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SUBROUTINE APD2 (IOPT,CAO1,CAO2,NCORE,ID)
C
INTEGER PA2S,PA2E,CA2S,CA2E,IZ(1),NAM(2),IAX(1),CAO1(1),
1 CAO2(1),PC,PPC,BET,TYPE(3),
2 CP,ACSID,EID,EIDB,CID(5),CIDBX,AUSET(6,2),SILB,
3 UK,USA,NECTA(6),KEY(5),SILDX(2),ACSIX(4),BACK,
4 SCR1,SCR2,SCR3,SCR4,SCR5,ECTA,BGPA,GPLA,USETA,
5 SILA,CSTMA,ACPT,BUF10,BUF11,BUF12,ACSIB,PID
REAL RB1(3),ACPL(3,3),VX1(3),VX2(3)
CHARACTER UFM*23
COMMON /XMSSG / UFM
COMMON /BLANK / NK,NJ,LUSETA
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,
6 NCA1,NCA2,CA2S,CA2E,CA3S,CA3E,CA4S,CA4E,
7 NPA1,NPA2,PA2S,PA2E,PA3S,PA3E,PA4S,PA4E
COMMON /APD1D / ICPL(14),YP4,S1,C1,XP2,XP3,XP4,RA1(3)
COMMON /APD12C/ KEY,AUSET,USA,UK,NCAM2,NASB
COMMON /ZZZZZZ/ Z(1)
EQUIVALENCE (Z(1),IZ(1)),(ICPL(3),RB1(1)),(ICPL(6),ACPL(1,1)),
1 (NECTA(1),EIDB),(NECTA(2),CID(1)),(KEY(2),NP),
2 (KEY(3),NSTRIP),(KEY(4),NTP),(EID,IAX(1)),
3 (SILDX(1),ICID),(ACSIX(1),ACSIB),(ACSIX(2),VX2(1))
DATA TYPE / 1HZ,2HZY,1HY /
DATA NAM / 4HAPD2,4H /
DATA PIO180/ .0174532925 /
C
IBC = 0
NB = 0
IF (IOPT .EQ. 1) GO TO 200
C
C PROCESS CAERO2 WITHOUT CAERO1 ATTACHED
C
NP = 0
NSTRIP= 0
NTP = 0
NAS = 0
IPC = 1
IDS = CAO2(1)
10 IF (CAO2(IPC) .LT. 0) GO TO 191
11 PC = CAO2(IPC+1) - 1
IF (IBC .NE. NB) GO TO 31
C
C LOOP OVER ALL CAERO2 WITH CURRENT ID TO SET UP POINTERS
C
NB = 0
IBC = 0
NBZ = 0
NBY = 0
NTZ = 0
NTY = 0
NTZS = 0
NTYS = 0
NBEA1 = 0
NSBEA = 0
NFL = 0
NT121 = 0
NT122 = 0
K = IPC
12 IF (CAO2(K) .NE. IDS) GO TO 19
NB = NB + 1
L = CAO2(K+1) - 1
DO 13 M = 1,7
13 IAX(M) = IZ(L+M)
ASSIGN 14 TO IRET
GO TO 29
14 CONTINUE
GO TO (15,15,16), BET
15 NBZ = NBZ + 1
NTZ = NTZ + NINT
NTZS = NTZS + NSB
IF (BET .EQ. 1) GO TO 17
16 NBY = NBY + 1
NTY = NTY + NINT
NTYS = NTYS + NSB
17 CONTINUE
NBEA1 = NBEA1 + NINT
NSBEA = NSBEA + NSB
NT121 = NT121 + NTH1
NT122 = NT122 + NTH2
NFL = NFL + KT1
K = K + 2
IF (K .GT. NCAM2*2) GO TO 19
GO TO 12
19 IDS = CAO2(K)
NTO = NTP + NTZ + NTY
NAS = NASB
C
C NOW SET UP POINTERS TO BUILD ACPT IN CORE
C
I = NCORE
IZ(I ) = 2
IZ(I+ 1) = NTP
IZ(I+ 2) = NTP*2
IZ(I+ 3) = NP
IZ(I+ 4) = NB
IZ(I+ 5) = NTP
IZ(I+ 6) = NBZ
IZ(I+ 7) = NBY
IZ(I+ 8) = NTZ
IZ(I+ 9) = NTY
IZ(I+10) = NTO
IZ(I+11) = NTZS
IZ(I+12) = NTYS
IZ(I+13) = NSTRIP
INC = I + 14
INB = INC + NP
INAS = INB + NP
INBEA1 = INAS + NP
INBEA2 = INBEA1 + NB
INSBEA = INBEA2 + NB
IZB = INSBEA + NB
IYB = IZB + NB
IAVR = IYB + NB
IARB = IAVR + NB
INFL = IARB + NB
IXLE = INFL + NB
IXTE = IXLE + NB
INT121 = IXTE + NB
INT122 = INT121 + NB
IZS = INT122 + NB
IYS = IZS + NB + NSTRIP
IEE = IYS + NB + NSTRIP
ISG = IEE + NSTRIP
ICG = ISG + NSTRIP
IX = ICG + NSTRIP
IDELX = IX + NTP + NBEA1
IXIC = IDELX + NTP + NBEA1
IXLAM = IXIC + NTP
IAO = IXLAM + NTP
IXIS1 = IAO + NSBEA
IXIS2 = IXIS1 + NSBEA
IAOP = IXIS2 + NSBEA
IRIA = IAOP + NSBEA
INASB = IRIA + NBEA1
IFLA1 = INASB + NAS
IFLA2 = IFLA1 + NFL
ITH1A = IFLA2 + NFL
ITH2A = ITH1A + NT121
NWR = ITH2A + NT122 - NCORE
NA = ITH2A + NT122 - 1
I = NA + NP*6 +1
IF (I .GT. LEFT) CALL MESAGE (-8,0,NAM)
C
C IF PANELS EXIST INSERT DATA FROM SCRATCH FILES
C
IF(NP.EQ.0) GO TO 31
NASS = NA
CALL WRITE (SCR3,0,0,1)
CALL WRITE (SCR4,0,0,1)
CALL WRITE (SCR5,0,0,1)
CALL CLOSE (SCR3,1)
CALL CLOSE (SCR4,1)
CALL CLOSE (SCR5,1)
CALL GOPEN (SCR3,Z(BUF10),0)
CALL GOPEN (SCR4,Z(BUF11),0)
CALL GOPEN (SCR5,Z(BUF12),0)
DO 21 I = 1,NP
CALL FREAD (SCR5,IZ(INC),1,0)
CALL FREAD (SCR5,IZ(INB),1,0)
CALL FREAD (SCR5,K,1,0)
DO 22 J = 1,6
22 IZ(NA+J) = IZ(K+J)
INC = INC + 1
INB = INB + 1
21 NA = NA + 6
DO 23 I = 1,NSTRIP
CALL FREAD (SCR3,IZ(IYS),1,0)
CALL FREAD (SCR3,IZ(IZS),1,0)
CALL FREAD (SCR3,IZ(IEE),1,0)
CALL FREAD (SCR3,IZ(ISG),1,0)
CALL FREAD (SCR3,IZ(ICG),1,0)
IYS = IYS + 1
IZS = IZS + 1
IEE = IEE + 1
ISG = ISG + 1
23 ICG = ICG + 1
DO 24 I = 1,NTP
CALL FREAD (SCR4,IZ(IXIC),1,0)
CALL FREAD (SCR4,IZ(IDELX),1,0)
CALL FREAD (SCR4,IZ(IXLAM),1,0)
Z(IX) = Z(IXIC) + .5*Z(IDELX)
IXIC = IXIC + 1
IDELX = IDELX + 1
IXLAM = IXLAM + 1
24 IX = IX + 1
CALL CLOSE (SCR3,1)
CALL CLOSE (SCR4,1)
CALL CLOSE (SCR5,1)
C
C FILL IN ASSOCIATED BODIES
C
NA = NASS
DO 26 I = 1,NP
L = 0
DO 25 J = 1,6
IF (IZ(NA+J) .EQ. 0) GO TO 25
L = L + 1
IBT = IPC
DO 27 K = 1,NB
M = CAO2(IBT+1)
IF (IZ(M) .NE. IZ(NA+J)) GO TO 28
IZ(INASB) = K
INASB = INASB +1
GO TO 25
28 IBT = IBT + 2
27 CONTINUE
GO TO 880
25 CONTINUE
IZ(INAS) = L
INAS = INAS + 1
NA = NA + 6
26 CONTINUE
31 CONTINUE
IBC = IBC + 1
C
C MOVE TO COMMON
C
DO 20 J = 1,16
20 IAX(J) = IZ(J+PC)
IZ(PC+2) = ACSID
ACSIB = ACSID
X4 = X1
Y4 = Y1 + 1.0
Z4 = Z1
X43 = X12
IGID =-IGID
CALL APDCS
IGID =-IGID
C
C MOVE AERO CORD SYS TO ICPL
C
IF (ACSID .EQ. 0) GO TO 35
DO 34 I = 1,14
ICPL(I) = IZ(IACS+I-1)
34 CONTINUE
35 CONTINUE
ASSIGN 85 TO IRET
GO TO 29
C
C FIND PAERO2 CARD
C
29 CONTINUE
IF (PA2S .EQ. 0) GO TO 990
DO 30 J = PA2S,PA2E,15
IF (PID .EQ. IZ(J)) GO TO 40
30 CONTINUE
GO TO 990
40 PPC = J
C
C GET BODY TYPE AND NUMBER OF ELEMENTS
C
NSB = NSPAN
NINT = NCHORD
BET = IZ(PPC+1)
DO 50 J = 1,3
IF (BET .EQ. TYPE(J)) GO TO 60
50 CONTINUE
60 BET = J
LTH1 = IZ(PPC+7)
LTH2 = IZ(PPC+8)
NTH1 = 0
NTH2 = 0
KT1 = 0
IF (LSPAN .EQ. 0) GO TO 70
CALL APDOE (LSPAN,IZ,NAEF1,NAEF2,ISPAN,JSPAN)
IF (ISPAN .EQ. 0) GO TO 950
NSB = JSPAN - 1
70 IF (LCHORD .EQ. 0) GO TO 79
CALL APDOE (LCHORD,IZ,NAEF1,NAEF2,ICHORD,JCHORD)
IF (ICHORD .EQ. 0) GO TO 960
NINT = JCHORD - 1
79 IF (NINT .EQ. 0) GO TO 80
KT1 = KT1 + 1
IF (IZ(PPC+ 9) .EQ. 0) GO TO 920
IF (IZ(PPC+11) .EQ. 0) GO TO 75
KT1 = KT1 + 1
IF (IZ(PPC+13) .EQ. 0) GO TO 75
KT1 = KT1 + 1
75 IF (LTH1 .EQ. 0) GO TO 940
CALL APDOE (LTH1,IZ,NAEF1,NAEF2,ITH1,NTH1)
IF (ITH1 .EQ. 0) GO TO 940
IF (LTH2 .EQ. 0) GO TO 80
CALL APDOE (LTH2,IZ,NAEF1,NAEF2,ITH2,NTH2)
IF (ITH2 .EQ. 0) GO TO 930
80 IF (NSB .LT. 2) GO TO 970
GO TO IRET, (14,85)
C
C PUT IN TERMS FOR SOME BODY ARRAYS
C
85 IZ(INBEA1) = NINT
IF(IBC.GT.1 .AND. BET.LT.IZ(INBEA2-1)) GO TO 870
IZ(INBEA2) = BET
IZ(INSBEA) = NSB
Z(IZB) = RA1(3)
Z(IYB) = RA1(2)
Z(IZS) = RA1(3)
Z(IYS) = RA1(2)
Z(IAVR) = Z(PPC+3)
Z(IARB) = Z(PPC+4)
IZ(INFL)= KT1
IZ(INT121) = NTH1
IZ(INT122) = NTH2
INBEA1 = INBEA1 + 1
INBEA2 = INBEA2 + 1
INSBEA = INSBEA+1
IZB = IZB + 1
IYB = IYB + 1
IZS = IZS + 1
IYS = IYS + 1
IAVR = IAVR+ 1
IARB = IARB+ 1
INFL = INFL+ 1
INT121 = INT121 + 1
INT122 = INT122 + 1
C
C ADD SOME MISC ARRAYS
C
IF (NTH1 .EQ. 0) GO TO 89
DO 86 I = 1,NTH1
Z(ITH1A) = Z(ITH1+I)*PIO180
86 ITH1A = ITH1A + 1
IF (NTH2 .EQ. 0) GO TO 88
DO 87 I = 1,NTH2
Z(ITH2A) = Z(ITH2+I)*PIO180
87 ITH2A = ITH2A + 1
88 K = PPC + 9
IF (IZ(K).NE.1 .AND. IZ(K+1).NE.NINT .AND. NTH2.EQ.0) GO TO 910
DO 81 I = 1,KT1
IZ(IFLA1) = IZ(K)
IZ(IFLA2) = IZ(K+1)
K = K + 2
IF (IZ(IFLA1) .GT. IZ(IFLA2)) GO TO 910
IF (IZ(IFLA2) .GT. NINT) GO TO 910
IF (I .EQ. 1) GO TO 82
IF (IZ(IFLA1) .LE. IZ(IFLA2-1)) GO TO 910
82 IFLA1 = IFLA1 + 1
IFLA2 = IFLA2 + 1
81 CONTINUE
89 LRSB = IZ(PPC+5)
LRIB = IZ(PPC+6)
IF (LRSB .EQ. 0) GO TO 91
CALL APDOE (LRSB,IZ,NAEF1,NAEF2,IRSB,NRSB)
IF (IRSB .EQ. 0) GO TO 900
IF (NRSB .NE. NSB+1) GO TO 900
91 IF (LRIB .EQ. 0) GO TO 92
CALL APDOE (LRIB,IZ,NAEF1,NAEF2,IRIB,NRIB)
IF (IRIB .EQ. 0) GO TO 890
IF (NRIB .NE. NINT+1) GO TO 890
92 CONTINUE
WIDTH = Z(PPC+3)
C
C GENERATE ELEMENTS
C
EIDB = EID - 1
CIDBX = CIDBX + 1
VX1(2) = RA1(2)
VX1(3) = RA1(3)
C
C PUT IN PROPER MASKS FOR USET
C
IF (BET .EQ. 1) GO TO 90
AUSET(2,2) = UK
AUSET(6,2) = UK
IF (BET .EQ. 2) GO TO 90
AUSET(3,2) = USA
AUSET(5,2) = USA
90 CONTINUE
C
C BUMP NJ AND NK
C
NJA = NSB + NINT
NKA = NSB*2
NJ = NJ + NJA
NK = NK + NKA
IZ(NCORE+1) = IZ(NCORE+1) + NJA
IZ(NCORE+2) = IZ(NCORE+2) + NKA
IF (BET .NE. 2) GO TO 94
NJ = NJ + NJA
NK = NK + NKA
IZ(NCORE+1) = IZ(NCORE+1) + NJA
IZ(NCORE+2) = IZ(NCORE+2) + NKA
94 I = 1
95 EIDB = EIDB + 1
CID(1) = CIDBX
CIDBX = CIDBX + 1
CID(2) = CIDBX
CID(5) = EIDB
C
C GRID POINTS IN AERO SYSTEM
C
IF (I .NE. 1) GO TO 110
ASSIGN 110 TO BACK
ICID = CID(1)
IF (LSPAN .EQ. 0) VX1(1) = RA1(1) + (X12/NSB)*(I-1)
IF (LSPAN .NE. 0) VX1(1) = RA1(1) + Z(ISPAN+I)*X12
OLDX = VX1(1)
Z(IXLE) = OLDX
Z(IXIS1) = OLDX
IXIS1 = IXIS1 + 1
KK = 1
GO TO 130
110 ASSIGN 120 TO BACK
ICID = CID(2)
IF (LSPAN .EQ. 0) VX1(1) = RA1(1) + (X12/NSB)*I
IF (LSPAN .NE. 0) VX1(1) = RA1(1) + Z(ISPAN+I+1)*X12
Z(IXTE ) = VX1(1)
Z(IXIS2) = VX1(1)
IXIS2 = IXIS2 + 1
IF (I .NE. 1) Z(IXIS1) = OLDX
IF (I .NE. 1) IXIS1 = IXIS1 + 1
KK = 1
GO TO 130
120 ASSIGN 160 TO BACK
C
C A0 AND AOP
C
Z(IAO ) = WIDTH
Z(IAOP) = 0.0
IF (LRSB .EQ. 0) GO TO 125
Z(IAO ) = (Z(IRSB+I ) + Z(IRSB+I+1))*.5
Z(IAOP) = (Z(IRSB+I+1) - Z(IRSB+I))/(VX1(1)-OLDX)
125 IAO = IAO + 1
IAOP = IAOP + 1
TEMP = (VX1(1)+OLDX)/2.0
OLDX = VX1(1)
VX1(1) = TEMP
ICID = CID(5)
KK = 2
C
C CONVERT TO BASIC
C
130 IF (ACSID .EQ. 0) GO TO 140
CALL GMMATS (ACPL,3,3,0,VX1,3,1,0,VX2)
DO 135 K = 1,3
135 VX2(K) = VX2(K) + RB1(K)
GO TO 150
140 DO 145 K = 1,3
145 VX2(K) = VX1(K)
C
C PUT OUT BGPDT GPL USET
C
150 CALL WRITE (BGPA,ACSIX,4,0)
CALL WRITE (GPLA,ICID,1,0)
CALL WRITE (USETA,AUSET(1,KK),6,0)
C
C BUMP POINTERS
C PUT OUT SIL EQEXIN SILGA
C
NCRD = NCRD + 1
SILB = SILB + 6
ISILN = ISILN+ 6
LUSETA = SILB
SILDX(2) = 10*SILB + 1
CALL WRITE (SILA,SILB,1,0)
CALL WRITE (SCR2,ISILN,1,0)
CALL WRITE (SCR2,SILB,1,0)
CALL WRITE (SCR1,ICID,2,0)
GO TO BACK, (110,120,160)
C
C PUT OUT ECT
C
160 CID(1) = NCRD - 3
IF (I .EQ. 1) CID(1) = CID(1) + 1
CID(2) = NCRD - 1
CID(3) = CID(1)
CID(4) = CID(2)
CID(5) = NCRD
CALL WRITE (ECTA,NECTA,6,0)
I = I + 1
IF (I .LE. NSB) GO TO 95
C
C INTEFERENCE CALCULATIONS AND ARRAYS
C
IF (NINT .EQ. 0) GO TO 170
P1 = 1.0/NINT
DO 165 J = 1,NINT
Z(IRIA) = WIDTH
IF (LRIB .NE. 0) Z(IRIA) = .5*(Z(IRIB+J)+Z(IRIB+J+1))
IRIA = IRIA + 1
D1 = P1*(J-1)
D2 = P1*J
IF (LCHORD .NE. 0) D1 = Z(ICHORD+J )
IF (LCHORD .NE. 0) D2 = Z(ICHORD+J+1)
Z(IDELX) = X12*(D2-D1)
Z(IX) = RA1(1) + X12*(D1+D2)/2.0
IF (J .EQ. 1) Z(IXLE) = RA1(1) + D1*X12
IF (J .EQ. NINT) Z(IXTE) = RA1(1) + D2*X12
IDELX = IDELX + 1
IX = IX + 1
165 CONTINUE
170 CONTINUE
IXLE = IXLE + 1
IXTE = IXTE + 1
IZ(PC+ 4) = NSB
IZ(PC+ 5) = 1
IZ(PC+ 8) = 2
IZ(PC+16) = BET
IF (BET .EQ. 1) GO TO 190
AUSET(2,2) = USA
AUSET(6,2) = USA
AUSET(3,2) = UK
AUSET(5,2) = UK
190 IF (IBC .EQ. NB) CALL WRITE (ACPT,IZ(NCORE),NWR,1)
191 IF (IOPT .EQ. 1) GO TO 230
IPC = IPC + 2
IF (IPC .LT. NCAM2*2) GO TO 10
GO TO 1000
C
C CAERO2 WITH CAERO1 ATTACHED
C
200 IPC = 1
IDS = ID
210 IF (CAO2(IPC) .EQ. ID) GO TO 11
220 IPC = IPC + 2
IF (IPC .LT. NCAM2*2) GO TO 210
GO TO 1000
230 CAO2(IPC) = -CAO2(IPC)
GO TO 220
1000 RETURN
C
C ERROR MESSAGES
C
912 CALL MESAGE (-61,0,NAM)
870 WRITE (NOT,8777) UFM,EID
8777 FORMAT (A23,' 2273, CAERO2',I9,' NOT INPUT IN Z, ZY, Y SEQUENCE.')
GO TO 912
880 WRITE (NOT,8888) UFM,IZ(NA+J),CAO2(IBT)
8888 FORMAT (A23,' 2274, ASSOCIATED BODY',I9,' WAS NOT FOUND WITH ',
1 'CAERO2 GROUP',I9,1H.)
GO TO 912
890 J = LRIB
GO TO 941
900 J = LRSB
GO TO 941
910 WRITE (NOT,9111) UFM,EID
9111 FORMAT (A23,' 2275, CAERO2',I9,' HAS INCONSISTENT USE FOR THI OR',
1 ' THN, OR LTH2 IS REQUIRED.')
GO TO 912
920 WRITE (NOT,9222) UFM,EID
9222 FORMAT (A23,' 2276, THI1 AND THN1 REQUIRED FOR CAERO2',I9,1H.)
GO TO 912
930 J = LTH2
GO TO 941
940 J = LTH1
941 WRITE (NOT,9999) UFM,J,EID
9999 FORMAT (A23,' 2429, WRONG NUMBER OF WORDS OR CARD NOT FOUND FOR',
1 ' CARD ID',I9, /28X,'ASSOCIATED WITH CAERO2 ID',I9)
GO TO 912
950 CALL EMSG (0,2326,1,2,0)
WRITE (NOT,951) EID,LSPAN
951 FORMAT (10X,'CAERO2 ELEMENT NO.',I9,' REFERENCES AEFACT CARD NO.',
1 I9,' WHICH DOES NOT EXIST.')
GO TO 912
960 CALL EMSG (0,2327,1,2,0)
WRITE (NOT,951) EID,LCHORD
GO TO 912
970 WRITE (NOT,971) UFM,EID
971 FORMAT (A23,' 2277, CAERO2 BODY',I9,' DOES NOT HAVE ENOUGH ',
1 'SLENDER ELEMENTS.')
GO TO 912
990 CALL EMSG (0,2323,1,2,0)
WRITE (NOT,991) PID,EID
991 FORMAT (10X,'PAERO2 CARD NO.',I9,' REFERENCED BY CAERO2 CARD NO.',
1 I9,' BUT DOES NOT EXIST.')
GO TO 912
END
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