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|
SUBROUTINE APD
C
EXTERNAL ANDF,ORF
LOGICAL LMKAER ,LSKIP,LSET,LSPLIN
INTEGER IZ(1),FLAG,SILGP
INTEGER EID,PID,CP,CIDBX,ACSID,SILB,SCR1,SCR2,SCR3,SCR4,
1 SCR5,ECTA,BGPA,GPLA,USETA,SILA,CSTMA,ACPT,BUF10,
2 BUF11,BUF12
INTEGER CAERO2(3),CAERO3(3),CAERO4(3),CAERO5(3)
INTEGER PAERO2(3),PAERO3(3),PAERO4(3),PAERO5(3)
INTEGER KSPL(3),ANDF,FILE
INTEGER SPLIN3(3)
INTEGER CAERO1(3),PAERO1(3),AERO(3),SPLIN 1(3),SPLIN 2(3),
1 SET1(3),SET2(3),MKAER 2(3),MKAER 1(3),FLUTT R(3),
2 AEFACT(3),FLFACT(3),BUF(7),MSG(7),
3 BUF1,BUF2,BUF3,BUF4,BUF5,BUF6,BUF7,BUF8,BUF9,
4 EDT,EQDYN,ECT,BGPDT,SILD,USETD,CSTM,
5 EQAERO,SPLINE,AEROR,FLIST,GPLD,NAM(2),
6 AERX(3),SYMXZ,SYMXY,CORWDS,RDREW,CLSREW,
7 ORF,SYSBUF,WTREW,PSPA,NBCA(3)
INTEGER CA2S,CA2E,CA3S,CA3E,CA4S,CA4E,CA5S,CA5E
INTEGER PA2S,PA2E,PA3S,PA3E,PA4S,PA4E,PA5S,PA5E
INTEGER MSG1(9),MSG2(5),MSG3(6),MSG4(10)
COMMON /BLANK / NK,NJ,LUSETA,BOV
COMMON /SYSTEM/ SYSBUF,NOT
COMMON /APD1C / EID,PID,CP,NSPAN,NCHORD,LSPAN,LCHORD,IGID,
1 X1,Y1,Z1,X12,X4,Y4,Z4,X43,XOP,X1P,ALZO,MCSTM,
2 NCST1,NCST2,CIDBX,ACSID,IACS,SILB,NCRD,
3 SCR1,SCR2,SCR3,SCR4,SCR5,ECTA,BGPA,GPLA,USETA,
4 SILA,CSTMA,ACPT,BUF10,BUF11,BUF12,NEXT,LEFT,ISILN,
5 NCAM,NAEF1,NAEF2,NCA1,NCA2,CA2S,CA2E,CA3S,CA3E,
6 CA4S,CA4E,NPA1,NPA2,PA2S,PA2E,PA3S,PA3E,PA4S,PA4E,
7 CA5S,CA5E,PA5S,PA5E
COMMON /TWO / ITWO(32)
COMMON /BITPOS/ IBIT(64)
COMMON /ZZZZZZ/ Z(1)
EQUIVALENCE (Z(1), IZ(1))
EQUIVALENCE (AERX(1),SYMXZ),(AERX(2),SYMXY),(AERX(3),BREF)
DATA RDREW , CLSREW,WTREW /0,1,1 /
DATA MSG1 / 4HSETI,4H AND,4H/OR ,4HSPLI,4HNEI ,4HCARD,4HS RE,
1 4HQUIR,4HED /
DATA MSG2 / 4HNO A,4HERO ,4HCARD,4H FOU,4HND /
DATA MSG3 / 4HNO C,4HAERO,4H CA,4HARDS,4HFOUN,4HD /
DATA MSG4 / 4HNEIT,4HHER ,4HMKAE,4HRO1 ,4HOR ,4HMKAE,4HRO2 ,
1 4HCARD,4HS FO,4HUND /
DATA CAERO2/ 4301,43, 0/ , CAERO3 /4401,44, 0 /
DATA CAERO4/ 4501,45, 0/ , PAERO2 /4601,46, 0 /
DATA PAERO3/ 4701,47, 0/ , PAERO4 /4801,48, 0 /
DATA CAERO5/ 5001,50, 0/ , PAERO5 /5101,51, 0 /
DATA SPLIN3/ 4901,49, 0/
DATA KSPL / 200 , 2, 0/
DATA CAERO1/ 3002,30,16 /, PAERO1 /3102,31,0 /,
1 AERO / 3202,32,0 /, SPLIN1 /3302,33,0 /,
2 SPLIN2/ 3402,34,0 /, SET1 /3502,35,0 /,
3 SET2 / 3602,36,0 /, MKAER2 /3702,37,0 /,
4 MKAER1/ 3802,38,0 /, FLUTTR /3902,39,0 /,
5 AEFACT/ 4002,40,0 /, FLFACT /4102,41,0 /,
6 NBCA / 3002,46,0/
DATA EDT , EQDYN, ECT, BGPDT, SILD, USETD, CSTM, GPLD /
1 101 , 102, 103, 104, 105, 106, 107, 108 /
DATA EQAERO, SPLINE, AEROR, FLIST /
1 201 , 206, 207, 209 /
2
DATA MSG / 7*0 /, NAM / 4HAPD ,4H /
C
LCA = CAERO1(3)
NOGO = 0
BUF1 = KORSZ(IZ) - SYSBUF
BUF2 = BUF1 - SYSBUF
BUF3 = BUF2 - SYSBUF
BUF4 = BUF3 - SYSBUF
BUF5 = BUF4 - SYSBUF
BUF6 = BUF5 - SYSBUF
BUF7 = BUF6 - SYSBUF
BUF8 = BUF7 - SYSBUF
BUF9 = BUF8 - SYSBUF
BUF10= BUF9 - SYSBUF
BUF11= BUF10- SYSBUF
BUF12= BUF11- SYSBUF
SCR1 = 301
SCR2 = 302
SCR3 = 303
SCR4 = 304
SCR5 = 305
ECTA = 202
BGPA = 203
SILA = 204
USETA= 205
ACPT = 208
CSTMA= 210
GPLA = 211
SILGP= 212
LAST = BUF12 - 1
IF (LAST .LE. 0) GO TO 995
NJ = 0
NK = 0
I17 = IBIT(17)
I20 = IBIT(20)
PSPA = ORF(ITWO(I17),ITWO(I20))
C
C READ AERO CARDS
C
LEFT = LAST
FILE = EDT
CALL PRELOC (*940,Z(BUF1),EDT)
CALL LOCATE (*800,Z(BUF1),AERO,FLAG)
CALL READ (*960,*970,EDT,Z(1),6,1,FLAG)
ACSID= IZ(1)
IZX = 2
VSOUND = Z(IZX)
IZX = 3
BREF = Z(IZX)
BOV = 0.0
IF (VSOUND .NE. 0.0) BOV = BREF/(2.0*VSOUND)
IZX = 5
SYMXZ= IZ(IZX)
IZX = 6
SYMXY= IZ(IZX)
C
C READ AEFACT CARDS
C
NAEF2 = 0
CALL APDR (EDT,Z,LEFT,NAEF1,NAEF2,FLAG,BUF1,AEFACT)
C
C READ CSTM TABLE
C
FILE = CSTM
NCST2 = NAEF2
NCST1 = 0
MCSTM = 0
BUF(1)= CSTM
CALL RDTRL(BUF)
IF (BUF(1) .NE. CSTM) GO TO 100
CALL GOPEN (CSTM,Z(BUF2),RDREW)
NCST1 = NCST2 + 1
CALL READ (*980,*80,CSTM,Z(NCST1),LEFT,0,NCST2)
GO TO 970
80 CALL CLOSE (CSTM,CLSREW)
LEFT = LEFT - NCST2
NCST2 = NCST1 + NCST2 - 1
C
C FIND LARGEST CID OF CSTM
C
DO 90 J = NCST1,NCST2,14
IF (IZ(J) .LT. MCSTM) GO TO 90
MCSTM = IZ(J)
90 CONTINUE
C
C FIND AC TRANS
C
100 IF (ACSID .EQ. 0) GO TO 120
IF (NCST1 .EQ. 0) GO TO 880
DO 110 IACS = NCST1,NCST2,14
IF (IZ(IACS) .EQ. ACSID) GO TO 120
110 CONTINUE
GO TO 880
C
C WRITE CSTM TO CSTMA
C
120 CALL GOPEN (CSTMA,Z(BUF2),WTREW)
IF (MCSTM .NE. 0) CALL WRITE (CSTMA,Z(NCST1),NCST2-NCST1+1,0)
NCSA = MCSTM
C
C READ EQDYN INTO CORE
C
NEXT = NCST2 + 1
FILE = EQDYN
CALL GOPEN (EQDYN,Z(BUF3),RDREW)
CALL SKPREC (EQDYN,1)
CALL READ (*980,*140,EQDYN,Z(NEXT),LEFT,0,NX)
GO TO 970
140 CALL CLOSE (EQDYN,CLSREW)
BUF(1) = EQDYN
CALL RDTRL (BUF)
NEXTRA = BUF(3)
C
C CIDBX = LARGEST ID
C NCRD = NUMBER OF GRID AND SCALAR POINTS
C
NCRD = BUF(2) - NEXTRA
NCRDO = NCRD
CIDBX = 1000000
C
C WRITE SECOND RECORD OF EQDYN ONTO SCR1
C
CALL GOPEN (SCR1,Z(BUF3),WTREW)
CALL WRITE (SCR1,Z(NEXT),NX,0)
C
C READ BGPDT
C
FILE = BGPDT
CALL GOPEN (BGPDT,Z(BUF4),RDREW)
CALL READ (*980,*150,BGPDT,Z(NEXT),LEFT,0,NX)
GO TO 970
150 CALL CLOSE (BGPDT,CLSREW)
C
C WRITE BGPDT TO BGPA
C
CALL GOPEN (BGPA,Z(BUF4),WTREW)
CALL WRITE (BGPA,Z(NEXT),NX,0)
C
C READ USETD
C
FILE = USETD
CALL GOPEN (USETD,Z(BUF5),RDREW)
CALL READ (*980,*160,USETD,Z(NEXT),LEFT,0,NX)
GO TO 970
160 CALL CLOSE (USETD,CLSREW)
C
C MASK IN PS AND PA BITS
C
N2 = NEXT + NX - 1
DO 170 I = NEXT,N2
170 IZ(I) = ORF(IZ(I),PSPA)
C
C WRITE USETD TO USETA
C
FILE = USETA
CALL GOPEN (USETA,Z(BUF5),WTREW)
CALL WRITE (USETA,Z(NEXT),NX,0)
C
C READ ECT
C
FILE = ECT
BUF(1) = ECT
CALL GOPEN (ECTA,Z(BUF6),WTREW)
CALL RDTRL (BUF)
IF (BUF(1) .NE. ECT) GO TO 210
CALL GOPEN (ECT,Z(BUF7),RDREW)
180 CALL READ (*200,*190,ECT,Z(NEXT),LEFT,0,NX)
GO TO 970
190 CALL WRITE (ECTA,Z(NEXT),NX,1)
GO TO 180
200 CALL CLOSE (ECT,CLSREW)
210 CALL WRITE (ECTA,NBCA,3,0)
C
C READ FIRST RECORD OF SILD INTO CORE
C
FILE = SILD
CALL GOPEN (SILD,Z(BUF8),RDREW)
CALL READ (*980,*220,SILD,Z(NEXT),LEFT,0,NX)
GO TO 970
C
C WRITE FIRST RECORD OF SILD ONTO SILA
C
220 BUF(1) = SILD
CALL RDTRL (BUF)
C
C SILB + 6 = NEXT DOF IN PROBLEM
C ISILN + 6 = NEXT DOF WITHOUT EXTRA POINTS
C
SILB = BUF(2) - 5
ISILN = SILB - NEXTRA
CALL GOPEN (SILA,Z(BUF7),WTREW)
CALL WRITE (SILA,Z(NEXT),NX,0)
C
C READ SECOND RECORD OF SILD INTO CORE
C
CALL READ (*980,*230,SILD,Z(NEXT),LEFT,0,NX)
GO TO 970
230 CALL CLOSE (SILD,CLSREW)
C
C WRITE SECOND RECORD OF SILD ONTO SCR2
C
CALL GOPEN (SCR2,Z(BUF8),WTREW)
CALL WRITE (SCR2,Z(NEXT),NX,0)
C
C COPY GPLD TO GPLA
C
FILE = GPLD
CALL GOPEN (GPLD,Z(BUF9),RDREW)
CALL READ (*980,*235,GPLD,Z(NEXT),LEFT,0,NX)
GO TO 970
235 CALL CLOSE (GPLD,CLSREW)
CALL GOPEN (GPLA,Z(BUF9),WTREW)
CALL WRITE (GPLA,Z(NEXT),NX,0)
C
C READ CAERO CARDS INTO CORE
C
NCA2 = NCST2
LCAS = NCA2 + 1
CALL APDR (EDT,Z,LEFT,NCA1,NCA2,FLAG,BUF1,CAERO1)
CA2E = NCA2
CALL APDR (EDT,Z,LEFT,CA2S,CA2E,FLAG,BUF1,CAERO2)
CA3E = CA2E
CALL APDR (EDT,Z,LEFT,CA3S,CA3E,FLAG,BUF1,CAERO3)
CA4E = CA3E
CALL APDR (EDT,Z,LEFT,CA4S,CA4E,FLAG,BUF1,CAERO4)
CA5E = CA4E
CALL APDR (EDT,Z,LEFT,CA5S,CA5E,FLAG,BUF1,CAERO5)
LCAE = MAX0(NCA2,CA2E,CA3E,CA4E,CA5E)
C
C READ PAERO CARDS INTO CORE
C
NPA2 = CA5E
CALL APDR (EDT,Z,LEFT,NPA1,NPA2,FLAG,BUF1,PAERO1)
PA2E = NPA2
CALL APDR (EDT,Z,LEFT,PA2S,PA2E,FLAG,BUF1,PAERO2)
PA3E = PA2E
CALL APDR (EDT,Z,LEFT,PA3S,PA3E,FLAG,BUF1,PAERO3)
PA4E = PA3E
CALL APDR (EDT,Z,LEFT,PA4S,PA4E,FLAG,BUF1,PAERO4)
PA5E = PA4E
CALL APDR (EDT,Z,LEFT,PA5S,PA5E,FLAG,BUF1,PAERO5)
NEXT = PA5E + 1
CALL CLOSE (EDT,CLSREW)
IF (NCA1.EQ.0 .AND. CA2S.EQ.0 .AND. CA3S.EQ.0 .AND. CA4S.EQ.0
1 .AND. CA5S.EQ.0) GO TO 820
C
C OPEN ACPT
C
CALL GOPEN (ACPT,Z(BUF1),WTREW)
C
C CALL CAERO TYPE
C
IF (NCA1.NE.0 .OR. CA2S.NE.0) CALL APD12
IF (CA3S .NE. 0) CALL APD3
IF (CA4S .NE. 0) CALL APD4
IF (CA5S .NE. 0) CALL APD5
LUSETA = LUSETA + 5
CALL WRITE (CSTMA,0,0,1)
CALL CLOSE (CSTMA,CLSREW)
CALL CLOSE (ACPT,CLSREW)
CALL WRITE (ECTA,0,0,1)
CALL CLOSE (ECTA,CLSREW)
CALL WRITE (BGPA,0,0,1)
CALL CLOSE (BGPA,CLSREW)
CALL WRITE (GPLA,0,0,1)
CALL CLOSE (GPLA,CLSREW)
CALL WRITE (USETA,0,0,1)
CALL CLOSE (USETA,CLSREW)
CALL WRITE (SILA,0,0,1)
CALL WRITE (SCR1,0,0,1)
CALL CLOSE (SCR1,CLSREW)
CALL WRITE (SCR2,0,0,1)
CALL CLOSE (SCR2,CLSREW)
C
C READ SECOND RECORD OF EQAERO TABLE OFF SCR1
C
FILE = SCR1
CALL GOPEN (SCR1,Z(BUF3),RDREW)
I = NEXT
411 CONTINUE
IF (I+2 .GT. NEXT+LEFT) GO TO 970
CALL READ (*980,*420,SCR1,Z(I),2,0,NX)
IZ(I+2) = 0
I = I + 3
GO TO 411
420 CALL CLOSE (SCR1,CLSREW)
NX = I - NEXT
C
C SORT TABLE ON SILD VALUE
C
CALL SORT (0,0,3,2,Z(NEXT),NX)
NY = NEXT + NX - 1
C
C REPLACE THIRD ENTRIES WITH INTERNAL GRID ID WITH OUT EXTRA
C
K = 0
DO 412 I = NEXT,NY,3
IF (IZ(I+1)-(IZ(I+1)/10)*10 .EQ. 3) GO TO 412
K = K + 1
IZ(I+2) = K
412 CONTINUE
C
C SORT EQAERO TABLE
C
CALL SORT (0,0,3,1,Z(NEXT),NX)
C
C CHECK FOR DUPLICATE EXT ID
C
N1 = NEXT + 3
DO 430 I = N1,NY,3
IF (IZ(I-3) .NE. IZ(I)) GO TO 430
CALL EMSG (0,2329,1,2,0)
NOGO = 1
WRITE (NOT,421) IZ(I)
421 FORMAT (10X,26HDUPLICATE EXTERNAL ID NO. ,I8,11H GENERATED.)
430 CONTINUE
C
C WRITE FIRST RECORD OF EQAERO TABLE
C
CALL GOPEN (EQAERO,Z(BUF3),WTREW)
DO 440 I = NEXT,NY,3
BUF(1) = IZ(I )
BUF(2) = IZ(I+2)
440 CALL WRITE (EQAERO,BUF,2,0)
CALL WRITE (EQAERO,0,0,1)
C
C WRITE SECOND RECORD OF EQAERO TABLE
C
DO 441 I = NEXT,NY,3
441 CALL WRITE (EQAERO,IZ(I),2,0)
CALL WRITE (EQAERO,0,0,1)
CALL CLOSE (EQAERO,CLSREW)
C
C PUT ON SPLINE A RECORD OF K POINTS WITH
C EXTERNAL ID , BGPA POINTERS, AND K COLUMN NUMBER
C
FILE = USETA
N1 = NEXT + NX
CALL GOPEN (USETA,Z(BUF3),RDREW)
CALL READ (*980,*442,USETA,Z(N1),LEFT-NX,0,N2)
GO TO 970
442 CALL CLOSE (USETA,CLSREW)
CALL GOPEN (SPLINE,Z(BUF3),WTREW)
CALL WRITE (SPLINE,KSPL,3,0)
MASK = IBIT(19)
MASK = ITWO(MASK)
KO = 1
N3 = (NCRDO+NEXTRA)*3 + NEXT
DO 444 I = NEXT,NY,3
IF (MOD(IZ(I+1),10) .NE. 1) GO TO 444
K = 0
N4 = IZ(I+1)/10 - 2
DO 443 J = 1,6
IF (ANDF(IZ(N1+N4+J),MASK) .NE. 0) K = K + 1
443 CONTINUE
IF (K .EQ. 0) GO TO 444
BUF(1) = IZ(I )
BUF(2) = IZ(I+2)
BUF(3) = KO
CALL WRITE (SPLINE,BUF,3,0)
KO = KO + K
444 CONTINUE
CALL WRITE (SPLINE,0,0,1)
CALL CLOSE (SPLINE,2)
C
C READ SECOND RECORD OF SILA TABLE
C
CALL GOPEN (SCR2,Z(BUF8),RDREW)
CALL READ (*980,*450,SCR2,Z(NEXT),LEFT,0,NX)
GO TO 970
450 CALL CLOSE (SCR2,CLSREW)
CALL WRITE (SILA,Z(NEXT),NX,1)
CALL CLOSE (SILA,CLSREW)
C
C BUILD SILGP TABLE
C
CALL GOPEN (SILGP,Z(BUF8),W TREW)
NY = NEXT + NX - 1
K = 0
DO 451 I = NEXT,NY,2
IZ(NEXT+K) = IZ(I)
K = K + 1
451 CONTINUE
CALL WRITE (SILGP,IZ(NEXT),K,1)
CALL CLOSE (SILGP,CLSREW)
C
C WRITE RECORD
C
CALL GOPEN (AEROR,Z(BUF2),WTREW)
CALL WRITE (AEROR,AERX,3,1)
C
C READ IN MKAERO1 CARDS
C
FILE = EDT
CALL PRELOC (*940,Z(BUF1),EDT)
LMKAER = .FALSE.
CALL LOCATE (*510,Z(BUF1),MKAER1,FLAG)
CALL READ (*980,*460,EDT,Z(NEXT),LEFT,0,NX)
GO TO 970
460 N1 = NEXT
LMKAER = .TRUE.
470 N2 = N1 + 7
DO 490 I = N1,N2
IF (IZ(I) .EQ. -1) GO TO 500
BUF(1) = IZ(I)
N3 = N2 + 1
N4 = N3 + 7
DO 480 J = N3,N4
IF (IZ(J) .EQ. -1) GO TO 490
BUF(2) = IZ(J)
480 CALL WRITE (AEROR,BUF,2,0)
490 CONTINUE
500 IF (N4-NEXT+1 .GE. NX) GO TO 510
N1 = N1 + 16
GO TO 470
C
C READ IN MKAER2 CARDS
C
510 CALL LOCATE (*530,Z(BUF1),MKAER2,FLAG)
CALL READ (*980,*520,EDT,Z(NEXT),LEFT,0,NX)
GO TO 970
520 CALL WRITE (AEROR,Z(NEXT),NX,0)
LMKAER =.TRUE.
530 CALL WRITE (AEROR,0,0,1)
CALL CLOSE (AEROR,CLSREW)
IF (LMKAER) GO TO 540
GO TO 870
C
C PROCESS SET1 CARDS
C
540 CALL OPEN (*940,SPLINE,Z(BUF2),3)
LSET =.FALSE.
CALL LOCATE (*610,Z(BUF1),SET1,FLAG)
LSET =.TRUE.
CALL READ (*980,*550,EDT,Z(NEXT),LEFT,0,NX)
GO TO 970
550 N3 = NEXT + NX
CALL GOPEN (EQAERO,Z(BUF3),RDREW)
LEFT = CORWDS(IZ(N3),IZ(LAST))
FILE = EQAERO
CALL READ (*980,*560,EQAERO,Z(N3),LEFT,0,N4)
GO TO 970
560 N1 = NEXT
FILE = EDT
N2 = N1 + NX - 1
CALL CLOSE (EQAERO,CLSREW)
LEFT = CORWDS(IZ(NEXT),IZ(LAST))
C
C CONVERT SET1 TO INTERNAL COOR NO
C
LSKIP = .TRUE.
DO 600 I = N1,N2
IF (IZ(I) .EQ. -1) GO TO 590
IF (LSKIP) GO TO 580
KID = IZ(I)
CALL BISLOC (*930,KID,IZ(N3),2,N4/2,JP)
K = N3 + JP
IF (IZ(K) .GT. NCRDO) GO TO 930
IZ(I) = IZ(K)
GO TO 600
580 LSKIP =.FALSE.
GO TO 600
930 CALL EMSG (0,2330,1,2,0)
NOGO = 1
WRITE (NOT,931) IZ(N1),IZ(I)
931 FORMAT (10X,24HSET1 OR SPLIN3 CARD NO. ,I8,28H REFERENCES EXTERNAL
1 ID NO. ,I8,22H WHICH DOES NOT EXIST.)
GO TO 600
590 LSKIP = .TRUE.
600 CONTINUE
C
C WRITE OUT SET1 CARD ON SPLINE
C
CALL WRITE (SPLINE,SET1,3,0)
CALL WRITE (SPLINE,Z(NEXT),NX,1)
C
C PROCESS SET2 CARDS
C
610 CALL LOCATE (*660,Z(BUF1),SET2,FLAG)
LSET =.TRUE.
CALL WRITE (SPLINE,SET2,3,0)
620 CALL READ (*980,*650,EDT,Z(NEXT),8,0,NX)
CALL WRITE (SPLINE,Z(NEXT),10,0)
NX = IZ(NEXT+1)
DO 630 I = LCAS,LCAE,LCA
IF (IZ(I) .EQ. NX) GO TO 640
630 CONTINUE
GO TO 830
640 CALL WRITE (SPLINE,Z(I),LCA,0)
GO TO 620
650 CALL WRITE (SPLINE,0,0,1)
C
C PROCESS SPLINE1 CARDS
C
660 LSPLIN =.FALSE.
CALL LOCATE (*710,Z(BUF1),SPLIN1,FLAG)
LSPLIN =.TRUE.
CALL WRITE (SPLINE,SPLIN 1,3,0)
ASSIGN 670 TO IRET
670 CALL READ (*980,*700,EDT,Z(NEXT),6,0,NX)
GO TO 671
C
C INTERNAL ROUTINE TO ATTACH CAERO DATA TO SPLINE
C
671 CONTINUE
CALL WRITE (SPLINE,Z(NEXT),10,0)
NX = IZ(NEXT+1)
DO 680 I = LCAS,LCAE,LCA
IF (IZ(I) .EQ. NX) GO TO 690
680 CONTINUE
GO TO 810
690 CALL WRITE (SPLINE,Z(I),LCA,0)
IF (IZ(NEXT+2) .GT. IZ(NEXT+3)) GO TO 691
J1 = IZ(I+4)*IZ(I+3) + IZ(I) - 1
IF (IZ(NEXT+2).LT.IZ(I) .OR. IZ(NEXT+3).GT.J1) GO TO 691
GO TO 693
691 NOGO = 1
CALL EMSG (0,2331,1,2,0)
WRITE (NOT,692) IZ(NEXT),IZ(I)
692 FORMAT (10X,30HBOX PICKED ON SPLINE CARD NO. ,I8,32HNOT GENERATED
1BY CAERO CARD NO. ,I8,1H.)
693 GO TO IRET, (670,720,7651)
700 CALL WRITE (SPLINE,0,0,1)
C
C PROCESS SPLINE2 CARDS
C
710 CALL LOCATE (*760,Z(BUF1),SPLIN2,FLAG)
LSPLIN =.TRUE.
CALL WRITE (SPLINE,SPLIN 2,3,0)
ASSIGN 720 TO IRET
720 CALL READ (*980,*750,EDT,Z(NEXT),10,0,NX)
GO TO 671
750 CALL WRITE (SPLINE,0,0,1)
C
C PROCESS SPLINE3 CARDS
C
760 NSPLIE = NEXT - 1
CALL APDR (EDT,Z,LEFT,NSPLIS,NSPLIE,FLAG,BUF1,SPLIN3)
IF (NSPLIS .EQ. 0) GO TO 769
FILE = EQAERO
N3 = NSPLIE + 1
CALL GOPEN (EQAERO,Z(BUF3),RDREW)
CALL READ (*980,*761,EQAERO,Z(N3),LEFT,0,N4)
GO TO 970
761 FILE = EDT
CALL CLOSE (EQAERO,CLSREW)
N4 = N4/2
LSET = .TRUE.
LEFT = LEFT + FLAG
LSPLIN = .TRUE.
ASSIGN 7651 TO IRET
CALL WRITE (SPLINE,SPLIN3,3,0)
ISP = NSPLIS
NLS = 0
C
C PICK UP NEXT SPLIN3 AND ATTACHED CAERO
C
765 ISP = ISP + NLS
IF (ISP .GE. NSPLIE) GO TO 768
CALL APDOE (IZ(ISP),Z,ISP,NSPLIE,FLAG,NLS)
NLS = NLS + 1
NX = IZ(ISP+1)
DO 766 I = LCAS,LCAE,LCA
J = I
IF (IZ(I) .EQ. NX) GO TO 767
766 CONTINUE
GO TO 810
767 J1 = IZ(I+3)*IZ(I+4) + NX - 1
IZ(NEXT) = IZ(ISP)
IF (IZ(ISP+2) .LT. IZ(ISP+1)) GO TO 691
IF (IZ(ISP+2) .GT. J1) GO TO 691
C
C CONVERT TO INTERNAL ID
C
N2 = NLS - 4
DO 7652 I = 1,N2,3
N1 = IZ(ISP+I+3)
CALL BISLOC (*7653,N1,IZ(N3),2,N4,JP)
IF (IZ(N3+JP) .GT. NCRDO) GO TO 7653
IZ(ISP+I+3) = IZ(N3+JP)
7652 CONTINUE
7651 CALL WRITE (SPLINE,NLS+LCA,1,0)
CALL WRITE (SPLINE,IZ(ISP),NLS,0)
NLS = NLS + 1
CALL WRITE (SPLINE,IZ(J),LCA,0)
GO TO 765
7653 NOGO = 1
CALL EMSG (0,2330,1,2,0)
WRITE (NOT,931) IZ(ISP),N1
GO TO 7651
768 CALL WRITE (SPLINE,0,0,1)
769 CALL CLOSE (SPLINE,CLSREW)
C
C CREATE FLIST TABLE
C
CALL GOPEN (FLIST,Z(BUF2),WTREW)
CALL LOCATE (*800,Z(BUF1),AERO,FLAG)
CALL READ (*980,*770,EDT,Z(NEXT),LEFT,0,NX)
GO TO 970
770 CALL WRITE (FLIST,AERO,3,0)
CALL WRITE (FLIST,Z(NEXT),NX,1)
CALL LOCATE (*785,Z(BUF1),FLFACT,FLAG)
CALL READ (*980,*780,EDT,Z(NEXT),LEFT,1,NX)
GO TO 970
780 CALL WRITE (FLIST,FLFACT,3,0)
CALL WRITE (FLIST,Z(NEXT),NX,1)
785 CALL LOCATE (*900,Z(BUF1),FLUTTR,FLAG)
CALL READ (*980,*790,EDT,Z(NEXT),LEFT,0,NX)
GO TO 970
790 CALL WRITE (FLIST,FLUTT R,3,0)
CALL WRITE (FLIST,Z(NEXT),NX,1)
900 CALL CLOSE (FLIST,CLSREW)
CALL CLOSE (EDT,CLSREW)
MSG(1) = AEROR
MSG(2) = 1
CALL WRTTRL (MSG)
MSG(1) = EQDYN
CALL RDTRL (MSG)
MSG(1) = EQAERO
MSG(2) = NCRD + NEXTRA
CALL WRTTRL (MSG)
MSG(1) = BGPDT
CALL RDTRL (MSG(1))
MSG(3) = NCRD - MSG(2)
MSG(1) = BGPA
MSG(2) = NCRD
CALL WRTTRL (MSG)
MSG(1) = SILA
MSG(2) = LUSETA
MSG(3) = NEXTRA
CALL WRTTRL (MSG)
MSG(1) = ACPT
MSG(2) = 1
CALL WRTTRL (MSG)
MSG(1) = GPLA
MSG(2) = NCRD + NEXTRA
CALL WRTTRL (MSG)
MSG(1) = CSTM
CALL RDTRL (MSG)
IF (MSG(1) .LT.0) MSG(3) = 0
MSG(1) = CSTMA
MSG(3) = MSG(3) + MCSTM - NCSA
CALL WRTTRL (MSG)
MSG(1) = USETA
MSG(2) = LUSETA
MSG(3) = NEXTRA
MSG(4) = PSPA
CALL WRTTRL (MSG)
MSG(1) = EDT
CALL RDTRL (MSG)
MSG(1) = FLIST
CALL WRTTRL (MSG)
MSG(1) = EDT
CALL RDTRL (MSG)
MSG(1) = SPLINE
MSG(2) = ORF(MSG(2),ITWO(18))
CALL WRTTRL (MSG)
MSG(1) = ECT
CALL RDTRL (MSG)
N1 = (NBCA(2)-1)/16 + 2
N2 = NBCA(2) - (N1-2)*16 + 16
MSG(N1)= ORF(MSG(N1),ITWO(N2))
MSG(1) = ECTA
CALL WRTTRL (MSG)
C
C PUT OUT SILGP TRAILER
C
MSG(1) = SILGP
MSG(2) = NCRD
MSG(3) = LUSETA - NEXTRA
MSG(4) = 0
MSG(5) = 0
MSG(6) = 0
MSG(7) = 0
CALL WRTTRL (MSG)
IF (NOGO .EQ. 1) CALL MESAGE (-37,0,NAM)
IF (LSET .AND. LSPLIN) RETURN
C
C ERROR MESSAGES
C
CALL EMSG (35,-2328,1,2,MSG1)
800 CALL EMSG (18,-2318,1,3,MSG2)
810 CALL EMSG (0,-2324,1,2,0)
WRITE (NOT,811) NX
811 FORMAT (10X,19HCAERO ELEMENT NO. ,I8,
1 45H REFERENCED ON A SPLINEI CARD DOES NOT EXIST.)
812 CALL MESAGE (-61,0,NAM)
820 CALL EMSG (21,-2319,1,2,MSG3)
830 CALL EMSG (0,-2325,1,2,0)
WRITE (NOT,831) NX
831 FORMAT (10X,19HCAERO ELEMENT NO. ,I8,
1 42H REFERENCED ON A SET2 CARD DOES NOT EXIST.)
GO TO 812
870 CALL EMSG (38,-2322,1,2,MSG4)
880 CALL MESAGE (-30,25,ACSID)
940 IP1 = -1
950 CALL MESAGE (IP1,FILE,NAM)
995 IP1 = -8
GO TO 950
960 IP1 = -2
GO TO 950
970 IP1 = 3
GO TO 950
980 GO TO 960
END
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