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BONDEX.UNIXFORT
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BONDEX.UNIXFORT
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C<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
SUBROUTINE BASSET(UAS,ITYFC)
IMPLICIT REAL*8 (A-H,O-Z)
DIMENSION UAS(NBFAO,NBFSO)
DIMENSION CONTR(600),I30(200)
COMMON/BASIS/NBASIS,NBFAO,NBFSO,NBATRI
COMMON/COORD/CHGS(112),XX(3,112),WW(112)
COMMON/FLAGS/MPOINT,MCONST
COMMON/FUNCS/NATOM,N3N,NSYM
COMMON/GAUSS/ZS(200),CS(200)
COMMON/NORBS/NAST(112),NAED(112)
COMMON/NSHEL/KNUC(200),KTYPE(200),KPRIM(200),KLOC(200),
1 KMIN(200),KMAX(200),KNG(200),NSHELL,NPRIM
COMMON/SIGNS/IPQ(500),IPRNT
DATA ZERO / 0.0D+00 /
1 FORMAT(//,2X,' NPRIM IS ',I5)
2 FORMAT(2X,I5,2F20.10)
3 FORMAT(//,2X,' NSHELL IS ',I5)
4 FORMAT(2X,8I5)
5 FORMAT(//,2X,' NATOM IS ',I5)
6 FORMAT(2X,I5,4F20.10,5X,2I5)
C
ITAP30=30
JUNK=101+MCONST
CALL WREADW(ITAP30,I30,MPOINT,JUNK,JUNK)
C
C READ IN BASIS SET
CALL WREADW(ITAP30,CHGS,NATOM*2,I30(1),JUNK)
CALL WREADW(ITAP30,ZS,NPRIM*2,I30(5),JUNK)
CALL WREADW(ITAP30,CONTR,NPRIM*2*ITYFC,I30(6),JUNK)
CALL WREADW(ITAP30,KPRIM,NSHELL,I30(7),JUNK)
CALL WREADW(ITAP30,KNUC,NSHELL,I30(8),JUNK)
CALL WREADW(ITAP30,KTYPE,NSHELL,I30(9),JUNK)
CALL WREADW(ITAP30,KNG,NSHELL,I30(10),JUNK)
CALL WREADW(ITAP30,KLOC,NSHELL,I30(11),JUNK)
CALL WREADW(ITAP30,KMIN,NSHELL,I30(12),JUNK)
CALL WREADW(ITAP30,KMAX,NSHELL,I30(13),JUNK)
CALL WREADW(ITAP30,UAS,NBFAO*NBFSO*2,I30(29),JUNK)
C
IJ=0
DO 102 I=1,ITYFC
DO 101 J=1,NPRIM
IJ=IJ+1
VALU=CONTR(IJ)
IF(VALU.EQ.ZERO) GO TO 101
CS(J)=VALU
101 CONTINUE
102 CONTINUE
C
IF(IPRNT.LE.3) GO TO 201
WRITE(6,1) NPRIM
DO 103 I=1,NPRIM
103 WRITE(6,2) I,ZS(I),CS(I)
WRITE(6,3) NSHELL
DO 104 I=1,NSHELL
104 WRITE(6,4) I,KNUC(I),KTYPE(I),KPRIM(I),KLOC(I),KMIN(I),KMAX(I),
1 KNG(I)
C
C FORM ARRAIES FOR AO'S
201 CONTINUE
NAST(1)=1
IATOM=1
DO 105 I=1,NSHELL
II=KNUC(I)
IF(II.EQ.IATOM) GO TO 105
IATOM=IATOM+1
NAED(IATOM-1)=KLOC(I)-1
NAST(IATOM)=KLOC(I)
105 CONTINUE
NAED(NATOM)=NBASIS
IF(IPRNT.LE.3) GO TO 202
WRITE(6,5) NATOM
DO 106 I=1,NATOM
106 WRITE(6,6) I,XX(1,I),XX(2,I),XX(3,I),CHGS(I),NAST(I),NAED(I)
202 CONTINUE
C
RETURN
END
C<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
BLOCK DATA
c3-18-88 REAL*8 GY
c3-18-88 the above line appears not to be needed as GY is not in common
COMMON/IJVEC/IX(84),IY(84),IZ(84),JX(84),JY(84),JZ(84)
C
C FIRST ROW CONTAINS S,P, AND D INDICES
C SECOND ROW CONTAINS F
C THIRD ROW CONTAINS G
C FOURTH AND FIFTH ROWS CONTAIN H
C SIXTH AND SEVENTH ROWS CONTAIN I
C
DATA IX / 1, 8, 1, 1,15, 1, 1, 8, 8, 1,
* 22, 1, 1,15,15, 8, 1, 8, 1, 8,
* 29, 1, 1,22,22, 8, 1, 8, 1,15,15, 1,15, 8, 8,
* 36, 1, 1,29,29, 8, 1, 8, 1,22,22,15, 1,15, 1,22, 8, 8,15,
* 8,15,
* 43, 1, 1,36,36, 8, 1, 8, 1,29,29,15, 1,15, 1,22,22, 1,29,
* 8, 8,22,22,15, 8,15, 8,15/
DATA JX / 0, 1, 0, 0, 2, 0, 0, 1, 1, 0,
* 3, 0, 0, 2, 2, 1, 0, 1, 0, 1,
* 4, 0, 0, 3, 3, 1, 0, 1, 0, 2, 2, 0, 2, 1, 1,
* 5, 0, 0, 4, 4, 1, 0, 1, 0, 3, 3, 2, 0, 2, 0, 3, 1, 1, 2,
* 1, 2,
* 6, 0, 0, 5, 5, 1, 0, 1, 0, 4, 4, 2, 0, 2, 0, 3, 3, 0, 5,
* 1, 1, 3, 3, 2, 1, 2, 1, 2/
DATA IY / 1, 1, 8, 1, 1,15, 1, 8, 1, 8,
* 1,22, 1, 8, 1,15,15, 1, 8, 8,
* 1,29, 1, 8, 1,22,22, 1, 8,15, 1,15, 8,15, 8,
* 1,36, 1, 8, 1,29,29, 1, 8,15, 1,22,22, 1,15, 8,22, 8,15,
* 15, 8,
* 1,43, 1, 8, 1,36,36, 1, 8,15, 1,29,29, 1,15,22, 1,22, 8,
* 29, 8,15, 8,22,22, 8,15,15/
DATA JY / 0, 0, 1, 0, 0, 2, 0, 1, 0, 1,
* 0, 3, 0, 1, 0, 2, 2, 0, 1, 1,
* 0, 4, 0, 1, 0, 3, 3, 0, 1, 2, 0, 2, 1, 2, 1,
* 0, 5, 0, 1, 0, 4, 4, 0, 1, 2, 0, 3, 3, 0, 2, 1, 3, 1, 2,
* 2, 1,
* 0, 6, 0, 1, 0, 5, 5, 0, 1, 2, 0, 4, 4, 0, 2, 3, 0, 3, 1,
* 5, 1, 2, 1, 3, 3, 1, 2, 2/
DATA IZ / 1, 1, 1, 8, 1, 1,15, 1, 8, 8,
* 1, 1,22, 1, 8, 1, 8,15,15, 8,
* 1, 1,29, 1, 8, 1, 8,22,22, 1,15,15, 8, 8,15,
* 1, 1,36, 1, 8, 1, 8,29,29, 1,15, 1,15,22,22, 8, 8,22, 8,
* 15,15,
* 1, 1,43, 1, 8, 1, 8,36,36, 1,15, 1,15,29,29, 1,22,22, 8,
* 8,29, 8,15, 8,15,22,22,15/
DATA JZ / 0, 0, 0, 1, 0, 0, 2, 0, 1, 1,
* 0, 0, 3, 0, 1, 0, 1, 2, 2, 1,
* 0, 0, 4, 0, 1, 0, 1, 3, 3, 0, 2, 2, 1, 1, 2,
* 0, 0, 5, 0, 1, 0, 1, 4, 4, 0, 2, 0, 2, 3, 3, 1, 1, 3, 1,
* 2, 2,
* 0, 0, 6, 0, 1, 0, 1, 5, 5, 0, 2, 0, 2, 4, 4, 0, 3, 3, 1,
* 1, 4, 1, 2, 1, 2, 3, 3, 2/
C
END
cets The following is called by a C program which handles dynamic
cets allocation of memory.
subroutine fentry(cc,ia,maxcor)
cets PROGRAM BONDEX
C THE BOND-INDEX AND VALENCE PROGRAM
C**********************************************************************
C* NOTICE OF PROGRAM MODIFICATION *
C**********************************************************************
C* BY: RICHARD REMINGTON search: c3-18-88 *
C* DATE: MARCH 18, 1988 *
C* REASON: DECREASE CORE TO RUN IN 7MB ON 9370 *
C* and remove variable "GY" in block data section *
C**********************************************************************
C* BY: GUSTAVO E. SCUSERIA *
C* DATE: APRIL 30, 1987 *
C* REASON: BUG FOR TCSCF CASE FIXED *
C**********************************************************************
C* BY: GUSTAVO E. SCUSERIA *
C* DATE: MAY 18, 1987 *
C* REASON: PRINT OUT GEOMETRY *
C**********************************************************************
C
C
C *****************************************************
C *****************************************************
C ** A PROGRAM TO CALCULATE SOPHISTICATED NUMBERS ? **
C ** **
C ** BROUGHT TO YOU BY **
C ** **
C ** GES **
C *****************************************************
C *****************************************************
C
C PLEASE NOTIFY ANY WEIRD RESULTS OR BUGS.
C
C INPUT: SET UP # BONDEX ## IN YOUR INPUT FILE
C ISCFCI, IPRNT, ITYFC (3I5)
C ISCFCI= 0,1 SCF CALCULATION
C 2 CI CALCULATION
C IPRNT = 0,1 MINIMUM PRINT OUT
C 2 EXTENDED PRINT OUT INCLUDING DENSITY MATRIX
C ITYFC = 3 SPD FUNCTIONS (INPUT$ CODES)
C = 5 IF F OR G ARE PRESENT (PINPUT$ CODES)
C
C NOTE!! IF USING ISCFCI=2 , 3RD FLAG IN # ONEPDM ## MUST BE .GE. 1
C AND FIRST FLAG .EQ. 1 (YES, THE PRINT OPTION!)
C YOU'LL ALSO NEED TO RUN MASTER$ BEFORE ONEPDM$
C (AND INTS$ BEFORE MASTER$, SORRY)
C
C IF USING MORE THAN 200 BFS OR 112 ATOMS TAKE A LOOK AT THE FORTRAN
C LAST UPDATE : APRIL 7, 1987
C
C
IMPLICIT REAL*8 (A-H,O-Z)
integer wpadti
c3-18-88 DIMENSION CC(360000),IA(1)
dimension cc(maxcor),ia(intowp(maxcor))
cets DIMENSION CC(360000),IA(1)
DIMENSION I30(200),A30(100)
COMMON/BASIS/NBASIS,NBFAO,NBFSO,NBATRI
COMMON/COORD/CHGS(112),X(3,112),WW(112)
COMMON/FLAGS/MPOINT,MCONST
COMMON/FUNCS/NATOM,N3N,NSYM
COMMON/GAUSS/ZS(200),CS(200)
COMMON/NORBS/NAST(112),NAED(112)
COMMON/NSHEL/KNUC(200),KTYPE(200),KPRIM(200),KLOC(200),
1 KMIN(200),KMAX(200),KNG(200),NSHELL,NPRIM
COMMON/PARAS/MXCOEF,LOCVEC
COMMON/QVALS/QORB(256),QATM(112),QNET(112)
COMMON/SIGNS/IOFF(500),IPRNT
COMMON/CI101/IOPEN,IOCC,JOCC,KOCC
cets EQUIVALENCE (CC,IA)
EQUIVALENCE (I30,A30)
1 FORMAT(//,2X,' THE BOND-INDEX AND VALENCE PROGRAM'/
. ,2X,' GES VERSION 05.18.87 '/)
2 FORMAT(16I5)
3 FORMAT(/,2X,' PARAMETERS'/
* 2X,' ISCFCI = ',I8/
* 2X,' IPRNT = ',I8/
* 2X,' ITYFC = ',I8/
* 2X,' NBASIS = ',I8/
* 2X,' NBFAO = ',I8/
* 2X,' NBFSO = ',I8/
* 2X,' NBATRI = ',I8/
* 2X,' NATOM = ',I8/
* 2X,' N3N = ',I8/
* 2X,' NSYM = ',I8/
* 2X,' IOPEN = ',I8/
* 2X,' NSHELL = ',I8/
* 2X,' NPRIM = ',I8/)
4 FORMAT(/,3X,20A4)
5 FORMAT(//,2X,' ENUC = ',F20.10/
1 2X,' ESCF = ',F20.10/)
6 FORMAT(//,2X,' REQUIRED MEMORY EXCEEDS MAXCOR'/
1 2X,' ICMAX = ',I10,5X,' MAXCOR = ',I10/)
7 FORMAT(//,2X,' WARNING! NO INPUT TO BONDEX HAS BEEN FOUND. '/
1 2X,' DEFAULT PARAMETERS WILL BE USED. ',/)
C
c CALL TSTART(6)
cets CALL NOUNFL
call drum
C
ITAPE3=3
INPUT=5
ITAPE6=6
ITAP30=30
cets MAXCOR=360000
c3-18-88 MAXCOR=360000
call tstart(itape6)
CALL RFILE(ITAP30)
C
WRITE(6,1)
WRITE(3,1)
C
C ISCFCI IS A PARAMETER FOR TYPE OF WAVE FUNCTION
C ISCFCI = 0 OR 1 FOR SCF
C ISCFCI = 2 FOR CI
C IPRINT IS A PARAMETER FOR SIZE OF OUTPUT
C ITYFC IS A PARAMETER FOR DEALING WITH SPD (3) OR FG (5) BFS.
C
C SET UP DEFAULT VALUES IF INPUT TO PROPER IS NOT FOUND
C
ISCFCI = 1
IPRINT = 0
ITYFC = 3
C
CALL LOCATE(INPUT,'# BONDEX #',IERR)
C
IF(IERR .NE. 0) WRITE(6,7)
IF(IERR .NE. 0) GOTO 100
READ(5,2) ISCFCI,IPRNT, ITYFC
IF(ISCFCI.EQ.0)ISCFCI=1
IF(ITYFC .EQ.0)ITYFC=3
100 CONTINUE
IOFF(1)=0
DO 101 I=1,499
101 IOFF(I+1)=IOFF(I)+I
C
CALL SREW(ITAP30)
CALL WREADW(ITAP30,I30,200,101,JUNK)
MPOINT=I30(2)
MCONST=I30(3)
NCALCS=I30(5)
NBFSO=I30(18)
NATOM=I30(19)
NBFAO=I30(22)
NSHELL=I30(27)
NPRIM=I30(32)
NSYM=I30(41)
MXCOEF=I30(42)
IOPEN=I30(43)
NBASIS=NBFSO
N3N=NATOM*3
NBATRI=IOFF(NBFAO+1)
C
WRITE(6,3) ISCFCI,IPRNT,ITYFC,NBASIS,NBFAO,NBFSO,NBATRI,NATOM,
1 N3N,NSYM,IOPEN,NSHELL,NPRIM
C
C READ IN LABELS
JUNK=101+MCONST+MPOINT+NCALCS-1
CALL WREADW(ITAP30,LOCCAL,1,JUNK,JUNK)
CALL WREADW(ITAP30,I30,60,LOCCAL,LOCCAL)
WRITE(6,4) (I30(I),I=1,20)
CALL WREADW(ITAP30,I30,20,LOCCAL,JUNK)
LOCVEC=I30(1)
C
C READ IN GEOMETRY
LOCCAL=LOCCAL+20
CALL WREADW(ITAP30,X,NATOM*6,LOCCAL,LOCCAL)
WRITE(6,994)
994 FORMAT(//,'GEOMETRY FROM FILE30',/)
DO 66 I=1,NATOM
WRITE(6,993)I,X(1,I),X(2,I),X(3,I)
993 FORMAT(1X,I4,5X,3(F12.8,5X))
66 CONTINUE
C
C READ IN ENUC AND ESCF
CALL WREADW(ITAP30,A30,20,LOCCAL,LOCCAL)
ENUC=A30(1)
ESCF=A30(2)
WRITE(6,5) ENUC,ESCF
C
C READ IN BASIS SET INFORMATION
CC WRITE(6,21)
WRITE(3,21)
21 FORMAT(//,2X,' NOW YOU ARE IN BASSET'/)
IC1=1
C.................UAS.....
CALL BASSET(CC(IC1),ITYFC)
C
C READ IN EIGENVECTORS
CC WRITE(6,22)
WRITE(3,22)
22 FORMAT(//,2X,'NOW YOU ARE IN EIGVEC'/)
IC1=1
IC2=IC1+NBFAO*NBFSO
IC3=IC2+NBASIS
IC4=IC3+NBASIS
IC5=IC4+NBFSO*NBFSO
IC6=IC5+NBFAO*NBFSO
ICMAX=IC6+NBFAO*NBFSO
IF(ICMAX.GT.MAXCOR) GO TO 399
C................UAS EIG OCC ESO EAO EE......
CALL EIVEC(CC(IC1),CC(IC2),CC(IC3),CC(IC4),CC(IC5),CC(IC6))
C
C FORM A DENSITY MATRIX
CC WRITE(6,23)
WRITE(3,23)
23 FORMAT(//,2X,' NOW YOU ARE IN DENSTY'/)
IC1=1
IC2=IC1+NBFAO*NBFSO
IC3=IC2+NBASIS
IC4=IC3+NBASIS
IC5=IC4+NBFSO*NBFSO
IC6=IC5+NBFAO*NBFSO
ICMAX=IC6+NBATRI
IF(ICMAX.GT.MAXCOR) GO TO 399
C.................OCC EAO P.......
CALL DENSTY(CC(IC3),CC(IC5),CC(IC6),ISCFCI)
C
C CALCULATE THE DAM INDEX
CC WRITE(6,27)
WRITE(3,27)
27 FORMAT(//,2X,' NOW YOU ARE IN VINDEX'/)
IC1=1
IC2=IC1+NBFAO*NBFSO
IC3=IC2+NBASIS
IC4=IC3+NBASIS
IC5=IC4+NBFSO*NBFSO
IC6=IC5+NBFAO*NBFSO
IOV=IC6+NBATRI
IBON=IOV+NBATRI
IPRO=IBON+NBASIS*NBASIS
IVIN=IPRO+NBASIS*NBASIS
IV1 =IVIN+NATOM*NATOM
IE1 =IV1 +NBASIS*NBASIS
IGAMMA=IE1+NBASIS
IPOSV=WPADTI(IGAMMA)
CCC IPOSV=IGAMMA*2-1
IBETA=IGAMMA+NBASIS
IVPOS=WPADTI(IBETA)
IBETAQ=IBETA+NBASIS
IORD=WPADTI(IBETAQ)
IW=IBETAQ+NBASIS
IMINX=IW+NBASIS
ICMAX=IMINX+NBASIS
IF(ICMAX.GT.MAXCOR) GO TO 399
CALL DIPORB(CC(IOV),CC(IC6),CC(IBON),CC(IPRO),CC(IVIN),ISCFCI,
. CC(IV1),CC(IE1),CC(IMINX),
. CC(IGAMMA),CC(IBETA),CC(IBETAQ),CC(IW),
. IA(IPOSV),IA(IVPOS),IA(IORD))
GO TO 400
399 WRITE(6,6) ICMAX,MAXCOR
400 CONTINUE
CALL TSTOP(itape6)
C
STOP
END
C<<<<<<<<<<<<<<<<<<
SUBROUTINE DENSTY(OCC,EAO,P,ISCFCI)
IMPLICIT REAL*8 (A-H,O-Z)
DIMENSION OCC(NBASIS),EAO(NBFAO,NBFSO),P(NBATRI)
COMMON/BASIS/NBASIS,NBFAO,NBFSO,NBATRI
COMMON/SIGNS/IOFF(500),IPRNT
DATA ZERO / 0.0D+00 /
1 FORMAT(//,2X,' DENSITY MATRIXIN TINE DENSITY'/)
C
C IF THE WAVE FUNCTION IS NOT AN SCF WAVE FUNCTION THEN READ IN THE
C AO ONE PDM FROM THE MASTER FILE.
C
IF(ISCFCI.GT.1) GOTO 300
C
C FORM DENSITY MATRIX
DO 101 I=1,NBATRI
101 P(I)=ZERO
IJ=0
DO 103 I=1,NBFAO
DO 103 J=1,I
IJ=IJ+1
VALU=ZERO
DO 102 K=1,NBASIS
IF(OCC(K).LE.ZERO) GO TO 102
VALU=VALU+EAO(I,K)*EAO(J,K)*OCC(K)
102 CONTINUE
P(IJ)=VALU
103 CONTINUE
IF(IPRNT.LE.3) GO TO 201
WRITE(6,1)
C CALL PRINT(P,NBATRI,NBFAO,6)
C
201 CONTINUE
RETURN
300 CONTINUE
C
C INITIALIZE THE MASTER FILE.
C
CALL INITMF(1)
C
IF(ISCFCI.EQ.2) CALL MREAD(P,34)
CTJL IF(ISCFCI.EQ.3) CALL MREAD(P,37)
C
IF(IPRNT.LE.3) GO TO 301
WRITE(6,1)
C CALL PRINT(P,NBATRI,NBFAO,6)
301 CONTINUE
RETURN
END
C<<<<<<<<<<<<<<<<<<<<<<
SUBROUTINE DIPORB(OV,D,BOND,PROD,VINDEX,ISCFCI,
. V1,E1,MINDEX,
. GAMMA,BETA,BETAQ,W,
. IPOSV,IVPOS,IORD)
IMPLICIT REAL*8 (A-H,O-Z)
LOGICAL IANDJ,EQUAL
COMMON/BASIS/NT,NBFAO,NBFSO,NBATRI
. /COORD/ZAN(112),C(3,112),WW(112)
. /EXYZS/EX(7,7,13),EY(7,7,13),EZ(7,7,13)
. /FUNCS/NATOM,N3N,NSYM
. /GAUSS/ZS(200),CS(200)
. /IJVEC/IX(84),IY(84),IZ(84),JX(84),JY(84),JZ(84)
. /INDIX/IJX(225),IJY(225),IJZ(225),IJPOS(225)
. /NSHEL/KNUC(200),KTYPE(200),KSTART(200),KLOC(200),
. KMIN(200),KMAX(200),KNG(200),NSHELL,NPRIM
. /ROOT /XX,U(9),WT(9),NROOTS
. /SIGNS/IPQ(500),IPRNT
REAL * 8 MINDEX(NATOM)
DIMENSION OV1 (9000),SAVE(9000)
DIMENSION OV(NBATRI),D(NBATRI),BOND(NT,NT),PROD(NT,NT),
. VINDEX(NATOM,NATOM)
DIMENSION VX0(36),VY0(36),VZ0(36),VX1(36),VY1(36),VZ1(36),
. VX2(36),VY2(36),VZ2(36),VXS(36),VYS(36),VZS(36)
DIMENSION V1(NT*NT),E1(NT),GAMMA(NT),BETA(NT),BETAQ(NT),W(NT),
. IPOSV(NT),IVPOS(NT),IORD(NT)
DATA ITOL / 10 /
DATA PI212 / 1.1283791670955D+00 /
DATA PI32 / 5.56832799683170D+00 /
DATA ZERO,HALF,ONE,TWO / 0.0D+00 , 0.5D+00 , 1.0D+00 , 2.0D+00 /
DATA NQLIM / 7 /
C
TOL=ITOL*2.30258D+00
C ZERO ALL THE CORE
DO 101 I=1,NBATRI
OV(I)=ZERO
101 CONTINUE
C
C:::::::::::::::::::::::::::::
C:::::----- I SHELL -----:::::
C:::::::::::::::::::::::::::::
C
DO 6000 ISH=1,NSHELL
C
IATOM=KNUC(ISH)
AX=C(1,IATOM)
AY=C(2,IATOM)
AZ=C(3,IATOM)
IGMIN=KSTART(ISH)
IGMAX=IGMIN+KNG(ISH)-1
LIT=KTYPE(ISH)
MINI=KMIN(ISH)
MAXI=KMAX(ISH)
LOCI=KLOC(ISH)
C
C:::::::::::::::::::::::::::::
C:::::----- J SHELL -----:::::
C:::::::::::::::::::::::::::::
C
DO 5000 JSH=1,ISH
C
JATOM=KNUC(JSH)
BX=C(1,JATOM)
BY=C(2,JATOM)
BZ=C(3,JATOM)
JGMIN=KSTART(JSH)
JGMAX=JGMIN+KNG(JSH)-1
LJT=KTYPE(JSH)
MINJ=KMIN(JSH)
MAXJ=KMAX(JSH)
LOCJ=KLOC(JSH)
IANDJ=ISH.EQ.JSH
EQUAL=IATOM.EQ.JATOM
C
C ----- WORK OUT INDICES FOR COMBINING INTEGRALS -----
C
MIJ=0
JMAX=MAXJ
II=-1
DO 103 I=MINI,MAXI
II=II+1
JJ=-1
NX=IX(I)
NY=IY(I)
NZ=IZ(I)
IF(IANDJ) JMAX=I
DO 102 J=MINJ,JMAX
MIJ=MIJ+1
JJ=JJ+1
IJX(MIJ)=NX+JX(J)
IJY(MIJ)=NY+JY(J)
IJZ(MIJ)=NZ+JZ(J)
IDXI=LOCI+II
IDXJ=LOCJ+JJ
IDXS=IPQ(MAX0(IDXI,IDXJ))+MIN0(IDXI,IDXJ)
IJPOS(MIJ)=IDXS
102 CONTINUE
103 CONTINUE
C
XAB=AX-BX
YAB=AY-BY
ZAB=AZ-BZ
RAB=XAB*XAB+YAB*YAB+ZAB*ZAB
NROOTS=(LIT+LJT-2)/2+2
MAXIJ=MAX0(LIT+1,LJT+2)
C
DO 4000 IG=IGMIN,IGMAX
CSI=CS(IG)*PI32
AI=ZS(IG)
AXI=AI*AX
AYI=AI*AY
AZI=AI*AZ
C
C IF(IANDJ) JGMAX=IG
DO 3000 JG=JGMIN,JGMAX
CSJ=CS(JG)
BJ=ZS(JG)
BXJ=BJ*BX
BYJ=BJ*BY
BZJ=BJ*BZ
C
PP=AI+BJ
TPP=ONE/PP
TEMP=(AI*BJ*RAB)*TPP
C
C ----- IGNORE INTEGRAL IF PRE-EXPONENTIAL TOO SMALL -----
C
IF(TEMP.GT.TOL) GO TO 3000
C
C ----- DENSITY FACTOR -----
C
TP=DSQRT(TPP)
DIJ=CSI*CSJ*DEXP(-TEMP)*TPP
DIJS=CSI*CSJ*DEXP(-TEMP)*(TPP**1.5D0)
C IF(IANDJ.AND.IG.NE.JG) DIJ=DIJ+DIJ
PFAC=DIJ*TP
PFACH=PFAC*HALF
DIJPI=DIJ*PI212
PTWO=TPP*HALF
C
C FORM SOME PRODUCTS NEEDED IN INTEGRAL EVALUATION
C
PX=(AXI+BXJ)*TPP
PY=(AYI+BYJ)*TPP
PZ=(AZI+BZJ)*TPP
IF(EQUAL) GO TO 201
PAX=PX-AX
PAY=PY-AY
PAZ=PZ-AZ
PBX=PX-BX
PBY=PY-BY
PBZ=PZ-BZ
GO TO 202
201 CONTINUE
PAX=ZERO
PAY=ZERO
PAZ=ZERO
PBX=ZERO
PBY=ZERO
PBZ=ZERO
C
202 CONTINUE
CALL ECAL(PAX,PAY,PAZ,PBX,PBY,PBZ,PTWO,MAXIJ)
C
C PCX=PX-CX
C PCY=PY-CY
C PCZ=PZ-CZ
C XX=PP*(PCX*PCX+PCY*PCY+PCZ*PCZ)
C IF(NROOTS.LE.3) THEN
C CALL RT123
C ELSE IF(NROOTS.EQ.4) THEN
C CALL ROOT4
C ELSE IF(NROOTS.EQ.5) THEN
C CALL ROOT5
C ELSE IF(NROOTS.LE.9) THEN
C CALL DROOT
C ELSE
C STOP ' NOT ENOUGH ROOTS IN ONEINT'
C END IF
C
C DO 1000 IROOT=1,NROOTS
C ROOT2=U(IROOT)/(ONE+U(IROOT))
C WW=WT(IROOT)*(-DIJPI)
C AROOT2=-ROOT2*(PP+PP)
C
C IN=-NQLIM
C DO 910 NI=1,LIT
C IN=IN+NQLIM
C DO 909 NJ=1,LJT
C MAXT=NI+NJ-1
C JN=IN+NJ
C CALL GCAL(PCX,PCY,PCZ,VXX,VYY,VZZ,VXX1,VYY1,VZZ1,VXX2,VYY2,VZZ2,
C . BJ,AROOT2,NI,NJ,MAXT)
C VX0(JN)=VXX
C VY0(JN)=VYY
C VZ0(JN)=VZZ
C VX1(JN)=VXX1
C VY1(JN)=VYY1
C VZ1(JN)=VZZ1
C VX2(JN)=VXX2
C VY2(JN)=VYY2
C VZ2(JN)=VZZ2
C 909 CONTINUE
C 910 CONTINUE
C
C DO 912 I=1,MIJ
C NX=IJX(I)
C NY=IJY(I)
C NZ=IJZ(I)
C X=VX0(NX)
C Y=VY0(NY)
C Z=VZ0(NZ)
C X1=VX1(NX)
C Y1=VY1(NY)
C Z1=VZ1(NZ)
C X2=VX2(NX)
C Y2=VY2(NY)
C Z2=VZ2(NZ)
C IJ=IJPOS(I)
C SDXX(IJ)=SDXX(IJ)+X2*Y*Z*WW
C SDYY(IJ)=SDYY(IJ)+X*Y2*Z*WW
C SDZZ(IJ)=SDZZ(IJ)+X*Y*Z2*WW
C SDXY(IJ)=SDXY(IJ)+X1*Y1*Z*WW
C SDXZ(IJ)=SDXZ(IJ)+X1*Y*Z1*WW
C SDYZ(IJ)=SDYZ(IJ)+X*Y1*Z1*WW
C 912 CONTINUE
C1000 CONTINUE
C
IN=-NQLIM
DO 930 NI=1,LIT
IN=IN+NQLIM
DO 929 NJ=1,LJT
JN=IN+NJ
VXS(JN)=EX(NI,NJ,1)
VYS(JN)=EY(NI,NJ,1)
VZS(JN)=EZ(NI,NJ,1)
929 CONTINUE
930 CONTINUE
C
DO 962 I=1,MIJ
NX=IJX(I)
NY=IJY(I)
NZ=IJZ(I)
SX=VXS(NX)
SY=VYS(NY)
SZ=VZS(NZ)
IJ=IJPOS(I)
cets OV(IJ)=OV(IJ)+SX*SY*SZ*DIJS
ov(ij)=sx*sy*sz*dijs+ov(ij)
962 CONTINUE
C
2000 CONTINUE
C
3000 CONTINUE
4000 CONTINUE
5000 CONTINUE
6000 CONTINUE
IF(IPRNT.GT.2)THEN
WRITE(6,630)
630 FORMAT(1X,//,'OVERLAP MATRIX',/)
CALL PRINT(OV,NBATRI,NBFAO,6)
ENDIF
IF(IPRNT.GT.1)THEN
WRITE(6,631)
631 FORMAT(1X,//,'DENSITY MATRIX',/)
CALL PRINT( D,NBATRI,NBFAO,6)
ENDIF
C
IJK=0
TRACE=0.0D0
DO 5030 I=1,NT
DO 5030 J=1,I
IJK=IJK+1
IF(I.EQ.J)THEN
TRACE=D(IJK)*OV(IJK)+trace
ELSE
TRACE=2.D0*D(IJK)*OV(IJK)+trace
END IF
cets write(6,*) ijk, trace
789 format(1x,'ijk= ',i3,2x,'trace= ',f12.6 )
5030 CONTINUE
WRITE(6,606)TRACE
606 FORMAT(//,'TRACE OF P*S IS ',F12.6 )
DO 6102 I=1,NT
DO 6101 J=1,NT
PROD(I,J)=0.0D0
DO 6100 K=1,NT
IK=IPQ(MAX0(I,K))+MIN0(I,K)
KJ=IPQ(MAX0(K,J))+MIN0(K,J)
PROD(I,J)=D(IK)*OV(KJ)+prod(i,j)
6100 CONTINUE
6101 CONTINUE
6102 CONTINUE
DO 6200 IC=1,NATOM
MINDEX(IC)=0.0D0
DO 6200 JC=1,NATOM
6200 VINDEX(IC,JC)=0.0D0
DO 6300 ISH=1,NSHELL
IAT=KNUC(ISH)
IFI=KLOC(ISH)
ILI=IFI+KMAX(ISH)-KMIN(ISH)
DO 6295 JSH=1,NSHELL
JAT=KNUC(JSH)
IFJ=KLOC(JSH)
ILJ=IFJ+KMAX(JSH)-KMIN(JSH)
DO 6290 I=IFI,ILI
DO 6290 J=IFJ,ILJ
cets VINDEX(IAT,JAT)=VINDEX(IAT,JAT)+PROD(I,J)*PROD(J,I)
vindex(iat,jat)=prod(i,j)*prod(j,i)+vindex(iat,jat)
C IF(IAT.EQ.JAT)MINDEX(IAT)=MINDEX(IAT)-PROD(I,J)*PROD(J,I)
C IF(I.EQ.J)MINDEX(IAT)=MINDEX(IAT)+2.D0*PROD(I,J)
6290 CONTINUE
6295 CONTINUE
6300 CONTINUE
WRITE(6,673)
673 FORMAT(1X,//,'MULLIKEN BOND-INDEX',/)
CALL MATOUT(VINDEX,NATOM,NATOM,NATOM,NATOM,6)
WRITE(6,683)
683 FORMAT (//,1X,'MULLIKEN VALENCES',/)
C DO 6322 IC=1,NATOM
C WRITE(6,612)IC,MINDEX(IC)
C6322 CONTINUE
DO 6322 IC=1,NATOM
VAL=0.0D0
DO 6320 JC=1,NATOM
IF(JC.EQ.IC)GO TO 6319
VAL=VINDEX(IC,JC)+val
6319 CONTINUE
6320 CONTINUE
WRITE(6,612)IC,VAL
6322 CONTINUE
C DO 9898 I=1,NBATRI
C9898 SAVE(I)=OV(I)
C
C CALCULATE S**1/2
C
IW=6
CALL LIGEN3(NT,NBATRI,NT*NT,OV,V1,E1)
C . GAMMA,BETA,BETAQ,W,IPOSV,IVPOS,IORD,P,Q)
IF(IPRNT.GT.1)THEN
WRITE(IW,609)
609 FORMAT(1X,/,'OVERLAP MATRIX EIGENVALUES',/)
WRITE(IW,607) (I,E1(I),I=1,NT)
607 FORMAT(6(1X,I6,2X,F12.6))
ENDIF
IF(IPRNT.GT.2)THEN
WRITE(IW,608)
608 FORMAT(1X,/,'OVERLAP MATRIX EIGENVECTORS',/)
CALL MATOUT (V1,NT,NT,NT,NT,6)
END IF
DO 100 I=1,NT
DO 100 J=1,I
DUM=0.0D+00
DAM=0.0D+00
IJ=IPQ(I)+J
DO 50 K=1,NT
K1INK= (K-1)*NT
DAM=DAM+V1(K1INK+I)*V1(K1INK+J)/ E1(K)
50 DUM=DUM+V1(K1INK+I)*V1(K1INK+J)*DSQRT(E1(K))
C OV1(IJ)=DAM
100 OV(IJ)=DUM
C WRITE(*,*)'INVERSE OF OVERLAP MATRIX'
C CALL PRINT(OV1,NBATRI,NBFAO,6)
C
C DO 5102 I=1,NT
C DO 5101 J=1,NT
C PROD(I,J)=0.0D0
C DO 5100 K=1,NT
C IK=IPQ(MAX0(I,K))+MIN0(I,K)
C KJ=IPQ(MAX0(K,J))+MIN0(K,J)
C PROD(I,J)=PROD(I,J)+OV1(IK)*SAVE(KJ)
C5100 CONTINUE
C5101 CONTINUE
C5102 CONTINUE
C WRITE(*,*)'UNIT MATRIX'
C CALL MATOUT(PROD,NT,NT,NT,NT,6)
IF(IPRNT.GT.2)THEN
WRITE(6,632)
632 FORMAT(1X,//,'HALF OVERLAP MATRIX',/)
CALL PRINT(OV,NBATRI,NBFAO,6)
END IF
DO 7102 I=1,NT
DO 7101 J=1,NT
PROD(I,J)=0.0D0
DO 7100 K=1,NT
IK=IPQ(MAX0(I,K))+MIN0(I,K)
KJ=IPQ(MAX0(K,J))+MIN0(K,J)
PROD(I,J)=PROD(I,J)+OV(IK)*D(KJ)
7100 CONTINUE
7101 CONTINUE
7102 CONTINUE
DO 7105 I=1,NT
DO 7104 J=1,NT
BOND(I,J)=0.0D0
DO 7103 K=1,NT
KJ=IPQ(MAX0(K,J))+MIN0(K,J)
BOND(I,J)=BOND(I,J)+PROD(I,K)*OV(KJ)
7103 CONTINUE
7104 CONTINUE
7105 CONTINUE
TRACE=0.0 D0
DO 7107 I=1,NT
7107 TRACE=TRACE+BOND(I,I)
WRITE(6,611)TRACE
611 FORMAT(//,'TRACE OF S1/2*P*S1/2 IS ',F12.6)
TRACE=0.0 D0
DO 7108 I=1,NT
DO 7108 J=1,NT
7108 TRACE=TRACE+BOND(I,J)*BOND(I,J)
WRITE(6,615)TRACE
615 FORMAT(//,' TRACE OF (S1/2*P*S1/2)**2 IS ',F12.6 )
DO 7200 IC=1,NATOM
DO 7200 JC=1,NATOM
7200 VINDEX(IC,JC)=0.0D0
DO 7300 ISH=1,NSHELL
IAT=KNUC(ISH)
IFI=KLOC(ISH)
ILI=IFI+KMAX(ISH)-KMIN(ISH)
DO 7295 JSH=1,NSHELL
JAT=KNUC(JSH)
IFJ=KLOC(JSH)
ILJ=IFJ+KMAX(JSH)-KMIN(JSH)
DO 7290 I=IFI,ILI
DO 7290 J=IFJ,ILJ
VINDEX(IAT,JAT)=VINDEX(IAT,JAT)+BOND(I,J)*BOND(J,I)
7290 CONTINUE
7295 CONTINUE
7300 CONTINUE
WRITE(6,633)
633 FORMAT(1X,//,'LOWDIN BOND-INDEX',/)
CALL MATOUT(VINDEX,NATOM,NATOM,NATOM,NATOM,6)
WRITE(6,613)
613 FORMAT (//,1X,'LOWDIN VALENCES',/)
DO 7322 IC=1,NATOM
VAL=0.0D0
DO 7320 JC=1,NATOM
IF(JC.EQ.IC)GO TO 7319
VAL=VAL+VINDEX(IC,JC)
7319 CONTINUE
7320 CONTINUE
WRITE(6,612)IC,VAL
612 FORMAT (1X,I4,3X,F12.4)
7322 CONTINUE
C
C ( S1/2*P*S1/2 )**2 ELEM. IJ
C
C DO 8102 I=1,NT
C DO 8101 J=1,NT
C PROD(I,J)=0.0D0
C DO 8100 K=1,NT
C PROD(I,J)=PROD(I,J)+BOND(I,K)*BOND(K,J)
C8100 CONTINUE
C8101 CONTINUE
C8102 CONTINUE
C DO 8200 IC=1,NATOM
C DO 8200 JC=1,NATOM
C8200 VINDEX(IC,JC)=0.0D0
C DO 8300 ISH=1,NSHELL
C IAT=KNUC(ISH)
C IFI=KLOC(ISH)
C ILI=IFI+KMAX(ISH)-KMIN(ISH)
C DO 8295 JSH=1,NSHELL
C JAT=KNUC(JSH)
C IFJ=KLOC(JSH)
C ILJ=IFJ+KMAX(JSH)-KMIN(JSH)
C DO 8290 I=IFI,ILI
C DO 8290 J=IFJ,ILJ
C VINDEX(IAT,JAT)=VINDEX(IAT,JAT)+PROD(I,J)
C8290 CONTINUE
C8295 CONTINUE
C8300 CONTINUE
C WRITE(6,633)
C CALL MATOUT(VINDEX,NATOM,NATOM,NATOM,NATOM,6)
C WRITE(6,613)
C DO 8322 IC=1,NATOM
C VAL=0.0D0
C DO 8320 JC=1,NATOM
C IF(JC.EQ.IC)GO TO 8319
C VAL=VAL+VINDEX(IC,JC)
C8319 CONTINUE
C8320 CONTINUE
C WRITE(6,612)IC,VAL
C8322 CONTINUE
RETURN
END
C======================================================================
SUBROUTINE ECAL(PAX,PAY,PAZ,PBX,PBY,PBZ,PTWO,MAXIJ)
IMPLICIT REAL*8 (A-H,O-Z)
LOGICAL EQUAL
COMMON/EXYZS/EX(7,7,13),EY(7,7,13),EZ(7,7,13)
DATA ZERO,ONE / 0.0D+00 , 1.0D+00 /
C
EX(1,1,1)=ONE
EY(1,1,1)=ONE
EZ(1,1,1)=ONE
C
DO 110 II=2,MAXIJ
DO 109 JJ=1,II
EQUAL=II.EQ.JJ
IJTOT=(II-2)+(JJ-1)
KMAX=II+JJ-1
DO 108 KK=1,KMAX
PXX=ZERO
PYY=ZERO
PZZ=ZERO
QXX=ZERO
QYY=ZERO
QZZ=ZERO
C
KM1=KK-1
IF(KM1.LT.1) GO TO 201
PXX=PXX+EX(II-1,JJ,KM1)*PTWO
PYY=PYY+EY(II-1,JJ,KM1)*PTWO
PZZ=PZZ+EZ(II-1,JJ,KM1)*PTWO
IF(EQUAL) GO TO 201
QXX=QXX+EX(JJ,II-1,KM1)*PTWO
QYY=QYY+EY(JJ,II-1,KM1)*PTWO
QZZ=QZZ+EZ(JJ,II-1,KM1)*PTWO
C
201 CONTINUE
IF(KM1.GT.IJTOT) GO TO 202
PXX=PXX+EX(II-1,JJ,KK)*PAX
PYY=PYY+EY(II-1,JJ,KK)*PAY
PZZ=PZZ+EZ(II-1,JJ,KK)*PAZ
IF(EQUAL) GO TO 202
QXX=QXX+EX(JJ,II-1,KK)*PBX
QYY=QYY+EY(JJ,II-1,KK)*PBY
QZZ=QZZ+EZ(JJ,II-1,KK)*PBZ
C
202 CONTINUE
IF(KK.GT.IJTOT) GO TO 203
KP1=KK+1
T=DBLE(KK)
PXX=PXX+EX(II-1,JJ,KP1)*T
PYY=PYY+EY(II-1,JJ,KP1)*T
PZZ=PZZ+EZ(II-1,JJ,KP1)*T
IF(EQUAL) GO TO 203
QXX=QXX+EX(JJ,II-1,KP1)*T
QYY=QYY+EY(JJ,II-1,KP1)*T
QZZ=QZZ+EZ(JJ,II-1,KP1)*T
C
203 CONTINUE
EX(II,JJ,KK)=PXX
EY(II,JJ,KK)=PYY
EZ(II,JJ,KK)=PZZ
IF(EQUAL) GO TO 205
EX(JJ,II,KK)=QXX
EY(JJ,II,KK)=QYY
EZ(JJ,II,KK)=QZZ
C
205 CONTINUE
108 CONTINUE
109 CONTINUE