (ios /= 0) goto 602
+
+c write (*,*) "Starting to look at options"
+
+ if (option .eq. '0') then
+ go to 500
+ elseif (option .eq. '1') then
+ vxsave = 0.d0
+ vysave = 0.d0
+ vzsave = 0.d0
+ vnsave = 0.d0
+ vesave = 0.d0
+ vusave = 0.d0
+ 180 call GETPNT(latd, latm, slat, LATDIR, lond, lonm, slon,
+ 1 LONDIR, name24, x, y, z, ylat, ylon, eht)
+
+C Added by JS on 07/22/2015 to limit NAD83 to the US*****************************************************
+C This was reversed on 05/11/2017 *****************************************************
+
+c if (Is_inp_NAD83 .or. Is_out_NAD83) then
+c lat = ylat*rad2deg ; lon = 360.d0 - ylon*rad2deg
+c if (lon < 0.d0) lon = lon + 360.d0
+c if(.not. am_I_in_or_near_AK (lat,lon) .and.
+c & .not. am_I_in_or_near_CONUS(lat,lon) .and.
+c & .not. am_I_in_or_near_PR (lat,lon) .and.
+c & .not. am_I_in_or_near_VQ (lat,lon)) then
+c write (luout,'(10x,a,8x,a)')
+c & "NAD83 (2011) is defined only in US territories",name24
+c stop
+c endif
+c endif
+
+c if(.not. am_I_in_or_near_AK (lat,lon) .and.
+c & .not. am_I_in_or_near_AS (lat,lon) .and.
+c & .not. am_I_in_or_near_CONUS(lat,lon) .and.
+c & .not. am_I_in_or_near_CQ (lat,lon) .and.
+c & .not. am_I_in_or_near_Guam (lat,lon) .and.
+c & .not. am_I_in_or_near_HI (lat,lon) .and.
+c & .not. am_I_in_or_near_PR (lat,lon) .and.
+c & .not. am_I_in_or_near_VQ (lat,lon) .and.
+c & .not. am_I_in_or_near_KW (lat,lon)) then
+c write (luout,'(10x,a,8x,a)')
+c & "FYI, NAD83 (2011) is defined only in US territories",name24
+c stop
+c endif
+
+c if (Is_inp_NAD83MAR .or. Is_out_NAD83MAR) then
+c lat = ylat*rad2deg ; lon = 360.d0 - ylon*rad2deg
+c if (lon < 0.d0) lon = lon + 360.d0
+c if(.not. am_I_in_or_near_GUAM (lat,lon) .and.
+c & .not. am_I_in_or_near_CQ (lat,lon)) then
+c write (luout,'(10x,a,8x,a)')
+c & "NAD83 (2011) is defined only in US territories",name24
+c stop
+c endif
+c endif
+
+C Until here on 07/22/2015 to limit NAD83 to the US******************************************************
+
+C Added by JS on 09/10/2014
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TOIT94(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ else
+ call TOIT94_IERS(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94_IERS(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ endif
+ if (min1 .ne. min2) then !i.e., if the input and output dates are different
+ if(.not.FRMXYZ(x2,y2,z2,ylat1,elon1,eht1)) STOP 666
+ ylon1 = -elon1
+ if(ylon1 .lt. 0.d0) ylon1 = ylon1 + twopi
+c write (*,*) ylon1*180.d0/pi,ylat1*180.d0/pi,eht1
+ call GETVLY(ylat1,elon1,vx,vy,vz,vn,ve,vu,vopt,210)
+c write (*,*) vx,vy,vz,vn,ve,vu
+ if (vopt .eq. '0') then
+ call PREDV(ylat1,ylon1,eht1,date1,iopt1,jregn,vn,ve,vu)
+c write (*,*) jregn,vn,ve,vu
+ if (jregn .eq. 0) then
+ write(luout, 200)
+ 200 format(/' ****************************************'/
+ 1 ' These coordinates can not be transformed to a different'/
+ 1 ' date because the point is outside of the modeled region.'/)
+ go to 220
+ else
+ call TOVXYZ( ylat1, elon1, vn, ve, vu, vx, vy, vz)
+c write (*,*) vx,vy,vz,vn,ve,vu
+ endif
+ endif
+ vxsave = vx
+ vysave = vy
+ vzsave = vz
+ vnsave = vn
+ vesave = ve
+ vusave = vu
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF( x, y, z, vx, vy, vz, iopt1, iopt2)
+ else
+ call VTRANF_IERS( x, y, z, vx, vy, vz, iopt1, iopt2)
+ endif
+ call TOVNEU( ylat1, elon1, vx, vy, vz, vn, ve, vu)
+c write (*,*) "Passed TOVNEU",vn, ve, vu
+ call NEWCOR( ylat1, ylon1, eht1, min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+c write (*,*) "Passed NEWCOR",vn, ve, vu
+ call TOXYZ(ylatt,-ylont, ehtnew, xt, yt, zt)
+c write (*,*) "Passed TOXYZ"
+ else
+ xt = x2
+ yt = y2
+ zt = z2
+ if(.not.(FRMXYZ(xt,yt,zt,ylatt,elont,ehtnew))) STOP 666
+ ylont = -elont
+ if(ylont .lt. 0.0d0) ylont = ylont + twopi
+c write (*,*) ylont*180.d0/pi,ylatt*180.d0/pi,ehtnew
+ endif
+
+ call PRNTTP(x, y, z, xt, yt, zt, ylat, ylatt,
+ 1 ylon, ylont, eht, ehtnew, name24, 1,
+ 2 vxsave, vysave, vzsave, vnsave, vesave, vusave)
+
+ 220 write(luout,*) ' Transform more positions? (y/n) '
+ read(luin,'(a1)',err=601,iostat=ios) answer
+ if (ios /= 0) goto 601
+ if(answer .eq. 'Y' .or. answer .eq. 'y') go to 180
+ close (i2, status = 'keep')
+ elseif (option .eq. '2') then !Blue book input and output
+ vxsave = 0.d0
+ vysave = 0.d0
+ vzsave = 0.d0
+ vnsave = 0.d0
+ vesave = 0.d0
+ vusave = 0.d0
+ write(luout, 300)
+ 300 format(/
+ 1 ' Enter name of the blue-book file: ')
+ read(luin, '(a)',err=603,iostat=ios) namebb
+ if (ios /= 0) goto 603
+ open (i1, file = namebb, status = 'old')
+
+*** Obtaining the ellipsoid heights from the blue book file
+
+ do i = 1, nbbdim
+ ht(i) = 0.d0
+ enddo
+
+ 302 read (i1, '(a80)', end = 309,err=604,iostat=ios) card
+ if (ios /= 0) goto 604
+
+ if (card(7:10) .eq. '*80*') then
+c read (card, 303) isn, eht
+c 303 format (bz, 10x, i4, t70, f6.2)
+ read (card, 303,err=605,iostat=ios) PID,isn,eht
+ if (ios /= 0) goto 605
+ 303 format (a6,4x,i4, t70, f6.2)
+ if (ht(isn) .eq. 0.d0) ht(isn) = eht
+ PIDs(isn) = PID
+
+ elseif (card(7:10) .eq. '*86*') then
+ if (card(46:52) .ne. ' ') then
+ read (card, 304,err=606,iostat=ios) isn, eht
+ if (ios /= 0) goto 606
+ 304 format (bz, 10x, i4, t46, f7.3)
+ ht(isn) = eht
+ else
+ read (card, 305,err=606,iostat=ios) isn, oht, ght
+ if (ios /= 0) goto 606
+ 305 format (bz, 10x, i4, t17, f7.3, t36, f7.3)
+ ht(isn) = oht + ght
+ endif
+ endif
+ go to 302
+ 309 rewind i1
+c open (i6,file='transformed_'//namebb)
+
+C write some comments in the transformed files
+
+ call extract_name (namebb,iii)
+c write (I2,1309) namebb(1:iii)
+c write (I2,1309) trim(namebb)
+ 1309 format (/'The file, transformed_',a,
+ & ', contains the transformed input file.'/)
+
+ write (i2,1310) HTDP_version
+ 1310 format (' ***CAUTION: This file was processed using HTDP',
+ & ' version ',a10, '***')
+ write (i2,1311) frame2
+ 1311 format (' ***CAUTION: Coordinates in this file are in ',
+ & a24, '***')
+ WRITE (i2, 1312) MONTH2, IDAY2, IYEAR2, DATE2
+ 1312 FORMAT(' ***CAUTION: Coordinates in this file have been ',
+ * 'updated to ',I2,'-',I2.2,'-',I4, '=(',F8.3,') ***'/)
+
+*** Reread blue book file to get latitudes and longitudes
+*** and to perform transformations
+*** and to write transformed lat and lon to the *80* records of the output bfile
+*** and to write transformed ellip. h to the *86* records of the output bfile
+
+ 310 read(i1, '(a80)', end = 390,err=604,iostat=ios) card
+ if (ios /= 0) goto 604
+ if (card(7:10) .eq. '*80*') then
+c write (*,'(a80)' ) card
+ read(card,320,err=605,iostat=ios) isn,name24(1:30),latd,
+ & latm,slat,jn,lond, lonm, slon, jw
+c write (*,321) latd, latm, slat, jn, lond, lonm, slon, jw
+
+ if (ios /= 0) goto 605
+ 320 format(10x, i4, a30, i2, i2, f7.5, a1,
+ & i3, i2, f7.5, a1)
+ 321 format(i2, i2, f7.5, a1,3x, i3, i2, f7.5, a1)
+ ylat = (dble((latd*60 + latm)*60) + slat) / rhosec
+ ylon = (dble((lond*60 + lonm)*60) + slon) / rhosec
+ if (jn .eq. 'S') ylat = -ylat
+ if (jw .eq. 'E') ylon = -ylon
+ eht = ht(isn)
+ call TOXYZ(ylat, -ylon, eht, x, y, z)
+
+C Modified in 09/15/2014 by JS to accommodate the IERS 96-97 trans. par.
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TOIT94(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ else
+ call TOIT94_IERS(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94_IERS(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ endif
+C End changes
+
+ if (min1 .ne. min2) then
+ if(.not.FRMXYZ(x2,y2,z2,ylat1,elon1,eht1)) STOP 666
+ ylon1 = -elon1
+ if (ylon1 .lt. 0.0d0) ylon1 = ylon1 + twopi
+ call PREDV(ylat1, ylon1, eht1, date1, iopt1,
+ 1 jregn, vn, ve, vu)
+ if (jregn .eq. 0) then
+ write(i2, 330) name24
+ 330 format (/ 1x,a,
+ 1 ' is outside of the modeled region.'/)
+ go to 310
+ else
+ call TOVXYZ(ylat1,elon1,vn,ve,vu,vx,vy,vz)
+ vxsave = vx
+ vysave = vy
+ vzsave = vz
+ vnsave = vn
+ vesave = ve
+ vusave = vu
+
+C Modified on 09/15/2014 by JS to accomodate the IERS trans. par.
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF(x,y,z,vx,vy,vz,iopt1,iopt2)
+ else
+ call VTRANF_IERS( x, y, z, vx, vy, vz, iopt1, iopt2)
+ endif
+C End changes
+ call TOVNEU(ylat1,elon1,vx,vy,vz,vn,ve,vu)
+ call NEWCOR(ylat1,ylon1,eht1,min1,min2,
+ 1 ylatt,ylont,ehtnew,dn,de,dui,vn,ve,vu)
+ call TOXYZ(ylatt,-ylont,ehtnew,xt,yt,zt)
+ endif
+ else
+ xt = x2
+ yt = y2
+ zt = z2
+ if(.not.FRMXYZ(xt,yt,zt,ylatt,elont,ehtnew))STOP 666
+ ylont = -elont
+ if (ylont .lt. 0.0d0) ylont = ylont + twopi
+ endif
+c call PRNTTP(x,y,z, xt,yt, zt, ylat, ylatt,
+c 1 ylon, ylont, eht, ehtnew, name24, 0,
+c 1 vxsave, vysave, vzsave, vnsave, vesave, vusave)
+
+C Now write output *80* records to the output bfile
+
+ call TODMSS (ylatt,latdeg,latmin,seclat,isign)
+ latsec = nint(100000*seclat)
+ latdir = 'N'
+ if (isign .eq. -1) latdir = 'S'
+ call TODMSS (ylont,londeg,lonmin,seclon,isign)
+ lonsec = nint(100000*seclon)
+ londir = 'W'
+ if (isign .eq. -1) londir = 'E'
+ write (card(45:46),'(i2)') latdeg
+ write (card(47:48),'(i2)') latmin
+ write (card(49:55),'(i7)') latsec
+ do i=45,55
+ if (card(i:i) == ' ') card(i:i) = '0'
+ enddo
+ write (card(56:56),'(a1)') latdir
+
+ write (card(57:59),'(i3)') londeg
+ write (card(60:61),'(i2)') lonmin
+ write (card(62:68),'(i7)') lonsec
+ do i=57,68
+ if (card(i:i) == ' ') card(i:i) = '0'
+ enddo
+ write (card(69:69),'(a1)') londir
+ write (i2,'(a)') card
+c write (*,'(a)') card
+
+C Now write output *86* records
+
+ elseif (card(8:9) == '86') then
+c write (*,'(a)') card
+ write (card(46:52),'(i7)') nint(ehtnew*1000)
+ write (i2,'(a)') card
+c write(*, '(a80)') card
+ else
+ write (i2,'(a)') card
+ endif
+ go to 310
+ 390 close (i1, status = 'keep')
+c close (i6, status = 'keep')
+ close (i2, status = 'keep')
+
+ elseif (option .eq. '3') then
+ vxsave = 0.d0
+ vysave = 0.d0
+ vzsave = 0.d0
+ vnsave = 0.d0
+ vesave = 0.d0
+ vusave = 0.d0
+ write (luout, 400)
+ 400 format (' Enter name of input file: ')
+ read (luin,'(a)',err=608,iostat=ios) nameif
+ if (ios /= 0) goto 608
+ open (i1, file = nameif, status = 'old')
+C open (i6,file='transformed_'//nameif)
+
+C write some comments in the transformed files
+
+ call extract_name (nameif,iii)
+c write (I2,1309) nameif(1:iii)
+c write (I2,1309) trim(nameif)
+ write (i2,1310) HTDP_version
+ write (i2,1311) frame2
+ WRITE (I2, 1312) MONTH2, IDAY2, IYEAR2, DATE2
+c const = 180.d0/PI
+
+ 410 read (i1,'(a)',end=450,err=607,iostat=ios) record
+ if (ios /= 0) goto 607
+ call interprate_XYZ_record (record,xlat,xlon,eht,name24)
+ ylat = (xlat*3600.d0) / rhosec
+ ylon = (xlon*3600.d0) / rhosec
+ elon = -ylon
+ call TOXYZ(ylat, elon, eht, x, y, z)
+
+C Modified in 09/15/2014 by JS to accommodate the IERS 96-97 trans. par.
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TOIT94 (x,y,z,x1,y1,z1,date1,iopt1)
+ call FRIT94 (x1,y1,z1,x2,y2,z2,date1,iopt2)
+ else
+ call TOIT94_IERS(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94_IERS(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ endif
+
+C End changes
+
+ if (min1 .ne. min2) then
+ if(.not.FRMXYZ(x2,y2,z2,ylat1,elon1,eht1)) STOP 666
+ ylon1 = -elon1
+ if (ylon1 .lt. 0.d0) ylon1 = ylon1 + twopi
+ call PREDV (ylat1, ylon1, eht1, date1, iopt1, jregn,
+ 1 vn, ve, vu)
+ if (jregn .eq. 0) then
+ write(i2, 330) name24
+ go to 410
+ else
+ call TOVXYZ(ylat1,elon1,vn,ve,vu,vx,vy,vz)
+ vxsave = vx
+ vysave = vy
+ vzsave = vz
+ vnsave = vn
+ vesave = ve
+ vusave = vu
+
+C Modified on 09/15/2014 by JS to accomodate the IERS trans. par.
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF(x,y,z,vx,vy,vz,iopt1,iopt2)
+ else
+ call VTRANF_IERS( x, y, z, vx, vy, vz, iopt1, iopt2)
+ endif
+C End changes
+
+ call TOVNEU(ylat1, elon1,vx,vy,vz,vn,ve,vu)
+ call NEWCOR (ylat1, ylon1, eht1, min1, min2,
+ 1 ylatt,ylont,ehtnew,dn,de,du,vn,ve,vu)
+ call TOXYZ(ylatt,-ylont,ehtnew,xt,yt,zt)
+ endif
+ else
+ xt = x2
+ yt = y2
+ zt = z2
+ if(.not.FRMXYZ(xt,yt,zt,ylatt,elont,ehtnew)) STOP 666
+ ylont = -elont
+ if (ylont .lt. 0.d0) ylont = ylont + twopi
+ endif
+c call PRNTTP(x,y,z,xt,yt,zt,ylat,ylatt,ylon,ylont,eht,ehtnew,
+c 1 name24,0,vxsave,vysave,vzsave,vnsave,vesave,vusave)
+ outlat = ylatt*rad2deg
+ outlon = ylont*rad2deg
+ call extract_name (name24,iii)
+
+C Added by JS on 07/22/2015 to limit the use in NAD83 to the US
+c Reversed on 05/11/2017
+
+c if (Is_inp_NAD83 .or. Is_out_NAD83) then
+c lat = ylat*rad2deg ; lon = 360.d0 - ylon*rad2deg
+c if(.not. am_I_in_or_near_AK (lat,lon) .and.
+c & .not. am_I_in_or_near_AS (lat,lon) .and.
+c & .not. am_I_in_or_near_CONUS(lat,lon) .and.
+c & .not. am_I_in_or_near_CQ (lat,lon) .and.
+c & .not. am_I_in_or_near_Guam (lat,lon) .and.
+c & .not. am_I_in_or_near_HI (lat,lon) .and.
+c & .not. am_I_in_or_near_PR (lat,lon) .and.
+c & .not. am_I_in_or_near_VQ (lat,lon) .and.
+c & .not. am_I_in_or_near_KW (lat,lon)) then
+c write (i2,'(10x,a,8x,a)')
+c & "FYI, NAD83(2011) is defined only in US territories",name24
+c endif
+c endif
+ write (i2,449) outlat,outlon,ehtnew,name24(1:iii)
+
+C Until here on 07/22/2015 to limit the use in NAD83 to the US
+
+c write (i6,449) outlat,outlon,ehtnew,trim(name24)
+ 449 format (2f16.10,f10.3,4x,a)
+ go to 410
+
+ 450 close(i1, status = 'keep')
+c close(i6, status = 'keep')
+ close(i2, status = 'keep')
+
+ elseif (option .eq. '4') then
+ vxsave = 0.d0
+ vysave = 0.d0
+ vzsave = 0.d0
+ vnsave = 0.d0
+ vesave = 0.d0
+ vusave = 0.d0
+ write (luout, 4001)
+4001 format (' Enter name of input file: ')
+ read (luin, '(a)',err=600,iostat=ios) nameif
+ if (ios /= 0) goto 600
+ open (i1, file = nameif, status = 'old')
+c open (i6,file='transformed_'//nameif)
+
+C write some comments in the transformed files
+
+ call extract_name (nameif,iii)
+c write (i2,1309) nameif(1:iii)
+c write (i2,1309) trim(nameif)
+c write (i6,1310) HTDP_version
+c write (i6,1311) frame2
+c WRITE (i6, 1312) MONTH2, IDAY2, IYEAR2, DATE2
+c const = 180.d0/PI
+ 411 read (i1,'(a)',end=451,err=607,iostat=ios) record
+ if (ios /= 0) goto 607
+ call interprate_XYZ_record (record,x,y,z,name24)
+ if(.not.FRMXYZ(x,y,z,ylat,elon,eht)) STOP 666
+ ylon = -elon
+ if (ylon .lt. 0.d0) ylon = ylon + twopi
+
+C Modified in 09/15/2014 by JS to accommodate the IERS 96-97 trans. par.
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TOIT94 (x,y,z,x1,y1,z1,date1,iopt1)
+ call FRIT94 (x1,y1,z1,x2,y2,z2,date1,iopt2)
+ else
+ call TOIT94_IERS(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94_IERS(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ endif
+
+C End changes
+
+ if (min1 .ne. min2) then
+ if(.not.FRMXYZ(x2,y2,z2,ylat1,elon1,eht1)) STOP 666
+ ylon1 = -elon1
+ if (ylon1 .lt. 0.d0) ylon1 = ylon1 + twopi
+ call PREDV (ylat1,ylon1,eht1,date1,iopt1,jregn,vn,ve,vu)
+ if (jregn .eq. 0) then
+ write(i2, 330) name24
+ go to 411
+ else
+ call TOVXYZ(ylat1,elon1,vn,ve,vu,vx,vy,vz)
+ vxsave = vx
+ vysave = vy
+ vzsave = vz
+ vnsave = vn
+ vesave = ve
+ vusave = vu
+ write (*,*) vn,ve,vu
+ write (*,*) vx,vy,vz
+
+C Modified on 09/15/2014 by JS to accomodate the IERS trans. par.
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF(x,y,z,vx,vy,vz,iopt1,iopt2)
+ else
+ call VTRANF_IERS( x, y, z, vx, vy, vz, iopt1, iopt2)
+ endif
+C End changes
+
+ call TOVNEU(ylat1, elon1,vx,vy,vz,vn,ve,vu)
+ write (*,*) vn,ve,vu
+ call NEWCOR (ylat1, ylon1, eht1, min1, min2,
+ 1 ylatt,ylont,ehtnew,dn,de,du,vn,ve,vu)
+ call TOXYZ(ylatt,-ylont,ehtnew,xt,yt,zt)
+ endif
+ else
+ xt = x2
+ yt = y2
+ zt = z2
+ if(.not.FRMXYZ(xt,yt,zt,ylatt,elont,ehtnew)) STOP 666
+ ylont = -elont
+ if (ylont .lt. 0.d0) ylont = ylont + twopi
+ endif
+c call PRNTTP(x,y,z,xt,yt,zt,ylat,ylatt,ylon,ylont,eht,ehtnew,
+c 1 name24,0,vxsave,vysave,vzsave,vnsave,vesave,vusave)
+ call extract_name (name24,iii)
+
+C Added by JS on 07/22/2015 to limit the use in NAD83 to the US
+
+c if (Is_inp_NAD83 .or. Is_out_NAD83) then
+c lat = ylatt*rad2deg ; lon = 360.d0 - ylont*rad2deg
+c if(.not. am_I_in_or_near_AK (lat,lon) .and.
+c & .not. am_I_in_or_near_AS (lat,lon) .and.
+c & .not. am_I_in_or_near_CONUS(lat,lon) .and.
+c & .not. am_I_in_or_near_CQ (lat,lon) .and.
+c & .not. am_I_in_or_near_Guam (lat,lon) .and.
+c & .not. am_I_in_or_near_HI (lat,lon) .and.
+c & .not. am_I_in_or_near_PR (lat,lon) .and.
+c & .not. am_I_in_or_near_VQ (lat,lon) .and.
+c & .not. am_I_in_or_near_KW (lat,lon)) then
+c write (i2,'(10x,a,8x,a)')
+c & "FYI, NAD83(2011) is defined only in US territories",name24
+c write (i2,1449) xt,yt,zt,name24(1:iii)
+c endif
+c else
+ write (i2,1449) xt,yt,zt,name24(1:iii)
+c endif
+
+C Until here on 07/22/2015 to limit the use in NAD83 to the US
+
+c write (i6,1449) xt,yt,zt,trim(name24)
+ 1449 format (3f20.3,4x,a)
+ go to 411
+
+ 451 close(i1, status = 'keep')
+ close(i2, status = 'keep')
+
+ elseif (option .eq. '5') then
+ vxsave = 0.d0
+ vysave = 0.d0
+ vzsave = 0.d0
+ vnsave = 0.d0
+ vesave = 0.d0
+ vusave = 0.d0
+ write (luout, 5001)
+5001 format (' Enter name of input file: ')
+ read (luin, '(a)',err=600,iostat=ios) nameif
+ if (ios /= 0) goto 600
+ open (i1, file = nameif, status = 'old')
+c open (i6,file='transformed_'//nameif)
+
+C write some comments in the transformed files
+
+ call extract_name (nameif,iii)
+c write (i2,1309) nameif(1:iii)
+c write (i2,1309) trim(nameif)
+c write (i6,1310) HTDP_version
+c write (i6,1311) frame2
+c WRITE (i6, 1312) MONTH2, IDAY2, IYEAR2, DATE2
+c const = 180.d0/PI
+ 511 read (i1,'(a)',end=551,err=607,iostat=ios) record
+ if (ios /= 0) goto 607
+ call interprate_XYZVxVyVz_record (record,x,y,z,Vx,Vy,Vz,name24)
+c write (*,*) X,Y,Z
+c write (*,*) Vx,Vy,Vz
+ if(.not.FRMXYZ(x,y,z,ylat,elon,eht)) STOP 666
+ ylon = -elon
+ if (ylon .lt. 0.d0) ylon = ylon + twopi
+
+C Modified in 09/15/2014 by JS to accommodate the IERS 96-97 trans. par.
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TOIT94 (x,y,z,x1,y1,z1,date1,iopt1)
+ call FRIT94 (x1,y1,z1,x2,y2,z2,date1,iopt2)
+ else
+ call TOIT94_IERS(x, y, z, x1, y1, z1, date1, iopt1)
+ call FRIT94_IERS(x1, y1, z1, x2, y2, z2, date1, iopt2)
+ endif
+
+C End changes on 09/15/2014
+
+ if (min1 .ne. min2) then
+ if(.not.FRMXYZ(x2,y2,z2,ylat1,elon1,eht1)) STOP 666
+ ylon1 = -elon1
+ if (ylon1 .lt. 0.d0) ylon1 = ylon1 + twopi
+c call PREDV (ylat1,ylon1,eht1,date1,iopt1,jregn,vn,ve,vu)
+c if (jregn .eq. 0) then
+c write(i2, 330) name24
+c go to 411
+c else
+c call TOVXYZ(ylat1,elon1,vn,ve,vu,vx,vy,vz)
+
+ call TOVNEU(ylat1,elon1,vx,vy,vz,vn,ve,vu)
+ vxsave = vx
+ vysave = vy
+ vzsave = vz
+ vnsave = vn
+ vesave = ve
+ vusave = vu
+c write (*,*) vn,ve,vu
+
+C Modified on 09/15/2014 by JS to accomodate the IERS trans. par.
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF(x,y,z,vx,vy,vz,iopt1,iopt2)
+ else
+ call VTRANF_IERS( x, y, z, vx, vy, vz, iopt1, iopt2)
+ endif
+C End changes
+
+ call TOVNEU(ylat1, elon1,vx,vy,vz,vn,ve,vu)
+ call NEWCOR (ylat1, ylon1, eht1, min1, min2,
+ 1 ylatt,ylont,ehtnew,dn,de,du,vn,ve,vu)
+ call TOXYZ(ylatt,-ylont,ehtnew,xt,yt,zt)
+c endif
+ else
+ xt = x2
+ yt = y2
+ zt = z2
+ if(.not.FRMXYZ(xt,yt,zt,ylatt,elont,ehtnew)) STOP 666
+ ylont = -elont
+ if (ylont .lt. 0.d0) ylont = ylont + twopi
+ endif
+c call PRNTTP(x,y,z,xt,yt,zt,ylat,ylatt,ylon,ylont,eht,ehtnew,
+c 1 name24,0,vxsave,vysave,vzsave,vnsave,vesave,vusave)
+ call extract_name (name24,iii)
+
+C Added by JS on 07/22/2015 to limit the use in NAD83 to the US
+
+c if (Is_inp_NAD83 .or. Is_out_NAD83) then
+c lat = ylatt*rad2deg ; lon = 360.d0 - ylont*rad2deg
+c if(.not. am_I_in_or_near_AK (lat,lon) .and.
+c & .not. am_I_in_or_near_AS (lat,lon) .and.
+c & .not. am_I_in_or_near_CONUS(lat,lon) .and.
+c & .not. am_I_in_or_near_CQ (lat,lon) .and.
+c & .not. am_I_in_or_near_Guam (lat,lon) .and.
+c & .not. am_I_in_or_near_HI (lat,lon) .and.
+c & .not. am_I_in_or_near_PR (lat,lon) .and.
+c & .not. am_I_in_or_near_VQ (lat,lon) .and.
+c & .not. am_I_in_or_near_KW (lat,lon)) then
+c write (i2,'(10x,a,8x,a)')
+c & "FYI, NAD83(2011) is defined only in US territories",name24
+c write (i2,1449) xt,yt,zt,name24(1:iii)
+c endif
+c else
+ write (i2,1449) xt,yt,zt,name24(1:iii)
+c endif
+
+C Until here on 07/22/2015 to limit the use in NAD83 to the US
+
+c write (i6,1449) xt,yt,zt,trim(name24)
+ go to 511
+
+ 551 close(i1, status = 'keep')
+ close(i2, status = 'keep')
+ else
+ write(luout,*) ' Improper selection -- try again. '
+ go to 160
+ endif
+
+ 500 continue
+c close(i2, status = 'keep')
+ return
+
+ 600 write (*,'(/)')
+ write (*,*) "Wrong output file name in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 601 write (*,'(/)')
+ write (*,*) "Wrong answer in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 602 write (*,'(/)')
+ write (*,*) "Wrong option in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 603 write (*,'(/)')
+ write (*,*) "Wrong bbname in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 604 write (*,'(/)')
+ write (*,*) "Wrong card in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 605 write (*,'(/)')
+ write (*,*) "Failed to read 80 record in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 606 write (*,'(/)')
+ write (*,*) "Failed to read 86 record in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 607 write (*,*) "Failed reading input file in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 608 write (*,'(/)')
+ write (*,*) "Wrong input file name in TRFPOS: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ end
+C*******************************************8*****************************************************
+ subroutine PRNTTP(x, y, z, x1, y1, z1, ylat,
+ 1 ylatt, ylon, ylont, eht, ehtnew, name24, iprint,
+ 2 vx, vy, vz, vn, ve, vu )
+
+** Print updated and/or transformed parameters
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ CHARACTER NAME24*24
+ CHARACTER LATDIR*1, LONDIR*1, LATDR*1, LONDR*1
+
+ CALL TODMSS(YLATT,LATDN,LATMN,SLATN,ISIGN)
+ LATDIR = 'N'
+ if (isign .eq. -1) LATDIR = 'S'
+ CALL TODMSS(YLONT,LONDN,LONMN,SLONN,ISIGN)
+ LONDIR = 'W'
+ if (isign .eq. -1) LONDIR = 'E'
+
+ if (iprint .eq. 1) then
+ WRITE(LUOUT,1065)LATDN,LATMN,SLATN,LATDIR,LONDN,LONMN,
+ 1 SLONN,LONDIR, EHTNEW, X1,Y1,Z1
+ 1065 FORMAT(' ****************************************'/
+ 1 ' New latitude = ',I3,1X,I2,1X,F8.5,1X,A1 /
+ 2 ' New longitude = ',I3,1x,I2,1X,F8.5,1X,A1 /
+ 2 ' New Ellip. Ht. = ', F12.3 ,' meters' /
+ 3 ' New X = ',F12.3 ,' meters' /
+ 4 ' New Y = ',F12.3 ,' meters' /
+ 5 ' New Z = ',F12.3 ,' meters' /
+ 3 ' ****************************************'/)
+ endif
+
+ call TODMSS(ylat,latd,latm,slat,isign)
+ latdr = 'N'
+ if(isign .eq. -1) latdr = 'S'
+ call TODMSS(ylon, lond,lonm,slon,isign)
+ londr = 'W'
+ if(isign .eq. -1) londr = 'E'
+ WRITE(I2,1070)NAME24,
+ 1 LATD,LATM,SLAT,latdr,LATDN,LATMN,SLATN,latdir,vn,
+ 1 LOND,LONM,SLON,londr,LONDN,LONMN,SLONN,londir,ve,
+ 1 EHT, EHTNEW, vu, X, X1, vx,
+ 1 Y, Y1, vy, Z, Z1, vz
+ 1070 FORMAT(1X,A24,/
+ 1 2X, 'LATITUDE ',2(2X,I3,1X,I2.2,1X,F8.5,1X,A1,2X),
+ 1 2X, f8.2, ' mm/yr north' /
+ 1 2X, 'LONGITUDE ',2(2X,I3,1X,I2.2,1X,F8.5,1X,A1,2X),
+ 1 2X, f8.2, ' mm/yr east' /
+ 1 2X, 'ELLIP. HT.',2(6X,F14.3),' m ',
+ 1 f8.2, ' mm/yr up' /
+ 1 2X, 'X ',2(6X,F14.3),' m ', f8.2, ' mm/yr' /
+ 1 2X, 'Y ',2(6X,F14.3),' m ', f8.2, ' mm/yr' /
+ 1 2X, 'Z ',2(6X,F14.3),' m ', f8.2, ' mm/yr'/ )
+ RETURN
+ END
+
+**********************************************************
+ subroutine SETTP
+
+*** Specify transformation parameters from ITRF94
+*** to other reference frames
+**************************************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+C The latter parameters were added to HTDP in 09/2014. They will be used to transform between
+C ITRF systems. They will not be used if the transformation involves NAD83 or WGS84 (transit).
+C They will be used for the Pacific branches of NAD83.
+
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /const/ a, f, e2, eps, af, pi, twopi, rhosec
+ common /tranpa/ tx(numref), ty(numref), tz(numref),
+ & dtx(numref), dty(numref), dtz(numref),
+ & rx(numref), ry(numref), rz(numref),
+ & drx(numref), dry(numref), drz(numref),
+ & scale(numref), dscale(numref), refepc(numref)
+ common /tranpa1/ tx1(numref), ty1(numref), tz1(numref),
+ & dtx1(numref), dty1(numref), dtz1(numref),
+ & rx1(numref), ry1(numref), rz1(numref),
+ & drx1(numref), dry1(numref), drz1(numref),
+ & scale1(numref), dscale1(numref), refepc1(numref)
+
+C Parameters computed with the IGS values of ITRF96==>ITRF97
+
+*** From ITRF94 to NAD 83
+ tx(1) = 0.9910d0
+ ty(1) = -1.9072d0
+ tz(1) = -.5129d0
+ dtx(1) = 0.d0
+ dty(1) = 0.d0
+ dtz(1) = 0.d0
+ rx(1) = 1.25033d-7
+ ry(1) = 0.46785d-7
+ rz(1) = 0.56529d-7
+ drx(1) = 0.00258d-7
+ dry(1) = -.03599d-7
+ drz(1) = -.00153d-7
+ scale(1) = 0.d0
+ dscale(1) = 0.0d0
+ refepc(1) = 1997.0d0
+
+*** From ITRF94 to ITRF88
+ tx(2) = 0.018d0
+ ty(2) = 0.000d0
+ tz(2) = -.092d0
+ dtx(2) = 0.0d0
+ dty(2) = 0.0d0
+ dtz(2) = 0.0d0
+ rx(2) = -.0001d0 / rhosec
+ ry(2) = 0.0d0
+ rz(2) = 0.0d0
+ drx(2) = 0.0d0
+ dry(2) = 0.0d0
+ drz(2) = 0.0d0
+ scale(2) = 0.74d-8
+ dscale(2) = 0.0d0
+ refepc(2) = 1988.0d0
+
+*** From ITRF94 to ITRF89
+ tx(3) = 0.023d0
+ ty(3) = 0.036d0
+ tz(3) = -.068d0
+ dtx(3) = 0.0d0
+ dty(3) = 0.0d0
+ dtz(3) = 0.0d0
+ rx(3) = 0.0d0
+ ry(3) = 0.0d0
+ rz(3) = 0.0d0
+ drx(3) = 0.0d0
+ dry(3) = 0.0d0
+ drz(3) = 0.0d0
+ scale(3) = 0.43d-8
+ dscale(3) = 0.0d0
+ refepc(3) = 1988.0d0
+
+*** From ITRF94 to ITRF90
+ tx(4) = 0.018d0
+ ty(4) = 0.012d0
+ tz(4) = -.030d0
+ dtx(4) = 0.0d0
+ dty(4) = 0.0d0
+ dtz(4) = 0.0d0
+ rx(4) = 0.0d0
+ ry(4) = 0.0d0
+ rz(4) = 0.0d0
+ drx(4) = 0.0d0
+ dry(4) = 0.0d0
+ drz(4) = 0.0d0
+ scale(4) = 0.09d-8
+ dscale(4) = 0.0d0
+ refepc(4) = 1988.0d0
+
+*** From ITRF94 to ITRF91
+ tx(5) = 0.020d0
+ ty(5) = 0.016d0
+ tz(5) = -.014d0
+ dtx(5) = 0.0d0
+ dty(5) = 0.0d0
+ dtz(5) = 0.0d0
+ rx(5) = 0.0d0
+ ry(5) = 0.0d0
+ rz(5) = 0.0d0
+ drx(5) = 0.0d0
+ dry(5) = 0.0d0
+ drz(5) = 0.0d0
+ scale(5) = 0.06d-8
+ dscale(5) = 0.0d0
+ refepc(5) = 1988.0d0
+
+*** From ITRF94 to ITRF92
+ tx(6) = 0.008d0
+ ty(6) = 0.002d0
+ tz(6) = -.008d0
+ dtx(6) = 0.0d0
+ dty(6) = 0.0d0
+ dtz(6) = 0.0d0
+ rx(6) = 0.0d0
+ ry(6) = 0.0d0
+ rz(6) = 0.0d0
+ drx(6) = 0.0d0
+ dry(6) = 0.0d0
+ drz(6) = 0.0d0
+ scale(6) = -.08d-8
+ dscale(6) = 0.0d0
+ refepc(6) = 1988.0d0
+
+*** From ITRF94 to ITRF93
+ tx(7) = 0.006d0
+ ty(7) = -.005d0
+ tz(7) = -.015d0
+ dtx(7) = -.0029d0
+ dty(7) = 0.0004d0
+ dtz(7) = 0.0008d0
+ rx(7) = 0.00039d0 / rhosec
+ ry(7) = -.00080d0 / rhosec
+ rz(7) = 0.00096d0 / rhosec
+ drx(7) = .00011d0 / rhosec
+ dry(7) = .00019d0 / rhosec
+ drz(7) =-.00005d0 / rhosec
+ scale(7) = 0.04d-8
+ dscale(7) = 0.0d0
+ refepc(7) = 1988.0d0
+
+*** From ITRF94 to ITRF96
+ tx(8) = 0.d0
+ ty(8) = 0.d0
+ tz(8) = 0.d0
+ dtx(8) = 0.d0
+ dty(8) = 0.d0
+ dtz(8) = 0.d0
+ rx(8) = 0.d0
+ ry(8) = 0.d0
+ rz(8) = 0.d0
+ drx(8) = 0.d0
+ dry(8) = 0.d0
+ drz(8) = 0.d0
+ scale(8) = 0.d0
+ dscale(8) = 0.0d0
+ refepc(8) = 1996.0d0
+
+*** From ITRF94 to ITRF97 (based on IGS adopted values)
+*** According to IERS: ITRF97 = ITRF96 = ITRF94
+ tx(9) = 0.00207d0
+ ty(9) = 0.00021d0
+ tz(9) = -0.00995d0
+ dtx(9) = -0.00069d0
+ dty(9) = 0.00010d0
+ dtz(9) = -0.00186d0
+ rx(9) = -0.00012467d0 / rhosec
+ ry(9) = 0.00022355d0 / rhosec
+ rz(9) = 0.00006065d0 / rhosec
+ drx(9) = -0.00001347d0 / rhosec
+ dry(9) = 0.00001514d0 / rhosec
+ drz(9) = -0.00000027d0 / rhosec
+ scale(9) = 0.93496d-9
+ dscale(9) = 0.19201d-9
+ refepc(9) = 1997.0d0
+
+*** From ITRF94 to WGS 72 (composition of ITRF94 -> NAD_83 -> WGS_72)
+ tx(10) = 0.9910d0
+ ty(10) = -1.9072d0
+ tz(10) = -.5129d0 - 4.5d0
+ dtx(10) = 0.d0
+ dty(10) = 0.d0
+ dtz(10) = 0.d0
+ rx(10) = 1.25033d-7
+ ry(10) = 0.46785d-7
+ rz(10) = 0.56529d-7 + 26.85868d-7
+ drx(10) = 0.00258d-7
+ dry(10) = -.03599d-7
+ drz(10) = -.00153d-7
+ scale(10) = 0.d0 - 0.2263d-6
+ dscale(10) = 0.0d0
+ refepc(10) = 1997.0d0
+
+*** From ITRF94 to ITRF00
+*** assumes that ITRF94 = ITRF96 and
+*** uses IGS values for ITRF96 -> ITRF97
+*** and IERS values for ITRF97 -> ITRF00
+ tx(11) = -.00463d0
+ ty(11) = -.00589d0
+ tz(11) = +.00855d0
+ dtx(11) = -0.00069d0
+ dty(11) = 0.00070d0
+ dtz(11) = -0.00046d0
+ rx(11) = -.00012467d0 / rhosec
+ ry(11) = 0.00022355d0 / rhosec
+ rz(11) = 0.00006065d0 / rhosec
+ drx(11) = -0.00001347d0 / rhosec
+ dry(11) = 0.00001514d0 / rhosec
+ drz(11) = 0.00001973d0 / rhosec
+ scale(11) = -0.61504d-9
+ dscale(11) = 0.18201d-9
+ refepc(11) = 1997.0d0
+
+*** From ITRF94 to PACP00
+*** use PA/ITRF00 rotation rates from Beavan et al., (2002)
+ tx(12) = 0.9056d0
+ ty(12) = -2.0200d0
+ tz(12) = -0.5516d0
+ dtx(12) = -.00069d0
+ dty(12) = 0.00070d0
+ dtz(12) = -0.00046d0
+ rx(12) = 0.027616d0 / rhosec
+ ry(12) = 0.013692d0 / rhosec
+ rz(12) = 0.002773d0 / rhosec
+ drx(12) = -.000397d0 / rhosec
+ dry(12) = 0.001022d0 / rhosec
+ drz(12) = -.002166d0 / rhosec
+ scale(12) = -0.61504d-9
+ dscale(12) = 0.18201d-9
+ refepc(12) = 1997.0d0
+
+*** From ITRF94 to MARP00
+*** Use velocity of GUAM
+ tx(13) = 0.9056d0
+ ty(13) = -2.0200d0
+ tz(13) = -0.5516d0
+ dtx(13) = -0.00069d0
+ dty(13) = 0.00070d0
+ dtz(13) = -0.00046d0
+ rx(13) = .028847d0 / rhosec
+ ry(13) = .010644d0 / rhosec
+ rz(13) = 0.008989d0 / rhosec
+ drx(13) = -0.000033d0 / rhosec
+ dry(13) = 0.000120d0 / rhosec
+ drz(13) = -0.000327d0 / rhosec
+ scale(13) = -0.61504d-9
+ dscale(13) = 0.18201d-9
+ refepc(13) = 1997.00d0
+
+*** From ITRF94 to ITRF2005
+*** assumes that ITRF94 = ITRF96
+*** uses IGS values for ITRF96 -> ITRF97
+*** uses IERS values for ITRF97 -> ITRF2000
+*** uses IERS values for ITRF2000 -> ITRF2005
+ tx(14) = -0.00533d0
+ ty(14) = -0.00479d0
+ tz(14) = 0.00895d0
+ dtx(14) = -0.00049d0
+ dty(14) = 0.00060d0
+ dtz(14) = 0.00134d0
+ rx(14) = -.00012467d0 / rhosec
+ ry(14) = 0.00022355d0 / rhosec
+ rz(14) = 0.00006065d0 / rhosec
+ drx(14) = -0.00001347d0 / rhosec
+ dry(14) = 0.00001514d0 / rhosec
+ drz(14) = 0.00001973d0 / rhosec
+ scale(14) = -0.77504d-9
+ dscale(14) = 0.10201d-9
+ refepc(14) = 1997.0d0
+
+*** From ITRF94 to ITRF2008 (also IGS08 and IGB08)
+*** assumes that ITRF94 = ITRF96
+*** uses IGS values for ITRF96 -> ITRF97
+*** uses IERS values for ITRF97 -> ITRF2000
+*** uses IERS values for ITRF2000-> ITRF2005
+*** uses IERS values for ITRF2005 -> ITRF2008 (and IGS08 and IGB08)
+
+ tx(15) = -0.00243d0
+ ty(15) = -0.00389d0
+ tz(15) = 0.01365d0
+ dtx(15) = -0.00079d0
+ dty(15) = 0.00060d0
+ dtz(15) = 0.00134d0
+ rx(15) = -0.00012467d0 / rhosec
+ ry(15) = 0.00022355d0 / rhosec
+ rz(15) = 0.00006065d0 / rhosec
+ drx(15) = -0.00001347d0 / rhosec
+ dry(15) = 0.00001514d0 / rhosec
+ drz(15) = 0.00001973d0 / rhosec
+ scale(15) = -1.71504d-9
+ dscale(15) = 0.10201d-9
+ refepc(15) = 1997.0d0
+
+*** From ITRF94 to ITRF2014
+*** assumes that ITRF94 = ITRF96
+*** uses IGS values for ITRF96 -> ITRF97
+*** uses IERS values for ITRF97 -> ITRF2000
+*** uses IERS values for ITRF2000-> ITRF2005
+*** uses IERS values for ITRF2005 -> ITRF2008 (and IGS08 and IGB08)
+*** uses IERS values for ITRF2008 -> ITRF2014
+
+c tx(16) = -0.00403d0 !Differs from ITRF2008
+ tx(16) = -0.01430d0
+c ty(16) = -0.00579d0 !Differs from ITRF2008
+ ty(16) = 0.00201d0
+c tz(16) = 0.01125d0 !Differs from ITRF2008
+ tz(16) = 0.02867d0
+
+ dtx(16) = -0.00079d0 !Like ITRF2008
+ dty(16) = 0.00060d0 !Like ITRF2008
+ dtz(16) = 0.00144d0 !Differs from ITRF2008
+
+c rx(16) = -0.00012467d0 / rhosec !Like ITRF2008
+ rx(16) = -0.00029978d0 / rhosec
+c ry(16) = 0.00022355d0 / rhosec !Like ITRF2008
+ ry(16) = 0.00042037d0 / rhosec
+c rz(16) = 0.00006065d0 / rhosec !Like ITRF2008
+ rz(16) = 0.00031714d0 / rhosec
+ drx(16) = -0.00001347d0 / rhosec !Like ITRF2008
+ dry(16) = 0.00001514d0 / rhosec !Like ITRF2008
+ drz(16) = 0.00001973d0 / rhosec !Like ITRF2008
+
+C scale(16) = -1.69504d-9 !Differs from ITRF2008, but only insignificantly
+ scale(16) = -0.36891d-9
+ dscale(16) = 0.07201d-9 !Differs from ITRF2008, but only insignificantly
+ refepc(16) = 2010.0d0 !Differs from ITRF2008
+
+C*************************************************************************************************************************
+C Parameters computed with the IERS values of ITRF96==>ITRF97
+
+*** From ITRF94 to NAD 83
+ tx1(1) = 0.9910d0
+ ty1(1) = -1.9072d0
+ tz1(1) = -.5129d0
+ dtx1(1) = 0.d0
+ dty1(1) = 0.d0
+ dtz1(1) = 0.d0
+ rx1(1) = 1.25033d-7
+ ry1(1) = 0.46785d-7
+ rz1(1) = 0.56529d-7
+ drx1(1) = 0.00258d-7
+ dry1(1) = -.03599d-7
+ drz1(1) = -.00153d-7
+ scale(1) = 0.d0
+ dscale1(1) = 0.0d0
+ refepc1(1) = 1997.0d0
+
+*** From ITRF94 to ITRF88
+ tx1(2) = 0.018d0
+ ty1(2) = 0.000d0
+ tz1(2) = -.092d0
+ dtx1(2) = 0.0d0
+ dty1(2) = 0.0d0
+ dtz1(2) = 0.0d0
+ rx1(2) = -.0001d0 / rhosec
+ ry1(2) = 0.0d0
+ rz1(2) = 0.0d0
+ drx1(2) = 0.0d0
+ dry1(2) = 0.0d0
+ drz1(2) = 0.0d0
+ scale1(2) = 0.74d-8
+ dscale1(2) = 0.0d0
+ refepc1(2) = 1988.0d0
+
+*** From ITRF94 to ITRF89
+ tx1(3) = 0.023d0
+ ty1(3) = 0.036d0
+ tz1(3) = -.068d0
+ dtx1(3) = 0.0d0
+ dty1(3) = 0.0d0
+ dtz1(3) = 0.0d0
+ rx1(3) = 0.0d0
+ ry1(3) = 0.0d0
+ rz1(3) = 0.0d0
+ drx1(3) = 0.0d0
+ dry1(3) = 0.0d0
+ drz1(3) = 0.0d0
+ scale1(3) = 0.43d-8
+ dscale1(3) = 0.0d0
+ refepc1(3) = 1988.0d0
+
+*** From ITRF94 to ITRF90
+ tx1(4) = 0.018d0
+ ty1(4) = 0.012d0
+ tz1(4) = -.030d0
+ dtx1(4) = 0.0d0
+ dty1(4) = 0.0d0
+ dtz1(4) = 0.0d0
+ rx1(4) = 0.0d0
+ ry1(4) = 0.0d0
+ rz1(4) = 0.0d0
+ drx1(4) = 0.0d0
+ dry1(4) = 0.0d0
+ drz1(4) = 0.0d0
+ scale1(4) = 0.09d-8
+ dscale1(4) = 0.0d0
+ refepc1(4) = 1988.0d0
+
+*** From ITRF94 to ITRF91
+ tx1(5) = 0.020d0
+ ty1(5) = 0.016d0
+ tz1(5) = -.014d0
+ dtx1(5) = 0.0d0
+ dty1(5) = 0.0d0
+ dtz1(5) = 0.0d0
+ rx1(5) = 0.0d0
+ ry1(5) = 0.0d0
+ rz1(5) = 0.0d0
+ drx1(5) = 0.0d0
+ dry1(5) = 0.0d0
+ drz1(5) = 0.0d0
+ scale1(5) = 0.06d-8
+ dscale1(5) = 0.0d0
+ refepc1(5) = 1988.0d0
+
+*** From ITRF94 to ITRF92
+ tx1(6) = 0.008d0
+ ty1(6) = 0.002d0
+ tz1(6) = -.008d0
+ dtx1(6) = 0.0d0
+ dty1(6) = 0.0d0
+ dtz1(6) = 0.0d0
+ rx1(6) = 0.0d0
+ ry1(6) = 0.0d0
+ rz1(6) = 0.0d0
+ drx1(6) = 0.0d0
+ dry1(6) = 0.0d0
+ drz1(6) = 0.0d0
+ scale1(6) = -.08d-8
+ dscale1(6) = 0.0d0
+ refepc1(6) = 1988.0d0
+
+*** From ITRF94 to ITRF93
+ tx1(7) = 0.006d0
+ ty1(7) = -.005d0
+ tz1(7) = -.015d0
+ dtx1(7) = -.0029d0
+ dty1(7) = 0.0004d0
+ dtz1(7) = 0.0008d0
+ rx1(7) = 0.00039d0 / rhosec
+ ry1(7) = -.00080d0 / rhosec
+ rz1(7) = 0.00096d0 / rhosec
+ drx1(7) = .00011d0 / rhosec
+ dry1(7) = .00019d0 / rhosec
+ drz1(7) =-.00005d0 / rhosec
+ scale1(7) = 0.04d-8
+ dscale1(7) = 0.0d0
+ refepc1(7) = 1988.0d0
+
+*** From ITRF94 to ITRF96
+ tx1(8) = 0.d0
+ ty1(8) = 0.d0
+ tz1(8) = 0.d0
+ dtx1(8) = 0.d0
+ dty1(8) = 0.d0
+ dtz1(8) = 0.d0
+ rx1(8) = 0.d0
+ ry1(8) = 0.d0
+ rz1(8) = 0.d0
+ drx1(8) = 0.d0
+ dry1(8) = 0.d0
+ drz1(8) = 0.d0
+ scale1(8) = 0.d0
+ dscale1(8) = 0.0d0
+ refepc1(8) = 1996.0d0
+
+*** From ITRF94 to ITRF97 (based on IERS adopted values)
+*** According to IERS: ITRF97 = ITRF96 = ITRF94
+ tx1(9) = 0.00000d0
+ ty1(9) = 0.00000d0
+ tz1(9) = 0.00000d0
+ dtx1(9) = 0.00000d0
+ dty1(9) = 0.00000d0
+ dtz1(9) = 0.00000d0
+ rx1(9) = 0.00000000d0
+ ry1(9) = 0.00000000d0
+ rz1(9) = 0.00000000d0
+ drx1(9) = 0.00000000d0
+ dry1(9) = 0.00000000d0
+ drz1(9) = 0.00000000d0
+ scale1(9) = 0.d0
+ dscale1(9) = 0.d0
+ refepc1(9) = 2000.0d0
+
+*** From ITRF94 to WGS 72 (composition of ITRF94 -> NAD_83 -> WGS_72)
+ tx1(10) = 0.9910d0
+ ty1(10) = -1.9072d0
+ tz1(10) = -.5129d0 - 4.5d0
+ dtx1(10) = 0.d0
+ dty1(10) = 0.d0
+ dtz1(10) = 0.d0
+ rx1(10) = 1.25033d-7
+ ry1(10) = 0.46785d-7
+ rz1(10) = 0.56529d-7 + 26.85868d-7
+ drx1(10) = 0.00258d-7
+ dry1(10) = -.03599d-7
+ drz1(10) = -.00153d-7
+ scale1(10) = 0.d0 - 0.2263d-6
+ dscale1(10) = 0.0d0
+ refepc1(10) = 1997.0d0
+
+*** From ITRF94 to ITRF00
+*** assumes that ITRF94 = ITRF96 and
+*** uses IERS values for ITRF96 -> ITRF97
+*** and IERS values for ITRF97 -> ITRF00
+ tx1(11) = -.00670d0
+ ty1(11) = -.00430d0
+ tz1(11) = +.02270d0
+ dtx1(11) = 0.00000d0
+ dty1(11) = 0.00060d0
+ dtz1(11) = 0.00140d0
+ rx1(11) = 0.00000000d0 / rhosec
+ ry1(11) = 0.00000000d0 / rhosec
+ rz1(11) = +0.00006000d0 / rhosec
+ drx1(11) = 0.00000000d0 / rhosec
+ dry1(11) = 0.00000000d0 / rhosec
+ drz1(11) = +0.00002000d0 / rhosec
+ scale1(11) = -1.58000d-9
+ dscale1(11) = -0.01000d-9
+ refepc1(11) = 2000.0d0
+
+*** From ITRF94 to PACP00
+*** use PA/ITRF00 rotation rates from Beavan et al., (2002)
+ tx1(12) = 0.9035d0
+ ty1(12) = -2.0202d0
+ tz1(12) = -0.5417d0
+ dtx1(12) = 0.00000d0
+ dty1(12) = 0.00060d0
+ dtz1(12) = 0.0014d0
+ rx1(12) = 0.027741d0 / rhosec
+ ry1(12) = 0.013469d0 / rhosec
+ rz1(12) = 0.002712d0 / rhosec
+ drx1(12) = -.000384d0 / rhosec
+ dry1(12) = 0.001007d0 / rhosec
+ drz1(12) = -.002166d0 / rhosec
+ scale1(12) = -1.55000d-9
+ dscale1(12) = -0.010000d-9
+ refepc1(12) = 1997.0d0
+
+*** From ITRF94 to MARP00
+*** Use velocity of GUAM
+ tx1(13) = 0.9035d0
+ ty1(13) = -2.0202d0
+ tz1(13) = -0.5417d0
+ dtx1(13) = -0.00000d0
+ dty1(13) = 0.00060d0
+ dtz1(13) = 0.00140d0
+ rx1(13) = .028971d0 / rhosec
+ ry1(13) = .01042d0 / rhosec
+ rz1(13) = 0.008928d0 / rhosec
+ drx1(13) = -0.00002d0 / rhosec
+ dry1(13) = 0.000105d0 / rhosec
+ drz1(13) = -0.000327d0 / rhosec
+ scale1(13) = -1.55000d-9
+ dscale1(13) = -0.01000d-9
+ refepc1(13) = 1997.00d0
+
+*** From ITRF94 to ITRF2005
+*** assumes that ITRF94 = ITRF96
+*** uses IERS values for ITRF96 -> ITRF97
+*** uses IERS values for ITRF97 -> ITRF2000
+*** uses IERS values for ITRF2000 -> ITRF2005
+ tx1(14) = -0.00680d0
+ ty1(14) = -0.00350d0
+ tz1(14) = 0.0285d0
+ dtx1(14) = 0.00020d0
+ dty1(14) = 0.00050d0
+ dtz1(14) = 0.00320d0
+ rx1(14) = 0.00000000d0 / rhosec
+ ry1(14) = 0.00000000d0 / rhosec
+ rz1(14) = +0.00006000d0 / rhosec
+ drx1(14) = 0.00000000d0 / rhosec
+ dry1(14) = 0.00000000d0 / rhosec
+ drz1(14) = +0.00002000d0 / rhosec
+ scale1(14) = -1.98000d-9
+ dscale1(14) = -0.09000d-9
+ refepc1(14) = 2000.0d0
+
+*** From ITRF94 to ITRF2008 (also IGS08 and IGB08)
+*** assumes that ITRF94 = ITRF96
+*** uses IERS values for ITRF96 -> ITRF97
+*** uses IERS values for ITRF97 -> ITRF2000
+*** uses IERS values for ITRF2000-> ITRF2005
+*** uses IERS values for ITRF2005 -> ITRF2008 (and IGS08 and IGB08)
+ tx1(15) = -0.00480d0
+ ty1(15) = -0.00260d0
+ tz1(15) = 0.03320d0
+ dtx1(15) = -0.00010d0
+ dty1(15) = 0.00050d0
+ dtz1(15) = 0.00320d0
+ rx1(15) = 0.00000000d0 / rhosec
+ ry1(15) = 0.00000000d0 / rhosec
+ rz1(15) = +0.00006000d0 / rhosec
+ drx1(15) = -0.00000000d0 / rhosec
+ dry1(15) = 0.00000000d0 / rhosec
+ drz1(15) = +0.00002000d0 / rhosec
+ scale1(15) = -2.92d-9
+ dscale1(15) = -0.09d-9
+ refepc1(15) = 2000.0d0
+
+*** From ITRF94 to ITRF2014
+*** assumes that ITRF94 = ITRF96
+*** uses IERS values for ITRF96 -> ITRF97
+*** uses IERS values for ITRF97 -> ITRF2000
+*** uses IERS values for ITRF2000-> ITRF2005
+*** uses IERS values for ITRF2005 -> ITRF2008 (and IGS08 and IGB08)
+*** uses IERS values for ITRF2008 -> ITRF2014
+
+c tx1(16) = -0.00640d0 !Differ from ITRF2008
+ tx1(16) = -0.00740d0
+c ty1(16) = -0.00450d0 !Differ from ITRF2008
+ ty1(16) = 0.00050d0
+c tz1(16) = 0.03080d0 !Differ from ITRF2008
+ tz1(16) = 0.06280d0
+
+ dtx1(16) = -0.00010d0 !Like ITRF2008
+ dty1(16) = 0.00050d0 !Like ITRF2008
+ dtz1(16) = 0.00330d0 !Differ from ITRF2008
+
+ rx1(16) = 0.00000000d0 / rhosec !Like ITRF2008
+ ry1(16) = 0.00000000d0 / rhosec !Like ITRF2008
+c rz1(16) = +0.00006000d0 / rhosec !Like ITRF2008
+ rz1(16) = +0.00026000d0 / rhosec
+ drx1(16) = -0.00000000d0 / rhosec !Like ITRF2008
+ dry1(16) = 0.00000000d0 / rhosec !Like ITRF2008
+ drz1(16) = +0.00002000d0 / rhosec !Like ITRF2008
+
+c scale1(16) = -2.90d-9 !Differ from ITRF2008, but only insignificantly
+ scale1(16) = -3.80d-9
+ dscale1(16) = -0.12d-9 !Differ from ITRF2008, but only insignificantly
+
+ refepc1(16) = 2010.0d0 !Differ from ITRF2008
+
+ return
+ end
+*************************************************************
+ subroutine frit94(x1, y1, z1, x2, y2, z2, date, jopt)
+
+*** Converts ITRF94 cartesian coordinates to cartesian
+*** coordinates in the specified reference frame for the
+*** given date
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+*** (x1, y1, z1) --> input ITRF94 coordiates (meters)
+*** (x2, y2, z2) --> output coordinates (meters)
+*** date --> time (decimal years) to which the input & output
+*** coordinates correspond
+*** jopt --> input specifier of output reference frame
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /tranpa/ tx(numref), ty(numref), tz(numref),
+ & dtx(numref), dty(numref), dtz(numref),
+ & rx(numref), ry(numref), rz(numref),
+ & drx(numref), dry(numref), drz(numref),
+ & scale(numref), dscale(numref), refepc(numref)
+
+ if (jopt .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt
+ endif
+
+ dtime = date - refepc(iopt)
+ tranx = tx(iopt) + dtx(iopt)*dtime
+ trany = ty(iopt) + dty(iopt)*dtime
+ tranz = tz(iopt) + dtz(iopt)*dtime
+ rotnx = rx(iopt) + drx(iopt)*dtime
+ rotny = ry(iopt) + dry(iopt)*dtime
+ rotnz = rz(iopt) + drz(iopt)*dtime
+ ds = 1.d0 + scale(iopt) + dscale(iopt)*dtime
+
+ x2 = tranx + ds*x1 + rotnz*y1 - rotny*z1
+ y2 = trany - rotnz*x1 + ds*y1 + rotnx*z1
+ z2 = tranz + rotny*x1 - rotnx*y1 + ds*z1
+c write (*,*) "FROM TIIT94 ",dtime
+c write (*,*) "FROM TIIT94 ",tx(iopt),ty(iopt),tz(iopt)
+c write (*,*) "FROM TIIT94 ",dtx(iopt),dty(iopt),dtz(iopt)
+c write (*,*) "FROM TIIT94 ",rx(iopt),ry(iopt),rz(iopt)
+c write (*,*) "FROM TIIT94 ",drx(iopt),dry(iopt),drz(iopt)
+c write (*,*) "FROM TIIT94 ",scale(iopt),dscale(iopt)
+c write (*,*) "FROM TIIT94 ",x2,y2,z2
+
+ return
+ end
+*************************************************************************************
+ subroutine frit94_IERS (x1, y1, z1, x2, y2, z2, date, jopt)
+
+*** Converts ITRF94 cartesian coordinates to cartesian
+*** coordinates in the specified reference frame for the
+*** given date
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+*** (x1, y1, z1) --> input ITRF94 coordiates (meters)
+*** (x2, y2, z2) --> output coordinates (meters)
+*** date --> time (decimal years) to which the input & output
+*** coordinates correspond
+*** jopt --> input specifier of output reference frame
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /tranpa1/ tx1(numref), ty1(numref), tz1(numref),
+ & dtx1(numref), dty1(numref), dtz1(numref),
+ & rx1(numref), ry1(numref), rz1(numref),
+ & drx1(numref), dry1(numref), drz1(numref),
+ & scale1(numref), dscale1(numref), refepc1(numref)
+
+
+ if (jopt .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt
+ endif
+
+ dtime = date - refepc1(iopt)
+ tranx = tx1(iopt) + dtx1(iopt)*dtime
+ trany = ty1(iopt) + dty1(iopt)*dtime
+ tranz = tz1(iopt) + dtz1(iopt)*dtime
+ rotnx = rx1(iopt) + drx1(iopt)*dtime
+ rotny = ry1(iopt) + dry1(iopt)*dtime
+ rotnz = rz1(iopt) + drz1(iopt)*dtime
+ ds = 1.d0 + scale1(iopt) + dscale1(iopt)*dtime
+
+ x2 = tranx + ds*x1 + rotnz*y1 - rotny*z1
+ y2 = trany - rotnz*x1 + ds*y1 + rotnx*z1
+ z2 = tranz + rotny*x1 - rotnx*y1 + ds*z1
+c write (*,*) "FROM TIIT94_IERS ",dtime
+c write (*,*) "FROM TIIT94_IERS ",tx1(iopt),ty1(iopt),tz1(iopt)
+c write (*,*) "FROM TIIT94_IERS ",dtx1(iopt),dty1(iopt),dtz1(iopt)
+c write (*,*) "FROM TIIT94_IERS ",rx1(iopt),ry1(iopt),rz1(iopt)
+c write (*,*) "FROM TIIT94_IERS ",drx1(iopt),dry1(iopt),drz1(iopt)
+c write (*,*) "FROM TIIT94_IERS ",scale1(iopt),dscale1(iopt)
+c write (*,*) "FROM TIIT94_IERS ",x2,y2,z2
+
+ return
+ end
+
+***********************************************************
+ subroutine toit94(x1, y1, z1, x2, y2, z2, date, jopt)
+
+*** Converts cartesian coordinates in a specified reference
+*** to ITRF94 cartesian coordinates for the given date
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+*** (x1, y1, z1) --> input coordiates (meters)
+*** (x2, y2, z2) --> output ITRF94 coordinates (meters)
+*** date --> time (decimal years) to which the input & output
+*** coordinates correspond
+*** jopt --> input specifier of input reference frame
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /tranpa/ tx(numref), ty(numref), tz(numref),
+ & dtx(numref), dty(numref), dtz(numref),
+ & rx(numref), ry(numref), rz(numref),
+ & drx(numref), dry(numref), drz(numref),
+ & scale(numref), dscale(numref), refepc(numref)
+
+ if (jopt .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt
+ endif
+
+ dtime = date - refepc(iopt)
+ tranx = -(tx(iopt) + dtx(iopt)*dtime)
+ trany = -(ty(iopt) + dty(iopt)*dtime)
+ tranz = -(tz(iopt) + dtz(iopt)*dtime)
+ rotnx = -(rx(iopt) + drx(iopt)*dtime)
+ rotny = -(ry(iopt) + dry(iopt)*dtime)
+ rotnz = -(rz(iopt) + drz(iopt)*dtime)
+ ds = 1.d0 - (scale(iopt) + dscale(iopt)*dtime)
+
+ x2 = tranx + ds*x1 + rotnz*y1 - rotny*z1
+ y2 = trany - rotnz*x1 + ds*y1 + rotnx*z1
+ z2 = tranz + rotny*x1 - rotnx*y1 + ds*z1
+c write (*,*) "TO TIIT94 ",dtime
+c write (*,*) "TO TIIT94 ",tx(iopt),ty(iopt),tz(iopt)
+c write (*,*) "TO TIIT94 ",dtx(iopt),dty(iopt),dtz(iopt)
+c write (*,*) "TO TIIT94 ",rx(iopt),ry(iopt),rz(iopt)
+c write (*,*) "TO TIIT94 ",drx(iopt),dry(iopt),drz(iopt)
+c write (*,*) "TO TIIT94 ",scale(iopt),dscale(iopt)
+c write (*,*) "TO TIIT94 ",x2,y2,z2
+
+ return
+ end
+
+*****************************************************************
+ subroutine toit94_IERS(x1, y1, z1, x2, y2, z2, date, jopt)
+
+*** Converts cartesian coordinates in a specified reference
+*** to ITRF94 cartesian coordinates for the given date
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+*** (x1, y1, z1) --> input coordiates (meters)
+*** (x2, y2, z2) --> output ITRF94 coordinates (meters)
+*** date --> time (decimal years) to which the input & output
+*** coordinates correspond
+*** jopt --> input specifier of input reference frame
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /tranpa1/ tx1(numref), ty1(numref), tz1(numref),
+ & dtx1(numref), dty1(numref), dtz1(numref),
+ & rx1(numref), ry1(numref), rz1(numref),
+ & drx1(numref), dry1(numref), drz1(numref),
+ & scale1(numref), dscale1(numref), refepc1(numref)
+
+
+ if (jopt .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt
+ endif
+
+ dtime = date - refepc1(iopt)
+ tranx = -(tx1(iopt) + dtx1(iopt)*dtime)
+ trany = -(ty1(iopt) + dty1(iopt)*dtime)
+ tranz = -(tz1(iopt) + dtz1(iopt)*dtime)
+ rotnx = -(rx1(iopt) + drx1(iopt)*dtime)
+ rotny = -(ry1(iopt) + dry1(iopt)*dtime)
+ rotnz = -(rz1(iopt) + drz1(iopt)*dtime)
+ ds = 1.d0 - (scale1(iopt) + dscale1(iopt)*dtime)
+
+ x2 = tranx + ds*x1 + rotnz*y1 - rotny*z1
+ y2 = trany - rotnz*x1 + ds*y1 + rotnx*z1
+ z2 = tranz + rotny*x1 - rotnx*y1 + ds*z1
+c write (*,*) "TO TIIT94_IERS ",dtime
+c write (*,*) "TO TIIT94_IERS ",tx1(iopt),ty1(iopt),tz1(iopt)
+c write (*,*) "TO TIIT94_IERS ",dtx1(iopt),dty1(iopt),dtz1(iopt)
+c write (*,*) "TO TIIT94_IERS ",rx1(iopt),ry1(iopt),rz1(iopt)
+c write (*,*) "TO TIIT94_IERS ",drx1(iopt),dry1(iopt),drz1(iopt)
+c write (*,*) "TO TIIT94_IERS ",scale1(iopt),dscale1(iopt)
+c write (*,*) "TO TIIT94_IERS ",x2,y2,z2
+
+ return
+ end
+*****************************************************************
+ subroutine MENU1(kopt, mframe)
+
+** Write out options for reference frames
+
+ implicit integer*4 (i-n)
+ character mframe*24, nframe*24
+ dimension nframe(24)
+ dimension iframe(24)
+ common /files/ luin, luout, i1, i2, i3, i4, i5, i6
+
+ iframe(1) = 1
+ nframe(1) = 'NAD_83(2011/CORS96/2007)'
+ iframe(2) = 12
+ nframe(2) = 'NAD_83(PA11/PACP00) '
+ iframe(3) = 13
+ nframe(3) = 'NAD_83(MA11/MARP00) '
+ iframe(4) = 10
+ nframe(4) = 'WGS_72 '
+ iframe(5) = 1
+ nframe(5) = 'WGS_84(transit) '
+c iframe(6) = 6 (This was incorrect in all versions of HTDP)
+ iframe(6) = 5
+ nframe(6) = 'WGS_84(G730) '
+ iframe(7) = 8
+ nframe(7) = 'WGS_84(G873) '
+ iframe(8) = 11
+ nframe(8) = 'WGS_84(G1150) '
+ iframe(9) = 15
+ nframe(9) = 'WGS_84(G1674) '
+c iframe(10)= 4
+c nframe(10)= 'PNEOS_90 or NEOS_90 '
+ iframe(10)= 15
+ nframe(10)= 'WGS_84(G1762) '
+ iframe(11)= 5
+ nframe(11)= 'SIO/MIT_92 '
+ iframe(12)= 2
+ nframe(12)= 'ITRF88 '
+ iframe(13)= 3
+ nframe(13)= 'ITRF89 '
+ iframe(14)= 4
+ nframe(14)= 'ITRF90 '
+ iframe(15)= 5
+ nframe(15)= 'ITRF91 '
+ iframe(16)= 6
+ nframe(16)= 'ITRF92 '
+ iframe(17)= 7
+ nframe(17)= 'ITRF93 '
+ iframe(18)= 8
+ nframe(18)= 'ITRF94 '
+ iframe(19)= 8
+ nframe(19)= 'ITRF96 '
+ iframe(20)= 9
+ nframe(20)= 'ITRF97 or IGS97 '
+ iframe(21)= 11
+ nframe(21)= 'ITRF2000 or IGS00/IGb00 '
+ iframe(22)= 14
+ nframe(22)= 'ITRF2005 or IGS05 '
+ iframe(23)= 15
+ nframe(23)= 'ITRF2008 or IGS08/IGB08 '
+ iframe(24)= 16
+ nframe(24)= 'ITRF2014 or IGS14 '
+
+ write(luout, 100)
+ 100 format(
+ 1' 1...NAD_83(2011/CORS96/2007) (North American plate fixed) '/
+ 1' 2...NAD_83(PA11/PACP00) (Pacific plate fixed) '/
+ 1' 3...NAD_83(MA11/MARP00) (Mariana plate fixed) '/
+ 1' '/
+c 1' 4...WGS_72 '/
+ 1' 5...WGS_84(transit) (NAD_83(2011) used) 15...ITRF91 '/
+ 1' 6...WGS_84(G730) (ITRF91 used) 16...ITRF92 '/
+ 1' 7...WGS_84(G873) (ITRF94 used) 17...ITRF93 '/
+ 1' 8...WGS_84(G1150) (ITRF2000 used) 18...ITRF94 '/
+ 1' 9...WGS_84(G1674) (ITRF2008 used) 19...ITRF96 '/
+c 1' 10...PNEOS_90 or NEOS_90 (ITRF90 used) 20...ITRF97 or IGS97'/
+ 1' 10...WGS_84(G1762) (IGb08 used) 20...ITRF97 or IGS97'/
+ 1' 11...SIO/MIT_92 (ITRF91 used) 21...ITRF2000 or IGS00/IGb00'/
+ 1' 12...ITRF88 22...ITRF2005 or IGS05 '/
+ 1' 13...ITRF89 23...ITRF2008 or IGS08/IGb08'/
+ 1' 14...ITRF90 or (PNEOS90/NEOS90) 24...ITRF2014 or IGS14 '/ )
+c 1' 14...ITRF90 '/ )
+
+ read (luin, *,err=50,iostat=ios) iopt
+ if (ios /= 0) goto 50
+ if ( 1 .le. iopt .and. iopt .le. 24) then
+ mframe = nframe(iopt)
+ kopt = iframe(iopt)
+ else
+ mframe = ' '
+ kopt = iopt
+ endif
+ return
+
+ 50 write (*,*) 'Failed to read option in MENU1:ios=',ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ end
+
+***************************************************************
+ SUBROUTINE UPDATE(HTDP_version)
+
+** Update positions and/or observations to a specified date.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (numref = 16)
+ parameter (nbbdim = 10000)
+ CHARACTER OLDBB*30,NEWBB*30, NAMEIF*30
+ CHARACTER NAME24*24
+ CHARACTER OPT*1,ANSWER*1,BBTYPE*1,VOPT*1
+ CHARACTER LATDIR*1, LONDIR*1, LATDR*1, LONDR*1
+ character frame1*24, frame2*24
+ character HTDP_version*10
+ LOGICAL TEST
+ LOGICAL Is_iopt_NAD83
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /CAUTION/MONTH2,IDAY2,IYEAR2,DATE2,frame1
+
+ WRITE(LUOUT,20)
+ 20 FORMAT(' ********************************************'/
+ 1 ' Please enter the time to which the updated'/
+ 1 ' positions and/or observations are to correspond.')
+ 15 CALL GETMDY(MONTH2,IDAY2,IYEAR2,DATE2,MIN2,TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter the time? (y/n)'
+ read (luin, '(A1)',err=500,iostat=ios) ANSWER
+ if (ios /= 0) goto 500
+ if (ANSWER .eq. 'y' .or. ANSWER .eq. 'Y') GO TO 15
+ RETURN
+ ENDIF
+
+** Choosing reference frame for positions
+ 35 WRITE(LUOUT,30)
+ 30 FORMAT(' **************************************************'/
+ 1 ' Select the reference frame to be used for specifying'/
+ 2 ' positions. '/)
+ call MENU1( iopt, frame1)
+ IF(IOPT .LT. 1 .OR. IOPT .GT. numref) THEN
+ WRITE(LUOUT,40)
+ 40 FORMAT(' Improper selection--try again. ')
+ GO TO 35
+ ENDIF
+ Is_iopt_NAD83 = (iopt == 1)
+
+ 999 WRITE(LUOUT,1000)
+ 1000 FORMAT(' ******************************'/
+ 1 ' Select option:'/
+ 2 ' 0...No more updates. Return to main menu.'/
+ 3 ' 1...Update positions for individual points',
+ 4 ' entered interactively.'/
+ 5 ' 2...Update positions for blue book stations.'/
+ 6 ' 3...Update values for blue book observations.'/
+ 7 ' 4...Update both the positions for blue book',
+ 8 ' stations'/
+ 9 ' and the values for blue book',
+ 9 ' observations.'/
+ 9 ' 5...Update positions contained in batch file '/
+ 9 ' of delimited records of the form: '/
+ 9 ' LAT,LON,EHT,"TEXT" ' /
+ 9 ' LAT = latitude in degrees (positive north/DBL PREC)'/
+ 9 ' LON = longitude in degrees (positive west/DBL PREC)'/
+ 9 ' EHT = ellipsoid height in meters (DBL PREC)'/
+ 9 ' TEXT = Descriptive text (CHARACTER*24) '/
+ 9 ' Example: '/
+ 9 ' 40.731671553,112.212671753,34.241,"SALT AIR" '/)
+ READ(LUIN,'(A1)',err=501,iostat=ios) OPT
+ if (ios /= 0) goto 501
+ IF(OPT .eq. '0') THEN
+ RETURN
+ ELSEIF(OPT .eq. '1') THEN
+ WRITE(LUOUT,1020)
+ 1020 FORMAT(' ************************************'/
+ 1 ' Enter the time',
+ 2 ' to which the input positions will correspond. ')
+ 1025 CALL GETMDY(MONTH1,IDAY1,IYEAR1,DATE1,MIN1,TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter the time? (y/n)'
+ read(luin,'(A1)',err=500,iostat=ios) ANSWER
+ if (ios /= 0) goto 500
+ if(ANSWER .eq. 'Y' .or. ANSWER .eq. 'y') GO TO 1025
+ RETURN
+ ENDIF
+ WRITE(LUOUT,1030)
+ 1030 FORMAT(' ENTER file to save updated positions. ')
+ READ(LUIN,'(A30)',err=502,iostat=ios) NEWBB
+ if (ios /= 0) goto 502
+ OPEN(I2,FILE=NEWBB,STATUS='UNKNOWN')
+ CALL HEADER
+
+ WRITE(I2,1031) frame1
+ 1031 FORMAT(' UPDATED POSITIONS IN ', a24)
+
+ WRITE(I2,1040) MONTH1,IDAY1,IYEAR1,MONTH2,IDAY2,IYEAR2,
+ 1 DATE1, DATE2
+ 1040 FORMAT(' FROM ',I2,'-',I2.2,'-',I4,
+ 1 ' TO ',I2,'-',I2.2,'-',I4,' (month-day-year)'/
+ 1 ' FROM ',F8.3, ' TO ',F8.3, ' (decimal years)'//
+ 2 16X,'OLD COORDINATE NEW COORDINATE',
+ 3 4X,'VELOCITY DISPLACEMENT',/)
+ 1050 CALL GETPNT(LATD,LATM,SLAT,LATDIR,LOND,LONM,SLON,
+ 1 LONDIR, NAME24, X,Y,Z,YLAT,YLON,EHT)
+ ELON = -YLON
+ call GETVLY(YLAT,ELON,VX,VY,VZ,VN,VE,VU,VOPT,210)
+ IF ( VOPT .EQ. '0') then
+ call PREDV( ylat, ylon, eht, date1, iopt,
+ 1 jregn, vn, ve, vu)
+ IF(JREGN .eq. 0) THEN
+ WRITE(LUOUT,1060)
+ 1060 FORMAT(' **************************************'/
+ 1 ' Can not update the position of this point'/
+ 2 ' because it is outside of the modeled region.'/)
+ GO TO 1075
+ ELSE
+ call TOVXYZ(ylat,elon,vn,ve,vu,vx,vy,vz)
+ ENDIF
+ ENDIF
+ call NEWCOR(ylat,ylon,eht,min1,min2,
+ 1 ylatt,ylont,ehtnew,dn,de,du,vn,ve,vu)
+ CALL TODMSS(YLATT,LATDN,LATMN,SLATN,ISIGN)
+ LATDR = 'N'
+ IF (ISIGN .eq. -1) LATDR = 'S'
+ CALL TODMSS(YLONT,LONDN,LONMN,SLONN,ISIGN)
+ LONDR = 'W'
+ IF (ISIGN .eq. -1) LONDR = 'E'
+ ELONT = -YLONT
+ CALL TOXYZ(YLATT,ELONT,EHTNEW,X1,Y1,Z1)
+ DX = X1 - X
+ DY = Y1 - Y
+ DZ = Z1 - Z
+ WRITE(LUOUT,1065)LATDN,LATMN,SLATN,LATDR,LONDN,LONMN,SLONN,
+ 1 LONDR, EHTNEW, X1,Y1,Z1
+ 1065 FORMAT(' ****************************************'/
+ 1 ' Updated latitude = ',I3,I3,1X,F8.5,1X,A1 /
+ 2 ' Updated longitude = ',I3,I3,1X,F8.5,1X,A1 /
+ 2 ' Updated Ellip. Ht. = ', F12.3 ,' meters' /
+ 3 ' Updated X = ',F12.3 ,' meters' /
+ 4 ' Updated Y = ',F12.3 ,' meters' /
+ 5 ' Updated Z = ',F12.3 ,' meters' /
+ 3 ' ****************************************'/)
+ WRITE(I2,1070)NAME24,
+ 1 LATD,LATM,SLAT,LATDIR,LATDN,LATMN,SLATN,LATDR,vn,DN,
+ 1 LOND,LONM,SLON,LONDIR,LONDN,LONMN,SLONN,LONDR,ve,DE,
+ 1 EHT, EHTNEW, vu,DU, X, X1, vx,DX,
+ 1 Y, Y1, vy,DY, Z, Z1, vz,DZ
+ 1070 FORMAT(1X,A24,/
+ 1 1X, 'LATITUDE ',2(2X,I3,I3.2,1X,F8.5,1X,A1),
+ 1 F8.2, ' mm/yr', f8.3, ' m north'/
+ 1 1X, 'LONGITUDE ',2(2X,I3,I3.2,1X,F8.5,1x,A1),
+ 1 f8.2, ' mm/yr',f8.3,' m east'/
+ 1 1X, 'ELLIP. HT.',2(6X,F13.3),
+ 1 f8.2, ' mm/yr',F8.3,' m up'/
+ 1 1X, 'X ',2(6X,F13.3),
+ 1 f8.2, ' mm/yr',F8.3,' m '/
+ 1 1X, 'Y ',2(6X,F13.3),
+ 1 f8.2, ' mm/yr',f8.3, ' m'/
+ 1 1X, 'Z ',2(6X,F13.3),
+ 1 f8.2, ' mm/yr',F8.3,' m'/)
+ 1075 WRITE(LUOUT,1080)
+ 1080 FORMAT(' Update more positions? (y/n) ')
+ READ(LUIN,'(A1)',err=500,iostat=ios) ANSWER
+ if (ios /= 0) goto 500
+ IF(ANSWER .eq. 'Y' .or. ANSWER .eq. 'y') GO TO 1050
+ CLOSE(I2,STATUS='KEEP')
+ RETURN
+
+*** Updating a blue book
+
+ ELSEIF(OPT .eq. '2' .or. OPT .eq. '3' .or. OPT .eq. '4') THEN
+
+ if (nbbdim .eq. 10000) then
+ 90 WRITE(LUOUT,91)
+ 91 FORMAT(
+ 1 ' Identify type of blue book:'/
+ 2 ' 1...Standard (4-digit SSN)'/
+ 3 ' 2...Non-standard (5-digit SSN) ')
+ READ(LUIN,'(A1)',err=503,iostat=ios) BBTYPE
+ if (ios /= 0) goto 503
+ IF(BBTYPE .NE. '1' .AND. BBTYPE .NE. '2') GO TO 90
+ else
+ BBTYPE = '1'
+ endif
+
+ WRITE(LUOUT,100)
+ 100 FORMAT(' Enter name of the blue book file to be updated.'/)
+ READ(LUIN,110,err=502,iostat=ios) OLDBB
+ if (ios /= 0) goto 502
+ 110 FORMAT(A30)
+ WRITE(LUOUT,120)
+ 120 FORMAT(' Enter name for the new blue book file that is to '/
+ 1 'contain the updated information.'/)
+ READ(LUIN,110,err=502,iostat=ios) NEWBB
+ if (ios /= 0) goto 502
+ OPEN(I1,FILE = OLDBB , STATUS = 'OLD')
+
+ OPEN(I4, ACCESS = 'DIRECT', RECL = 40,
+ 1 FORM = 'UNFORMATTED', STATUS = 'SCRATCH')
+
+ IF(OPT .eq. '2' .or. OPT .eq. '4') THEN
+ WRITE(LUOUT,122)
+ 122 FORMAT(' *********************************************'/
+ 1 ' Enter the time',
+ 1 ' to which the input positions correspond.'/)
+ 123 CALL GETMDY(MONTH1,IDAY1,IYEAR1,DATE1,MIN1,TEST)
+ IF(TEST) then
+ write(luout,*) ' Do you wish to re-enter the time? (y/n)'
+ read(luin, '(A1)',err=500,iostat=ios) ANSWER
+ if (ios /= 0) goto 500
+ IF (ANSWER .eq. 'y' .or. ANSWER .eq. 'Y') GO TO 123
+ RETURN
+ ENDIF
+ ENDIF
+
+*** Retrieve geodetic positions from old blue-book file
+
+ IF(BBTYPE .EQ. '1') THEN
+ CALL GETPO4(IOPT, DATE1)
+ ELSEIF(BBTYPE .EQ. '2') THEN
+ CALL GETPO5(IOPT, DATE1)
+ ENDIF
+
+*** Create new blue book file
+
+ OPEN(I2,FILE = NEWBB, STATUS = 'UNKNOWN')
+
+ write (i2,127) HTDP_version
+ 127 format (' ***CAUTION: This file was processed using HTDP',
+ & ' version ',a10, '***')
+ write (i2,128) frame1
+ 128 format (' ***CAUTION: Coordinates in this file are in ',
+ & a24, '***')
+ IF (OPT .EQ. '2' .OR. OPT .EQ. '4') THEN
+ WRITE(I2, 129) MONTH2, IDAY2, IYEAR2, DATE2
+ 129 FORMAT(' ***CAUTION: Coordinates in this file have been ',
+ * 'updated to ',I2,'-',I2.2,'-',I4, ' = (',F8.3,') ***')
+ ENDIF
+
+c IF (OPT .EQ. '3' .OR. OPT .EQ. '4') THEN
+c WRITE(I2, 130) MONTH2, IDAY2, IYEAR2, DATE2
+c 130 FORMAT(' ***CAUTION: Observations in this file have been ',
+c * 'updated to ',I2,'-',I2.2,'-',I4, ' = (',F8.3,') ***')
+c ENDIF
+
+ IF(BBTYPE .EQ. '1') THEN
+ CALL UPBB4(MIN1,MIN2,OPT,IOPT)
+ ELSEIF(BBTYPE .EQ. '2') THEN
+ CALL UPBB5(MIN1,MIN2,OPT,IOPT)
+ ENDIF
+ CLOSE(I1, STATUS = 'KEEP')
+ CLOSE(I2, STATUS = 'KEEP')
+
+*** Update G-FILE
+
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ 605 WRITE(LUOUT,610)
+ 610 FORMAT(/' Is there a G-FILE to be updated? (y/n) ')
+ READ(LUIN,'(A1)',err=500,iostat=ios) ANSWER
+ if (ios /= 0) goto 500
+ IF(ANSWER .eq. 'N' .or. ANSWER .eq. 'n') THEN
+ CONTINUE
+ ELSEIF(ANSWER .eq. 'Y' .or. ANSWER .eq. 'y')THEN
+ WRITE(LUOUT,620)
+ 620 FORMAT(' Enter name of old G-FILE to be updated. ')
+ READ(LUIN,'(A30)',err=502,iostat=ios) OLDBB
+ if (ios /= 0) goto 502
+ WRITE(LUOUT,630)
+ 630 FORMAT(' Enter name for the new updated G-FILE. ')
+ READ(LUIN,'(A30)',err=502,iostat=ios) NEWBB
+ if (ios /= 0) goto 502
+ OPEN(I1,FILE=OLDBB,STATUS='OLD')
+ OPEN(I2,FILE=NEWBB,STATUS='UNKNOWN')
+ WRITE(I2,130) MONTH2, IDAY2, IYEAR2, DATE2
+ 130 FORMAT(' ***CAUTION: Observations in this file have been ',
+ * 'updated to ',I2,'-',I2.2,'-',I4, ' = (',F8.3,') ***')
+
+ 634 WRITE(LUOUT, 632)
+ 632 FORMAT(/' ***************************'/
+ * ' To what reference frame should the GPS'/
+ * ' vectors be transformed?'/
+ * ' -1...Do not transform GPS vectors.')
+ CALL MENU1(kopt, frame2)
+ IF(KOPT .LT. -1 .OR. KOPT .GT. numref) THEN
+ WRITE(LUOUT, 40)
+ GO TO 634
+ ELSEIF (1 .LE. KOPT .AND. KOPT .LE. numref) then
+ write( I2, 640) frame2
+ 640 format( ' ***CAUTION: All GPS interstation vectors',
+ 1 ' have been transformed to ', a24, ' ***')
+ write( I2, 641) HTDP_version
+ 641 format(' ***CAUTION: Observations were transformed using'
+ 1 ,' HTDP version ', a10, ' ***')
+ ENDIF
+
+ IF(BBTYPE .EQ. '1') THEN
+ CALL UPGFI4(DATE2, MIN2, IOPT, KOPT,
+ * MONTH2, IDAY2, IYEAR2)
+ ELSEIF(BBTYPE .EQ. '2') THEN
+ CALL UPGFI5(DATE2, MIN2, IOPT, KOPT,
+ * MONTH2, IDAY2, IYEAR2)
+ ENDIF
+ CLOSE(I1, STATUS = 'KEEP')
+ CLOSE(I2, STATUS = 'KEEP')
+ ELSE
+ WRITE(LUOUT,700)
+ GO TO 605
+ ENDIF
+ ENDIF
+ CLOSE(I4, STATUS = 'DELETE')
+ RETURN
+ ELSEIF (OPT .eq. '5') then
+ write (luout, 710)
+ 710 format(' Enter name of input file ')
+ read( luin, 711,err=502,iostat=ios) NAMEIF
+ if (ios /= 0) goto 502
+ 711 format( a30 )
+ open(I1, FILE=NAMEIF, STATUS = 'OLD')
+ write(luout, 1020)
+ 720 call GETMDY(MONTH1,IDAY1,IYEAR1,DATE1,MIN1,TEST)
+ if(TEST) then
+ write(luout,*) ' Do you wish to re-enter the time? (y/n)'
+ read(luin, '(A1)',err=500,iostat=ios) ANSWER
+ if (ios /= 0) goto 500
+ if(ANSWER .eq. 'Y' .or. ANSWER .eq. 'y') GO TO 720
+ RETURN
+ endif
+ write(luout, 1030)
+ read(luin, '(a30)',err=502,iostat=ios)NEWBB
+ if (ios /= 0) goto 502
+ open(I2, FILE=NEWBB, STATUS='UNKNOWN')
+ CALL HEADER
+ write(I2, 1031) frame1
+ write(I2, 1040) MONTH1,IDAY1,IYEAR1,
+ 1 MONTH2,IDAY2,IYEAR2,DATE1,DATE2
+ 730 read(I1,*,END = 750,err=504,iostat=ios) XLAT, XLON, EHT, NAME24
+ if (ios /= 0) goto 504
+ YLAT = (XLAT*3600.d0) / rhosec
+ Ylon = (XLON*3600.d0) / rhosec
+ ELON = -YLON
+ call TODMSS(ylat,latd,latm,slat,ISIGN)
+ if (ISIGN .eq. 1) then
+ latdir = 'N'
+ else
+ latdir = 'S'
+ endif
+ call TODMSS (ylon,lond,lonm,slon,isign)
+ if (isign .eq. 1) then
+ londir = 'W'
+ else
+ londir = 'E'
+ endif
+ call PREDV(ylat,ylon,eht,date1,iopt,jregn,vn,ve,vu)
+ if(jregn .eq. 0) then
+ write(I2, 735) name24, latd,latm,slat,latdir,
+ 1 lond,lonm,slon,londir
+ 735 format(1x,a24,/
+ 1 1x, 'LATITUDE ', 2x,i3,i3.2,1x,f8.5,1x,a1,3x,
+ 1 'POINT LOCATED OUTSIDE OF MODELED REGION'/
+ 1 1x, 'LONGITUDE ', 1x,i3,i3.2,1x,f8.5,1x,a1 /)
+ else
+ call TOVXYZ(ylat,elon,vn,ve,vu,vx,vy,vz)
+ call NEWCOR(ylat,ylon,eht,min1,min2,ylatt,ylont,ehtnew,
+ 1 dn,de,du,vn,ve,vu)
+ call TODMSS(YLATT,latdn,latmn,slatn,isign)
+ latdr = 'N'
+ if (isign .eq. -1) latdr = 'S'
+ call TODMSS(ylont,londn,lonmn,slonn,isign)
+ londr = 'W'
+ if (isign .eq. -1) londr = 'E'
+ call TOXYZ(ylat,elon,eht,x,y,z)
+ elont = -ylont
+ call TOXYZ(ylatt,elont,ehtnew,x1,y1,z1)
+ dx = x1 - x
+ dy = y1 - y
+ dz = z1 - z
+ write(I2, 1070) NAME24, latd,latm,slat,latdir,
+ 1 latdn,latmn,slatn,latdr,vn,dn,
+ 1 lond,lonm,slon,londir,londn,lonmn,slonn,londr,ve,de,
+ 1 eht,ehtnew,vu,du, x, x1,vx,dx,
+ 1 y, y1,vy,dy, z, z1, vz,dz
+ endif
+ go to 730
+ 750 close(I1, STATUS='KEEP')
+ close(I2, status = 'KEEP')
+ return
+ ELSE
+ WRITE(LUOUT,700)
+ 700 FORMAT(' Improper entry !'/)
+ GO TO 999
+ ENDIF
+
+ 500 write (*,'(/)')
+ write (*,*) "Failed to read answer in UPDATE:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 501 write (*,'(/)')
+ write (*,*) "Failed to read OPTION in UPDATE:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 502 write (*,'(/)')
+ write (*,*) "Failed to read file name in UPDATE:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 503 write (*,'(/)')
+ write (*,*) "Failed to read BBTYPE in UPDATE:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 504 write (*,'(/)')
+ write (*,*) "Failed to read input in UPDATE:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*******************************************************************
+ SUBROUTINE GETPO4(IOPT, DATE)
+
+*** Retrieve geodetic coordinates from the blue book
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (nbbdim = 10000)
+ CHARACTER JN*1,JW*1
+ CHARACTER TYPE*4
+ CHARACTER CARD*80
+ CHARACTER PIDs*6
+
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /ARRAYS/ HT(nbbdim),LOC(nbbdim),PIDs(nbbdim)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ DO 100 I = 1, 10000
+ LOC(I) = 0
+ HT(I) = 0.D0
+ 100 CONTINUE
+
+ JREC = 0
+ 125 READ(I1,130,END=160,err=200,iostat=ios) CARD
+ if (ios /= 0) goto 200
+ 130 FORMAT(A80)
+ TYPE = CARD(7:10)
+ IF(TYPE .EQ. '*80*') THEN
+ JREC = JREC + 1
+ READ(CARD,140,err=201,iostat=ios) ISN,LATD,LATM,SLAT,JN,LOND,
+ & LONM,SLON,JW,OH
+ if (ios /= 0) goto 201
+ 140 FORMAT(BZ,10X,I4,T45,2I2,F7.5,A1,I3,I2,F7.5,A1,F6.2)
+ LOC(ISN) = JREC
+C HT(ISN) = HT(ISN) + OH
+ IF ( HT(ISN) .EQ. 0.D0 ) HT(ISN) = OH
+c write (*,*) SLAT,SLON,HT(ISN) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+ YLAT = (DBLE((LATD*60+LATM)*60)+SLAT)/RHOSEC
+ YLON = (DBLE((LOND*60+LONM)*60)+SLON)/RHOSEC
+ IF(JN .EQ. 'S') YLAT = -YLAT
+ IF(JW .EQ. 'E') YLON = -YLON
+c write (*,*) ylat,ylon !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+ call PREDV( ylat, ylon, ht(isn), date, iopt,
+ 1 IDG, vn, ve, vu)
+c write (*,*) 'IDG ',IDG !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
+ IF(IDG .eq. 0) THEN
+ WRITE(LUOUT,150) CARD
+ 150 FORMAT(' **WARNING** The following point is outside of ',
+ 1 'the modeled region.'/
+ 2 ' It will be assumed that this point has not moved.'/A80/)
+ ENDIF
+ WRITE(I4, REC = JREC) YLAT, YLON, VN, VE, VU
+C ELSEIF(TYPE .eq. '*84*') THEN
+C READ(CARD,155) ISN,GH
+C 155 FORMAT(BZ,10X,I4,T70,F6.2)
+C HT(ISN) = HT(ISN) + GH
+ ELSEIF(TYPE .eq. '*86*') THEN
+ IF(CARD(46:52) .ne. ' ') THEN
+ READ(CARD,156,err=202,iostat=ios) ISN, EHT
+ if (ios /= 0) goto 202
+ 156 FORMAT(BZ,10X,I4,T46,F7.3)
+ HT(ISN) = EHT
+ ELSE
+ READ(CARD,157,err=202,iostat=ios) ISN, OHT, GHT
+ if (ios /= 0) goto 202
+ 157 FORMAT(BZ,10X,I4,T17,F7.3,T36,F7.3)
+ HT(ISN) = OHT + GHT
+ ENDIF
+ ENDIF
+ GO TO 125
+ 160 REWIND I1
+ RETURN
+
+ 200 write (*,'(/)')
+ write (*,*) "Failed 1st reading in GETPO4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 201 write (*,'(/)')
+ write (*,*) "Failed reading *80* record in GETPO4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 202 write (*,'(/)')
+ write (*,*) "Failed reading *86* record in GETPO4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+******************************************************************
+ SUBROUTINE GETPO5(IOPT, DATE)
+
+*** Retrieve geodetic position from blue book with 5-digit SSN
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (nbbdim = 10000)
+ CHARACTER JN*1,JW*1
+ CHARACTER TYPE*3
+ CHARACTER CARD*80
+ CHARACTER PIDs*6
+
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /ARRAYS/ HT(nbbdim),LOC(nbbdim),PIDs(nbbdim)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ DO 100 I = 1, 10000
+ LOC(I) = 0
+ HT(I) = 0.D0
+ 100 CONTINUE
+
+ JREC = 0
+
+ 125 READ(I1,130,END=160,err=200,iostat=ios) CARD
+ if (ios /= 0) goto 200
+ 130 FORMAT(A80)
+ TYPE = CARD(7:9)
+ IF(TYPE .EQ. '*80') THEN
+ JREC = JREC + 1
+ READ(CARD,140,err=201,iostat=ios) ISN,LATD,LATM,SLAT,JN,LOND,
+ & LONM,SLON,JW,OH
+ if (ios /= 0) goto 200
+ 140 FORMAT(BZ, 9X,I5,T45,2I2,F7.5,A1,I3,I2,F7.5,A1,F6.2)
+ LOC(ISN) = JREC
+C HT(ISN) = HT(ISN) + OH
+ IF ( HT(ISN) .EQ. 0.D0 ) HT(ISN) = OH
+ YLAT = (DBLE((LATD*60+LATM)*60)+SLAT)/RHOSEC
+ YLON = (DBLE((LOND*60+LONM)*60)+SLON)/RHOSEC
+ IF(JN .EQ. 'S') YLAT = -YLAT
+ IF(JW .EQ. 'E') YLON = -YLON
+ call PREDV( ylat, ylon, ht(isn), date, iopt,
+ 1 idg, vn, ve, vu)
+ IF(IDG .eq. 0) THEN
+ WRITE(LUOUT,150) CARD
+ 150 FORMAT(' **WARNING** The following point is outside of ',
+ 1 'the modeled region.'/
+ 2 ' It will be assumed that this point has not moved.'/A80/)
+ ENDIF
+ WRITE(I4, REC = JREC) YLAT, YLON, VN, VE, VU
+C ELSEIF(TYPE .eq. '*84') THEN
+C READ(CARD,155) ISN,GH
+C 155 FORMAT(BZ, 9X,I5,T70,F6.2)
+C HT(ISN) = HT(ISN) + GH
+ ELSEIF(TYPE .eq. '*86') THEN
+ IF(CARD(46:52) .ne. ' ') THEN
+ READ(CARD,156,err=202,iostat=ios) ISN, EHT
+ if (ios /= 0) goto 202
+ 156 FORMAT(BZ, 9X,I5,T46,F7.3)
+ HT(ISN) = EHT
+ ELSE
+ READ(CARD,157,err=202,iostat=ios) ISN, OHT, GHT
+ if (ios /= 0) goto 202
+ 157 FORMAT(BZ, 9X,I5,T17,F7.3,T36,F7.3)
+ HT(ISN) = OHT + GHT
+ ENDIF
+ ENDIF
+ GO TO 125
+ 160 REWIND I1
+ RETURN
+
+ 200 write (*,'(/)')
+ write (*,*) "Failed 1st reading in GETPO4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 201 write (*,'(/)')
+ write (*,*) "Failed reading *80* record in GETPO4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 202 write (*,'(/)')
+ write (*,*) "Failed reading *86* record in GETPO4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+******************************************************************
+ SUBROUTINE UPBB4(MIN1,MIN2,OPT,IOPT)
+
+*** Update blue book
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+
+ parameter (nbbdim = 10000)
+
+ CHARACTER CARD*80
+ CHARACTER DATE*6
+ CHARACTER TYPE*4
+ CHARACTER OPT*1,JN*1,JW*1
+ CHARACTER LATDIR*1, LONDIR*1
+ CHARACTER PIDs*6
+ LOGICAL TEST, TEST1
+ COMMON /ARRAYS/ HT(nbbdim),LOC(nbbdim) ,PIDs(nbbdim)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+C*** To update classical observations an *12* record
+C*** is needed to identify the correct century, as
+C*** classical observation records contain only a 2-digit year
+ IREC12 = 0
+
+ 170 READ(I1,175,END=600,err=700,iostat=ios) CARD
+ if (ios /= 0) goto 700
+ 175 FORMAT(A80)
+ TYPE = CARD(7:10)
+ IF(TYPE .EQ. '*A1*' .OR.
+ 1 TYPE .EQ. '*AA*' .OR.
+ 1 TYPE .EQ. '*10*' .OR.
+ 1 TYPE .EQ. '*11*' .OR.
+ 1 TYPE .EQ. '*13*' .OR.
+ 1 TYPE .EQ. '*21*' .OR.
+ 1 TYPE .EQ. '*25*' .OR.
+ 1 TYPE .EQ. '*26*' .OR.
+ 1 TYPE .EQ. '*27*' .OR.
+ 1 TYPE .EQ. '*28*' .OR.
+ 1 TYPE .EQ. '*29*' ) THEN
+ CONTINUE
+ ELSEIF(TYPE .EQ. '*31*' .OR.
+ 1 TYPE .EQ. '*40*' .OR.
+ 1 TYPE .EQ. '*41*' .OR.
+ 1 TYPE .EQ. '*42*' .OR.
+ 1 TYPE .EQ. '*45*' .OR.
+ 1 TYPE .EQ. '*46*' .OR.
+ 1 TYPE .EQ. '*47*' .OR.
+ 1 TYPE .EQ. '*70*' .OR.
+ 1 TYPE .EQ. '*81*' .OR.
+ 1 TYPE .EQ. '*82*' .OR.
+ 1 TYPE .EQ. '*83*' .OR.
+ 1 TYPE .EQ. '*84*' .OR.
+ 1 TYPE .EQ. '*85*' .OR.
+ 1 TYPE .EQ. '*86*' .OR.
+ 1 TYPE .EQ. '*90*') THEN
+ CONTINUE
+
+ ELSEIF (TYPE .EQ. '*12*') THEN
+ IF( CARD(11:14) .EQ. ' ' .OR.
+ 1 CARD(17:20) .EQ. ' ') THEN
+ WRITE ( LUOUT, 176 )
+ 176 FORMAT( ' ERROR: The *12* record does not contain'/
+ 1 ' appropriate dates.')
+ ELSE
+ READ ( CARD, 177,err=701,iostat=ios) IYEAR1, IYEAR2
+ if (ios /= 0) goto 701
+ 177 FORMAT ( 10X, I4, 2X, I4)
+ IF ( (IYEAR2 - IYEAR1) .LT. 0 .OR.
+ 1 (IYEAR2 - IYEAR1) .GT. 99 ) THEN
+ WRITE (LUOUT, 178)
+ 178 FORMAT(' ERROR: The dates in the *12* record are in'/
+ 1 ' error. Either they span more than 99 years or '/
+ 1 ' the end date preceedes the start date.'/
+ 1 ' If they span more than 99 years, then the Bluebook'/
+ 1 ' will need to divided into two or more bluebooks'/
+ 1 ' with the observations in each spanning no more'/
+ 1 ' than 99 years.')
+ ELSE
+ IREC12 = 1
+ ENDIF
+ ENDIF
+
+*** Regular distance
+
+ ELSEIF(TYPE .EQ. '*50*' .OR.
+ 1 TYPE .EQ. '*51*' .OR.
+ 1 TYPE .EQ. '*52*') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4')THEN
+ READ(CARD,180,err=702,iostat=ios) ISN,DATE,JSN,OBS
+ if (ios /= 0) goto 702
+ 180 FORMAT(BZ,10X,I4,T35,A6,T46,I4,T64,F9.4)
+ CALL CHECK(ISN,JSN,CARD,TEST)
+ IF(TEST) THEN
+ CALL TRFDAT(CARD,DATE,IREC12,IYEAR1,IYEAR2,MINO)
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ IOBS = IDNINT((OBS+DS)*10000.D0)
+ WRITE(CARD(64:72),190) IOBS
+ 190 FORMAT(I9)
+ ENDIF
+ ENDIF
+
+*** Azimuth
+
+ ELSEIF(TYPE .EQ. '*60*' .OR. TYPE .EQ. '*61*') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ READ(CARD,200,err=703,iostat=ios)ISN,DATE,JSN,IDEG,MIN,SEC
+ if (ios /= 0) goto 703
+ 200 FORMAT(BZ,10X,I4,T40,A6,T51,I4,T64,I3,I2,F3.1)
+ CALL CHECK(ISN,JSN,CARD,TEST)
+ IF(TEST) THEN
+ CALL TRFDAT(CARD,DATE,IREC12, IYEAR1, IYEAR2, MINO)
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ OBS = (DBLE((IDEG*60+MIN)*60)+SEC)/RHOSEC
+ OBS = OBS + DA
+ IF(OBS .GE. TWOPI) THEN
+ OBS = OBS - TWOPI
+ ELSEIF(OBS .LT. 0.D0) THEN
+ OBS = OBS + TWOPI
+ ENDIF
+ CALL TODMSS(OBS,IDEG,MIN,SEC,ISIGN)
+ ISEC = IDNINT(SEC*10.D0)
+ WRITE(CARD(64:71),210) IDEG,MIN,ISEC
+ 210 FORMAT(I3,I2.2,I3.3)
+ ENDIF
+ ENDIF
+
+*** Direction observation
+
+ ELSEIF(TYPE .EQ. '*20*') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ READ(CARD,220,err=704,iostat=ios) ISN0,LIST0,DATE,JSN
+ if (ios /= 0) goto 704
+ 220 FORMAT(BZ,10X,I4,I2,T40,A6,T51,I4)
+ CALL CHECK(ISN0,JSN,CARD,TEST)
+ CALL TRFDAT(CARD,DATE,IREC12, IYEAR1, IYEAR2, MINO)
+ IF(TEST) THEN
+ CALL DSDA(LOC(ISN0),LOC(JSN),MINO,MIN2,DS,DA0)
+ ELSE
+ DA0 = 0.D0
+ ENDIF
+ ENDIF
+ ELSEIF(TYPE .EQ. '*22*') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ READ(CARD,230,err=705,iostat=ios) ISN,LIST,JSN,IDEG,MIN,SEC
+ if (ios /= 0) goto 705
+ 230 FORMAT(BZ,10X,I4,I2,T51,I4,T64,I3,I2,F4.2)
+ IF(LIST.NE.LIST0 .OR. ISN.NE.ISN0) THEN
+ WRITE(LUOUT,240) CARD
+ 240 FORMAT(' Blue-book file has incorrect structure.'/
+ 1 ' A *22* record disagrees with its corresponding'/
+ 2 ' *20* record. The record reads:'/A80)
+ STOP
+ ENDIF
+ CALL CHECK(ISN,JSN,CARD,TEST)
+ IF(TEST) THEN
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ OBS=(DBLE((IDEG*60+MIN)*60)+SEC)/RHOSEC
+ OBS = OBS + DA - DA0
+ IF(OBS .GT. TWOPI) THEN
+ OBS = OBS - TWOPI
+ ELSEIF(OBS .LT. 0.D0) THEN
+ OBS = OBS + TWOPI
+ ENDIF
+ CALL TODMSS(OBS,IDEG,MIN,SEC,ISIGN)
+ ISEC = IDNINT(SEC*100.D0)
+ WRITE(CARD(64:72),250) IDEG,MIN,ISEC
+ 250 FORMAT(I3.3,I2.2,I4.4)
+ ENDIF
+ ENDIF
+
+*** Long distance
+
+ ELSEIF(TYPE .EQ. '*53*' .OR.
+ 1 TYPE .EQ. '*54*') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ READ(CARD,260,err=706,iostat=ios) ISN,DATE,JSN,OBS
+ if (ios /= 0) goto 706
+ 260 FORMAT(BZ,10X,I4,T35,A6,T46,I4,T64,F10.3)
+ CALL CHECK(ISN,JSN,CARD,TEST)
+ IF(TEST) THEN
+ CALL TRFDAT(CARD,DATE,IREC12, IYEAR1, IYEAR2, MINO)
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ IOBS = IDNINT((OBS + DS)*1000.D0)
+ WRITE(CARD(64:73),270) IOBS
+ 270 FORMAT(I10)
+ ENDIF
+ ENDIF
+
+*** Horizontal angle
+
+ ELSEIF(TYPE .EQ. '*30*' .OR.
+ 1 TYPE .EQ. '*32*') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ READ(CARD,280,err=707,iostat=ios) ISN,JSN,IDEG,MIN,SEC,KSN
+ if (ios /= 0) goto 707
+ 280 FORMAT(BZ,10X,I4,T51,I4,T64,I3,I2,F3.1,I4)
+ IF(TYPE.EQ.'*30*') THEN
+ DATE = CARD(40:45)
+ CALL TRFDAT(CARD,DATE,IREC12, IYEAR1, IYEAR2, MINO)
+ ENDIF
+ CALL CHECK(ISN,JSN,CARD,TEST)
+ CALL CHECK(ISN,KSN,CARD,TEST1)
+ IF(TEST .and. TEST1) THEN
+ CALL DSDA(LOC(ISN), LOC(JSN),
+ 1 MINO, MIN2, DS, DA0)
+ CALL DSDA(LOC(ISN), LOC(KSN),
+ 1 MINO, MIN2, DS, DA)
+ OBS=(DBLE((IDEG*60+MIN)*60)+SEC)/RHOSEC
+ OBS = OBS + DA - DA0
+ IF(OBS .GE. TWOPI) THEN
+ OBS = OBS - TWOPI
+ ELSEIF(OBS .LT. 0.D0) THEN
+ OBS = OBS + TWOPI
+ ENDIF
+ CALL TODMSS(OBS,IDEG,MIN,SEC,ISIGN)
+ ISEC = IDNINT(SEC*10.D0)
+ WRITE(CARD(64:71),290)IDEG,MIN,SEC
+ 290 FORMAT(I3.3,I2.2,I3.3)
+ ENDIF
+ ENDIF
+
+*** position record
+
+ ELSEIF(TYPE .EQ. '*80*') THEN
+ IF(OPT .eq. '2' .or. OPT .eq. '4') THEN
+ READ(CARD,300,err=708,iostat=ios) ISN,LATD,LATM,
+ & SLAT,JN,LOND,LONM,SLON,JW
+ if (ios /= 0) goto 708
+ 300 FORMAT(BZ,10X,I4,T45,2I2,F7.5,A1,I3,I2,F7.5,A1)
+ YLAT = (DBLE((LATD*60+LATM)*60)+SLAT)/RHOSEC
+ YLON = (DBLE((LOND*60+LONM)*60)+SLON)/RHOSEC
+ IF(JN .EQ. 'S') YLAT = -YLAT
+ IF(JW .EQ. 'E') YLON = -YLON
+C READ(I4, REC = LOC(ISN)) RLAT, RLON, IDG
+ READ(I4, REC = LOC(ISN),err=709,iostat=ios) RLAT,
+ & RLON, VN, VE, VU
+ if (ios /= 0) goto 709
+ call NEWCOR( ylat, ylon, ht(isn), min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+C CALL NWCORD(YLAT,YLON,HT(ISN),
+C 1 RLAT,RLON,IDG,MIN1,MIN2,
+C 1 YLATT,YLONT,EHTNEW,DN,DE,DU,IOPT)
+ CALL TODMSS(YLATT,LATDN,LATMN,SLATN,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ CALL TODMSS(YLONT,LONDN,LONMN,SLONN,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ LATS = IDNINT(SLATN*100000.D0)
+ LONS = IDNINT(SLONN*100000.D0)
+ WRITE(CARD(45:56),310) LATDN,LATMN,LATS,LATDIR
+ 310 FORMAT(I2,I2.2,I7.7,A1)
+ WRITE(CARD(57:69),320) LONDN,LONMN,LONS,LONDIR
+ 320 FORMAT(I3,I2.2,I7.7,A1)
+ ENDIF
+
+*** Unrecognized blue book record
+
+ ELSE
+c WRITE(LUOUT,500) TYPE
+ 500 FORMAT(' This software does not recognize an ',A4,/
+ 1 ' record. The record will be copied to the new'/
+ 2 ' file without change.')
+ ENDIF
+ WRITE(I2,175) CARD
+ GO TO 170
+ 600 CONTINUE
+ RETURN
+
+ 700 write (*,'(/)')
+ write (*,*) "Failed to read card in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 701 write (*,'(/)')
+ write (*,*) "Failed to read card *12* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 702 write (*,'(/)')
+ write (*,*) "Failed to read *50,51,52* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 703 write (*,'(/)')
+ write (*,*) "Failed to read *60,61* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 704 write (*,'(/)')
+ write (*,*) "Failed to read *20* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 705 write (*,'(/)')
+ write (*,*) "Failed to read *22* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 706 write (*,'(/)')
+ write (*,*) "Failed to read *53,54* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 707 write (*,'(/)')
+ write (*,*) "Failed to read *30,32* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 708 write (*,'(/)')
+ write (*,*) "Failed to read *80* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 709 write (*,'(/)')
+ write (*,*) "Failed to read I4 of *80* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+***************************************************************
+ SUBROUTINE UPBB5(MIN1,MIN2,OPT,IOPT)
+
+*** Update 5-digit blue book
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (nbbdim = 10000)
+ CHARACTER CARD*212
+ CHARACTER SUBCRD*80
+C CHARACTER DATE*6
+ CHARACTER DATE8*8
+ CHARACTER TYPE*3
+ CHARACTER OPT*1,SIGN*1,JN*1,JW*1
+ CHARACTER LATDIR*1,LONDIR*1
+ CHARACTER PIDs*6
+ LOGICAL TEST
+ COMMON /ARRAYS/ HT(nbbdim),LOC(nbbdim) ,PIDs(nbbdim)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+ 170 READ(I1,175,END=600,err=700,iostat=ios) CARD
+ if (ios /= 0) goto 700
+ 175 FORMAT(A212)
+ SUBCRD = CARD(1:80)
+ TYPE = CARD(7:9)
+ IF(TYPE .EQ. '*A1' .OR.
+ 1 TYPE .EQ. '*AA' .OR.
+ 1 TYPE .EQ. '*10' .OR.
+ 1 TYPE .EQ. '*11' .OR.
+ 1 TYPE .EQ. '*12' .OR.
+ 1 TYPE .EQ. '*13' .OR.
+ 1 TYPE .EQ. '*21' .OR.
+ 1 TYPE .EQ. '*25' .OR.
+ 1 TYPE .EQ. '*26' .OR.
+ 1 TYPE .EQ. '*27' .OR.
+ 1 TYPE .EQ. '*28' .OR.
+ 1 TYPE .EQ. '*29' ) THEN
+ CONTINUE
+ ELSEIF(TYPE .EQ. '*31' .OR.
+ 1 TYPE .EQ. '*40' .OR.
+ 1 TYPE .EQ. '*41' .OR.
+ 1 TYPE .EQ. '*42' .OR.
+ 1 TYPE .EQ. '*45' .OR.
+ 1 TYPE .EQ. '*46' .OR.
+ 1 TYPE .EQ. '*47' .OR.
+ 1 TYPE .EQ. '*70' .OR.
+ 1 TYPE .EQ. '*81' .OR.
+ 1 TYPE .EQ. '*82' .OR.
+ 1 TYPE .EQ. '*83' .OR.
+ 1 TYPE .EQ. '*84' .OR.
+ 1 TYPE .EQ. '*85' .OR.
+ 1 TYPE .EQ. '*86' .OR.
+ 1 TYPE .EQ. '*90') THEN
+ CONTINUE
+
+*** Regular distance
+
+ ELSEIF(TYPE .EQ. '*50' .OR.
+ 1 TYPE .EQ. '*51' .OR.
+ 1 TYPE .EQ. '*52') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4')THEN
+C READ(CARD,180) ISN,DATE,JSN,OBS
+C 180 FORMAT(BZ, 9X,I5,T35,A6,T46,I5,T64,F9.4)
+ READ(CARD,180,err=702,iostat=ios) ISN,JSN,OBS,DATE8
+ if (ios /= 0) goto 702
+ 180 FORMAT(BZ, 9X,I5,T46,I5,T64,F9.4,T101,A8)
+ CALL CHECK(ISN,JSN,SUBCRD,TEST)
+ IF(TEST) THEN
+ CALL TNFDAT(DATE8,MINO)
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ IOBS = IDNINT((OBS+DS)*10000.D0)
+ WRITE(CARD(64:72),190) IOBS
+ 190 FORMAT(I9)
+ WRITE(CARD(174:181),191) DS
+ 191 FORMAT(F8.4)
+ ENDIF
+ ENDIF
+
+*** Azimuth
+
+ ELSEIF(TYPE .EQ. '*60' .OR. TYPE .EQ. '*61') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+C READ(CARD,200) ISN,DATE,JSN,IDEG,MIN,SEC
+C 200 FORMAT(BZ, 9X,I5,T40,A6,T51,I5,T64,I3,I2,F3.1)
+ READ(CARD,200,err=703,iostat=ios) ISN,JSN,IDEG,MIN,
+ & SEC,DATE8
+ if (ios /= 0) goto 703
+ 200 FORMAT(BZ, 9X,I5,T51,I5,T64,I3,I2,F3.1,T101,A8)
+ CALL CHECK(ISN,JSN,SUBCRD,TEST)
+ IF(TEST) THEN
+ CALL TNFDAT(DATE8,MINO)
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ OBS = (DBLE((IDEG*60+MIN)*60)+SEC)/RHOSEC
+ OBS = OBS + DA
+ IF(OBS .GE. TWOPI) THEN
+ OBS = OBS - TWOPI
+ ELSEIF(OBS .LT. 0.D0) THEN
+ OBS = OBS + TWOPI
+ ENDIF
+ CALL TODMSS(OBS,IDEG,MIN,SEC,ISIGN)
+ ISEC = IDNINT(SEC*10.D0)
+ WRITE(CARD(64:71),210) IDEG,MIN,ISEC
+ 210 FORMAT(I3,I2.2,I3.3)
+ IF(DA .GE. 0.0D0) THEN
+ SIGN = ' '
+ ELSE
+ SIGN = '-'
+ ENDIF
+ ANGLE = DABS(DA)
+ CALL TODMSS(ANGLE,IDEG,MIN,SEC,ISIGN)
+ ISEC1 = SEC
+ ISEC2 = IDNINT((SEC - DBLE(ISEC1)) * 100.D0)
+ WRITE(CARD(152:162),211)SIGN,IDEG,MIN,ISEC1,ISEC2
+ 211 FORMAT(A1,I3.3,I2.2,I2.2,'.',I2.2)
+ ENDIF
+ ENDIF
+
+*** Direction observation
+
+ ELSEIF(TYPE .EQ. '*20') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+C READ(CARD,220) ISN0,LIST0,DATE,JSN
+C 220 FORMAT(BZ, 9X,I5,I2,T40,A6,T51,I5)
+ READ(CARD,220,err=704,iostat=ios) ISN0,LIST0,JSN,DATE8
+ if (ios /= 0) goto 704
+ 220 FORMAT(BZ, 9X,I5,I2,T51,I5,T101,A8)
+ CALL CHECK(ISN0,JSN,SUBCRD,TEST)
+ CALL TNFDAT(DATE8,MINO)
+ IF(TEST) THEN
+ CALL DSDA(LOC(ISN0),LOC(JSN),MINO,MIN2,DS,DA0)
+ ELSE
+ DA0 = 0.D0
+ ENDIF
+ CARD(132:142) = ' 0000000.00'
+ ENDIF
+ ELSEIF(TYPE .EQ. '*22') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+ READ(CARD,230,err=705,iostat=ios) ISN,LIST,JSN,IDEG,
+ & MIN,SEC
+ if (ios /= 0) goto 705
+ 230 FORMAT(BZ, 9X,I5,I2,T51,I5,T64,I3,I2,F4.2)
+ IF(LIST.NE.LIST0 .OR. ISN.NE.ISN0) THEN
+ WRITE(LUOUT,240) CARD
+ 240 FORMAT(' Blue-book file has incorrect structure.'/
+ 1 ' A *22* record disagrees with its corresponding'/
+ 2 ' *20* record. The record reads:'/A212)
+ STOP
+ ENDIF
+ CALL CHECK(ISN,JSN,SUBCRD,TEST)
+ IF(TEST) THEN
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ ELSE
+ DA = 0.D0
+ ENDIF
+ OBS=(DBLE((IDEG*60+MIN)*60)+SEC)/RHOSEC
+ OBS = OBS + DA - DA0
+ IF(OBS .GT. TWOPI) THEN
+ OBS = OBS - TWOPI
+ ELSEIF(OBS .LT. 0.D0) THEN
+ OBS = OBS + TWOPI
+ ENDIF
+ CALL TODMSS(OBS,IDEG,MIN,SEC,ISIGN)
+ ISEC = IDNINT(SEC*100.D0)
+ WRITE(CARD(64:72),250) IDEG,MIN,ISEC
+ 250 FORMAT(I3.3,I2.2,I4.4)
+ IF((DA-DA0) .GE. 0.D0) THEN
+ SIGN = ' '
+ ELSE
+ SIGN = '-'
+ ENDIF
+ ANGLE = DABS(DA - DA0)
+ CALL TODMSS(ANGLE,IDEG,MIN,SEC,ISIGN)
+ ISEC1 = SEC
+ ISEC2 = IDNINT((SEC-DBLE(ISEC1))*100.D0)
+ WRITE(CARD(132:142),251) SIGN,IDEG,MIN,ISEC1,ISEC2
+ 251 FORMAT(A1,I3.3,I2.2,I2.2,'.',I2.2)
+ ENDIF
+
+*** Long distance
+
+ ELSEIF(TYPE .EQ. '*53' .OR.
+ 1 TYPE .EQ. '*54') THEN
+ IF(OPT .eq. '3' .or. OPT .eq. '4') THEN
+C READ(CARD,260) ISN,DATE,JSN,OBS
+C 260 FORMAT(BZ, 9X,I5,T35,A6,T46,I5,T64,F10.3)
+ READ(CARD,260,err=706,iostat=ios) ISN,JSN,OBS,DATE8
+ if (ios /= 0) goto 706
+ 260 FORMAT(BZ, 9X,I5,T46,I5,T64,F10.3,T101,A8)
+ CALL CHECK(ISN,JSN,SUBCRD,TEST)
+ IF(TEST) THEN
+ CALL TNFDAT(DATE8,MINO)
+ CALL DSDA(LOC(ISN),LOC(JSN),MINO,MIN2,DS,DA)
+ IOBS = IDNINT((OBS + DS)*1000.D0)
+ WRITE(CARD(64:73),270) IOBS
+ 270 FORMAT(I10)
+ CORR = IDNINT(DS*10000.D0)
+ WRITE(CARD(174:181),271) CORR
+ 271 FORMAT(F8.4)
+ ENDIF
+ ENDIF
+
+*** position record
+
+ ELSEIF(TYPE .EQ. '*80') THEN
+ IF(OPT .eq. '2' .or. OPT .eq. '4') THEN
+ READ(CARD,300,err=708,iostat=ios) ISN,LATD,LATM,
+ & SLAT,JN,LOND,LONM,SLON,JW
+ if (ios /= 0) goto 708
+ 300 FORMAT(BZ,9X,I5,T45,2I2,F7.5,A1,I3,I2,F7.5,A1)
+ YLAT = (DBLE((LATD*60+LATM)*60)+SLAT)/RHOSEC
+ YLON = (DBLE((LOND*60+LONM)*60)+SLON)/RHOSEC
+ IF(JN .EQ. 'S') YLAT = -YLAT
+ IF(JW .EQ. 'E') YLON = -YLON
+C READ(I4, REC = LOC(ISN)) RLAT, RLON, IDG
+C CALL NWCORD(YLAT,YLON,HT(ISN),
+C 1 RLAT,RLON,IDG,MIN1,MIN2,
+C 1 YLATT,YLONT,EHTNEW,DN,DE,DU,IOPT)
+ READ(I4, REC = LOC(ISN),err=709,iostat=ios) RLAT, RLON,
+ & VN, VE, VU
+ if (ios /= 0) goto 709
+ call NEWCOR( ylat, ylon, ht(isn), min1, min2,
+ 1 ylatt, ylont, ehtnew, dn, de, du, vn, ve, vu)
+ CALL TODMSS(YLATT,LATDN,LATMN,SLATN,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ CALL TODMSS(YLONT,LONDN,LONMN,SLONN,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ LATS = IDNINT(SLATN*100000.D0)
+ LONS = IDNINT(SLONN*100000.D0)
+ WRITE(CARD(45:56),310) LATDN,LATMN,LATS,LATDIR
+ 310 FORMAT(I2,I2.2,I7.7,A1)
+ WRITE(CARD(57:69),320) LONDN,LONMN,LONS,LONDIR
+ 320 FORMAT(I3,I2.2,I7.7,A1)
+ ENDIF
+
+*** Unrecognized blue book record
+
+ ELSE
+ WRITE(LUOUT,500) TYPE
+ 500 FORMAT(' This software does not recognize an ',A3,/
+ 1 ' record. The record will be copied to the new'/
+ 2 ' file without change.')
+ ENDIF
+ WRITE(I2,175) CARD
+ GO TO 170
+ 600 CONTINUE
+ RETURN
+
+ 700 write (*,'(/)')
+ write (*,*) "Failed to read card in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 701 write (*,'(/)')
+ write (*,*) "Failed to read card *12* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 702 write (*,'(/)')
+ write (*,*) "Failed to read *50,51,52* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 703 write (*,'(/)')
+ write (*,*) "Failed to read *60,61* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 704 write (*,'(/)')
+ write (*,*) "Failed to read *20* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 705 write (*,'(/)')
+ write (*,*) "Failed to read *22* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 706 write (*,'(/)')
+ write (*,*) "Failed to read *53,54* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 707 write (*,'(/)')
+ write (*,*) "Failed to read *30,32* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 708 write (*,'(/)')
+ write (*,*) "Failed to read *80* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 709 write (*,'(/)')
+ write (*,*) "Failed to read I4 of *80* in UPBB4:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+***************************************************************
+ SUBROUTINE CHECK(ISN,JSN,CARD,TEST)
+
+*** Check if stations have *80* records
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (nbbdim = 10000)
+ CHARACTER CARD*80
+ CHARACTER PIDs*6
+ LOGICAL TEST
+ COMMON /ARRAYS/ HT(nbbdim),LOC(nbbdim),PIDs(nbbdim)
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ TEST = .TRUE.
+
+ IF(LOC(ISN) .eq. 0) THEN
+ WRITE(LUOUT,100) ISN, CARD
+ 100 FORMAT(' No *80* record for SSN = ',I4/A80/)
+ TEST = .FALSE.
+ ENDIF
+
+ IF(LOC(JSN) .eq. 0) THEN
+ WRITE(LUOUT,100) JSN, CARD
+ TEST = .FALSE.
+ ENDIF
+
+ RETURN
+ END
+C*************************************************
+ SUBROUTINE UPGFI4(DATE2, MIN2, IOPT, KOPT,
+ * MONTH, IDAY, IYEAR)
+
+*** Update G-FILE of blue book
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+c CHARACTER*80 CARD
+ CHARACTER CARD*120
+ CHARACTER TYPE*1
+ CHARACTER NRF*2
+ CHARACTER ZT*2
+ CHARACTER CHAR14*14
+ LOGICAL TEST
+ LOGICAL Is_inp_NAD83,Is_out_NAD83,Is_out1_NAD83
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ ZT = 'ZT'
+
+*** Obtain blue-book reference frame identifier
+*** corresponding to KOPT (output frame for vectors)
+ IF (KOPT .NE. -1) THEN
+ CALL RFCON1(KOPT, NBBREF)
+ WRITE(NRF,10) NBBREF
+ 10 FORMAT(I2.2)
+ ENDIF
+
+ 90 READ(I1,100,END=200,err=300,iostat=ios) CARD
+ if (ios /= 0) goto 300
+c 100 FORMAT(A80)
+ 100 FORMAT(A120)
+ TYPE = CARD(1:1)
+ IF(TYPE .eq. 'A') THEN
+ IF (CARD(79:80) .EQ. ZT) THEN
+ WRITE(LUOUT, 103)
+ 103 FORMAT(
+ 1 ' *****************************************************'/
+ 1 ' * ERROR: The input GFILE contains the letters, ZT, *'/
+ 1 ' * in columns 79-80 of its A-record. This indicates *'/
+ 1 ' * that the GPS vectors in this file have already *'/
+ 1 ' * been updated to a common date. This software *'/
+ 1 ' * will not further modify the GPS vectors. *'/
+ 1 ' *****************************************************'/)
+ RETURN
+ ENDIF
+ WRITE(CARD(79:80),101) ZT
+ 101 FORMAT(A2)
+ WRITE(CARD(4:11), 102) IYEAR, MONTH, IDAY
+ 102 FORMAT(I4, I2.2, I2.2)
+ WRITE(CARD(12:19), 102) IYEAR, MONTH, IDAY
+
+ ELSEIF(TYPE .eq. 'B') THEN
+ READ(CARD,110,err=301,iostat=ios)IYEAR1,MONTH1,IDAY1,
+ 1 IYEAR2,MONTH2,IDAY2,IBBREF
+ if (ios /= 0) goto 301
+ 110 FORMAT(1X,I4,I2,I2,4X,I4,I2,I2,30X,I2)
+C CALL TOTIME(IYEAR1,MONTH1,IDAY1,MINO1)
+C CALL TOTIME(IYEAR1, 1, 1, MIN00)
+C DECYR1 = DBLE(IYEAR1) + DBLE(MINO1 - MIN00)/525600.D0
+C CALL TOTIME(IYEAR2,MONTH2,IDAY2,MINO2)
+C CALL TOTIME(IYEAR2, 1, 1, MIN00)
+C DECYR2 = DBLE(IYEAR2) + DBLE(MINO2 - MIN00)/525600.D0
+
+ CALL IYMDMJ(IYEAR1,MONTH1,IDAY1,MJD1)
+ MINO1 = MJD1 * 24 * 60
+ CALL IYMDMJ(IYEAR1, 1, 1, MJD0)
+ DECYR1 = DBLE(IYEAR1) + DBLE(MJD1 - MJD0)/365.D0
+ CALL IYMDMJ(IYEAR2,MONTH2,IDAY2, MJD2)
+ MINO2 = MJD2 * 24 * 60
+ CALL IYMDMJ(IYEAR2, 1, 1, MJD0)
+ DECYR2 = DBLE(IYEAR2) + DBLE(MJD2 - MJD0)/365.D0
+ MINO = (MINO1 + MINO2) / 2
+ DECYR = (DECYR1 + DECYR2) / 2.D0
+ CALL RFCON(IBBREF, JREF) !JREF is the current frame or frame of input
+ IF (KOPT .NE. -1) THEN
+ CARD(52:53) = NRF
+ ENDIF
+ Is_inp_NAD83 = (JREF == 1)
+ Is_out_NAD83 = (IOPT == 1) !IOPT is the frame of the positions
+ Is_out1_NAD83 = (KOPT == 1) !IOPT is the frame of the positions
+ ELSEIF(TYPE .eq. 'C') THEN
+ READ(CARD,120,err=302,iostat=ios)ISN,JSN,DX,DY,DZ
+ if (ios /= 0) goto 302
+ 120 FORMAT(BZ,1X,2I4,F11.4,5X,F11.4,5X,F11.4)
+
+ CALL CHECK(ISN, JSN, CARD, TEST)
+ IF (TEST) THEN
+ CALL DDXYZ(ISN, JSN,
+ 1 MINO, MIN2, DDX, DDY, DDZ)
+*** Convert vector from JREF to IOPT frame
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TRAVEC (DX, DY, DZ, DECYR, JREF, IOPT)
+ else
+ call TRAVEC_IERS (DX, DY, DZ, DECYR, JREF, IOPT)
+ endif
+ DX = DX + DDX
+ DY = DY + DDY
+ DZ = DZ + DDZ
+
+*** Convert GPS vector from IOPT to KOPT reference frame
+ IF (KOPT .NE. -1) THEN
+ if (Is_out_NAD83 .or. Is_out1_NAD83) then
+ CALL TRAVEC(DX, DY, DZ, DATE2, IOPT, KOPT)
+ else
+ CALL TRAVEC_IERS(DX, DY, DZ, DATE2, IOPT, KOPT)
+ endif
+ ELSE
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ CALL TRAVEC(DX, DY, DZ, DATE2, IOPT, JREF)
+ else
+ CALL TRAVEC_IERS(DX, DY, DZ, DATE2, IOPT, JREF)
+ endif
+ ENDIF
+
+*** Rewrite GPS observational record
+ CALL TOCHAR(DX,CHAR14)
+ CARD(10:20) = CHAR14(3:13)
+
+ CALL TOCHAR(DY,CHAR14)
+ CARD(26:36) = CHAR14(3:13)
+
+ CALL TOCHAR(DZ,CHAR14)
+ CARD(42:52) = CHAR14(3:13)
+ ENDIF
+
+ ELSEIF(TYPE .eq. 'F') THEN
+ READ(CARD,140,err=303,iostat=ios)ISN,JSN,DX,DY,DZ
+ if (ios /= 0) goto 303
+ 140 FORMAT(BZ,1X,2I4,F13.4,5X,F13.4,5X,F13.4)
+
+ CALL CHECK(ISN, JSN, CARD, TEST)
+ IF (TEST) THEN
+ CALL DDXYZ(ISN, JSN,
+ 1 MINO, MIN2, DDX, DDY, DDZ)
+
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call TRAVEC( DX, DY, DZ, DECYR, JREF, IOPT)
+ else
+ call TRAVEC_IERS( DX, DY, DZ, DECYR, JREF, IOPT)
+ endif
+
+ DX = DX + DDX
+ DY = DY + DDY
+ DZ = DZ + DDZ
+
+*** Convert GPS vector to output reference frame
+ IF (KOPT .NE. -1) THEN
+ if (Is_out_NAD83 .or. Is_out1_NAD83) then
+ CALL TRAVEC(DX, DY, DZ, DATE2, IOPT, KOPT)
+ else
+ CALL TRAVEC_IERS (DX, DY, DZ, DATE2, IOPT, KOPT)
+ endif
+ ELSE
+ if (Is_out_NAD83 .or. Is_out1_NAD83) then
+ CALL TRAVEC(DX, DY, DZ, DATE2, IOPT, JREF)
+ else
+ CALL TRAVEC_IERS (DX, DY, DZ, DATE2, IOPT, JREF)
+ endif
+ ENDIF
+
+*** Rewrite GPS observational record
+ CALL TOCHAR(DX,CHAR14)
+ CARD(10:22) = CHAR14(1:13)
+
+ CALL TOCHAR(DY,CHAR14)
+ CARD(28:40) = CHAR14(1:13)
+
+ CALL TOCHAR(DZ,CHAR14)
+ CARD(46:58) = CHAR14(1:13)
+ ENDIF
+ ENDIF
+ WRITE(I2,100) CARD
+ GO TO 90
+ 200 CONTINUE
+ RETURN
+
+ 300 write (*,'(/)')
+ write (*,*) "Failed to read gfile in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 301 write (*,'(/)')
+ write (*,*) "Failed to read B card in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 302 write (*,'(/)')
+ write (*,*) "Failed to read C card in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 303 write (*,'(/)')
+ write (*,*) "Failed to read F card in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*********************************************************
+ SUBROUTINE UPGFI5(DATE2, MIN2, IOPT, KOPT,
+ * MONTH, IDAY, IYEAR)
+
+*** Update G-FILE of 5-digit blue book
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ CHARACTER CARD*180
+ CHARACTER SUBCRD*80
+ CHARACTER TYPE*1
+ CHARACTER NRF*2
+ CHARACTER ZT*2
+ CHARACTER CHAR14*14
+ LOGICAL TEST
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ ZT = 'ZT'
+
+*** Obtain blue-book reference frame identifier
+*** corresponding to IOPT
+ IF (KOPT .NE. -1) THEN
+ CALL RFCON1(KOPT, NBBREF)
+ WRITE(NRF, 10) NBBREF
+ 10 FORMAT(I2.2)
+ ENDIF
+
+ 90 READ(I1,100,END=200,err=300,iostat=ios) CARD
+ if (ios /= 0) goto 300
+ 100 FORMAT(A180)
+ TYPE = CARD(1:1)
+
+ IF (TYPE .eq. 'A') THEN
+ IF (CARD(79:80) .EQ. ZT) THEN
+ WRITE(LUOUT, 103)
+ 103 FORMAT(
+ 1 ' *****************************************************'/
+ 1 ' * ERROR: The input GFILE contains the letters, ZT, *'/
+ 1 ' * in columns 79-80 of its A-record. This indicates *'/
+ 1 ' * that the GPS vectors in this file have already *'/
+ 1 ' * been updated to a common date. This software *'/
+ 1 ' * will not further modify the GPS vectors. *'/
+ 1 ' *****************************************************'/)
+ RETURN
+ ENDIF
+ WRITE(CARD(79:80), 101) ZT
+ 101 FORMAT(A2)
+ WRITE(CARD(4:11), 102) IYEAR, MONTH, IDAY
+ 102 FORMAT(I4, I2.2, I2.2)
+ WRITE(CARD(12:19), 102) IYEAR, MONTH, IDAY
+
+ ELSEIF(TYPE .eq. 'B') THEN
+ READ(CARD,110,err=301,iostat=ios)IYEAR1,MONTH1,IDAY1,
+ 1 IYEAR2,MONTH2,IDAY2,IBBREF
+ if (ios /= 0) goto 301
+ 110 FORMAT(1X,I4,I2,I2,4X,I4,I2,I2,30X,I2)
+C CALL TOTIME(IYEAR1,MONTH1,IDAY1,MINO1)
+C CALL TOTIME(IYEAR1, 1, 1, MIN00)
+C DECYR1 = DBLE(IYEAR1) + DBLE(MINO1 - MIN00)/525600.D0
+C CALL TOTIME(IYEAR2,MONTH2,IDAY2,MINO2)
+C CALL TOTIME(IYEAR2, 1, 1, MIN00)
+ CALL IYMDMJ(IYEAR1,MONTH1,IDAY1,MJD1)
+ MINO1 = MJD1 * 24 * 60
+ CALL IYMDMJ(IYEAR1, 1, 1, MJD0)
+ DECYR1 = DBLE(IYEAR1) + DBLE(MJD1 - MJD0)/365.D0
+ CALL IYMDMJ(IYEAR2, MONTH2,IDAY2, MJD2)
+ MINO2 = MJD2 * 24 * 60
+ CALL IYMDMJ(IYEAR2, 1, 1, MJD0)
+ DECYR2 = DBLE(IYEAR2) + DBLE(MJD2 - MJD0)/365.D0
+C DECYR2 = DBLE(IYEAR2) + DBLE(MINO2 - MIN00)/525600.D0
+ MINO = (MINO1 + MINO2) / 2
+ DECYR = (DECYR1 + DECYR2) / 2.D0
+ CALL RFCON(IBBREF, JREF)
+ IF (KOPT .NE. -1) THEN
+ CARD(52:53) = NRF
+ ENDIF
+
+ ELSEIF(TYPE .eq. 'F') THEN
+ READ(CARD,140,err=303,iostat=ios)ISN,DX,DY,DZ,JSN
+ if (ios /= 0) goto 303
+ 140 FORMAT(BZ,1X,I5,3X,F13.4,5X,F13.4,5X,F13.4,T81,I5)
+
+ SUBCRD = CARD(1:80)
+ CALL CHECK(ISN, JSN, SUBCRD, TEST)
+ IF (TEST) THEN
+ CALL DDXYZ(ISN, JSN,
+ 1 MINO,MIN2,DDX, DDY, DDZ)
+
+ call TRAVEC( DX, DY, DZ, DECYR, JREF, IOPT)
+
+ DX = DX + DDX
+ DY = DY + DDY
+ DZ = DZ + DDZ
+
+*** Convert GPS vector to outout reference frame
+ IF (KOPT .NE. -1) THEN
+ CALL TRAVEC(DX, DY, DZ, DATE2, IOPT, KOPT)
+ ELSE
+ CALL TRAVEC(DX, DY, DZ, DATE2, IOPT, JREF)
+ ENDIF
+
+*** Rewrite GPS observational record
+ CALL TOCHAR(DX,CHAR14)
+ CARD(10:22) = CHAR14(1:13)
+
+ CALL TOCHAR(DY,CHAR14)
+ CARD(28:40) = CHAR14(1:13)
+
+ CALL TOCHAR(DZ,CHAR14)
+ CARD(46:58) = CHAR14(1:13)
+
+ ISHIFT = IDNINT(DDX * 10000.D0)
+ WRITE(CARD(115:121),150) ISHIFT
+ 150 FORMAT(I7)
+
+ ISHIFT = IDNINT(DDY * 10000.D0)
+ WRITE(CARD(125:131),150) ISHIFT
+
+ ISHIFT = IDNINT(DDZ * 10000.D0)
+ WRITE(CARD(135:141),150) ISHIFT
+ ENDIF
+
+ ENDIF
+ WRITE(I2,100) CARD
+ GO TO 90
+ 200 CONTINUE
+ RETURN
+
+ 300 write (*,'(/)')
+ write (*,*) "Failed to read gfile in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 301 write (*,'(/)')
+ write (*,*) "Failed to read B card in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 302 write (*,'(/)')
+ write (*,*) "Failed to read C card in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 303 write (*,'(/)')
+ write (*,*) "Failed to read F card in UPGFIG:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*********************************************************
+ SUBROUTINE TODMSS(val,id,im,s,isign)
+
+*** convert position radians to deg,min,sec
+*** range is [-twopi to +twopi]
+
+ implicit double precision(a-h,o-z)
+ IMPLICIT INTEGER*4 (I-N)
+ common/CONST/A,F,E2,EP2,AF,PI,TWOPI,RHOSEC
+
+ 1 if(val.gt.twopi) then
+ val=val-twopi
+ go to 1
+ endif
+
+ 2 if(val.lt.-twopi) then
+ val=val+twopi
+ go to 2
+ endif
+
+ if(val.lt.0.d0) then
+ isign=-1
+ else
+ isign=+1
+ endif
+
+ s=dabs(val*RHOSEC/3600.D0)
+ id=idint(s)
+ s=(s-id)*60.d0
+ im=idint(s)
+ s=(s-im)*60.d0
+
+*** account for rounding error
+
+ is=idnint(s*1.d5)
+ if(is.ge.6000000) then
+ s=0.d0
+ im=im+1
+ endif
+ if(im.ge.60) then
+ im=0
+ id=id+1
+ endif
+
+ return
+ end
+*********************************************************
+ SUBROUTINE SETRF
+
+*** Specify arrays that may be used to convert
+*** a reference frame identifier in the blue book
+*** to a reference frame identifier in HTDP and back
+
+ IMPLICIT INTEGER*4 (I-N)
+ parameter ( numref = 16 )
+ COMMON /REFCON/ IRFCON(36), JRFCON(numref)
+
+*** From blue book identifier to HTDP indentifier
+*** WGS 72 Precise
+c IRFCON(1) = 10
+ IRFCON(1) = 1
+C HTDP no longer supports WGS 72. Hence, if a BlueBook
+C file contains WGS 72 coordinates, HTDP treats these
+C coordinates as if they were NAD 83(2011)coordinates.
+
+*** WGS 84 (orig) Precise (set equal to NAD 83)
+ IRFCON(2) = 1
+
+*** WGS 72 Broadcast
+c IRFCON(3) = 10
+ IRFCON(3) = 1
+C HTDP no longer supports WGS 72. Hence, if a BlueBook
+C file contains WGS 72 coordinates, HTDP treats these
+C coordinates as if they were NAD 83(2011)coordinates.
+
+*** WGS 84 (orig) Broadcast (set equal to NAD 83)
+ IRFCON(4) = 1
+
+*** ITRF89
+ IRFCON(5) = 3
+
+*** PNEOS 90 or NEOS 91.25 (set equal to ITRF90)
+ IRFCON(6) = 4
+
+*** NEOS 90 (set equal to ITRF90)
+ IRFCON(7) = 4
+
+*** ITRF91
+ IRFCON(8) = 5
+
+*** SIO/MIT 92.57 (set equal to ITRF91)
+ IRFCON(9) = 5
+
+*** ITRF91
+ IRFCON(10) = 5
+
+*** ITRF92
+ IRFCON(11) = 6
+
+*** ITRF93
+ IRFCON(12) = 7
+
+*** WGS 84 (G730) Precise (set equal to ITRF91)
+ IRFCON(13) = 5
+
+*** WGS 84 (G730) Broadcast (set equal to ITRF91)
+ IRFCON(14) = 5
+
+*** ITRF94
+ IRFCON(15) = 8
+
+*** WGS 84 (G873) Precise (set equal to ITRF94)
+ IRFCON(16) = 8
+
+*** WGS 84 (G873) Broadcast (set equal to ITRF94)
+ IRFCON(17) = 8
+
+*** ITRF96
+ IRFCON(18) = 8
+
+*** ITRF97
+ IRFCON(19) = 9
+
+*** IGS97
+ IRFCON(20) = 9
+
+*** ITRF00
+ IRFCON(21) = 11
+
+*** IGS00
+ IRFCON(22) = 11
+
+*** WGS 84 (G1150)
+ IRFCON(23) = 11
+
+*** IGb00
+ IRFCON(24) = 11
+
+*** ITRF2005
+ IRFCON(25) = 14
+
+*** IGS05
+ IRFCON(26) = 14
+
+*** IGS08
+ IRFCON(27) = 15
+
+*** IGB08
+ IRFCON(28) = 15
+
+*** ITRF2008
+ IRFCON(29) = 15
+
+*** WGS84 (G1674)
+ IRFCON(30) = 15
+
+*** WGS84 (G1762)
+ IRFCON(31) = 15
+
+*** ITRF2014
+ IRFCON(32) = 16
+
+*** IGB14
+ IRFCON(33) = 16
+
+*** NAD83 (2011/2007/CORS96/FBN/HARN)
+ IRFCON(34) = 1
+
+*** NAD83 (PA11)
+ IRFCON(35) = 12
+
+*** NAD83 (MA11)
+ IRFCON(36) = 13
+
+*** From HTDP identifier to blue book identifier
+*** NAD 83 (set equal to WGS 84 (transit))
+c JRFCON(1) = 2
+ JRFCON(1) = 34
+
+*** ITRF88 (set equal to ITRF89)
+ JRFCON(2) = 5
+
+*** ITRF89
+ JRFCON(3) = 5
+
+*** ITRF90 (set equal to NEOS 90)
+ JRFCON(4) = 7
+
+*** ITRF91
+ JRFCON(5) = 8
+
+*** ITRF92
+ JRFCON(6) = 11
+
+*** ITRF93
+ JRFCON(7) = 12
+
+*** ITRF96 (= ITRF94)
+ JRFCON(8) = 18
+
+*** ITRF97
+ JRFCON(9) = 19
+
+*** WGS 72
+ JRFCON(10) = 1
+
+*** ITRF00
+ JRFCON(11) = 21
+
+*** NAD 83 (PACP00) or NAD 83 (PA11)
+c JRFCON(12) = 0
+c JRFCON(12) = 2
+ JRFCON(12) = 35
+C Michael Dennis requested that HTDP identify
+C NAD 83 (PA11) coordinates as WGS 84(transit)
+C coordinates in the Bluebook context
+
+*** NAD 83 (MARP00) or NAD 83 (MA11)
+c JRFCON(13) = 0
+c JRFCON(13) = 2
+ JRFCON(13) = 36
+C Michael Dennis requested that HTDP identify
+C NAD 83 (MA11) coordinates as WGS 84(transit)
+C coordinates in the Bluebook context
+
+*** ITRF2005 or IGS05
+ JRFCON(14) = 26
+
+*** ITRF2008 or IGS08
+ JRFCON(15) = 27
+
+*** IGB08
+ JRFCON(15) = 28
+
+*** ITRF2014 or IGS14
+ JRFCON(16) = 33
+
+ RETURN
+ END
+***************************************************
+ SUBROUTINE RFCON(IBBREF, JREF)
+
+*** Convert reference frame identifier from
+*** system used in the blue-book to the
+*** system used in HTDP
+
+ IMPLICIT INTEGER*4 (I-N)
+ parameter ( numref = 16 )
+ COMMON /REFCON/ IRFCON(36), JRFCON(numref)
+
+ IF (1 .LE. IBBREF .AND. IBBREF .LE. 36) THEN
+ JREF = IRFCON(IBBREF)
+ ELSE
+ WRITE(6, 10) IBBREF
+ 10 FORMAT(' Improper reference frame identifier (=',
+ 1 I4, ')' /
+ 1 ' appearing in B-record of the G-FILE')
+ STOP
+ ENDIF
+
+ RETURN
+ END
+*******************************************************
+ SUBROUTINE RFCON1(JREF, IBBREF)
+
+*** Convert reference frame identifier from
+*** system used in HTDP to the system
+*** used in the blue-book
+
+ IMPLICIT INTEGER*4 (I-N)
+ parameter ( numref = 16 )
+ COMMON /REFCON/ IRFCON(36), JRFCON(numref)
+
+ IF (JREF .EQ. 0) THEN
+ I = 1
+ ELSE
+ I = JREF
+ ENDIF
+
+ IF(1. LE. I .AND. I .LE. numref) THEN
+ IBBREF = JRFCON(I)
+ IF ( IBBREF .eq. 0) THEN
+ write(6,5) JREF
+ 5 format(' ERROR: The BlueBook does not recognize '/
+ * 'this reference frame, HTDP ID = ',I2)
+ stop
+ ENDIF
+
+ ELSE
+ WRITE(6, 10) JREF
+ 10 FORMAT(' Improper reference frame identifier (=',
+ * I4, ')' / 'appearing in routine RFCON1')
+ STOP
+ ENDIF
+
+ RETURN
+ END
+*****************************************************************
+
+ subroutine TRAVEC(dxi, dyi, dzi, date, jopt1, jopt2)
+
+*** Transform GPS or other vector from one reference frame to another
+*** for the given date
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+*** (dxi, dyi, dzi) --> (input) components of input vector in meters
+*** --> (output) components of transformed vector in meters
+
+*** date --> (input) time (decimal years) to which the input & output
+*** vectors correspond
+
+*** jopt1 --> (input) specifier of reference frame for input vector
+*** jopt2 --> (input) specifier of reference frame for output vector
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /tranpa/ tx(numref), ty(numref), tz(numref),
+ & dtx(numref), dty(numref), dtz(numref),
+ & rx(numref), ry(numref), rz(numref),
+ & drx(numref), dry(numref), drz(numref),
+ & scale(numref), dscale(numref), refepc(numref)
+
+*** Transform input vector to ITRF94 reference frame
+ if (jopt1 .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt1
+ endif
+
+ dtime = date - refepc(iopt)
+ rotnx = -(rx(iopt) + drx(iopt)*dtime)
+ rotny = -(ry(iopt) + dry(iopt)*dtime)
+ rotnz = -(rz(iopt) + drz(iopt)*dtime)
+ ds = 1.d0 - (scale(iopt) + dscale(iopt)*dtime)
+
+ dxt = + ds*dxi + rotnz*dyi - rotny*dzi
+ dyt = - rotnz*dxi + ds*dyi + rotnx*dzi
+ dzt = + rotny*dxi - rotnx*dyi + ds*dzi
+
+*** Transform ITRF94 vector to new reference frame
+ if (jopt2 .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt2
+ endif
+
+ dtime = date - refepc(iopt)
+ rotnx = rx(iopt) + drx(iopt)*dtime
+ rotny = ry(iopt) + dry(iopt)*dtime
+ rotnz = rz(iopt) + drz(iopt)*dtime
+ ds = 1.d0 + scale(iopt) + dscale(iopt)*dtime
+
+ dxi = + ds*dxt + rotnz*dyt - rotny*dzt
+ dyi = - rotnz*dxt + ds*dyt + rotnx*dzt
+ dzi = + rotny*dxt - rotnx*dyt + ds*dzt
+
+ return
+ end
+
+***********************************************************
+
+ subroutine TRAVEC_IERS(dxi, dyi, dzi, date, jopt1, jopt2)
+
+*** Transform GPS or other vector from one reference frame to another
+*** for the given date, using the IERS 96-97 transformation parameters
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+*** (dxi, dyi, dzi) --> (input) components of input vector in meters
+*** --> (output) components of transformed vector in meters
+
+*** date --> (input) time (decimal years) to which the input & output
+*** vectors correspond
+
+*** jopt1 --> (input) specifier of reference frame for input vector
+*** jopt2 --> (input) specifier of reference frame for output vector
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+
+ common /tranpa1/ tx1(numref), ty1(numref), tz1(numref),
+ & dtx1(numref), dty1(numref), dtz1(numref),
+ & rx1(numref), ry1(numref), rz1(numref),
+ & drx1(numref), dry1(numref), drz1(numref),
+ & scale1(numref), dscale1(numref), refepc1(numref)
+
+
+*** Transform input vector to ITRF94 reference frame
+ if (jopt1 .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt1
+ endif
+
+ dtime = date - refepc1(iopt)
+ rotnx = -(rx1(iopt) + drx1(iopt)*dtime)
+ rotny = -(ry1(iopt) + dry1(iopt)*dtime)
+ rotnz = -(rz1(iopt) + drz1(iopt)*dtime)
+ ds = 1.d0 - (scale1(iopt) + dscale1(iopt)*dtime)
+
+ dxt = + ds*dxi + rotnz*dyi - rotny*dzi
+ dyt = - rotnz*dxi + ds*dyi + rotnx*dzi
+ dzt = + rotny*dxi - rotnx*dyi + ds*dzi
+
+*** Transform ITRF94 vector to new reference frame
+ if (jopt2 .eq. 0) then
+ iopt = 1
+ else
+ iopt = jopt2
+ endif
+
+ dtime = date - refepc1(iopt)
+ rotnx = rx1(iopt) + drx1(iopt)*dtime
+ rotny = ry1(iopt) + dry1(iopt)*dtime
+ rotnz = rz1(iopt) + drz1(iopt)*dtime
+ ds = 1.d0 + scale1(iopt) + dscale1(iopt)*dtime
+
+ dxi = + ds*dxt + rotnz*dyt - rotny*dzt
+ dyi = - rotnz*dxt + ds*dyt + rotnx*dzt
+ dzi = + rotny*dxt - rotnx*dyt + ds*dzt
+
+ return
+ end
+
+***********************************************************
+ SUBROUTINE GETPNT(LATD,LATM,SLAT,LATDIR,LOND,LONM,SLON,
+ 1 LONDIR, NAME, X,Y,Z,XLAT,XLON,EHT)
+
+*** Interactively obtain name and coordinates for a point.
+*** Output longitude will be positive west.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ CHARACTER NAME*24
+ CHARACTER COPT*1,LATDIR*1,LONDIR*1
+ LOGICAL FRMXYZ
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+ WRITE(LUOUT,100)
+ 100 FORMAT(' Enter name for point (24 character max). ')
+ READ(LUIN,105,err=200,iostat=ios) NAME
+ if (ios /= 0) goto 200
+ 105 FORMAT(A24)
+
+ 110 WRITE(LUOUT,111)
+ 111 FORMAT(' How do you wish to specify positional coordinates:'/
+ 1 ' 1...geodetic latitude, longitude, ellipsoid height'/
+ 2 ' 2...Cartesian (X,Y,Z) coordinates. ')
+ READ(LUIN,'(A1)',err=201,iostat=ios) COPT
+ if (ios /= 0) goto 201
+
+ IF(COPT .EQ. '1') THEN
+ WRITE(LUOUT,115)
+ 115 FORMAT(
+ 1 ' Enter latitude degrees-minutes-seconds in free format'/,
+ 2 ' with north being positive. For example, 35,17,28.3 '/
+ 2 ' For a point in the southern hemisphere, enter a minus sign'/
+ 3 ' before each value. For example, -35,-17,-28.3')
+ READ(LUIN,*,err=202,iostat=ios) LATD, LATM, SLAT
+ if (ios /= 0) goto 202
+ WRITE(LUOUT,120)
+ 120 FORMAT(
+ 1 ' Enter longitude degrees-minutes-seconds in free format'/,
+ 2 ' with west being positive. To express a longitude measured'/
+ 3 ' eastward, enter a minus sign before each value.')
+ READ(LUIN,*,err=203,iostat=ios) LOND, LONM, SLON
+ if (ios /= 0) goto 203
+ WRITE(LUOUT, 125)
+ 125 FORMAT(
+ 1 ' Enter ellipsoid height in meters. (Note that'/,
+ 1 ' predicted motions are independent of this height.) ')
+ READ(LUIN,*,err=204,iostat=ios) EHT
+ if (ios /= 0) goto 204
+ XLAT = (DBLE((LATD*60 + LATM)*60) + SLAT)/RHOSEC
+ LATDIR = 'N'
+ IF (XLAT .lt. 0.0D0) then
+ LATD = - LATD
+ LATM = - LATM
+ SLAT = - SLAT
+ LATDIR = 'S'
+ ENDIF
+ XLON = (DBLE((LOND*60 + LONM)*60) + SLON)/RHOSEC
+ ELON = -XLON
+ CALL TOXYZ(XLAT,ELON,EHT,X,Y,Z)
+ LONDIR = 'W'
+ IF (XLON .lt. 0.0D0) then
+ LOND = -LOND
+ LONM = -LONM
+ SLON = -SLON
+ LONDIR = 'E'
+ ENDIF
+
+ ELSEIF(COPT .EQ. '2') THEN
+ WRITE(LUOUT,130)
+ 130 FORMAT(' Enter X coordinate in meters. ')
+ READ(LUIN,*,err=205,iostat=ios) X
+ if (ios /= 0) goto 205
+ WRITE(LUOUT,140)
+ 140 FORMAT(' Enter Y coordinate in meters. ')
+ READ(LUIN,*,err=206,iostat=ios) Y
+ if (ios /= 0) goto 206
+ WRITE(LUOUT,150)
+ 150 FORMAT(' Enter Z coordinate in meters. ')
+ READ(LUIN,*,err=207,iostat=ios) Z
+ if (ios /= 0) goto 207
+ IF(.NOT.FRMXYZ(X,Y,Z,XLAT,XLON,EHT)) STOP 666
+ XLON = -XLON
+ IF(XLON .LT. 0.0D0) XLON = XLON + TWOPI
+ CALL TODMSS(XLAT,LATD,LATM,SLAT,ISIGN)
+ LATDIR = 'N'
+ IF (ISIGN .eq. -1) LATDIR = 'S'
+ CALL TODMSS(XLON,LOND,LONM,SLON,ISIGN)
+ LONDIR = 'W'
+ IF (ISIGN .eq. -1) LONDIR = 'E'
+ ELSE
+ WRITE(LUOUT,*) ' Improper response -- try again. '
+ GO TO 110
+ ENDIF
+
+ RETURN
+
+ 200 write (*,'(/)')
+ write (*,*) "Failed to read point name: ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 201 write (*,'(/)')
+ write (*,*) "Failed to read Coord. form option:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 202 write (*,'(/)')
+ write (*,*) "Failed to read latitude:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 203 write (*,'(/)')
+ write (*,*) "Failed to read longitude:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 204 write (*,'(/)')
+ write (*,*) "Failed to read ellipsoidal height:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 205 write (*,'(/)')
+ write (*,*) "Failed to read the X coordinate:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 206 write (*,'(/)')
+ write (*,*) "Failed to read the Y coordinate:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 207 write (*,'(/)')
+ write (*,*) "Failed to read the Z coordinate:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+*****************************************************************
+ SUBROUTINE GETVLY(GLAT, GLON, VX, VY, VZ,
+ 1 VNORTH, VEAST, VUP, VOPT, IFORM)
+
+*** Interactively obtain velocity for a point
+
+ IMPLICIT DOUBLE PRECISION (A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ CHARACTER VOPT*1
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ 200 CONTINUE
+ IF (IFORM .eq. 210) then
+ WRITE(LUOUT, 210)
+ 210 FORMAT(' What is the velocity of this site relative to '/
+ 1 ' the input reference frame:'/
+ 1 ' 0...use velocity predicted by this software.'/
+ 1 ' 1...user will specify the north-east-up'/
+ 1 ' components of site velocity.'/
+ 1 ' 2...user will specify the global x-y-z'/
+ 1 ' components of site velocity.' )
+ else
+ write(luout, 211)
+ 211 FORMAT(' How do you wish to specify the velocity: '/
+ 1 ' 1...north-east-up components.'/
+ 1 ' 2...global x-y-z components.' )
+ endif
+
+ READ(LUIN, '(A1)',err=300,iostat=ios) VOPT
+ if (ios /= 0) goto 300
+
+ IF (VOPT .EQ. '0') THEN
+ CONTINUE
+ ELSEIF (VOPT .EQ. '1') THEN
+ WRITE(LUOUT, 220)
+ 220 FORMAT( ' Enter north-south component of velocity in mm/yr'/
+ 1 ' with north being positive and south being negative')
+ READ(LUIN, *,err=301,iostat=ios) VNORTH
+ if (ios /= 0) goto 301
+ WRITE(LUOUT, 221)
+ 221 FORMAT( ' Enter east-west component of velocity in mm/yr'/
+ 1 ' with east being positive and west being negative')
+ READ(LUIN, *,err=302,iostat=ios) VEAST
+ if (ios /= 0) goto 302
+ WRITE(LUOUT, 222)
+ 222 FORMAT( ' Enter vertical component of velocity in mm/yr'/
+ 1 ' with up being positive and down being negative'/
+ 1 ' or enter 0.0 if unknown.')
+ READ(LUIN, *,err=303,iostat=ios) VUP
+ if (ios /= 0) goto 303
+ CALL TOVXYZ( GLAT, GLON, VNORTH, VEAST, VUP, VX, VY, VZ)
+ ELSEIF (VOPT .EQ. '2') THEN
+ WRITE(LUOUT, *) ' Enter x-component of velocity in mm/yr.'
+ READ(LUIN, *,err=304,iostat=ios) VX
+ if (ios /= 0) goto 304
+ WRITE(LUOUT, *) ' Enter y-component of velocity in mm/yr.'
+ READ(LUIN, *,err=305,iostat=ios) VY
+ if (ios /= 0) goto 305
+ WRITE(LUOUT, *) ' Enter z-component of velocity in mm/yr.'
+ READ(LUIN, *,err=306,iostat=ios) VZ
+ if (ios /= 0) goto 306
+ CALL TOVNEU(GLAT, GLON, VX, VY, VZ, VNORTH, VEAST, VUP)
+ ELSE
+ WRITE(LUOUT, *) 'Improper response -- try again. '
+ GO TO 200
+ ENDIF
+ RETURN
+
+ 300 write (*,'(/)')
+ write (*,*) "Failed to read form of velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 301 write (*,'(/)')
+ write (*,*) "Failed to read North velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 302 write (*,'(/)')
+ write (*,*) "Failed to read East velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 303 write (*,'(/)')
+ write (*,*) "Failed to read Up velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 304 write (*,'(/)')
+ write (*,*) "Failed to read X velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 305 write (*,'(/)')
+ write (*,*) "Failed to read Y velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 306 write (*,'(/)')
+ write (*,*) "Failed to read Z velocity:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+
+************************************************************************
+ SUBROUTINE COMPSN(YLATT,YLONT,HTT,YLAT,YLON,HT,
+ 1 MIN,VN, VE, VU)
+
+*** Compute the position of a point at specified time
+*** Upon input VN, VE, and VU are in mm/yr
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NDLOC = 2195)
+
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /TIMREF/ ITREF
+ COMMON /QPARM/ STRIKE(NDLOC), HL(NDLOC), EQLAT(NDLOC),
+ 1 EQLON(NDLOC), SSLIP(NDLOC), DSLIP(NDLOC),
+ 1 DIP(NDLOC), DEPTH(NDLOC), WIDTH(NDLOC),
+ 1 EQLATR(50),EQLONR(50),EQRAD(50),
+ 1 ITEQK(50),NLOC(50),NFP(50),NUMEQ
+ COMMON /FILES/ LUIN,LUOUT, I1, I2, I3, I4, I5, I6
+
+** Compute the contribution due to constant velocity
+ DTIME = DBLE(MIN - ITREF) / 525960.D0
+ CALL RADR8T(YLAT,VN,VE,VNR,VER)
+ YLATT = YLAT + VNR*DTIME
+ YLONT = YLON - VER*DTIME
+ HTT = HT + ((VU * DTIME) /1000.D0)
+c write (*,*) "FROM COMPSN ",YLATT*180.d0/pi,YLONT*180.d0/pi,
+c & HTT
+c write (*,*) "FROM COMPSN ",ITREF,MIN,DTIME
+
+** Compute the contribution due to earthquakes.
+** It is assumed that the components of displacement,
+** DNORTH,DWEST,DUP, do not vary from one reference
+** frame to another given the accuracy of dislocation
+** models.
+ DO 10 I = 1, NUMEQ
+ IF(ITEQK(I) .GT. ITREF) THEN
+ NTIME = 1
+ ELSE
+ NTIME = 0
+ ENDIF
+ IF(MIN .LT. ITEQK(I)) NTIME = NTIME - 1
+ IF(NTIME .NE. 0) THEN
+ CALL RADII(EQLATR(I),RADMER,RADPAR)
+ DDLAT = (YLAT - EQLATR(I))*RADMER
+ DDLON = (YLON - EQLONR(I))*RADPAR
+ DIST = DSQRT(DDLAT*DDLAT + DDLON*DDLON)
+ IF(DIST .LE. EQRAD(I)) THEN
+ ISTART = NLOC(I)
+ IEND = NLOC(I) + NFP(I) - 1
+ DO 5 JREC = ISTART,IEND
+ CALL DISLOC(YLAT,YLON,STRIKE(JREC),HL(JREC),
+ & EQLAT(JREC),EQLON(JREC),SSLIP(JREC),
+ & DSLIP(JREC),DIP(JREC),DEPTH(JREC),
+ & WIDTH(JREC),DNORTH,DWEST,DUP)
+ YLATT = YLATT + NTIME*DNORTH
+ YLONT = YLONT + NTIME*DWEST
+ HTT = HTT + NTIME*DUP
+ 5 CONTINUE
+ ENDIF
+ ENDIF
+ 10 CONTINUE
+
+*** Compute contribution due to postseismic deformation
+ CALL PSDISP(YLAT, YLON, MIN, DNORTH, DEAST, DUP)
+c write (*,*) "FROM COMPSN DISP ",DNORTH, DEAST, DUP
+ CALL RADII (YLAT, RMER, RPAR)
+ YLATT = YLATT + DNORTH/RMER
+ YLONT = YLONT - DEAST/RPAR
+ HTT = HTT + DUP
+ RETURN
+ END
+***************************************************************
+ SUBROUTINE NEWCOR(YLAT,YLON,HTOLD,MIN1,MIN2,
+ 1 YLAT3,YLON3,HTNEW,DN,DE,DU,VN, VE, VU)
+
+*** Predict coordinates at time MIN2 given coordinates at time MIN1.
+*** Predict displacements from time MIN1 to time MIN2.
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+ HT = HTOLD
+
+ CALL COMPSN(YLAT1,YLON1,HT1,YLAT,YLON,HT,
+ 1 MIN1,VN, VE, VU)
+
+ CALL COMPSN(YLAT2,YLON2,HT2,YLAT,YLON,HT,
+ 1 MIN2, VN, VE, VU)
+
+ YLAT3 = YLAT + YLAT2 - YLAT1
+ YLON3 = YLON + YLON2 - YLON1
+ HTNEW = HT + HT2 - HT1
+c write (*,*) "FROM NEWCOR ",YLAT3*180.d0/pi,YLON3*180.d0/pi,
+c & HTNEW
+
+ CALL RADII(YLAT,RADMER,RADPAR)
+
+ DN = RADMER * (YLAT2 - YLAT1)
+ DE = -RADPAR * (YLON2 - YLON1)
+ DU = HT2 - HT1
+c write (*,*) "FROM NEWCOR displacement ",DN,DE,DU
+c write (*,*) "FROM NEWCOR ",YLAT*180.d0/pi,YLON*180.d0/pi,HT
+c write (*,*) "FROM NEWCOR ",YLAT1*180.d0/pi,YLON1*180.d0/pi,HT1
+c write (*,*) "FROM NEWCOR ",YLAT2*180.d0/pi,YLON2*180.d0/pi,HT2
+c write (*,*) "FROM NEWCOR ",YLAT3*180.d0/pi,YLON3*180.d0/pi,HTNEW
+
+ RETURN
+ END
+******************************************************************
+ subroutine PREDV (ylat,ylon,eht,date,iopt,jregn,vn,ve,vu)
+
+** Predict velocity in iopt reference frame
+
+** ylat input - north latitude (radians)
+** ylon input - west longitude (radians)
+** eht input - ellipsoid height (meters)
+** date input - date (decimal years)
+** iopt input - reference frame
+** jregn output - deformation region
+** vn output - northward velocity in mm/yr
+** ve output - eastward velocity in mm/yr
+** vu output - upward velocity in mm/yr
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ logical Is_iopt_NAD83
+
+** Get reference latitude (RLAT) and reference longitude (RLON)
+
+C The following 2 lines were added on 07/22/2015 after Rich found this bug
+ elon = -ylon
+ call TOXYZ(ylat, elon, eht, x, y, z)
+
+c IF(IOPT .EQ. 0 .OR. IOPT .EQ. 1) THEN !Velocity grids are No longer in NAD83
+ IF(IOPT .EQ. 15) THEN !They are in ITRF2008
+ RLAT = YLAT
+ RLON = YLON
+ ELSE
+c elon = -ylon !Was a bug, commented out on 07222015
+c call TOXYZ(ylat, elon, eht, x, y, z) !Was a bug, commented out on 07222015
+c CALL XTONAD(X,Y,Z,RLAT,RLON,EHTNAD,DATE,IOPT) !No longer NAD83
+ CALL XTO08 (X,Y,Z,RLAT,RLON,EHTNAD,DATE,IOPT) !Positions should be in ITRF2008
+ ENDIF
+
+** Get deformation region
+
+ CALL GETREG(RLAT,RLON,JREGN)
+c write (*,*) JREGN
+ IF (JREGN .EQ. 0) THEN
+ VN = 0.D0
+ VE = 0.D0
+ VU = 0.D0
+ RETURN
+ ENDIF
+ CALL COMVEL( RLAT, RLON, JREGN, VN, VE, VU) !Those velocities are in ITRF2008
+
+** Convert velocity to reference of iopt, if iopt != NAD83 !No, was in ITRF2008, not in NAD83 (since 09/12/2014)
+
+ Is_iopt_NAD83 = (iopt == 1)
+c IF (IOPT .NE. 0 .AND. IOPT .NE. 1) THEN
+ IF (IOPT .NE. 15) THEN
+ CALL TOVXYZ( YLAT, ELON, VN, VE, VU, VX, VY, VZ)
+ if (Is_iopt_NAD83) then
+c CALL VTRANF( X, Y, Z, VX, VY, VZ, 1, IOPT)
+ CALL VTRANF( X, Y, Z, VX, VY, VZ, 15, IOPT)
+ else
+ CALL VTRANF_IERS( X, Y, Z, VX, VY, VZ, 15, IOPT)
+ endif
+ CALL TOVNEU( YLAT, ELON, VX, VY, VZ, VN, VE, VU)
+ ENDIF
+c write (*,*) "From PREDV ",VN, VE, VU
+
+ RETURN
+ END
+
+****************************************************************
+ subroutine TRFVEL
+
+*** Transform velocities from one reference frame to another
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ parameter (numref = 16)
+ character nameif*80,name24*80
+ character namef*30
+ character frame1*24, frame2*24
+ character option*1
+ character vopt*1, LATDIR*1,LONDIR*1
+ character record*120
+ LOGICAL Is_inp_NAD83,Is_out_NAD83
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /CONST/ A, F, E2, EPS, AF, PI, TWOPI, RHOSEC
+
+ write( luout, 100)
+ 100 format(
+ 1 ' Please enter the name of the file to contain '/
+ 1 ' the transformed velocities. ')
+ read( luin, '(a30)',err=600,iostat=ios) namef
+ if (ios /= 0) goto 600
+
+ open( i2, file = namef, status = 'unknown')
+ CALL HEADER
+
+ 105 write( luout, 110)
+ 110 format( /'*******************************'/
+ 1 ' Enter the reference frame of the input velocities.')
+ call MENU1(iopt1, frame1)
+ if (iopt1 .lt. 1 .or. iopt1 .gt. numref) then
+ write( luout, *) ' Improper selection -- try again.'
+ go to 105
+ endif
+ Is_inp_NAD83 = (iopt1 == 1)
+
+ 115 write( luout, 120)
+ 120 format( /' Enter the reference frame for the output velocities.')
+ call MENU1(iopt2, frame2)
+ if (iopt2 .lt. 1 .or. iopt2 .gt. numref) then
+ write( luout, *) 'Improper selection -- try again.'
+ go to 115
+ endif
+ Is_out_NAD83 = (iopt2 == 1)
+
+ write( i2, 125) frame1, frame2
+ 125 format( ' TRANSFORMING VELOCITIES FROM ', A24, ' TO ', a24//
+ 1 16X, ' INPUT VELOCITIES OUTPUT VELOCITIES'/)
+
+ 130 write( luout, 140)
+ 140 format( /'**********************************'/
+ 1 ' Velocities will be transformed at each specified point.'/
+ 1 ' Please indicate how you wish to input points.'/
+ 1 ' 0...No more points. Return to main menu.'/
+ 1 ' 1...Individual points entered interactively.'/
+ 1 ' 2...Transform velocities contained in batch file '/
+ 1 ' of delimited records of the form: '/
+ 1 ' LAT,LON,VN,VE,VU,TEXT ' /
+ 1 ' LAT = latitude in degrees (positive north/DBL PREC)'/
+ 1 ' LON = longitude in degrees (positive west/DBL PREC)'/
+ 1 ' VN = northward velocity in mm/yr (DBL PREC) '/
+ 1 ' VE = eastwars velocity in mm/yr (DBL PREC) '/
+ 1 ' VU = upward velocity in mm/yr (DBL PREC) '/
+ 1 ' TEXT = descriptive text (CHARACTER*24) '/
+ 1 ' Example: '/
+ 1 ' 40.731671553,112.212671753, 3.7,3.8,-2.4,SALT AIR '/)
+ read( luin,'(a1)',err=601,iostat=ios) option
+ if (ios /= 0) goto 601
+ if (option .eq. '0') then
+ go to 500
+ elseif (option .eq. '1') then
+ call GETPNT( latd, latm, slat, LATDIR, lond, lonm, slon,
+ 1 LONDIR, name24, x, y, z, ylat, ylon, eht)
+ elon = - ylon
+ call GETVLY( ylat, elon, vx, vy, vz, vn, ve, vu, vopt, 211)
+ vx1 = vx
+ vy1 = vy
+ vz1 = vz
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF( x, y, z, vx1, vy1, vz1, iopt1, iopt2)
+ else
+ call VTRANF_IERS( x, y, z, vx1, vy1, vz1, iopt1, iopt2)
+ endif
+ call TOVNEU( ylat, elon, vx1, vy1, vz1, vn1, ve1, vu1)
+ xlat = (ylat*rhosec)/3600.d0
+ xlon = (ylon*rhosec)/3600.d0
+ call PRNTVL(vn, ve, vu, vx, vy, vz, vn1, ve1, vu1,
+ 1 vx1, vy1, vz1, name24, 1,xlat, xlon)
+
+ go to 130
+ elseif (option .eq. '2') then
+ eht = 0.d0
+ write (luout, 200)
+ 200 format(/' Enter name of input file: ')
+ read(luin, '(a)',err=602,iostat=ios) nameif
+ if (ios /= 0) goto 602
+
+ open (i1, file = nameif, status = 'old')
+ 210 read(i1,'(a)',end = 220,err=603,iostat=ios) record
+c 210 read(i1, *, end = 220,err=603,iostat=ios) xlat, xlon,vn,ve,vu, name24
+ call interprate_velocity_record (record,xlat,xlon,vn,ve,
+ & vu,name24)
+ if (ios /= 0) goto 603
+ ylat = (xlat*3600.d0) / rhosec
+ ylon = (xlon*3600.d0) / rhosec
+ elon = -ylon
+ call TOXYZ (ylat, elon, eht, x, y, z)
+ call TOVXYZ (ylat, elon, vn,ve,vu,vx,vy,vz)
+ vx1 = vx
+ vy1 = vy
+ vz1 = vz
+ if (Is_inp_NAD83 .or. Is_out_NAD83) then
+ call VTRANF ( x, y, z, vx1, vy1, vz1, iopt1, iopt2)
+ else
+ call VTRANF_IERS ( x, y, z, vx1, vy1, vz1, iopt1, iopt2)
+ endif
+ call TOVNEU (ylat, elon, vx1, vy1, vz1, vn1, ve1, vu1)
+ call PRNTVL (vn, ve,vu,vx,vy,vz,vn1,ve1,vu1,vx1,vy1,vz1,
+ 1 name24, 0, xlat, xlon)
+ go to 210
+ 220 close (i1, status = 'keep')
+ endif
+ 500 continue
+ close (i2, status = 'keep')
+ return
+
+ 600 write (*,'(/)')
+ write (*,*) "Failed to read file name in TRFVEL:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 601 write (*,'(/)')
+ write (*,*) "Failed to read option in TRFVEL:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 602 write (*,'(/)')
+ write (*,*) "Failed to read input file name in TRFVEL:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 603 write (*,'(/)')
+ write(*,*)"Failed to read input file format in TRFVEL:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ end
+*******************************************************************
+ SUBROUTINE VTRANF(X,Y,Z,VX,VY,VZ, IOPT1, IOPT2)
+
+*** Convert velocity from reference frame of IOPT1 to
+*** reference frame of IOPT2.
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (numref = 16)
+ common /tranpa/ tx(numref), ty(numref), tz(numref),
+ & dtx(numref), dty(numref), dtz(numref),
+ & rx(numref), ry(numref), rz(numref),
+ & drx(numref), dry(numref), drz(numref),
+ & scale(numref), dscale(numref), refepc(numref)
+
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ IF(IOPT1 .le. numref .and. IOPT2. le. numref
+ & .and. IOPT1 .gt. 0 .and. IOPT2 .gt. 0 ) THEN
+
+*** Convert from mm/yr to m/yr
+ VX = VX /1000.d0
+ VY = VY / 1000.d0
+ VZ = VZ / 1000.d0
+
+*** From IOPT1 to ITRF94
+*** (following equations use approximations assuming
+*** that rotations and scale change are small)
+ WX = -drx(iopt1)
+ WY = -dry(iopt1)
+ WZ = -drz(iopt1)
+ DS = -dscale(iopt1)
+ VX = VX - dtx(iopt1) + DS*X + WZ*Y - WY*Z
+ VY = VY - dty(iopt1) - WZ*X +DS*Y + WX*Z
+ VZ = VZ - dtz(iopt1) + WY*X - WX*Y + DS*Z
+
+*** From ITRF94 to IOPT2 reference frame
+*** (following equations use approximations assuming
+*** that rotations and scale change are small)
+ WX = drx(iopt2)
+ WY = dry(iopt2)
+ WZ = drz(iopt2)
+ DS = dscale(iopt2)
+ VX = VX + dtx(iopt2) + DS*X + WZ*Y - WY*Z
+ VY = VY + dty(iopt2) - WZ*X + DS*Y + WX*Z
+ VZ = VZ + dtz(iopt2) + WY*X - WX*Y + DS*Z
+
+*** FROM m/yr to mm/yr
+ VX = VX * 1000.d0
+ VY = VY * 1000.d0
+ VZ = VZ * 1000.d0
+
+ ELSE
+ write(luout,*) ' Improper reference frame in routine vtranf'
+ stop
+ ENDIF
+c write (*,*) "Inside VTRANF ",Vx,Vy,Vz
+
+ RETURN
+ END
+******************************************************
+ SUBROUTINE VTRANF_IERS(X,Y,Z,VX,VY,VZ, IOPT1, IOPT2)
+
+*** Convert velocity from reference frame of IOPT1 to
+*** reference frame of IOPT2.
+****************
+C Important note:
+C The parameters in common block tranpa are computed using the IGS values of ITRF96==>ITRF97
+C The parameters in common block tranpa1 are computed using the IERS values of ITRF96==>ITRF97
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (numref = 16)
+ common /tranpa1/ tx1(numref), ty1(numref), tz1(numref),
+ & dtx1(numref), dty1(numref), dtz1(numref),
+ & rx1(numref), ry1(numref), rz1(numref),
+ & drx1(numref), dry1(numref), drz1(numref),
+ & scale1(numref), dscale1(numref), refepc1(numref)
+
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ IF(IOPT1 .le. numref .and. IOPT2. le. numref
+ & .and. IOPT1 .gt. 0 .and. IOPT2 .gt. 0 ) THEN
+
+*** Convert from mm/yr to m/yr
+ VX = VX /1000.d0
+ VY = VY / 1000.d0
+ VZ = VZ / 1000.d0
+
+*** From IOPT1 to ITRF94
+*** (following equations use approximations assuming
+*** that rotations and scale change are small)
+ WX = -drx1(iopt1)
+ WY = -dry1(iopt1)
+ WZ = -drz1(iopt1)
+ DS = -dscale1(iopt1)
+ VX = VX - dtx1(iopt1) + DS*X + WZ*Y - WY*Z
+ VY = VY - dty1(iopt1) - WZ*X +DS*Y + WX*Z
+ VZ = VZ - dtz1(iopt1) + WY*X - WX*Y + DS*Z
+
+*** From ITRF94 to IOPT2 reference frame
+*** (following equations use approximations assuming
+*** that rotations and scale change are small)
+ WX = drx1(iopt2)
+ WY = dry1(iopt2)
+ WZ = drz1(iopt2)
+ DS = dscale1(iopt2)
+ VX = VX + dtx1(iopt2) + DS*X + WZ*Y - WY*Z
+ VY = VY + dty1(iopt2) - WZ*X + DS*Y + WX*Z
+ VZ = VZ + dtz1(iopt2) + WY*X - WX*Y + DS*Z
+
+*** FROM m/yr to mm/yr
+ VX = VX * 1000.d0
+ VY = VY * 1000.d0
+ VZ = VZ * 1000.d0
+
+ ELSE
+ write(luout,*) ' Improper reference frame in routine vtranf'
+ stop
+ ENDIF
+
+ RETURN
+ END
+******************************************************
+ subroutine PRNTVL(VN, VE, VU, VX, VY, VZ, VN1, VE1, VU1,
+ 1 VX1, VY1, VZ1, NAME24, IPRINT,XLAT,XLON)
+
+*** Print transformed velocities
+
+ implicit double precision (a-h, o-z)
+ implicit integer*4 (i-n)
+ character name24*80
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ if (iprint .eq. 1) then
+ write( luout, 100) vn1, ve1, vu1, vx1, vy1, vz1
+ 100 format( ' ****************************************'/
+ 1 ' New northward velocity = ', f8.2, ' mm/yr' /
+ 1 ' New eastward velocity = ', f8.2, ' mm/yr'/
+ 1 ' New upward velocity = ', f8.2, ' mm/yr'/
+ 1 ' New x velocity = ', f8.2, ' mm/yr'/
+ 1 ' New y velocity = ', f8.2, ' mm/yr'/
+ 1 ' New z velocity = ', f8.2, ' mm/yr'/)
+ endif
+
+ write( i2, 200) name24, xlat, xlon,
+ 1 vn, vn1, ve, ve1, vu, vu1,
+ 1 vx, vx1, vy, vy1, vz, vz1
+ 200 format(1x, a24 /
+ 1 1x, 'latitude = ',F14.9,2x,'longitude = ',F14.9 /
+ 1 5x, 'northward velocity ', f8.2, 6x, f8.2, ' mm/yr' /
+ 1 5x, 'eastward velocity ', f8.2, 6x, f8.2, ' mm/yr' /
+ 1 5x, 'upward velocity ', f8.2, 6x, f8.2, ' mm/yr' /
+ 1 5x, 'x velocity ', f8.2, 6x, f8.2, ' mm/yr' /
+ 1 5x, 'y velocity ', f8.2, 6x, f8.2, ' mm/yr' /
+ 1 5x, 'z velocity ', f8.2, 6x, f8.2, ' mm/yr' /)
+
+ return
+ end
+*******************************************************************
+ SUBROUTINE HEADER
+
+ IMPLICIT DOUBLE PRECISION (A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ character HTDP_version*10
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+ COMMON /VERSION/ HTDP_version
+
+ WRITE(I2, 10) HTDP_version
+ 10 FORMAT(' HTDP (VERSION ',a,') OUTPUT' / )
+ RETURN
+ END
+*********************************************
+ SUBROUTINE GETMDY(MONTH, IDAY, IYEAR, DATE, MINS, TEST)
+
+*** Read month-day-year and convert to decimal years
+*** and Julian time in minutes
+*** MONTH output - number from 1 to 12
+*** IDAY output - number from 1 to 31
+*** IYEAR output - must be after 1906
+*** DATE output - corresponding time in decimal years
+*** MINS output - corresponding julian time in minutes
+*** TEST output - if (true) then there is an error
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ DIMENSION M(12)
+ LOGICAL TEST
+ CHARACTER TOPT*1
+ COMMON /FILES/ LUIN, LUOUT, I1, I2, I3, I4, I5, I6
+
+ M(1) = 31
+ M(2) = 28
+ M(3) = 31
+ M(4) = 30
+ M(5) = 31
+ M(6) = 30
+ M(7) = 31
+ M(8) = 31
+ M(9) = 30
+ M(10) = 31
+ M(11) = 30
+ M(12) = 31
+
+ 3 WRITE (LUOUT,1)
+ 1 FORMAT (' How do you wish to enter the time?'/
+ 1 ' 1. month-day-year in free format'/
+ 1 ' for example, 5,12,1979'/
+ 1 ' represents May 12, 1979'/
+ 1 ' 2. decimal year'/
+ 1 ' for example the entry 1979.359'/
+ 1 ' represents UTC midnight at the begining'/
+ 1 ' of May 12, 1979.'/)
+
+ READ (LUIN,5,err=100,iostat=ios) TOPT
+ if (ios /= 0) goto 100
+ 5 format (A1)
+
+ IF (TOPT .EQ. '1') Then
+ write (luout,*) ' Enter month-day-year '
+ READ(LUIN,*,err=101,iostat=ios) MONTH,IDAY,IYEAR
+ if (ios /= 0) goto 101
+
+ IF(IYEAR .le. 1906) THEN
+ WRITE(LUOUT,10)
+ 10 FORMAT(' The model is not valid for dates prior ',
+ 1 'to 1906.'/)
+ TEST = .TRUE.
+ RETURN
+ ENDIF
+
+ IF(MONTH .le. 0 .or. MONTH .gt. 12) THEN
+ WRITE(LUOUT,20)
+ 20 FORMAT(' Improper month specified.'/)
+ TEST = .TRUE.
+ RETURN
+ ENDIF
+
+ IF(IDAY .le. 0 .or. IDAY .gt. 31) THEN
+ WRITE(LUOUT,30)
+ 30 FORMAT(' Improper day specified.'/)
+ TEST = .TRUE.
+ RETURN
+ ENDIF
+
+ CALL IYMDMJ(IYEAR, MONTH, IDAY, MJD)
+ CALL IYMDMJ(IYEAR, 1, 1, MJD0)
+ IYEAR1 = IYEAR + 1
+ CALL IYMDMJ(IYEAR1, 1, 1, MJD1)
+ DAY = DBLE(MJD - MJD0)
+ DENOM = DBLE(MJD1 - MJD0)
+ DATE = DBLE(IYEAR) + (DAY / DENOM)
+ MINS = MJD * 24 * 60
+ TEST = .FALSE.
+ RETURN
+
+ ELSEIF (TOPT .EQ. '2') then
+ write(luout,*) ' Enter decimal year '
+ READ (LUIN, *,err=102,iostat=ios) DATE
+ if (ios /= 0) goto 102
+
+ IF (DATE .lt. 1906.0d0) then
+ write (luout, 10)
+ TEST = .TRUE.
+ RETURN
+ ENDIF
+**** add small increment to circumvent round-off error
+c DATE = DATE + 0.0004D0
+****
+ IYEAR = DATE
+ CALL IYMDMJ(IYEAR, 1, 1, MJD0)
+ IYEAR1 = IYEAR + 1
+ CALL IYMDMJ(IYEAR1, 1, 1, MJD1)
+ LEAP = 0
+ IF ((MJD1 - MJD0) .eq. 366) LEAP = 1
+ REMDAY = (DATE - IYEAR)* (MJD1 - MJD0)
+ IBEGIN = 0
+ ITOTAL = 31
+ IF (REMDAY .LT. ITOTAL) then
+ MONTH = 1
+ IDAY = REMDAY - IBEGIN + 1
+ CALL IYMDMJ(IYEAR,MONTH,IDAY,MJD)
+ MINS = MJD * 24 * 60
+ TEST = .FALSE.
+ RETURN
+ ENDIF
+ IBEGIN = ITOTAL
+ ITOTAL = ITOTAL + LEAP
+ DO I = 2, 12
+ ITOTAL = ITOTAL + M(I)
+ IF (REMDAY .LT. ITOTAL) then
+ MONTH = I
+ IDAY = REMDAY - IBEGIN + 1
+ TEST = .FALSE.
+ CALL IYMDMJ(IYEAR,MONTH,IDAY,MJD)
+ MINS = MJD * 24 * 60
+ RETURN
+ ENDIF
+ IBEGIN = ITOTAL
+ ENDDO
+ Write(LUOUT, 60)
+ 60 Format (' Error could not convert Decimal years to '
+ 1 ,'month-day-year')
+ TEST = .TRUE.
+ RETURN
+ ELSE
+ write (luout, 70)
+ 70 format (' Improper entry')
+ Go TO 3
+ ENDIF
+
+ 100 write (*,'(/)')
+ write (*,*) "Failed to read option in GETDMY:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 101 write (*,'(/)')
+ write (*,*) "Wrong MDY input in GETDMY:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ 102 write (*,'(/)')
+ write (*,*) "Wrong decimal year in GETDMY:ios=",ios
+ write (*,*) "ABNORMAL TERMINATION"
+ write (*,*) "PLEASE CHECK YOUR INPUT FILE AND TRY AGAIN"
+ stop
+
+ END
+************************************
+ SUBROUTINE IYMDMJ( IYR, IMON, IDAY, MJD )
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C
+C NAME: IYMDMJ
+C VERSION: Sep. 17, 2010
+C WRITTEN BY: R. SNAY (after M. SCHENEWERK)
+C PURPOSE: CONVERT DATE TO MODIFIED JULIAN DATE
+C
+C INPUT PARAMETERS FROM THE ARGUEMENT LIST:
+C -----------------------------------------
+C IDAY DAY
+C IMON MONTH
+C IYR YEAR
+C
+C OUTPUT PARAMETERS FROM ARGUEMENT LIST:
+C --------------------------------------
+C MJD MODIFIED JULIAN DATE
+C
+C
+C LOCAL VARIABLES AND CONSTANTS:
+C ------------------------------
+C A TEMPORARY STORAGE
+C B TEMPORARY STORAGE
+C C TEMPORARY STORAGE
+C D TEMPORARY STORAGE
+C IMOP TEMPORARY STORAGE
+C IYRP TEMPORARY STORAGE
+C
+C GLOBAL VARIABLES AND CONSTANTS:
+C ------------------------------
+C
+C
+C THIS MODULE CALLED BY: GENERAL USE
+C
+C THIS MODULE CALLS: DINT
+C
+C INCLUDE FILES USED:
+C
+C COMMON BLOCKS USED:
+C
+C REFERENCES: DUFFETT-SMITH, PETER 1982, 'PRACTICAL
+C ASTRONOMY WITH YOUR CALCULATOR', 2ND
+C EDITION, CAMBRIDGE UNIVERSITY PRESS,
+C NEW YORK, P.9
+C
+C COMMENTS: THIS SUBROUTINE REQUIRES THE FULL YEAR,
+C I.E. 1992 RATHER THAN 92.
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C::LAST MODIFICATION
+C::8909.06, MSS, DOC STANDARD IMPLIMENTED
+C::9004.17, MSS, CHANGE ORDER YY MM DD
+C********1*********2*********3*********4*********5*********6*********7**
+C
+ IMPLICIT DOUBLE PRECISION(A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+C
+ INTEGER*4 A, B, C, D
+
+ IYRP = IYR
+C
+C........ 0.0 EXPLICIT INITIALIZATION
+C
+ IF( IMON .LT. 3 ) THEN
+ IYRP= IYRP - 1
+ IMOP= IMON + 12
+ ELSE
+ IMOP= IMON
+ END IF
+C
+C........ 1.0 CALCULATION
+C
+ A= IYRP*0.01D0
+ B= 2 - A + DINT( A*0.25D0 )
+ C= 365.25D0*IYRP
+ D= 30.6001D0*(IMOP + 1)
+ MJD = (B + C + D + IDAY - 679006)
+C
+ RETURN
+ END
+*****************************************************
+ SUBROUTINE PSDISP(YLAT, YLON, MIN, DNORTH, DEAST, DUP)
+********
+* Compute total postseismic displacement for all earthquakes
+*
+* INPUT
+* YLAT latitude of point in radians, positive north
+* YLON longitude of point in radians, positive west
+* MIN modified julian date of reference epoch for new coordinates
+* in minutes
+*
+* DNORTH Total northward postseismic displacement at point during
+* period from ITREF to MIN in meters
+* DEAST TOTAL eastward postseismic displacement
+* DUP Total upward postseismic displacement
+*******
+
+ IMPLICIT DOUBLE PRECISION (A-H, O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ LOGICAL INSIDE
+
+ parameter (NUMPSG = 1)
+ COMMON /CONST/ A, F,E2,EPS,AF,PI,TWOPI,RHOSEC
+ COMMON /TIMREF/ ITREF
+ COMMON /PSGRID/ PSGLX(NUMPSG), PSGUX(NUMPSG),
+ 1 PSGLY(NUMPSG), PSGUY(NUMPSG),
+ 1 ICNTPX(NUMPSG), ICNTPY(NUMPSG), NBASEP(NUMPSG)
+ COMMON /PGRID/ PS(18000)
+ DIMENSION ITEQ(NUMPSG)
+ DIMENSION TAU(NUMPSG)
+ DIMENSION WEI(2,2)
+ DIMENSION AMP(2,2,3)
+
+*** Relaxation constant (in years) for 2002 Denali earthquake
+ TAU(1) = 5.0D0
+
+*** Modofied Julian Date (in minutes) for the 2002 Denali earthquake
+ IYEAR = 2002
+ IMO = 11
+ IDAY = 3
+ CALL IYMDMJ(IYEAR,IMO,IDAY, MJD)
+ ITEQ(1) = MJD*60*24
+
+ DNORTH = 0.0D0
+ DEAST = 0.0D0
+ DUP = 0.0D0
+
+ DO K = 1, NUMPSG
+*** Check if the point is inside the grid
+ POSX = YLON*180.d0/PI
+ POSX = 360.d0 - POSX
+ IF (POSX .GT. 360.D0) POSX = POSX - 360.D0
+ POSY = YLAT*180.D0/PI
+ CALL GRDCHK(POSX, POSY, PSGLX(K), PSGUX(K),
+ 1 PSGLY(K), PSGUY(K), INSIDE)
+
+ IF (INSIDE ) THEN
+*** Get the indices for the lower left-hand corner of the grid
+ CALL PSGWEI(POSX,POSY,K,I,J,WEI)
+*** Get the displacement amplitude at the four corners
+ CALL GRDAMP(K,I,J,AMP,PS)
+
+ ANORTH = WEI(1,1)*AMP(1,1,1) + WEI(1,2)*AMP(1,2,1)
+ 1 + WEI(2,1)*AMP(2,1,1) + WEI(2,2)*AMP(2,2,1)
+ AEAST = WEI(1,1)*AMP(1,1,2) + WEI(1,2)*AMP(1,2,2)
+ 1 + WEI(2,1)*AMP(2,1,2) + WEI(2,2)*AMP(2,2,2)
+ AUP = WEI(1,1)*AMP(1,1,3) + WEI(1,2)*AMP(1,2,3)
+ 1 + WEI(2,1)*AMP(2,1,3) + WEI(2,2)*AMP(2,2,3)
+
+c write (6, 30) anorth, aeast, aup
+c 30 format (1x, 3f15.5)
+
+*** Convert amplitudes from mm to meters
+ ANORTH = ANORTH / 1000.D0
+ AEAST = AEAST / 1000.D0
+ AUP = AUP / 1000.D0
+
+ IF (MIN .GT. ITEQ(K)) THEN
+ DTIME = DBLE(MIN - ITEQ(K))/(60.D0*24.D0*365.D0)
+ FACTOR = 1.D0 - DEXP(-DTIME/TAU(K))
+ DNORTH = DNORTH + ANORTH*FACTOR
+ DEAST = DEAST + AEAST*FACTOR
+ DUP = DUP + AUP*FACTOR
+ ENDIF
+ IF (ITREF .GT. ITEQ(K)) THEN
+ DTIME = DBLE(ITREF - ITEQ(K))/(60.D0*24.D0*365.D0)
+ FACTOR = 1.D0 - DEXP(-DTIME/TAU(K))
+ DNORTH = DNORTH - ANORTH*FACTOR
+ DEAST = DEAST - AEAST*FACTOR
+ DUP = DUP - AUP*FACTOR
+ ENDIF
+ ENDIF
+ ENDDO
+ RETURN
+ END
+
+****************************************************
+ SUBROUTINE GRDCHK (POSX, POSY, GRDLX, GRDUX,
+ 1 GRDLY, GRDUY, INSIDE)
+
+C
+C ROUTINE CHECKS IF THE POINT HAVING COORDINATES (POSX, POSY)
+C IS WITHIN THE REGION SPANNED BY THE GRID
+C
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ LOGICAL INSIDE
+
+ INSIDE = .TRUE.
+
+ IF (POSX .LT. GRDLX .OR. POSX .GT. GRDUX) THEN
+ INSIDE = .FALSE.
+ ENDIF
+ IF (POSY .LT. GRDLY .OR. POSY .GT. GRDUY) THEN
+ INSIDE = .FALSE.
+ ENDIF
+
+ RETURN
+ END
+*******************************************************************
+ SUBROUTINE PSGWEI (POSX, POSY, K, I, J, WEI)
+
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C
+C PURPOSE: THIS SUBROUTINE RETURNS THE INDICES OF THE LOWER-LEFT
+C HAND CORNER OF THE GRID CELL CONTAINING THE POINT
+C AND COMPUTES NORMALIZED WEIGHTS FOR
+C BI-LINEAR INTERPOLATION OVER A PLANE
+C
+C INPUT PARAMETERS FROM ARGUMENT LIST:
+C ------------------------------------
+C POSX LONGITUDE OF POINT IN DEGREES, POSITIVE EAST
+C POSY LATITUDE OF POINT IN DEGREES, POSITIVE NORTH
+C K ID OF EARTHQUAKE GRID
+C
+C OUTPUT PARAMETERS FROM ARGUMENT LIST:
+C -------------------------------------
+C I, J THE COORDINATES OF LOWER LEFT CORNER OF THE GRID
+C CONTAINING THE ABOVE POSITION
+C WEI A TWO BY TWO ARRAY CONTAINING THE NORMALIZED WEIGHTS
+C FOR THE CORNER VECTORS
+C
+C GLOBAL VARIABLES AND CONSTANTS:
+C -------------------------------
+C NONE
+C
+C THIS MODULE CALLED BY: PSDISP
+C
+C THIS MODULE CALLS: NONE
+C
+C INCLUDE FILES USED: NONE
+C
+C COMMON BLOCKS USED: /PSGRID/, /CONST/
+C
+C REFERENCES: SEE RICHARD SNAY
+C
+C COMMENTS:
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C MOFICATION HISTORY:
+C::9302.11, CRP, ORIGINAL CREATION FOR DYNAP
+C::9511.09, RAS, MODIFIED FOR HTDP
+C::9712.05, RAS, MODIFIED TO ACCOUNT FOR MULTIPLE GRIDS
+C********1*********2*********3*********4*********5*********6*********7**
+
+C**** COMPUTES THE WEIGHTS FOR AN ELEMENT IN A GRID
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NUMPSG = 1)
+ DIMENSION WEI(2,2)
+ COMMON /PSGRID/ PSGLX(NUMPSG), PSGUX(NUMPSG),
+ 1 PSGLY(NUMPSG), PSGUY(NUMPSG),
+ 1 ICNTPX(NUMPSG), ICNTPY(NUMPSG), NBASEP(NUMPSG)
+ COMMON /CONST/ A,F,E2,EPS,AF,PI,TWOPI,RHOSEC
+
+C*** Obtain indices for the lower-left corner of the cell
+C*** containing the point
+ STEPX = (PSGUX(K) - PSGLX(K)) / ICNTPX(K)
+ STEPY = (PSGUY(K) - PSGLY(K)) / ICNTPY(K)
+ I = IDINT((POSX - PSGLX(K))/STEPX) + 1
+ J = IDINT((POSY - PSGLY(K))/STEPY) + 1
+c write(6,1001) K, I, J
+c1001 format(1x, 'quake = ', I5 /
+c 1 1x, ' i = ', I5 /
+c 1 1x, ' j = ', I5)
+
+C*** Compute the limits of the grid cell
+ GRLX = PSGLX(K) + (I - 1) * STEPX
+ GRUX = GRLX + STEPX
+ GRLY = PSGLY(K) + (J - 1) * STEPY
+ GRUY = GRLY + STEPY
+
+C*** Compute the normalized weights for the point
+ DENOM = (GRUX - GRLX) * (GRUY - GRLY)
+ WEI(1,1) = (GRUX - POSX) * (GRUY - POSY) / DENOM
+ WEI(2,1) = (POSX - GRLX) * (GRUY - POSY) / DENOM
+ WEI(1,2) = (GRUX - POSX) * (POSY - GRLY) / DENOM
+ WEI(2,2) = (POSX - GRLX) * (POSY - GRLY) / DENOM
+
+ RETURN
+ END
+
+C*********************************************************************
+ SUBROUTINE GRDAMP (K, I, J, AMP, PS)
+C********1*********2*********3*********4*********5*********6*********7**
+C
+C PURPOSE: THIS SUBROUTINE RETRIEVES THE AMPLITUDES OF THE FOUR
+C GRID NODES OFGRID K WHERE I,J ARE THE INDICES OF
+C THE LOWER LEFT HAND CORNER
+C
+C INPUT PARAMETERS FROM ARGUMENT LIST:
+C ------------------------------------
+C
+C K ID OF EARTHQUAKE CORRESPONDING TO GRID
+C I, J THE COORDINATES OF LOWER LEFT CORNER OF THE GRID
+C CONTAINING THE ABOVE POSITION
+C PS THE ARRAY CONTAINING ALL THE GRIDDED AMPLITUDES
+C
+C OUTPUT PARAMETERS FROM ARGUMENT LIST:
+C -------------------------------------
+C AMP A TWO BY TWO ARRAY CONTAINING THE 3D AMPLITUDES
+C FOR THE CORNERS OF THE GRID
+C
+C GLOBAL VARIABLES AND CONSTANTS:
+C -------------------------------
+C NONE
+C
+C THIS MODULE CALLED BY: PSDISP
+C
+C THIS MODULE CALLS: NONE
+C
+C INCLUDE FILES USED: NONE
+C
+C COMMON BLOCKS USED: NONE
+C
+C REFERENCES: SEE RICHARD SNAY
+C
+C COMMENTS:
+C
+C********1*********2*********3*********4*********5*********6*********7**
+C MOFICATION HISTORY:
+C::2011.08.17, RAS, ORIGINAL CREATION FOR TRANS4D
+C********1*********2*********3*********4*********5*********6*********7**
+
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ DIMENSION AMP(2,2,3), PS(*)
+
+ DO 30 II = 0,1
+ DO 20 IJ = 0,1
+ DO 10 IVEC = 1, 3
+ INDEX = IPSGRD(K, I + II, J + IJ, IVEC)
+ AMP(II + 1, IJ + 1, IVEC) = PS(INDEX)
+ 10 CONTINUE
+ 20 CONTINUE
+ 30 CONTINUE
+
+ RETURN
+ END
+
+C***************************************************
+ INTEGER FUNCTION IPSGRD(IGRID, I, J, IVEC)
+
+ IMPLICIT DOUBLE PRECISION (A-H,O-Z)
+ IMPLICIT INTEGER*4 (I-N)
+ parameter (NUMPSG = 1)
+ COMMON /PSGRID/ PSGLX(NUMPSG), PSGUX(NUMPSG),
+ 1 PSGLY(NUMPSG), PSGUY(NUMPSG),
+ 1 ICNTPX(NUMPSG), ICNTPY(NUMPSG), NBASEP(NUMPSG)
+
+ IPSGRD = NBASEP(IGRID) +
+ 1 3 * ((J - 1) * (ICNTPX(IGRID) + 1) + (I - 1)) + IVEC
+
+ RETURN
+ END
+C---------------------------------------------------------------------
+ subroutine extract_name (name,i)
+
+C In f90, use trim(name) to truncate all spaces after the name.
+C But "trim" were not available in f77. This is what this subroutine is for
+
+ implicit none
+ integer*4 i
+ character name*80,scratch*80
+
+ do i=80,1,-1
+ if (name(i:i) /= ' ') exit
+ enddo
+ scratch = name(1:i)
+ name = scratch
+
+ return
+ end
+C-----------------------------------------------------------------------------------
+ subroutine interprate_XYZ_record (record,x,y,z,name)
+
+ implicit none
+
+ integer*4 i,j,length
+ real*8 x,y,z
+ character name*80,record*120,record1*120,chars*120
+ character xxxx*80,yyyy*80,zzzz*80
+
+ record1 = trim(adjustl(record))
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == ' ') then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get x or phi
+
+ xxxx = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ xxxx(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (xxxx,*) x
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get y or lamda
+
+ yyyy = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ yyyy(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (yyyy,*) y
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get z or h
+
+ zzzz = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ zzzz(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (zzzz,*) z
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get name
+
+ name = trim(record1)
+
+C Done
+
+ return
+ end
+C-----------------------------------------------------------------------------------
+ subroutine interprate_XYZVxVyVz_record (record,x,y,z,Vx,Vy,Vz,
+ & name)
+
+ implicit none
+
+ integer*4 i,j,length
+ real*8 x,y,z,Vx,Vy,Vz
+ character name*80,record*120,record1*120,chars*120
+ character xxxx*80,yyyy*80,zzzz*80
+
+ record1 = trim(adjustl(record))
+ length = len_trim(record1)
+ chars = ' '
+
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == ' ') then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get x or phi
+
+ xxxx = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ xxxx(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (xxxx,*) x
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get y or lamda
+
+ yyyy = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ yyyy(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (yyyy,*) y
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get z or h
+
+ zzzz = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ zzzz(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (zzzz,*) z
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get Vx
+
+ xxxx = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ xxxx(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (xxxx,*) Vx
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get Vy
+
+ yyyy = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ yyyy(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (yyyy,*) Vy
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get z or h
+
+ zzzz = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ zzzz(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (zzzz,*) Vz
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+C Get name
+
+ name = trim(record1)
+
+C Done
+
+ return
+ end
+C-----------------------------------------------------------------------------------
+ subroutine interprate_latlon_record (record,x,y,name)
+
+ implicit none
+
+ integer*4 i,j,length
+ real*8 x,y,z
+ character name*24,record*120,record1*120,chars*120
+ character xxxx*80,yyyy*80,zzzz*80
+
+ record1 = trim(adjustl(record))
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == ' ') then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get x or phi
+
+ xxxx = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ xxxx(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (xxxx,*) x
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get y or lamda
+
+ yyyy = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ yyyy(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (yyyy,*) y
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get name
+
+ name = trim(record1)
+
+C Done
+
+ return
+ end
+C-----------------------------------------------------------------------------------
+ subroutine interprate_velocity_record (record,x,y,vn,ve,
+ & vu,name)
+
+ implicit none
+
+ integer*4 i,j,length
+ real*8 x,y,vn,ve,vu
+ character name*80,record*120,record1*120,chars*120
+ character xxxx*80,yyyy*80,vnnn*80,veee*80,vuuu*80
+
+ record1 = trim(adjustl(record))
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == ' ') then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get x or phi
+
+ xxxx = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ xxxx(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1)) !adjust left then trim all trailing spaces
+ read (xxxx,*) x
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get y or lamda
+
+ yyyy = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ yyyy(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (yyyy,*) y
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get vn
+
+ vnnn = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ vnnn(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (vnnn,*) vn
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get ve
+
+ veee = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ veee(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (veee,*) ve
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get vu
+
+ vuuu = '0'
+ do i=1,length
+ if (chars(i:i) == '1') then
+ vuuu(i:i) = record1(i:i)
+ record1(i:i) = ' '
+ elseif (chars(i:i) == '0') then
+ exit
+ endif
+ enddo
+ record = trim(adjustl(record1))
+ read (vuuu,*) vu
+ if (record(1:1) == ',') then
+ record(1:1) = ' '
+ endif
+ record1 = adjustl(record)
+ length = len_trim(record1)
+ chars = ' '
+ do i=1,length
+ if (record1(i:i) == ' ' .or. record1(i:i) == ',' .or.
+ & record1(i:i) == " ") then
+ chars(i:i) = '0'
+ else
+ chars(i:i) = '1'
+ endif
+ enddo
+
+C Get name
+
+ name = trim(record1)
+
+C Done
+
+ return
+ end
+C-----------------------------------------------------------------------------------
+ logical function am_I_in_or_near_CONUS (fi,la)
+
+ implicit none
+
+ integer*4 nrows,ncols,xcell,ycell,rec_num
+ integer*2 sea,code,code_UL,code_UR,code_LL,code_LR
+ real*8 fi,la,fi_max,la_min,dlamda,dfi,fi_min
+ real*8 fi1,la1,fi2,la2,la_max
+
+ character grid*80
+c logical am_I_in_or_near_CONUS,CONUS_on_land
+ logical CONUS_on_land
+
+C Constants
+
+ parameter (fi_max = 50.d0,
+ & fi_min = 23.5d0,
+ & la_min = 235.d0,
+ & la_max = 295.d0,
+ & sea = 0)
+
+C Initialize this function
+
+ am_I_in_or_near_CONUS = .false.
+
+C If clearly outside Conus
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_CONUS = .true.
+ return
+ endif
+
+ return
+ end
+C-----------------------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_AK(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you
+C are in Alaska (AK) or within 10 km of its boundaries.
+
+C "AK_direct_cell_by_cell_1min" is an unformatted direct access file of nowrs*ncols records
+C each record is of length 2 bytes (integer*2), which contains a geographic code defined as follows:
+
+C 1) The AK code is 278
+C 2) The codes for Canada are 265 to 276
+C 4) The code for sea is 0
+
+C Geographic conditions to be in or near AK:
+
+C 1) The point is on land in AK
+
+C a) code is 278
+
+C 2) In the Canada near the AK:
+
+C a) code = 265 to 276
+C c) Point is no more than 10km from AK
+
+C 3) In the sea near AK:
+
+C a) code = 0
+C c) Point is no more than 10km from AK
+
+ implicit none
+
+ integer*4 nrows,ncols,xcell,ycell,rec_num
+ integer*2 sea,code,code_UL,code_UR,code_LL,code_LR
+ real*8 fi,la,fi_max,dlamda,dfi,la_max
+ real*8 fi1,la1,fi2,la2,la_min,fi_min
+
+ character grid*27,path*46
+c logical am_I_in_or_near_AK,AK_on_land
+ logical AK_on_land
+
+C Constants
+
+ parameter (nrows = 1291,
+ & ncols = 3511,
+ & dfi = 1.d0/60.d0,
+ & dlamda = 1.d0/60.d0,
+ & fi_max = 71.5d0,
+ & fi_min = 50.d0,
+ & la_min = 172.d0,
+ & la_max = 230.5d0,
+ & sea = 0)
+
+C Initialize this function
+
+ am_I_in_or_near_AK = .false.
+
+C When it is clearly not AK
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_AK = .true.
+ return
+ endif
+
+C On 1/22/2016 I disabled the following code following Giovanni's suggestion
+C and for simplicity and portability
+
+ return
+ end
+C----------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_HI(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you
+C are in the Hawaian Islands (Hawaii, Kahoolawe,Kauai,Lanai,Maui,Molokai, Nihau and Oahu)
+C or within 5 km of their coastlines.
+
+C "HI_Hawaii.gmt", "HI_Kahoolawe.gmt", "HI_Kauai.gmt", "HI_Lanai.gmt", "HI_Maui.gmt", "HI_Molokai.gmt",
+C "HI_Nihau.gmt" and "HI_Oahu.gmt" are ASCII files that contain coastline polygons for the islands.
+C Each polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+ implicit none
+
+ integer*4 i,NPC,n_Hawaii,n_Kahoolawe,n_Kauai,n_Lanai,n_Maui
+ integer*4 n_Molokai,n_Nihau,n_Oahu
+
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+c logical am_I_in_or_near_HI,Hawaii,Kahoolawe,Kauai,Lanai
+ logical Hawaii,Kahoolawe,Kauai,Lanai
+ logical Maui,Molokai,Nihau,Oahu
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_Hawaii = 329,
+ & n_Kahoolawe = 143,
+ & n_Kauai = 107,
+ & n_Lanai = 52,
+ & n_Maui = 205,
+ & n_Molokai = 114,
+ & n_Nihau = 68,
+ & n_Oahu = 123,
+ & fi_max = 24.d0,
+ & fi_min = 18.d0,
+ & la_min = 199.d0,
+ & la_max = 207.d0)
+
+ real*8 X1(n_Hawaii) ,Y1(n_Hawaii) !I am not sure the cheap compilers in subversion can handle dynamic memory
+ real*8 X2(n_Kahoolawe) ,Y2(n_Kahoolawe)
+ real*8 X3(n_Kauai) ,Y3(n_Kauai)
+ real*8 X4(n_Lanai) ,Y4(n_Lanai)
+ real*8 X5(n_Maui) ,Y5(n_Maui)
+ real*8 X6(n_Molokai) ,Y6(n_Molokai)
+ real*8 X7(n_Nihau) ,Y7(n_Nihau)
+ real*8 X8(n_Oahu) ,Y8(n_Oahu)
+
+C Initialize this function
+
+ am_I_in_or_near_HI = .false.
+
+C When it is clearly not HI
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_HI = .true.
+ return
+ endif
+
+C On 1/22/2016 I disabled the following code following Giovanni's suggestion
+C and to simplify.
+
+ return
+ end
+C-------------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_PR(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you
+C are in Puerto Rico Islands (the main Island, Culebra, Desecheo, Mona or Viequez)
+C or within 10 km of their coastlines.
+
+C "PR_PuertoRico.gmt", "PR_Culebra", "PR_Mona.gmt", "PR_Viequez.gmt", and PR_"Desecheo.gmt"
+C are ASCII files that contain coastline polygons for each one of the 5 PR islands.
+C Each polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+
+ implicit none
+
+ integer*4 i,NPC,n_PR,n_Culebra,n_Mona,n_Desecheo,n_Viequez
+
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+c logical am_I_in_or_near_PR,PR
+ logical PR
+ logical Culebra,Mona,Desecheo,Viequez
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_PR = 228,
+ & n_Culebra = 185,
+ & n_Mona = 52,
+ & n_Desecheo = 34,
+ & n_Viequez = 309,
+ & fi_max = 19.d0,
+ & fi_min = 17.d0,
+ & la_max = 295.d0,
+ & la_min = 292.d0)
+
+ real*8 X1(n_PR) ,Y1(n_PR) !I am not sure the cheap compilers in subversion can handle dynamic memory
+ real*8 X2(n_Culebra) ,Y2(n_Culebra)
+ real*8 X3(n_Mona) ,Y3(n_Mona)
+ real*8 X4(n_Desecheo),Y4(n_Desecheo)
+ real*8 X5(n_Viequez) ,Y5(n_Viequez)
+
+C Initialize this function
+
+ am_I_in_or_near_PR = .false.
+
+C When it is clearly not PR
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_PR = .true.
+ return
+ endif
+
+C On 1/22/2016 I disabled the following code following Giovanni's suggestion
+C and for simplicity.
+
+ return
+ end
+C-------------------------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_VQ(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you are in
+C the Virgin Islands (St. Croix, St John and St Thomas) or within 10 km of their coastlines.
+
+C "VQ_StCroix.gmt", "VQ_StJohn.gmt" and "VQ_StThomas.gmt" are ASCII files that
+C contain coastline polygons for each one of the 3 VQ islands.
+C Each polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+
+ implicit none
+
+ integer*4 i,NPC,n_VQ,n_StCroix,n_StJohn,n_StThomas
+
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+c logical am_I_in_or_near_VQ
+ logical StCroix,StJohn,StThomas
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_StCroix = 142,
+ & n_StJohn = 356,
+ & n_StThomas = 304,
+ & fi_max = 18.4d0,
+ & fi_min = 15.5d0,
+ & la_max = 295.6d0,
+ & la_min = 295.d0)
+
+ real*8 X1(n_StCroix) ,Y1(n_StCroix) !I am not sure the cheap compilers in subversion can handle dynamic memory
+ real*8 X2(n_StJohn ) ,Y2(n_StJohn )
+ real*8 X3(n_StThomas),Y3(n_StThomas)
+
+C Initialize this function
+
+ am_I_in_or_near_VQ = .false.
+
+C When it is clearly not VQ
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_VQ = .true.
+ return
+ endif
+
+C On 1/22/2016 the following code was disabled following Giovanni's suggestion
+C and for simplicity
+
+ return
+ end
+C-------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_CQ (fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you are in
+C the North Mariana Islands (Saipan, Tinian and Rota) or within 10 km of their coastlines.
+
+C "CQ_Rota.gmt", "CQ_Saipan.gmt" and "CQ_Tinian.gmt" are ASCII files that
+C contain coastline polygons for each one of the 3 CQ islands.
+C Each polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+
+ implicit none
+
+ integer*4 i,NPC,n_CQ,n_Saipan ,n_Tinian,n_Rota
+
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+c logical am_I_in_or_near_CQ
+ logical Saipan,Tinian,Rota
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_Saipan = 122,
+ & n_Tinian = 70,
+ & n_Rota = 80,
+ & fi_max = 15.6d0,
+ & fi_min = 13.8d0,
+ & la_max = 146.d0,
+ & la_min = 144.8d0)
+
+ real*8 X1(n_Saipan ),Y1(n_Saipan ) !I am not sure the cheap compilers in subversion can handle dynamic memory
+ real*8 X2(n_Tinian ),Y2(n_Tinian )
+ real*8 X3(n_Rota ),Y3(n_Rota )
+
+C Initialize this function
+
+ am_I_in_or_near_CQ = .false.
+
+C When it is clearly not CQ
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_CQ = .true.
+ return
+ endif
+
+C On 1/22/2016 the following code was disabled following Giovanni's suggestion
+C and for simplicity
+
+ return
+ end
+C-------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_AS(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you are in
+C the American Samoa Islands (Ofu, Rose, Tau and Tutila) or within 10 km of their coastlines.
+
+C "AS_Ofu.gmt", "AS_Rose.gmt" and " AS_Tau.gmt" and "AS_Tutila.gmt" are ASCII files that
+C contain coastline polygons for each one of the 4 AS islands.
+C Each polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+
+ implicit none
+
+ integer*4 i,NPC,n_AS,n_Ofu,n_Rose,n_Tau,n_Tutila
+
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+c logical am_I_in_or_near_AS
+ logical Ofu,Rose,Tau,Tutila
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_Ofu = 64,
+ & n_Rose = 8,
+ & n_Tau = 76,
+ & n_Tutila = 239,
+ & fi_max = -13.7d0,
+ & fi_min = -14.7d0,
+ & la_max = 190.8d0,
+ & la_min = 189.d0)
+
+ real*8 X1(n_Ofu ) ,Y1(n_Ofu ) !not sure the cheap compilers in subversion can handle dynamic memory
+ real*8 X2(n_Rose) ,Y2(n_Rose)
+ real*8 X3(n_Tau ) ,Y3(n_Tau )
+ real*8 X4(n_Tutila),Y4(n_Tutila)
+
+C Initialize this function
+
+ am_I_in_or_near_AS = .false.
+
+C When it is clearly not AS
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_AS = .true.
+ return
+ endif
+
+C On 1/22/2016 the following code was disabled following Giovanni's suggestion
+C and for simplicity
+
+ return
+ end
+C-------------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_Guam(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you are in
+C the Guam Island or within 5 km of its coastlines.
+
+C "GQ_Guam.gmt", is an ASCII file that contains coastline polygons Guam.
+C This polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+
+ implicit none
+
+ integer*4 i,NPC,n_GQ
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+c logical am_I_in_or_near_Guam
+ logical GQ
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_GQ = 300,
+ & fi_max = 13.7d0,
+ & fi_min = 13.d0,
+ & la_max = 145.d0,
+ & la_min = 144.5d0)
+
+ real*8 X1(n_GQ) ,Y1(n_GQ) !I am not sure the cheap compilers in subversion can handle dynamic memory
+
+C Initialize this function
+
+ am_I_in_or_near_Guam = .false.
+
+C When it is clearly not Guam
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_Guam = .true.
+ return
+ endif
+
+C On 1/22/2016 the following code was disabled following Giovanni's suggestion
+C and for simplicity
+
+ return
+ end
+C----------------------------------------------------------------------------------------------
+ logical function am_I_in_or_near_KW(fi,la)
+
+C Given your latitude and longitude, this little routine tells you if you are in
+C the a little square around Kwajalein of the Marshal islands
+
+C "Kwajalein.gmt", is an ASCII file that contains a rectangle around Kwajalein.
+C This polygon is closed, starts and ends at the same point.
+C File format: (East) longitude and latitude in decimal degrees.
+
+
+ implicit none
+
+ integer*4 i,NPC,n_KW
+
+ real*8 fi,la,fi1,la1,fi2,la2,fi_max,fi_min,la_max,la_min
+
+c logical am_I_in_or_near_KW
+ logical KW
+ logical UL,UR,LL,LR
+
+C Constants
+
+ parameter (n_KW = 5,
+ & fi_max = 10.5d0,
+ & fi_min = 5.d0 ,
+ & la_max = 174.d0,
+ & la_min = 165.7d0)
+
+ real*8 X1(n_KW) ,Y1(n_KW) !I am not sure the cheap compilers in subversion can handle dynamic memory
+
+C Initialize this function
+
+ am_I_in_or_near_KW = .false.
+
+C When it is clearly not KW
+
+ if (fi>fi_max.or.fi<fi_min.or.la>la_max.or.la<la_min) then
+ return
+ else
+ am_I_in_or_near_KW = .true.
+ return
+ endif
+
+C On 1/22/2016 the following code was disabled following Giovanni's suggestion
+C and for simplicity
+
+ return
+ end
generated by cgit v1.2.3 (git 2.25.1) at 2024-12-26 18:14:45 +0000