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|
*DECK DUTURN
SUBROUTINE DUTURN(IHEX,TURN,NCEL,TURND,NCELA,CELL)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Provide orientation of cell in an assembly with symetry IHEX.
*
*Copyright:
* Copyright (C) 1991 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
*Author(s): M. Ouisloumen
*
*Parameters: input
* IHEX symmetry type.
* NCEL number of cells in symmetric assembly.
* NCELA number of cells in unfolded assembly.
* CELL cell index in symmetric assembly.
* TURN cell orientation in symmetric assembly.
*
*Parameters: output
* TURND cell orientation in unfolded assembly.
*
*-----------------------------------------------------------------------
*
INTEGER TAB(6),CELL(NCELA),TAB6(6),TAB9(6),TURN(NCEL),
+ TURND(NCELA),TAB12(6),TABR8(6),
+ TABA8(6),TABB8(6)
LOGICAL LGR8,LGSA,LGSB,LGSA6
INTEGER, ALLOCATABLE, DIMENSION(:) :: NUM,NTURN,ITAB
SAVE TAB,TAB6,TAB9,TAB12,TABR8,TABA8,TABB8
DATA TAB,TAB6,TAB9,TAB12,TABR8,TABA8,TABB8
+ /1,6,5,4,3,2,2,1,6,5,4,3,3,2,1,6,5,4,3,4,5,6,1,2,4,5,6,1,2,3
+ ,3,2,1,6,5,4,6,5,4,3,2,1/
*
IFONC(N,L)= 2+(N-1)*(L+3*(N-2))
IFCOUR(N)=NINT( (4.+SQRT(1.+4.*FLOAT(N-1)/3.)
+ +SQRT(1.+4.*FLOAT(N-2)/3.))*.25)
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(NUM(NCEL),NTURN(NCEL),ITAB(NCEL))
*
DO 10 I=2,NCEL
IF(TURN(I).EQ.1.OR.TURN(I).EQ.9) THEN
ITAB(I)=2
ELSEIF(TURN(I).EQ.2.OR.TURN(I).EQ.10) THEN
ITAB(I)=3
ELSEIF(TURN(I).EQ.3.OR.TURN(I).EQ.11) THEN
ITAB(I)=4
ELSEIF(TURN(I).EQ.4.OR.TURN(I).EQ.12) THEN
ITAB(I)=5
ELSEIF(TURN(I).EQ.5.OR.TURN(I).EQ.7) THEN
ITAB(I)=6
ELSEIF(TURN(I).EQ.6.OR.TURN(I).EQ.8) THEN
ITAB(I)=1
ELSE
CALL XABORT('DUTURN : INVALID ORIENTATION ')
ENDIF
10 CONTINUE
*
NCOUR=IFCOUR(NCELA)
IF(IHEX.EQ.1) THEN
GOTO 20
ELSEIF(IHEX.EQ.2.OR.IHEX.EQ.3) THEN
GOTO 40
ELSEIF(IHEX.EQ.4) THEN
GOTO 60
ELSEIF(IHEX.EQ.5) THEN
GOTO 80
ELSEIF(IHEX.GT.5.AND.IHEX.LT.9) THEN
GOTO 100
ELSE
CALL XABORT('DUTURN : INVALID TYPE OF GEOMETRY ')
ENDIF
*
20 CONTINUE
*
* DUPLICATION DE L'ORIENTATION DANS LA SYMETRIE S30
*
TURND(1)=TURN(1)
*
* DUPLICATION DE LA 2EME COURONE
*
ITURN=ITAB(2)
TURND(2)=TURN(2)
DO 25 I=3,7
ITURN=ITURN+1
IF(ITURN.GT.6)ITURN=ITURN-6
IF(ITURN.EQ.1) THEN
TURND(I)=8
IF(TURN(CELL(I)).LE.6)TURND(I)=6
ELSEIF(ITURN.EQ.2) THEN
TURND(I)=1
IF(TURN(CELL(I)).GT.6)TURND(I)=9
ELSEIF(ITURN.EQ.3) THEN
TURND(I)=2
IF(TURN(CELL(I)).GT.6)TURND(I)=10
ELSEIF(ITURN.EQ.4) THEN
TURND(I)=3
IF(TURN(CELL(I)).GT.6)TURND(I)=11
ELSEIF(ITURN.EQ.5) THEN
TURND(I)=4
IF(TURN(CELL(I)).GT.6)TURND(I)=12
ELSEIF(ITURN.EQ.6) THEN
TURND(I)=5
IF(TURN(CELL(I)).GT.6)TURND(I)=7
ELSE
CALL XABORT('DUTURN : TURN DUPLICATION ALGORITHME ERROR ')
ENDIF
25 CONTINUE
*
* DUPLICATON DES AUTRES COURONES
*
JCEL=3
DO 30 IC=3,NCOUR
NCS=INT(AINT((REAL(IC)+1.)/2.))
NCEL1=IFONC(IC,0)
KCEL=JCEL+NCS-1
DO 32 IN=JCEL,KCEL
NTURN(IN)=TURN(IN)
NUM(IN)=ITAB(IN)
32 CONTINUE
LAUX=1
TURND(NCEL1)=TURN(KCEL)
DO 35 JROT=0,11
NCEL2=NCEL1+NCS-1
IF(MOD(IC,2).EQ.0) THEN
IF(LAUX.EQ.0) THEN
NCEL2=NCEL2+1
LAUX=1
ELSE
LAUX=0
ENDIF
ENDIF
IF(JROT.EQ.11)NCEL2=NCEL2-1
DO 33 J=NCEL1+1,NCEL2
ITURN=NUM(CELL(J))
KTURN=JROT+TAB(ITURN)
IF(KTURN.GT.12) KTURN=KTURN-12
IF(KTURN.GT.6) KTURN=KTURN-6
NUM(CELL(J))=KTURN
IF(KTURN.EQ.1) THEN
TURND(J)=6
IF(NTURN(CELL(J)).LE.6)TURND(J)=8
ELSEIF(KTURN.EQ.2) THEN
TURND(J)=1
IF(NTURN(CELL(J)).LE.6)TURND(J)=9
ELSEIF(KTURN.EQ.3) THEN
TURND(J)=2
IF(NTURN(CELL(J)).LE.6)TURND(J)=10
ELSEIF(KTURN.EQ.4) THEN
TURND(J)=3
IF(NTURN(CELL(J)).LE.6)TURND(J)=11
ELSEIF(KTURN.EQ.5) THEN
TURND(J)=4
IF(NTURN(CELL(J)).LE.6)TURND(J)=12
ELSEIF(KTURN.EQ.6) THEN
TURND(J)=5
IF(NTURN(CELL(J)).LE.6)TURND(J)=7
ELSE
CALL XABORT('DUTURN : INVALID ORIENTATION 2 ')
ENDIF
NTURN(CELL(J))=TURND(J)
33 CONTINUE
NCEL1=NCEL2
35 CONTINUE
JCEL=KCEL+1
30 CONTINUE
GO TO 200
*
40 CONTINUE
*
* DUPLICATION DE L'ORIENTATION DES GEOMETRIES SA60 ET SB60
*
TURND(1)=TURN(1)
JCEL=2
LGSA6=IHEX.EQ.2
DO 55 IC=2,NCOUR
NCS=IC
NCEL1=IFONC(IC,0)
NCEL10=0
IF(.NOT.LGSA6) THEN
NCS=2*NINT(REAL(IC)/2.)-1
NCEL10=NCEL1
NCEL1=NCEL1+NINT(REAL(IC+1)/2.)-1
ENDIF
KCEL=JCEL+NCS-1
DO 50 IN=JCEL,KCEL
NTURN(IN)=TURN(IN)
NUM(IN)=ITAB(IN)
50 CONTINUE
IF(LGSA6) THEN
TURND(NCEL1)=TURN(KCEL)
ELSE
KKK=KCEL-NCEL1+NCEL10-1
NCFIN=NCEL1
IF(MOD(IC,2).EQ.0)NCFIN=NCEL1-1
DO 555 IK=NCEL10,NCFIN
KKK=KKK+1
TURND(IK)=TURN(KKK)
555 CONTINUE
ENDIF
DO 54 JROT=0,5
NCEL2=NCEL1+NCS-1
IF(JROT.EQ.5) THEN
* NCEL2=NCEL2-1
IF(.NOT.LGSA6) THEN
NCEL2=NCEL2-NINT(REAL(NCS)/2.)
ELSE
NCEL2=NCEL2-1
ENDIF
ENDIF
DO 52 J=NCEL1,NCEL2
ITURN=NUM(CELL(J))
KTURN=0
IF(LGSA6) THEN
KTURN=TAB(ITURN)+4*JROT
ELSE
KTURN=TAB6(ITURN)+2*JROT
ENDIF
IF(KTURN.GT.24)KTURN=KTURN-24
IF(KTURN.GT.12)KTURN=KTURN-12
IF(KTURN.GT.6) KTURN=KTURN-6
IF(.NOT.LGSA6) NUM(CELL(J))=KTURN
ITTD=0
IF(KTURN.EQ.1) THEN
ITTD=6
IF(NTURN(CELL(J)).LE.6)ITTD=8
ELSEIF(KTURN.EQ.2) THEN
ITTD=1
IF(NTURN(CELL(J)).LE.6)ITTD=9
ELSEIF(KTURN.EQ.3) THEN
ITTD=2
IF(NTURN(CELL(J)).LE.6)ITTD=10
ELSEIF(KTURN.EQ.4) THEN
ITTD=3
IF(NTURN(CELL(J)).LE.6)ITTD=11
ELSEIF(KTURN.EQ.5) THEN
ITTD=4
IF(NTURN(CELL(J)).LE.6)ITTD=12
ELSEIF(KTURN.EQ.6) THEN
ITTD=5
IF(NTURN(CELL(J)).LE.6)ITTD=7
ELSE
CALL XABORT('DUTURN : INVALID ORIENTATION 3 ')
ENDIF
IF(J.EQ.NCEL1) THEN
IF(LGSA6)GOTO 51
IF(MOD(IC,2).NE.0) GOTO 51
ENDIF
TURND(J)=ITTD
51 NTURN(CELL(J))=ITTD
52 CONTINUE
NCEL1=NCEL2
IF(.NOT.LGSA6) THEN
IF(MOD(IC,2).EQ.0)NCEL1=NCEL1+1
ENDIF
54 CONTINUE
JCEL=KCEL+1
55 CONTINUE
GO TO 200
*
60 CONTINUE
*
* DUPLICATION DE L'ORIENTATION DE LA GEOMETRIE S90
*
TURND(1)=TURN(1)
JCEL=2
DO 75 IC=2,NCOUR
NCS=IC+INT(AINT(REAL((IC+1)/2)))-1
NCEL1=IFONC(IC,1)
KCEL=JCEL+NCS-1
DO 70 IN=JCEL,KCEL
NTURN(IN)=TURN(IN)
NUM(IN)=ITAB(IN)
70 CONTINUE
NCEL0=IFONC(IC,0)
KKK=KCEL-NCEL1+NCEL0
DO 71 IK=NCEL0,NCEL1
KKK=KKK+1
TURND(IK)=TURN(KKK)
71 CONTINUE
DO 74 JROT=0,3
NCEL2=NCEL1+NCS-1
IF(JROT.EQ.3) NCEL2=NCEL1+INT(AINT(REAL((IC+1)/2)))-2
DO 72 J=NCEL1,NCEL2
ITURN=NUM(CELL(J))
KTURN=TAB9(ITURN)+3*JROT
IF(KTURN.GT.12)KTURN=KTURN-12
IF(KTURN.GT.6) KTURN=KTURN-6
NUM(CELL(J))=KTURN
IF(KTURN.EQ.1) THEN
TURND(J)=6
IF(NTURN(CELL(J)).LE.6)TURND(J)=8
ELSEIF(KTURN.EQ.2) THEN
TURND(J)=1
IF(NTURN(CELL(J)).LE.6)TURND(J)=9
ELSEIF(KTURN.EQ.3) THEN
TURND(J)=2
IF(NTURN(CELL(J)).LE.6)TURND(J)=10
ELSEIF(KTURN.EQ.4) THEN
TURND(J)=3
IF(NTURN(CELL(J)).LE.6)TURND(J)=11
ELSEIF(KTURN.EQ.5) THEN
TURND(J)=4
IF(NTURN(CELL(J)).LE.6)TURND(J)=12
ELSEIF(KTURN.EQ.6) THEN
TURND(J)=5
IF(NTURN(CELL(J)).LE.6)TURND(J)=7
ELSE
CALL XABORT('DUTURN : INVALID ORIENTATION 4 ')
ENDIF
NTURN(CELL(J))=TURND(J)
72 CONTINUE
NCEL1=NCEL2
IF(MOD(IC,2).EQ.0) THEN
IF(JROT.EQ.0.OR.JROT.EQ.2) NCEL1=NCEL1+1
ENDIF
74 CONTINUE
JCEL=KCEL+1
75 CONTINUE
*
GO TO 200
*
80 CONTINUE
*
* DUPLICATION DE L'ORIENTATION DE LA SYMETRIE R120
*
TURND(1)=TURN(1)
JCEL=2
DO 95 IC=2,NCOUR
NCS=2*(IC-1)
NCEL1=IFONC(IC,1)
NCEL0=IFONC(IC,0)
KCEL=JCEL+NCS-1
DO 90 IN=JCEL,KCEL
NTURN(IN)=TURN(IN)
NUM(IN)=ITAB(IN)
90 CONTINUE
KK=KCEL
DO 91 I=NCEL1,NCEL0,-1
TURND(I)=TURN(KK)
KK=KK-1
91 CONTINUE
NCEL1=NCEL1+1
DO 94 JROT=0,1
NCEL2=NCEL1+NCS-1
DO 92 J=NCEL1,NCEL2
ITURN=NUM(CELL(J))
KTURN=TAB12(ITURN)
NUM(CELL(J))=KTURN
IF(KTURN.EQ.1) THEN
TURND(J)=6
IF(NTURN(CELL(J)).GT.6)TURND(J)=8
ELSEIF(KTURN.EQ.2) THEN
TURND(J)=1
IF(NTURN(CELL(J)).GT.6)TURND(J)=9
ELSEIF(KTURN.EQ.3) THEN
TURND(J)=2
IF(NTURN(CELL(J)).GT.6)TURND(J)=10
ELSEIF(KTURN.EQ.4) THEN
TURND(J)=3
IF(NTURN(CELL(J)).GT.6)TURND(J)=11
ELSEIF(KTURN.EQ.5) THEN
TURND(J)=4
IF(NTURN(CELL(J)).GT.6)TURND(J)=12
ELSEIF(KTURN.EQ.6) THEN
TURND(J)=5
IF(NTURN(CELL(J)).GT.6)TURND(J)=7
ELSE
CALL XABORT('DUTURN : INVALID ORIENTATION 5 ')
ENDIF
NTURN(CELL(J))=TURND(J)
92 CONTINUE
NCEL1=NCEL2+1
94 CONTINUE
NCC=NCEL2+1
DO 93 L=KK,JCEL,-1
TURND(NCC)=TURN(L)
NCC=NCC+1
93 CONTINUE
JCEL=KCEL+1
95 CONTINUE
*
GO TO 200
*
100 CONTINUE
*
* DUPLICATION DE L'ORIENTATION DES SYMETRIES R180,SA180 ET SB180
*
TURND(1)=TURN(1)
LGR8=.FALSE.
LGSA=.FALSE.
LGSB=.FALSE.
IF(IHEX.EQ.6) THEN
LGR8=.TRUE.
ELSEIF(IHEX.EQ.7) THEN
LGSA=.TRUE.
ELSEIF(IHEX.EQ.8) THEN
LGSB=.TRUE.
ENDIF
JCEL=2
DO 115 IC=2,NCOUR
NCEL1=IFONC(IC,1)
NCEL10=NCEL1
NCEL0=IFONC(IC,0)
NCS=0
IF(LGR8) THEN
NCS=3*(IC-1)
NCEL1=NCEL1+1
ELSEIF(LGSA) THEN
NCS=3*IC-2
ELSEIF(LGSB) THEN
NCC=INT(AINT(REAL(IC+1)/2.))-1
NCS=2*IC-1+2*NCC
NCEL1=NCEL1+IC+NCC
NCEL10=NCEL1-1
ENDIF
KCEL=JCEL+NCS-1
DO 110 IN=JCEL,KCEL
NTURN(IN)=TURN(IN)
NUM(IN)=ITAB(IN)
110 CONTINUE
NCEL2=NCEL1+NCS-1
IF(LGSB) THEN
IF(MOD(IC,2).NE.0)NCEL2=NCEL2-2
ENDIF
KK=KCEL
DO 111 IZ=NCEL10,NCEL0,-1
TURND(IZ)=TURN(KK)
KK=KK-1
111 CONTINUE
LL=NCEL2
DO 112 IZ=JCEL,KK
LL=LL+1
TURND(LL)=TURN(IZ)
112 CONTINUE
DO 102 J=NCEL1,NCEL2
ITURN=NUM(CELL(J))
KTURN=0
IF(LGR8) THEN
KTURN=TABR8(ITURN)
ELSEIF(LGSA) THEN
KTURN=TABA8(ITURN)
ELSEIF(LGSB) THEN
KTURN=TABB8(ITURN)
ENDIF
IF(KTURN.EQ.1) THEN
TURND(J)=6
IF(LGR8) THEN
IF(NTURN(CELL(J)).GT.6) TURND(J)=8
ELSE
IF(NTURN(CELL(J)).LE.6) TURND(J)=8
ENDIF
ELSEIF(KTURN.EQ.2) THEN
TURND(J)=1
IF(LGR8) THEN
IF(NTURN(CELL(J)).GT.6) TURND(J)=9
ELSE
IF(NTURN(CELL(J)).LE.6) TURND(J)=9
ENDIF
ELSEIF(KTURN.EQ.3) THEN
TURND(J)=2
IF(LGR8) THEN
IF(NTURN(CELL(J)).GT.6) TURND(J)=10
ELSE
IF(NTURN(CELL(J)).LE.6) TURND(J)=10
ENDIF
ELSEIF(KTURN.EQ.4) THEN
TURND(J)=3
IF(LGR8) THEN
IF(NTURN(CELL(J)).GT.6) TURND(J)=11
ELSE
IF(NTURN(CELL(J)).LE.6) TURND(J)=11
ENDIF
ELSEIF(KTURN.EQ.5) THEN
TURND(J)=4
IF(LGR8) THEN
IF(NTURN(CELL(J)).GT.6) TURND(J)=12
ELSE
IF(NTURN(CELL(J)).LE.6) TURND(J)=12
ENDIF
ELSEIF(KTURN.EQ.6) THEN
TURND(J)=5
IF(LGR8) THEN
IF(NTURN(CELL(J)).GT.6) TURND(J)=7
ELSE
IF(NTURN(CELL(J)).LE.6) TURND(J)=7
ENDIF
ELSE
CALL XABORT('DUTURN : INVALID ORIENTATION 6 ')
ENDIF
102 CONTINUE
JCEL=KCEL+1
115 CONTINUE
*----
* SCRATCH STORAGE DEALLOCATION
*----
200 DEALLOCATE(ITAB,NTURN,NUM)
RETURN
END
|
