From 29f1711877a0f3f6f7e36d22f4a53b0161591d4e Mon Sep 17 00:00:00 2001 From: David Billinghurst Date: Tue, 13 Jul 2004 07:08:22 +0000 Subject: [PATCH] Copy files from g77.f-torture/compile. 2004-07-13 David Billinghurst (David.Billinghurst@riotinto.com) Copy files from g77.f-torture/compile. Add "{ dg-do compile}". Other changes as noted * gfortran.dg/g77/19990905-0.f: XFAIL PR 16511 * gfortran.dg/g77/20010519-1.f: Add dg-warning as required * gfortran.dg/g77/20030115-1.f: Add dg-warning as required * gfortran.dg/g77/20030326-1.f: XFAIL PR 16511 * gfortran.dg/g77/970125-0.f: Add dg-excess-errors. * gfortran.dg/g77/980519-2.f: Declare hd_S,hd_Z,hd_T * gfortran.dg/g77/990115-1.f: Declare RANK as INTEGER * gfortran.dg/g77/alpha1.f: Separate declaration and DATA statement to conform to standard. Append alpha1.x for reference. * gfortran.dg/g77/xformat.f: Add dg-warning From-SVN: r84605 --- gcc/testsuite/ChangeLog | 15 + gcc/testsuite/gfortran.dg/g77/19990905-0.f | 8 + gcc/testsuite/gfortran.dg/g77/20010519-1.f | 1327 ++++++++++++++++++++ gcc/testsuite/gfortran.dg/g77/20030115-1.f | 17 + gcc/testsuite/gfortran.dg/g77/20030326-1.f | 15 + gcc/testsuite/gfortran.dg/g77/970125-0.f | 45 + gcc/testsuite/gfortran.dg/g77/980519-2.f | 51 + gcc/testsuite/gfortran.dg/g77/990115-1.f | 12 + gcc/testsuite/gfortran.dg/g77/alpha1.f | 27 + gcc/testsuite/gfortran.dg/g77/xformat.f | 4 + 10 files changed, 1521 insertions(+) create mode 100644 gcc/testsuite/gfortran.dg/g77/19990905-0.f create mode 100644 gcc/testsuite/gfortran.dg/g77/20010519-1.f create mode 100644 gcc/testsuite/gfortran.dg/g77/20030115-1.f create mode 100644 gcc/testsuite/gfortran.dg/g77/20030326-1.f create mode 100644 gcc/testsuite/gfortran.dg/g77/970125-0.f create mode 100644 gcc/testsuite/gfortran.dg/g77/980519-2.f create mode 100644 gcc/testsuite/gfortran.dg/g77/990115-1.f create mode 100644 gcc/testsuite/gfortran.dg/g77/alpha1.f create mode 100644 gcc/testsuite/gfortran.dg/g77/xformat.f diff --git a/gcc/testsuite/ChangeLog b/gcc/testsuite/ChangeLog index 43b7ea70a19..b1a6fa30b84 100644 --- a/gcc/testsuite/ChangeLog +++ b/gcc/testsuite/ChangeLog @@ -1,3 +1,18 @@ +2004-07-13 David Billinghurst (David.Billinghurst@riotinto.com) + + Copy files from g77.f-torture/compile. + Add "{ dg-do compile}". Other changes as noted + * gfortran.dg/g77/19990905-0.f: XFAIL PR 16511 + * gfortran.dg/g77/20010519-1.f: Add dg-warning as required + * gfortran.dg/g77/20030115-1.f: Add dg-warning as required + * gfortran.dg/g77/20030326-1.f: XFAIL PR 16511 + * gfortran.dg/g77/970125-0.f: Add dg-excess-errors. + * gfortran.dg/g77/980519-2.f: Declare hd_S,hd_Z,hd_T + * gfortran.dg/g77/990115-1.f: Declare RANK as INTEGER + * gfortran.dg/g77/alpha1.f: Separate declaration and DATA + statement to conform to standard. Append alpha1.x for reference. + * gfortran.dg/g77/xformat.f: Add dg-warning + 2004-07-13 David Billinghurst (David.Billinghurst@riotinto.com) * gfortran.dg/g77/cpp.F: Copy from g77.f-torture/compile. diff --git a/gcc/testsuite/gfortran.dg/g77/19990905-0.f b/gcc/testsuite/gfortran.dg/g77/19990905-0.f new file mode 100644 index 00000000000..005f91d6aa0 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/19990905-0.f @@ -0,0 +1,8 @@ +c { dg-do compile } +* =foo0.f in Burley's g77 test suite. + subroutine sub(a) + common /info/ iarray(1000) + equivalence (m,iarray(100)), (n,iarray(200)) + real a(m,n) ! { dg-bogus "Variable 'm' cannot appear" "Variable 'm' cannot appear" { xfail *-*-* } } PR 16511 + a(1,1) = a(2,2) + end diff --git a/gcc/testsuite/gfortran.dg/g77/20010519-1.f b/gcc/testsuite/gfortran.dg/g77/20010519-1.f new file mode 100644 index 00000000000..705e97d6111 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/20010519-1.f @@ -0,0 +1,1327 @@ +c { dg-do compile } +CHARMM Element source/dimb/nmdimb.src 1.1 +C.##IF DIMB + SUBROUTINE NMDIMB(X,Y,Z,NAT3,BNBND,BIMAG,LNOMA,AMASS,DDS,DDSCR, + 1 PARDDV,DDV,DDM,PARDDF,DDF,PARDDE,DDEV,DD1BLK, + 2 DD1BLL,NADD,LRAISE,DD1CMP,INBCMP,JNBCMP, + 3 NPAR,ATMPAR,ATMPAS,BLATOM,PARDIM,NFREG,NFRET, + 4 PARFRQ,CUTF1,ITMX,TOLDIM,IUNMOD,IUNRMD, + 5 LBIG,LSCI,ATMPAD,SAVF,NBOND,IB,JB,DDVALM) +C----------------------------------------------------------------------- +C 01-Jul-1992 David Perahia, Liliane Mouawad +C 15-Dec-1994 Herman van Vlijmen +C +C This is the main routine for the mixed-basis diagonalization. +C See: L.Mouawad and D.Perahia, Biopolymers (1993), 33, 599, +C and: D.Perahia and L.Mouawad, Comput. Chem. (1995), 19, 241. +C The method iteratively solves the diagonalization of the +C Hessian matrix. To save memory space, it uses a compressed +C form of the Hessian, which only contains the nonzero elements. +C In the diagonalization process, approximate eigenvectors are +C mixed with Cartesian coordinates to form a reduced basis. The +C Hessian is then diagonalized in the reduced basis. By iterating +C over different sets of Cartesian coordinates the method ultimately +C converges to the exact eigenvalues and eigenvectors (up to the +C requested accuracy). +C If no existing basis set is read, an initial basis will be created +C which consists of the low-frequency eigenvectors of diagonal blocks +C of the Hessian. +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/impnon.fcm' +C..##IF VAX IRIS HPUX IRIS GNU CSPP OS2 GWS CRAY ALPHA + IMPLICIT NONE +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/stream.fcm' + LOGICAL LOWER,QLONGL + INTEGER MXSTRM,POUTU + PARAMETER (MXSTRM=20,POUTU=6) + INTEGER NSTRM,ISTRM,JSTRM,OUTU,PRNLEV,WRNLEV,IOLEV + COMMON /CASE/ LOWER, QLONGL + COMMON /STREAM/ NSTRM,ISTRM,JSTRM(MXSTRM),OUTU,PRNLEV,WRNLEV,IOLEV +C..##IF SAVEFCM +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/dimens.fcm' + INTEGER LARGE,MEDIUM,SMALL,REDUCE +C..##IF QUANTA +C..##ELIF T3D +C..##ELSE + PARAMETER (LARGE=60120, MEDIUM=25140, SMALL=6120) +C..##ENDIF + PARAMETER (REDUCE=15000) + INTEGER SIZE +C..##IF XLARGE +C..##ELIF XXLARGE +C..##ELIF LARGE +C..##ELIF MEDIUM + PARAMETER (SIZE=MEDIUM) +C..##ELIF REDUCE +C..##ELIF SMALL +C..##ELIF XSMALL +C..##ENDIF +C..##IF MMFF + integer MAXDEFI + parameter(MAXDEFI=250) + INTEGER NAME0,NAMEQ0,NRES0,KRES0 + PARAMETER (NAME0=4,NAMEQ0=10,NRES0=4,KRES0=4) + integer MaxAtN + parameter (MaxAtN=55) + INTEGER MAXAUX + PARAMETER (MAXAUX = 10) +C..##ENDIF + INTEGER MAXCSP, MAXHSET +C..##IF HMCM + PARAMETER (MAXHSET = 200) +C..##ELSE +C..##ENDIF +C..##IF REDUCE +C..##ELSE + PARAMETER (MAXCSP = 500) +C..##ENDIF +C..##IF HMCM + INTEGER MAXHCM,MAXPCM,MAXRCM +C...##IF REDUCE +C...##ELSE + PARAMETER (MAXHCM=500) + PARAMETER (MAXPCM=5000) + PARAMETER (MAXRCM=2000) +C...##ENDIF +C..##ENDIF + INTEGER MXCMSZ +C..##IF IBM IBMRS CRAY INTEL IBMSP T3D REDUCE +C..##ELSE + PARAMETER (MXCMSZ = 5000) +C..##ENDIF + INTEGER CHRSIZ + PARAMETER (CHRSIZ = SIZE) + INTEGER MAXATB +C..##IF REDUCE +C..##ELIF QUANTA +C..##ELSE + PARAMETER (MAXATB = 200) +C..##ENDIF + INTEGER MAXVEC +C..##IFN VECTOR PARVECT + PARAMETER (MAXVEC = 10) +C..##ELIF LARGE XLARGE XXLARGE +C..##ELIF MEDIUM +C..##ELIF SMALL REDUCE +C..##ELIF XSMALL +C..##ELSE +C..##ENDIF + INTEGER IATBMX + PARAMETER (IATBMX = 8) + INTEGER MAXHB +C..##IF LARGE XLARGE XXLARGE +C..##ELIF MEDIUM + PARAMETER (MAXHB = 8000) +C..##ELIF SMALL +C..##ELIF REDUCE XSMALL +C..##ELSE +C..##ENDIF + INTEGER MAXTRN,MAXSYM +C..##IFN NOIMAGES + PARAMETER (MAXTRN = 5000) + PARAMETER (MAXSYM = 192) +C..##ELSE +C..##ENDIF +C..##IF LONEPAIR (lonepair_max) + INTEGER MAXLP,MAXLPH +C...##IF REDUCE +C...##ELSE + PARAMETER (MAXLP = 2000) + PARAMETER (MAXLPH = 4000) +C...##ENDIF +C..##ENDIF (lonepair_max) + INTEGER NOEMAX,NOEMX2 +C..##IF REDUCE +C..##ELSE + PARAMETER (NOEMAX = 2000) + PARAMETER (NOEMX2 = 4000) +C..##ENDIF + INTEGER MAXATC, MAXCB, MAXCH, MAXCI, MAXCP, MAXCT, MAXITC, MAXNBF +C..##IF REDUCE +C..##ELIF MMFF CFF + PARAMETER (MAXATC = 500, MAXCB = 1500, MAXCH = 3200, MAXCI = 600, + & MAXCP = 3000,MAXCT = 15500,MAXITC = 200, MAXNBF=1000) +C..##ELIF YAMMP +C..##ELIF LARGE +C..##ELSE +C..##ENDIF + INTEGER MAXCN + PARAMETER (MAXCN = MAXITC*(MAXITC+1)/2) + INTEGER MAXA, MAXAIM, MAXB, MAXT, MAXP + INTEGER MAXIMP, MAXNB, MAXPAD, MAXRES + INTEGER MAXSEG, MAXGRP +C..##IF LARGE XLARGE XXLARGE +C..##ELIF MEDIUM + PARAMETER (MAXA = SIZE, MAXB = SIZE, MAXT = SIZE, + & MAXP = 2*SIZE) + PARAMETER (MAXIMP = 9200, MAXNB = 17200, MAXPAD = 8160, + & MAXRES = 14000) +C...##IF MCSS +C...##ELSE + PARAMETER (MAXSEG = 1000) +C...##ENDIF +C..##ELIF SMALL +C..##ELIF XSMALL +C..##ELIF REDUCE +C..##ELSE +C..##ENDIF +C..##IF NOIMAGES +C..##ELSE + PARAMETER (MAXAIM = 2*SIZE) + PARAMETER (MAXGRP = 2*SIZE/3) +C..##ENDIF + INTEGER REDMAX,REDMX2 +C..##IF REDUCE +C..##ELSE + PARAMETER (REDMAX = 20) + PARAMETER (REDMX2 = 80) +C..##ENDIF + INTEGER MXRTRS, MXRTA, MXRTB, MXRTT, MXRTP, MXRTI, MXRTX, + & MXRTHA, MXRTHD, MXRTBL, NICM + PARAMETER (MXRTRS = 200, MXRTA = 5000, MXRTB = 5000, + & MXRTT = 5000, MXRTP = 5000, MXRTI = 2000, +C..##IF YAMMP +C..##ELSE + & MXRTX = 5000, MXRTHA = 300, MXRTHD = 300, +C..##ENDIF + & MXRTBL = 5000, NICM = 10) + INTEGER NMFTAB, NMCTAB, NMCATM, NSPLIN +C..##IF REDUCE +C..##ELSE + PARAMETER (NMFTAB = 200, NMCTAB = 3, NMCATM = 12000, NSPLIN = 3) +C..##ENDIF + INTEGER MAXSHK +C..##IF XSMALL +C..##ELIF REDUCE +C..##ELSE + PARAMETER (MAXSHK = SIZE*3/4) +C..##ENDIF + INTEGER SCRMAX +C..##IF IBM IBMRS CRAY INTEL IBMSP T3D REDUCE +C..##ELSE + PARAMETER (SCRMAX = 5000) +C..##ENDIF +C..##IF TSM + INTEGER MXPIGG +C...##IF REDUCE +C...##ELSE + PARAMETER (MXPIGG=500) +C...##ENDIF + INTEGER MXCOLO,MXPUMB + PARAMETER (MXCOLO=20,MXPUMB=20) +C..##ENDIF +C..##IF ADUMB + INTEGER MAXUMP, MAXEPA, MAXNUM +C...##IF REDUCE +C...##ELSE + PARAMETER (MAXUMP = 10, MAXNUM = 4) +C...##ENDIF +C..##ENDIF + INTEGER MAXING + PARAMETER (MAXING=1000) +C..##IF MMFF + integer MAX_RINGSIZE, MAX_EACH_SIZE + parameter (MAX_RINGSIZE = 20, MAX_EACH_SIZE = 1000) + integer MAXPATHS + parameter (MAXPATHS = 8000) + integer MAX_TO_SEARCH + parameter (MAX_TO_SEARCH = 6) +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/number.fcm' + REAL*8 ZERO, ONE, TWO, THREE, FOUR, FIVE, SIX, + & SEVEN, EIGHT, NINE, TEN, ELEVEN, TWELVE, THIRTN, + & FIFTN, NINETN, TWENTY, THIRTY +C..##IF SINGLE +C..##ELSE + PARAMETER (ZERO = 0.D0, ONE = 1.D0, TWO = 2.D0, + & THREE = 3.D0, FOUR = 4.D0, FIVE = 5.D0, + & SIX = 6.D0, SEVEN = 7.D0, EIGHT = 8.D0, + & NINE = 9.D0, TEN = 10.D0, ELEVEN = 11.D0, + & TWELVE = 12.D0, THIRTN = 13.D0, FIFTN = 15.D0, + & NINETN = 19.D0, TWENTY = 20.D0, THIRTY = 30.D0) +C..##ENDIF + REAL*8 FIFTY, SIXTY, SVNTY2, EIGHTY, NINETY, HUNDRD, + & ONE2TY, ONE8TY, THRHUN, THR6TY, NINE99, FIFHUN, THOSND, + & FTHSND,MEGA +C..##IF SINGLE +C..##ELSE + PARAMETER (FIFTY = 50.D0, SIXTY = 60.D0, SVNTY2 = 72.D0, + & EIGHTY = 80.D0, NINETY = 90.D0, HUNDRD = 100.D0, + & ONE2TY = 120.D0, ONE8TY = 180.D0, THRHUN = 300.D0, + & THR6TY=360.D0, NINE99 = 999.D0, FIFHUN = 1500.D0, + & THOSND = 1000.D0,FTHSND = 5000.D0, MEGA = 1.0D6) +C..##ENDIF + REAL*8 MINONE, MINTWO, MINSIX + PARAMETER (MINONE = -1.D0, MINTWO = -2.D0, MINSIX = -6.D0) + REAL*8 TENM20,TENM14,TENM8,TENM5,PT0001,PT0005,PT001,PT005, + & PT01, PT02, PT05, PTONE, PT125, PT25, SIXTH, THIRD, + & PTFOUR, PTSIX, HALF, PT75, PT9999, ONEPT5, TWOPT4 +C..##IF SINGLE +C..##ELSE + PARAMETER (TENM20 = 1.0D-20, TENM14 = 1.0D-14, TENM8 = 1.0D-8, + & TENM5 = 1.0D-5, PT0001 = 1.0D-4, PT0005 = 5.0D-4, + & PT001 = 1.0D-3, PT005 = 5.0D-3, PT01 = 0.01D0, + & PT02 = 0.02D0, PT05 = 0.05D0, PTONE = 0.1D0, + & PT125 = 0.125D0, SIXTH = ONE/SIX,PT25 = 0.25D0, + & THIRD = ONE/THREE,PTFOUR = 0.4D0, HALF = 0.5D0, + & PTSIX = 0.6D0, PT75 = 0.75D0, PT9999 = 0.9999D0, + & ONEPT5 = 1.5D0, TWOPT4 = 2.4D0) +C..##ENDIF + REAL*8 ANUM,FMARK + REAL*8 RSMALL,RBIG +C..##IF SINGLE +C..##ELSE + PARAMETER (ANUM=9999.0D0, FMARK=-999.0D0) + PARAMETER (RSMALL=1.0D-10,RBIG=1.0D20) +C..##ENDIF + REAL*8 RPRECI,RBIGST +C..##IF VAX DEC +C..##ELIF IBM +C..##ELIF CRAY +C..##ELIF ALPHA T3D T3E +C..##ELSE +C...##IF SINGLE +C...##ELSE + PARAMETER (RPRECI = 2.22045D-16, RBIGST = 4.49423D+307) +C...##ENDIF +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/consta.fcm' + REAL*8 PI,RADDEG,DEGRAD,TWOPI + PARAMETER(PI=3.141592653589793D0,TWOPI=2.0D0*PI) + PARAMETER (RADDEG=180.0D0/PI) + PARAMETER (DEGRAD=PI/180.0D0) + REAL*8 COSMAX + PARAMETER (COSMAX=0.9999999999D0) + REAL*8 TIMFAC + PARAMETER (TIMFAC=4.88882129D-02) + REAL*8 KBOLTZ + PARAMETER (KBOLTZ=1.987191D-03) + REAL*8 CCELEC +C..##IF AMBER +C..##ELIF DISCOVER +C..##ELSE + PARAMETER (CCELEC=332.0716D0) +C..##ENDIF + REAL*8 CNVFRQ + PARAMETER (CNVFRQ=2045.5D0/(2.99793D0*6.28319D0)) + REAL*8 SPEEDL + PARAMETER (SPEEDL=2.99793D-02) + REAL*8 ATMOSP + PARAMETER (ATMOSP=1.4584007D-05) + REAL*8 PATMOS + PARAMETER (PATMOS = 1.D0 / ATMOSP ) + REAL*8 BOHRR + PARAMETER (BOHRR = 0.529177249D0 ) + REAL*8 TOKCAL + PARAMETER (TOKCAL = 627.5095D0 ) +C..##IF MMFF + real*8 MDAKCAL + parameter(MDAKCAL=143.9325D0) +C..##ENDIF + REAL*8 DEBYEC + PARAMETER ( DEBYEC = 2.541766D0 / BOHRR ) + REAL*8 ZEROC + PARAMETER ( ZEROC = 298.15D0 ) +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/exfunc.fcm' +C..##IF ACE +C..##ENDIF +C..##IF ADUMB +C..##ENDIF + CHARACTER*4 GTRMA, NEXTA4, CURRA4 + CHARACTER*6 NEXTA6 + CHARACTER*8 NEXTA8 + CHARACTER*20 NEXT20 + INTEGER ALLCHR, ALLSTK, ALLHP, DECODI, FIND52, + * GETATN, GETRES, GETRSN, GETSEG, GTRMI, I4VAL, + * ICHAR4, ICMP16, ILOGI4, INDX, INDXA, INDXAF, + * INDXRA, INTEG4, IREAL4, IREAL8, LOCDIF, + * LUNASS, MATOM, NEXTI, NINDX, NSELCT, NSELCTV, ATMSEL, + * PARNUM, PARINS, + * SRCHWD, SRCHWS, STRLNG, DSIZE, SSIZE +C..##IF ACE + * ,GETNNB +C..##ENDIF + LOGICAL CHKPTR, EQST, EQSTA, EQSTWC, EQWDWC, DOTRIM, CHECQUE, + * HYDROG, INITIA, LONE, LTSTEQ, ORDER, ORDER5, + * ORDERR, USEDDT, QTOKDEL, QDIGIT, QALPHA + REAL*8 DECODF, DOTVEC, GTRMF, LENVEC, NEXTF, RANDOM, GTRR8, + * RANUMB, R8VAL, RETVAL8, SUMVEC +C..##IF ADUMB + * ,UMFI +C..##ENDIF + EXTERNAL GTRMA, NEXTA4, CURRA4, NEXTA6, NEXTA8,NEXT20, + * ALLCHR, ALLSTK, ALLHP, DECODI, FIND52, + * GETATN, GETRES, GETRSN, GETSEG, GTRMI, I4VAL, + * ICHAR4, ICMP16, ILOGI4, INDX, INDXA, INDXAF, + * INDXRA, INTEG4, IREAL4, IREAL8, LOCDIF, + * LUNASS, MATOM, NEXTI, NINDX, NSELCT, NSELCTV, ATMSEL, + * PARNUM, PARINS, + * SRCHWD, SRCHWS, STRLNG, DSIZE, SSIZE, + * CHKPTR, EQST, EQSTA, EQSTWC, EQWDWC, DOTRIM, CHECQUE, + * HYDROG, INITIA, LONE, LTSTEQ, ORDER, ORDER5, + * ORDERR, USEDDT, QTOKDEL, QDIGIT, QALPHA, + * DECODF, DOTVEC, GTRMF, LENVEC, NEXTF, RANDOM, GTRR8, + * RANUMB, R8VAL, RETVAL8, SUMVEC +C..##IF ADUMB + * ,UMFI +C..##ENDIF +C..##IF ACE + * ,GETNNB +C..##ENDIF +C..##IFN NOIMAGES + INTEGER IMATOM + EXTERNAL IMATOM +C..##ENDIF +C..##IF MBOND +C..##ENDIF +C..##IF MMFF + INTEGER LEN_TRIM + EXTERNAL LEN_TRIM + CHARACTER*4 AtName + external AtName + CHARACTER*8 ElementName + external ElementName + CHARACTER*10 QNAME + external QNAME + integer IATTCH, IBORDR, CONN12, CONN13, CONN14 + integer LEQUIV, LPATH + integer nbndx, nbnd2, nbnd3, NTERMA + external IATTCH, IBORDR, CONN12, CONN13, CONN14 + external LEQUIV, LPATH + external nbndx, nbnd2, nbnd3, NTERMA + external find_loc + real*8 vangle, OOPNGL, TORNGL, ElementMass + external vangle, OOPNGL, TORNGL, ElementMass +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/stack.fcm' + INTEGER STKSIZ +C..##IFN UNICOS +C...##IF LARGE XLARGE +C...##ELIF MEDIUM REDUCE + PARAMETER (STKSIZ=4000000) +C...##ELIF SMALL +C...##ELIF XSMALL +C...##ELIF XXLARGE +C...##ELSE +C...##ENDIF + INTEGER LSTUSD,MAXUSD,STACK + COMMON /ISTACK/ LSTUSD,MAXUSD,STACK(STKSIZ) +C..##ELSE +C..##ENDIF +C..##IF SAVEFCM +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/heap.fcm' + INTEGER HEAPDM +C..##IFN UNICOS (unicos) +C...##IF XXLARGE (size) +C...##ELIF LARGE XLARGE (size) +C...##ELIF MEDIUM (size) +C....##IF T3D (t3d2) +C....##ELIF TERRA (t3d2) +C....##ELIF ALPHA (t3d2) +C....##ELIF T3E (t3d2) +C....##ELSE (t3d2) + PARAMETER (HEAPDM=2048000) +C....##ENDIF (t3d2) +C...##ELIF SMALL (size) +C...##ELIF REDUCE (size) +C...##ELIF XSMALL (size) +C...##ELSE (size) +C...##ENDIF (size) + INTEGER FREEHP,HEAPSZ,HEAP + COMMON /HEAPST/ FREEHP,HEAPSZ,HEAP(HEAPDM) + LOGICAL LHEAP(HEAPDM) + EQUIVALENCE (LHEAP,HEAP) +C..##ELSE (unicos) +C..##ENDIF (unicos) +C..##IF SAVEFCM (save) +C..##ENDIF (save) +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/fast.fcm' + INTEGER IACNB, NITCC, ICUSED, FASTER, LFAST, LMACH, OLMACH + INTEGER ICCOUNT, LOWTP, IGCNB, NITCC2 + INTEGER ICCNBA, ICCNBB, ICCNBC, ICCNBD, LCCNBA, LCCNBD + COMMON /FASTI/ FASTER, LFAST, LMACH, OLMACH, NITCC, NITCC2, + & ICUSED(MAXATC), ICCOUNT(MAXATC), LOWTP(MAXATC), + & IACNB(MAXAIM), IGCNB(MAXATC), + & ICCNBA, ICCNBB, ICCNBC, ICCNBD, LCCNBA, LCCNBD +C..##IF SAVEFCM +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/deriv.fcm' + REAL*8 DX,DY,DZ + COMMON /DERIVR/ DX(MAXAIM),DY(MAXAIM),DZ(MAXAIM) +C..##IF SAVEFCM +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/energy.fcm' + INTEGER LENENP, LENENT, LENENV, LENENA + PARAMETER (LENENP = 50, LENENT = 70, LENENV = 50, + & LENENA = LENENP + LENENT + LENENV ) + INTEGER TOTE, TOTKE, EPOT, TEMPS, GRMS, BPRESS, PJNK1, PJNK2, + & PJNK3, PJNK4, HFCTE, HFCKE, EHFC, EWORK, VOLUME, PRESSE, + & PRESSI, VIRI, VIRE, VIRKE, TEPR, PEPR, KEPR, KEPR2, + & DROFFA, + & XTLTE, XTLKE, XTLPE, XTLTEM, XTLPEP, XTLKEP, XTLKP2, + & TOT4, TOTK4, EPOT4, TEM4, MbMom, BodyT, PartT +C..##IF ACE + & , SELF, SCREEN, COUL ,SOLV, INTER +C..##ENDIF +C..##IF FLUCQ + & ,FQKIN +C..##ENDIF + PARAMETER (TOTE = 1, TOTKE = 2, EPOT = 3, TEMPS = 4, + & GRMS = 5, BPRESS = 6, PJNK1 = 7, PJNK2 = 8, + & PJNK3 = 9, PJNK4 = 10, HFCTE = 11, HFCKE = 12, + & EHFC = 13, EWORK = 11, VOLUME = 15, PRESSE = 16, + & PRESSI = 17, VIRI = 18, VIRE = 19, VIRKE = 20, + & TEPR = 21, PEPR = 22, KEPR = 23, KEPR2 = 24, + & DROFFA = 26, XTLTE = 27, XTLKE = 28, + & XTLPE = 29, XTLTEM = 30, XTLPEP = 31, XTLKEP = 32, + & XTLKP2 = 33, + & TOT4 = 37, TOTK4 = 38, EPOT4 = 39, TEM4 = 40, + & MbMom = 41, BodyT = 42, PartT = 43 +C..##IF ACE + & , SELF = 45, SCREEN = 46, COUL = 47, + & SOLV = 48, INTER = 49 +C..##ENDIF +C..##IF FLUCQ + & ,FQKIN = 50 +C..##ENDIF + & ) +C..##IF ACE +C..##ENDIF +C..##IF GRID +C..##ENDIF +C..##IF FLUCQ +C..##ENDIF + INTEGER BOND, ANGLE, UREYB, DIHE, IMDIHE, VDW, ELEC, HBOND, + & USER, CHARM, CDIHE, CINTCR, CQRT, NOE, SBNDRY, + & IMVDW, IMELEC, IMHBND, EWKSUM, EWSELF, EXTNDE, RXNFLD, + & ST2, IMST2, TSM, QMEL, QMVDW, ASP, EHARM, GEO, MDIP, + & PRMS, PANG, SSBP, BK4D, SHEL, RESD, SHAP, + & STRB, OOPL, PULL, POLAR, DMC, RGY, EWEXCL, EWQCOR, + & EWUTIL, PBELEC, PBNP, PINT, MbDefrm, MbElec, STRSTR, + & BNDBND, BNDTW, EBST, MBST, BBT, SST, GBEnr, GSBP +C..##IF HMCM + & , HMCM +C..##ENDIF +C..##IF ADUMB + & , ADUMB +C..##ENDIF + & , HYDR +C..##IF FLUCQ + & , FQPOL +C..##ENDIF + PARAMETER (BOND = 1, ANGLE = 2, UREYB = 3, DIHE = 4, + & IMDIHE = 5, VDW = 6, ELEC = 7, HBOND = 8, + & USER = 9, CHARM = 10, CDIHE = 11, CINTCR = 12, + & CQRT = 13, NOE = 14, SBNDRY = 15, IMVDW = 16, + & IMELEC = 17, IMHBND = 18, EWKSUM = 19, EWSELF = 20, + & EXTNDE = 21, RXNFLD = 22, ST2 = 23, IMST2 = 24, + & TSM = 25, QMEL = 26, QMVDW = 27, ASP = 28, + & EHARM = 29, GEO = 30, MDIP = 31, PINT = 32, + & PRMS = 33, PANG = 34, SSBP = 35, BK4D = 36, + & SHEL = 37, RESD = 38, SHAP = 39, STRB = 40, + & OOPL = 41, PULL = 42, POLAR = 43, DMC = 44, + & RGY = 45, EWEXCL = 46, EWQCOR = 47, EWUTIL = 48, + & PBELEC = 49, PBNP = 50, MbDefrm= 51, MbElec = 52, + & STRSTR = 53, BNDBND = 54, BNDTW = 55, EBST = 56, + & MBST = 57, BBT = 58, SST = 59, GBEnr = 60, + & GSBP = 65 +C..##IF HMCM + & , HMCM = 61 +C..##ENDIF +C..##IF ADUMB + & , ADUMB = 62 +C..##ENDIF + & , HYDR = 63 +C..##IF FLUCQ + & , FQPOL = 65 +C..##ENDIF + & ) + INTEGER VEXX, VEXY, VEXZ, VEYX, VEYY, VEYZ, VEZX, VEZY, VEZZ, + & VIXX, VIXY, VIXZ, VIYX, VIYY, VIYZ, VIZX, VIZY, VIZZ, + & PEXX, PEXY, PEXZ, PEYX, PEYY, PEYZ, PEZX, PEZY, PEZZ, + & PIXX, PIXY, PIXZ, PIYX, PIYY, PIYZ, PIZX, PIZY, PIZZ + PARAMETER ( VEXX = 1, VEXY = 2, VEXZ = 3, VEYX = 4, + & VEYY = 5, VEYZ = 6, VEZX = 7, VEZY = 8, + & VEZZ = 9, + & VIXX = 10, VIXY = 11, VIXZ = 12, VIYX = 13, + & VIYY = 14, VIYZ = 15, VIZX = 16, VIZY = 17, + & VIZZ = 18, + & PEXX = 19, PEXY = 20, PEXZ = 21, PEYX = 22, + & PEYY = 23, PEYZ = 24, PEZX = 25, PEZY = 26, + & PEZZ = 27, + & PIXX = 28, PIXY = 29, PIXZ = 30, PIYX = 31, + & PIYY = 32, PIYZ = 33, PIZX = 34, PIZY = 35, + & PIZZ = 36) + CHARACTER*4 CEPROP, CETERM, CEPRSS + COMMON /ANER/ CEPROP(LENENP), CETERM(LENENT), CEPRSS(LENENV) + LOGICAL QEPROP, QETERM, QEPRSS + COMMON /QENER/ QEPROP(LENENP), QETERM(LENENT), QEPRSS(LENENV) + REAL*8 EPROP, ETERM, EPRESS + COMMON /ENER/ EPROP(LENENP), ETERM(LENENT), EPRESS(LENENV) +C..##IF SAVEFCM +C..##ENDIF + REAL*8 EPRPA, EPRP2A, EPRPP, EPRP2P, + & ETRMA, ETRM2A, ETRMP, ETRM2P, + & EPRSA, EPRS2A, EPRSP, EPRS2P + COMMON /ENACCM/ EPRPA(LENENP), ETRMA(LENENT), EPRSA(LENENV), + & EPRP2A(LENENP),ETRM2A(LENENT),EPRS2A(LENENV), + & EPRPP(LENENP), ETRMP(LENENT), EPRSP(LENENV), + & EPRP2P(LENENP),ETRM2P(LENENT),EPRS2P(LENENV) +C..##IF SAVEFCM +C..##ENDIF + INTEGER ECALLS, TOT1ST, TOT2ND + COMMON /EMISCI/ ECALLS, TOT1ST, TOT2ND + REAL*8 EOLD, FITA, DRIFTA, EAT0A, CORRA, FITP, DRIFTP, + & EAT0P, CORRP + COMMON /EMISCR/ EOLD, FITA, DRIFTA, EAT0A, CORRA, + & FITP, DRIFTP, EAT0P, CORRP +C..##IF SAVEFCM +C..##ENDIF +C..##IF ACE +C..##ENDIF +C..##IF FLUCQ +C..##ENDIF +C..##IF ADUMB +C..##ENDIF +C..##IF GRID +C..##ENDIF +C..##IF FLUCQ +C..##ENDIF +C..##IF TSM + REAL*8 TSMTRM(LENENT),TSMTMP(LENENT) + COMMON /TSMENG/ TSMTRM,TSMTMP +C...##IF SAVEFCM +C...##ENDIF +C..##ENDIF + REAL*8 EHQBM + LOGICAL HQBM + COMMON /HQBMVAR/HQBM +C..##IF SAVEFCM +C..##ENDIF +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/dimb.fcm' +C..##IF DIMB (dimbfcm) + INTEGER NPARMX,MNBCMP,LENDSK + PARAMETER (NPARMX=1000,MNBCMP=300,LENDSK=200000) + INTEGER IJXXCM,IJXYCM,IJXZCM,IJYXCM,IJYYCM + INTEGER IJYZCM,IJZXCM,IJZYCM,IJZZCM + INTEGER IIXXCM,IIXYCM,IIXZCM,IIYYCM + INTEGER IIYZCM,IIZZCM + INTEGER JJXXCM,JJXYCM,JJXZCM,JJYYCM + INTEGER JJYZCM,JJZZCM + PARAMETER (IJXXCM=1,IJXYCM=2,IJXZCM=3,IJYXCM=4,IJYYCM=5) + PARAMETER (IJYZCM=6,IJZXCM=7,IJZYCM=8,IJZZCM=9) + PARAMETER (IIXXCM=1,IIXYCM=2,IIXZCM=3,IIYYCM=4) + PARAMETER (IIYZCM=5,IIZZCM=6) + PARAMETER (JJXXCM=1,JJXYCM=2,JJXZCM=3,JJYYCM=4) + PARAMETER (JJYZCM=5,JJZZCM=6) + INTEGER ITER,IPAR1,IPAR2,NFSAV,PINBCM,PJNBCM,PDD1CM,LENCMP + LOGICAL QDISK,QDW,QCMPCT + COMMON /DIMBI/ ITER,IPAR1,IPAR2,NFSAV,PINBCM,PJNBCM,LENCMP + COMMON /DIMBL/ QDISK,QDW,QCMPCT +C...##IF SAVEFCM +C...##ENDIF +C..##ENDIF (dimbfcm) +C----------------------------------------------------------------------- +C----------------------------------------------------------------------- +C:::##INCLUDE '~/charmm_fcm/ctitla.fcm' + INTEGER MAXTIT + PARAMETER (MAXTIT=32) + INTEGER NTITLA,NTITLB + CHARACTER*80 TITLEA,TITLEB + COMMON /NTITLA/ NTITLA,NTITLB + COMMON /CTITLA/ TITLEA(MAXTIT),TITLEB(MAXTIT) +C..##IF SAVEFCM +C..##ENDIF +C----------------------------------------------------------------------- +C Passed variables + INTEGER NAT3,NADD,NPAR,NFREG,NFRET,BLATOM + INTEGER ATMPAR(2,*),ATMPAS(2,*),ATMPAD(2,*) + INTEGER BNBND(*),BIMAG(*) + INTEGER INBCMP(*),JNBCMP(*),PARDIM + INTEGER ITMX,IUNMOD,IUNRMD,SAVF + INTEGER NBOND,IB(*),JB(*) + REAL*8 X(*),Y(*),Z(*),AMASS(*),DDSCR(*) + REAL*8 DDV(NAT3,*),PARDDV(PARDIM,*),DDM(*),DDS(*) + REAL*8 DDF(*),PARDDF(*),DDEV(*),PARDDE(*) + REAL*8 DD1BLK(*),DD1BLL(*),DD1CMP(*) + REAL*8 TOLDIM,DDVALM + REAL*8 PARFRQ,CUTF1 + LOGICAL LNOMA,LRAISE,LSCI,LBIG +C Local variables + INTEGER NATOM,NATP,NDIM,I,J,II,OLDFAS,OLDPRN,IUPD + INTEGER NPARC,NPARD,NPARS,NFCUT1,NFREG2,NFREG6 + INTEGER IH1,IH2,IH3,IH4,IH5,IH6,IH7,IH8 + INTEGER IS1,IS2,IS3,IS4,JSPACE,JSP,DDSS,DD5 + INTEGER ISTRT,ISTOP,IPA1,IPA2,IRESF + INTEGER ATMPAF,INIDS,TRAROT + INTEGER SUBLIS,ATMCOR + INTEGER NFRRES,DDVBAS + INTEGER DDV2,DDVAL + INTEGER LENCM,NTR,NFRE,NFC,N1,N2,NFCUT,NSUBP + INTEGER SCIFV1,SCIFV2,SCIFV3,SCIFV4,SCIFV6 + INTEGER DRATQ,ERATQ,E2RATQ,BDRATQ,INRATQ + INTEGER I620,I640,I660,I700,I720,I760,I800,I840,I880,I920 + REAL*8 CVGMX,TOLER + LOGICAL LCARD,LAPPE,LPURG,LWDINI,QCALC,QMASWT,QMIX,QDIAG +C Begin + QCALC=.TRUE. + LWDINI=.FALSE. + INIDS=0 + IS3=0 + IS4=0 + LPURG=.TRUE. + ITER=0 + NADD=0 + NFSAV=0 + TOLER=TENM5 + QDIAG=.TRUE. + CVGMX=HUNDRD + QMIX=.FALSE. + NATOM=NAT3/3 + NFREG6=(NFREG-6)/NPAR + NFREG2=NFREG/2 + NFRRES=(NFREG+6)/2 + IF(NFREG.GT.PARDIM) CALL WRNDIE(-3,'', + 1 'NFREG IS LARGER THAN PARDIM*3') +C +C ALLOCATE-SPACE-FOR-TRANSROT-VECTORS + ASSIGN 801 TO I800 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 800 + 801 CONTINUE +C ALLOCATE-SPACE-FOR-DIAGONALIZATION + ASSIGN 721 TO I720 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 720 + 721 CONTINUE +C ALLOCATE-SPACE-FOR-REDUCED-BASIS + ASSIGN 761 TO I760 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 760 + 761 CONTINUE +C ALLOCATE-SPACE-FOR-OTHER-ARRAYS + ASSIGN 921 TO I920 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 920 + 921 CONTINUE +C +C Space allocation for working arrays of EISPACK +C diagonalization subroutines + IF(LSCI) THEN +C ALLOCATE-SPACE-FOR-LSCI + ASSIGN 841 TO I840 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 840 + 841 CONTINUE + ELSE +C ALLOCATE-DUMMY-SPACE-FOR-LSCI + ASSIGN 881 TO I880 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 880 + 881 CONTINUE + ENDIF + QMASWT=(.NOT.LNOMA) + IF(.NOT. QDISK) THEN + LENCM=INBCMP(NATOM-1)*9+NATOM*6 + DO I=1,LENCM + DD1CMP(I)=0.0 + ENDDO + OLDFAS=LFAST + QCMPCT=.TRUE. + LFAST = -1 + CALL ENERGY(X,Y,Z,DX,DY,DZ,BNBND,BIMAG,NAT3,DD1CMP,.TRUE.,1) + LFAST=OLDFAS + QCMPCT=.FALSE. +C +C Mass weight DD1CMP matrix +C + CALL MASSDD(DD1CMP,DDM,INBCMP,JNBCMP,NATOM) + ELSE + CALL WRNDIE(-3,'','QDISK OPTION NOT SUPPORTED YET') +C DO I=1,LENDSK +C DD1CMP(I)=0.0 +C ENDDO +C OLDFAS=LFAST +C LFAST = -1 + ENDIF +C +C Fill DDV with six translation-rotation vectors +C + CALL TRROT(X,Y,Z,DDV,NAT3,1,DDM) + CALL CPARAY(HEAP(TRAROT),DDV,NAT3,1,6,1) + NTR=6 + OLDPRN=PRNLEV + PRNLEV=1 + CALL ORTHNM(1,6,NTR,HEAP(TRAROT),NAT3,.FALSE.,TOLER) + PRNLEV=OLDPRN + IF(IUNRMD .LT. 0) THEN +C +C If no previous basis is read +C + IF(PRNLEV.GE.2) WRITE(OUTU,502) NPAR + 502 FORMAT(/' NMDIMB: Calculating initial basis from block ', + 1 'diagonals'/' NMDIMB: The number of blocks is ',I5/) + NFRET = 6 + DO I=1,NPAR + IS1=ATMPAR(1,I) + IS2=ATMPAR(2,I) + NDIM=(IS2-IS1+1)*3 + NFRE=NDIM + IF(NFRE.GT.NFREG6) NFRE=NFREG6 + IF(NFREG6.EQ.0) NFRE=1 + CALL FILUPT(HEAP(IUPD),NDIM) + CALL MAKDDU(DD1BLK,DD1CMP,INBCMP,JNBCMP,HEAP(IUPD), + 1 IS1,IS2,NATOM) + IF(PRNLEV.GE.9) CALL PRINTE(OUTU,EPROP,ETERM,'VIBR', + 1 'ENR',.TRUE.,1,ZERO,ZERO) +C +C Generate the lower section of the matrix and diagonalize +C +C..##IF EISPACK +C..##ENDIF + IH1=1 + NATP=NDIM+1 + IH2=IH1+NATP + IH3=IH2+NATP + IH4=IH3+NATP + IH5=IH4+NATP + IH6=IH5+NATP + IH7=IH6+NATP + IH8=IH7+NATP + CALL DIAGQ(NDIM,NFRE,DD1BLK,PARDDV,DDS(IH2),DDS(IH3), + 1 DDS(IH4),DDS(IH5),DDS,DDS(IH6),DDS(IH7),DDS(IH8),NADD) +C..##IF EISPACK +C..##ENDIF +C +C Put the PARDDV vectors into DDV and replace the elements which do +C not belong to the considered partitioned region by zeros. +C + CALL ADJNME(DDV,PARDDV,NAT3,NDIM,NFRE,NFRET,IS1,IS2) + IF(LSCI) THEN + DO J=1,NFRE + PARDDF(J)=CNVFRQ*SQRT(ABS(PARDDE(J))) + IF(PARDDE(J) .LT. 0.0) PARDDF(J)=-PARDDF(J) + ENDDO + ELSE + DO J=1,NFRE + PARDDE(J)=DDS(J) + PARDDF(J)=CNVFRQ*SQRT(ABS(PARDDE(J))) + IF(PARDDE(J) .LT. 0.0) PARDDF(J)=-PARDDF(J) + ENDDO + ENDIF + IF(PRNLEV.GE.2) THEN + WRITE(OUTU,512) I + WRITE(OUTU,514) + WRITE(OUTU,516) (J,PARDDF(J),J=1,NFRE) + ENDIF + NFRET=NFRET+NFRE + IF(NFRET .GE. NFREG) GOTO 10 + ENDDO + 512 FORMAT(/' NMDIMB: Diagonalization of part',I5,' completed') + 514 FORMAT(' NMDIMB: Frequencies'/) + 516 FORMAT(5(I4,F12.6)) + 10 CONTINUE +C +C Orthonormalize the eigenvectors +C + OLDPRN=PRNLEV + PRNLEV=1 + CALL ORTHNM(1,NFRET,NFRET,DDV,NAT3,LPURG,TOLER) + PRNLEV=OLDPRN +C +C Do reduced basis diagonalization using the DDV vectors +C and get eigenvectors of zero iteration +C + IF(PRNLEV.GE.2) THEN + WRITE(OUTU,521) ITER + WRITE(OUTU,523) NFRET + ENDIF + 521 FORMAT(/' NMDIMB: Iteration number = ',I5) + 523 FORMAT(' NMDIMB: Dimension of the reduced basis set = ',I5) + IF(LBIG) THEN + IF(PRNLEV.GE.2) WRITE(OUTU,585) NFRET,IUNMOD + 525 FORMAT(' NMDIMB: ',I5,' basis vectors are saved in unit',I5) + REWIND (UNIT=IUNMOD) + LCARD=.FALSE. + CALL WRTNMD(LCARD,1,NFRET,NAT3,DDV,DDSCR,DDEV,IUNMOD,AMASS) + CALL SAVEIT(IUNMOD) + ELSE + CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFRET,1) + ENDIF + CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV, + 1 DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD, + 2 INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,0,0,IS3,IS4, + 3 CUTF1,NFCUT1,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1), + 4 HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6), + 5 HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ), + 6 HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD) +C +C DO-THE-DIAGONALISATIONS-WITH-RESIDUALS +C + ASSIGN 621 TO I620 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 620 + 621 CONTINUE +C SAVE-MODES + ASSIGN 701 TO I700 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 700 + 701 CONTINUE + IF(ITER.EQ.ITMX) THEN + CALL CLEANHP(NAT3,NFREG,NPARD,NSUBP,PARDIM,DDV2,DDSS,DDVBAS, + 1 DDVAL,JSPACE,TRAROT, + 2 SCIFV1,SCIFV2,SCIFV3,SCIFV4,SCIFV6, + 3 DRATQ,ERATQ,E2RATQ,BDRATQ,INRATQ,IUPD,ATMPAF, + 4 ATMCOR,SUBLIS,LSCI,QDW,LBIG) + RETURN + ENDIF + ELSE +C +C Read in existing basis +C + IF(PRNLEV.GE.2) THEN + WRITE(OUTU,531) + 531 FORMAT(/' NMDIMB: Calculations restarted') + ENDIF +C READ-MODES + ISTRT=1 + ISTOP=99999999 + LCARD=.FALSE. + LAPPE=.FALSE. + CALL RDNMD(LCARD,NFRET,NFREG,NAT3,NDIM, + 1 DDV,DDSCR,DDF,DDEV, + 2 IUNRMD,LAPPE,ISTRT,ISTOP) + NFRET=NDIM + IF(NFRET.GT.NFREG) THEN + NFRET=NFREG + CALL WRNDIE(-1,'', + 1 'Not enough space to hold the basis. Increase NMODes') + ENDIF +C PRINT-MODES + IF(PRNLEV.GE.2) THEN + WRITE(OUTU,533) NFRET,IUNRMD + WRITE(OUTU,514) + WRITE(OUTU,516) (J,DDF(J),J=1,NFRET) + ENDIF + 533 FORMAT(/' NMDIMB: ',I5,' restart modes read from unit ',I5) + NFRRES=NFRET + ENDIF +C +C ------------------------------------------------- +C Here starts the mixed-basis diagonalization part. +C ------------------------------------------------- +C +C +C Check cut-off frequency +C + CALL SELNMD(DDF,NFRET,CUTF1,NFCUT1) +C TEST-NFCUT1 + IF(IUNRMD.LT.0) THEN + IF(NFCUT1*2-6.GT.NFREG) THEN + IF(PRNLEV.GE.2) WRITE(OUTU,537) DDF(NFRRES) + NFCUT1=NFRRES + CUTF1=DDF(NFRRES) + ENDIF + ELSE + CUTF1=DDF(NFRRES) + ENDIF + 537 FORMAT(/' NMDIMB: Too many vectors for the given cutoff frequency' + 1 /' Cutoff frequency is decreased to',F9.3) +C +C Compute the new partioning of the molecule +C + CALL PARTIC(NAT3,NFREG,NFCUT1,NPARMX,NPARC,ATMPAR,NFRRES, + 1 PARDIM) + NPARS=NPARC + DO I=1,NPARC + ATMPAS(1,I)=ATMPAR(1,I) + ATMPAS(2,I)=ATMPAR(2,I) + ENDDO + IF(QDW) THEN + IF(IPAR1.EQ.0.OR.IPAR2.EQ.0) LWDINI=.TRUE. + IF(IPAR1.GE.IPAR2) LWDINI=.TRUE. + IF(IABS(IPAR1).GT.NPARC*2) LWDINI=.TRUE. + IF(IABS(IPAR2).GT.NPARC*2) LWDINI=.TRUE. + IF(ITER.EQ.0) LWDINI=.TRUE. + ENDIF + ITMX=ITMX+ITER + IF(PRNLEV.GE.2) THEN + WRITE(OUTU,543) ITER,ITMX + IF(QDW) WRITE(OUTU,545) IPAR1,IPAR2 + ENDIF + 543 FORMAT(/' NMDIMB: Previous iteration number = ',I8/ + 1 ' NMDIMB: Iteration number to reach = ',I8) + 545 FORMAT(' NMDIMB: Previous sub-blocks = ',I5,2X,I5) +C + IF(SAVF.LE.0) SAVF=NPARC + IF(PRNLEV.GE.2) WRITE(OUTU,547) SAVF + 547 FORMAT(' NMDIMB: Eigenvectors will be saved every',I5, + 1 ' iterations') +C +C If double windowing is defined, the original block sizes are divided +C in two. +C + IF(QDW) THEN + NSUBP=1 + CALL PARTID(NPARC,ATMPAR,NPARD,ATMPAD,NPARMX) + ATMPAF=ALLHP(INTEG4(NPARD*NPARD)) + ATMCOR=ALLHP(INTEG4(NATOM)) + DDVAL=ALLHP(IREAL8(NPARD*NPARD)) + CALL CORARR(ATMPAD,NPARD,HEAP(ATMCOR),NATOM) + CALL PARLIS(HEAP(ATMCOR),HEAP(ATMPAF),INBCMP,JNBCMP,NPARD, + 2 NSUBP,NATOM,X,Y,Z,NBOND,IB,JB,DD1CMP,HEAP(DDVAL),DDVALM) + SUBLIS=ALLHP(INTEG4(NSUBP*2)) + CALL PARINT(HEAP(ATMPAF),NPARD,HEAP(SUBLIS),NSUBP) + CALL INIPAF(HEAP(ATMPAF),NPARD) +C +C Find out with which block to continue (double window method only) +C + IPA1=IPAR1 + IPA2=IPAR2 + IRESF=0 + IF(LWDINI) THEN + ITER=0 + LWDINI=.FALSE. + GOTO 500 + ENDIF + DO II=1,NSUBP + CALL IPART(HEAP(SUBLIS),II,IPAR1,IPAR2,HEAP(ATMPAF), + 1 NPARD,QCALC) + IF((IPAR1.EQ.IPA1).AND.(IPAR2.EQ.IPA2)) GOTO 500 + ENDDO + ENDIF + 500 CONTINUE +C +C Main loop. +C + DO WHILE((CVGMX.GT.TOLDIM).AND.(ITER.LT.ITMX)) + IF(.NOT.QDW) THEN + ITER=ITER+1 + IF(PRNLEV.GE.2) WRITE(OUTU,553) ITER + 553 FORMAT(/' NMDIMB: Iteration number = ',I8) + IF(INIDS.EQ.0) THEN + INIDS=1 + ELSE + INIDS=0 + ENDIF + CALL PARTDS(NAT3,NPARC,ATMPAR,NPARS,ATMPAS,INIDS,NPARMX, + 1 DDF,NFREG,CUTF1,PARDIM,NFCUT1) +C DO-THE-DIAGONALISATIONS + ASSIGN 641 to I640 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 640 + 641 CONTINUE + QDIAG=.FALSE. +C DO-THE-DIAGONALISATIONS-WITH-RESIDUALS + ASSIGN 622 TO I620 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 620 + 622 CONTINUE + QDIAG=.TRUE. +C SAVE-MODES + ASSIGN 702 TO I700 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 700 + 702 CONTINUE +C + ELSE + DO II=1,NSUBP + CALL IPART(HEAP(SUBLIS),II,IPAR1,IPAR2,HEAP(ATMPAF), + 1 NPARD,QCALC) + IF(QCALC) THEN + IRESF=IRESF+1 + ITER=ITER+1 + IF(PRNLEV.GE.2) WRITE(OUTU,553) ITER +C DO-THE-DWIN-DIAGONALISATIONS + ASSIGN 661 TO I660 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 660 + 661 CONTINUE + ENDIF + IF((IRESF.EQ.SAVF).OR.(ITER.EQ.ITMX)) THEN + IRESF=0 + QDIAG=.FALSE. +C DO-THE-DIAGONALISATIONS-WITH-RESIDUALS + ASSIGN 623 TO I620 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 620 + 623 CONTINUE + QDIAG=.TRUE. + IF((CVGMX.LE.TOLDIM).OR.(ITER.EQ.ITMX)) GOTO 600 +C SAVE-MODES + ASSIGN 703 TO I700 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 700 + 703 CONTINUE + ENDIF + ENDDO + ENDIF + ENDDO + 600 CONTINUE +C +C SAVE-MODES + ASSIGN 704 TO I700 ! { dg-warning "Obsolete: ASSIGN" "Obsolete: ASSIGN" } + GOTO 700 + 704 CONTINUE + CALL CLEANHP(NAT3,NFREG,NPARD,NSUBP,PARDIM,DDV2,DDSS,DDVBAS, + 1 DDVAL,JSPACE,TRAROT, + 2 SCIFV1,SCIFV2,SCIFV3,SCIFV4,SCIFV6, + 3 DRATQ,ERATQ,E2RATQ,BDRATQ,INRATQ,IUPD,ATMPAF, + 4 ATMCOR,SUBLIS,LSCI,QDW,LBIG) + RETURN +C----------------------------------------------------------------------- +C INTERNAL PROCEDURES +C----------------------------------------------------------------------- +C TO DO-THE-DIAGONALISATIONS-WITH-RESIDUALS + 620 CONTINUE + IF(IUNRMD.LT.0) THEN + CALL SELNMD(DDF,NFRET,CUTF1,NFC) + N1=NFCUT1 + N2=(NFRET+6)/2 + NFCUT=MAX(N1,N2) + IF(NFCUT*2-6 .GT. NFREG) THEN + NFCUT=(NFREG+6)/2 + CUTF1=DDF(NFCUT) + IF(PRNLEV.GE.2) THEN + WRITE(OUTU,562) ITER + WRITE(OUTU,564) CUTF1 + ENDIF + ENDIF + ELSE + NFCUT=NFRET + NFC=NFRET + ENDIF + 562 FORMAT(/' NMDIMB: Not enough space to hold the residual vectors'/ + 1 ' into DDV array during iteration ',I5) + 564 FORMAT(' Cutoff frequency is changed to ',F9.3) +C +C do reduced diagonalization with preceding eigenvectors plus +C residual vectors +C + ISTRT=1 + ISTOP=NFCUT + CALL CLETR(DDV,HEAP(TRAROT),NAT3,ISTRT,ISTOP,NFCUT,DDEV,DDF) + CALL RNMTST(DDV,HEAP(DDVBAS),NAT3,DDSCR,DD1CMP,INBCMP,JNBCMP, + 2 7,NFCUT,CVGMX,NFCUT,NFC,QDIAG,LBIG,IUNMOD) + NFSAV=NFCUT + IF(QDIAG) THEN + NFRET=NFCUT*2-6 + IF(PRNLEV.GE.2) WRITE(OUTU,566) NFRET + 566 FORMAT(/' NMDIMB: Diagonalization with residual vectors. '/ + 1 ' Dimension of the reduced basis set'/ + 2 ' before orthonormalization = ',I5) + NFCUT=NFRET + OLDPRN=PRNLEV + PRNLEV=1 + CALL ORTHNM(1,NFRET,NFCUT,DDV,NAT3,LPURG,TOLER) + PRNLEV=OLDPRN + NFRET=NFCUT + IF(PRNLEV.GE.2) WRITE(OUTU,568) NFRET + 568 FORMAT(' after orthonormalization = ',I5) + IF(LBIG) THEN + IF(PRNLEV.GE.2) WRITE(OUTU,570) NFCUT,IUNMOD + 570 FORMAT(' NMDIMB: ',I5,' basis vectors are saved in unit',I5) + REWIND (UNIT=IUNMOD) + LCARD=.FALSE. + CALL WRTNMD(LCARD,1,NFCUT,NAT3,DDV,DDSCR,DDEV,IUNMOD,AMASS) + CALL SAVEIT(IUNMOD) + ELSE + CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFCUT,1) + ENDIF + QMIX=.FALSE. + CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV, + 1 DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD, + 2 INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,0,0,IS3,IS4, + 3 CUTF1,NFCUT1,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1), + 4 HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6), + 5 HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ), + 6 HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD) + CALL SELNMD(DDF,NFRET,CUTF1,NFCUT1) + ENDIF + GOTO I620 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO DO-THE-DIAGONALISATIONS + 640 CONTINUE + DO I=1,NPARC + NFCUT1=NFRRES + IS1=ATMPAR(1,I) + IS2=ATMPAR(2,I) + NDIM=(IS2-IS1+1)*3 + IF(PRNLEV.GE.2) WRITE(OUTU,573) I,IS1,IS2 + 573 FORMAT(/' NMDIMB: Mixed diagonalization, part ',I5/ + 1 ' NMDIMB: Block limits: ',I5,2X,I5) + IF(NDIM+NFCUT1.GT.PARDIM) CALL WRNDIE(-3,'', + 1 'Error in dimension of block') + NFRET=NFCUT1 + IF(NFRET.GT.NFREG) NFRET=NFREG + CALL CLETR(DDV,HEAP(TRAROT),NAT3,1,NFCUT1,NFCUT,DDEV,DDF) + NFCUT1=NFCUT + CALL ADZER(DDV,1,NFCUT1,NAT3,IS1,IS2) + NFSAV=NFCUT1 + OLDPRN=PRNLEV + PRNLEV=1 + CALL ORTHNM(1,NFCUT1,NFCUT,DDV,NAT3,LPURG,TOLER) + PRNLEV=OLDPRN + CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFCUT,1) + NFRET=NDIM+NFCUT + QMIX=.TRUE. + CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV, + 1 DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD, + 2 INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,IS1,IS2,IS3,IS4, + 3 CUTF1,NFCUT,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1), + 4 HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6), + 5 HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ), + 6 HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD) + QMIX=.FALSE. + IF(NFCUT.GT.NFRRES) NFCUT=NFRRES + NFCUT1=NFCUT + NFRET=NFCUT + ENDDO + GOTO I640 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO DO-THE-DWIN-DIAGONALISATIONS + 660 CONTINUE +C +C Store the DDV vectors into DDVBAS +C + NFCUT1=NFRRES + IS1=ATMPAD(1,IPAR1) + IS2=ATMPAD(2,IPAR1) + IS3=ATMPAD(1,IPAR2) + IS4=ATMPAD(2,IPAR2) + NDIM=(IS2-IS1+IS4-IS3+2)*3 + IF(PRNLEV.GE.2) WRITE(OUTU,577) IPAR1,IPAR2,IS1,IS2,IS3,IS4 + 577 FORMAT(/' NMDIMB: Mixed double window diagonalization, parts ', + 1 2I5/ + 2 ' NMDIMB: Block limits: ',I5,2X,I5,4X,I5,2X,I5) + IF(NDIM+NFCUT1.GT.PARDIM) CALL WRNDIE(-3,'', + 1 'Error in dimension of block') + NFRET=NFCUT1 + IF(NFRET.GT.NFREG) NFRET=NFREG +C +C Prepare the DDV vectors consisting of 6 translations-rotations +C + eigenvectors from 7 to NFCUT1 + cartesian displacements vectors +C spanning the atoms from IS1 to IS2 +C + CALL CLETR(DDV,HEAP(TRAROT),NAT3,1,NFCUT1,NFCUT,DDEV,DDF) + NFCUT1=NFCUT + NFSAV=NFCUT1 + CALL ADZERD(DDV,1,NFCUT1,NAT3,IS1,IS2,IS3,IS4) + OLDPRN=PRNLEV + PRNLEV=1 + CALL ORTHNM(1,NFCUT1,NFCUT,DDV,NAT3,LPURG,TOLER) + PRNLEV=OLDPRN + CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFCUT,1) +C + NFRET=NDIM+NFCUT + QMIX=.TRUE. + CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV, + 1 DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD, + 2 INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,IS1,IS2,IS3,IS4, + 3 CUTF1,NFCUT,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1), + 4 HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6), + 5 HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ), + 6 HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD) + QMIX=.FALSE. +C + IF(NFCUT.GT.NFRRES) NFCUT=NFRRES + NFCUT1=NFCUT + NFRET=NFCUT + GOTO I660 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO SAVE-MODES + 700 CONTINUE + IF(PRNLEV.GE.2) WRITE(OUTU,583) IUNMOD + 583 FORMAT(/' NMDIMB: Saving the eigenvalues and eigenvectors to unit' + 1 ,I4) + REWIND (UNIT=IUNMOD) + ISTRT=1 + ISTOP=NFSAV + LCARD=.FALSE. + IF(PRNLEV.GE.2) WRITE(OUTU,585) NFSAV,IUNMOD + 585 FORMAT(' NMDIMB: ',I5,' modes are saved in unit',I5) + CALL WRTNMD(LCARD,ISTRT,ISTOP,NAT3,DDV,DDSCR,DDEV,IUNMOD, + 1 AMASS) + CALL SAVEIT(IUNMOD) + GOTO I700 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO ALLOCATE-SPACE-FOR-DIAGONALIZATION + 720 CONTINUE + DDV2=ALLHP(IREAL8((PARDIM+3)*(PARDIM+3))) + JSPACE=IREAL8((PARDIM+4))*8 + JSP=IREAL8(((PARDIM+3)*(PARDIM+4))/2) + JSPACE=JSPACE+JSP + DDSS=ALLHP(JSPACE) + DD5=DDSS+JSPACE-JSP + GOTO I720 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO ALLOCATE-SPACE-FOR-REDUCED-BASIS + 760 CONTINUE + IF(LBIG) THEN + DDVBAS=ALLHP(IREAL8(NAT3)) + ELSE + DDVBAS=ALLHP(IREAL8(NFREG*NAT3)) + ENDIF + GOTO I760 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO ALLOCATE-SPACE-FOR-TRANSROT-VECTORS + 800 CONTINUE + TRAROT=ALLHP(IREAL8(6*NAT3)) + GOTO I800 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO ALLOCATE-SPACE-FOR-LSCI + 840 CONTINUE + SCIFV1=ALLHP(IREAL8(PARDIM+3)) + SCIFV2=ALLHP(IREAL8(PARDIM+3)) + SCIFV3=ALLHP(IREAL8(PARDIM+3)) + SCIFV4=ALLHP(IREAL8(PARDIM+3)) + SCIFV6=ALLHP(IREAL8(PARDIM+3)) + DRATQ=ALLHP(IREAL8(PARDIM+3)) + ERATQ=ALLHP(IREAL8(PARDIM+3)) + E2RATQ=ALLHP(IREAL8(PARDIM+3)) + BDRATQ=ALLHP(IREAL8(PARDIM+3)) + INRATQ=ALLHP(INTEG4(PARDIM+3)) + GOTO I840 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO ALLOCATE-DUMMY-SPACE-FOR-LSCI + 880 CONTINUE + SCIFV1=ALLHP(IREAL8(2)) + SCIFV2=ALLHP(IREAL8(2)) + SCIFV3=ALLHP(IREAL8(2)) + SCIFV4=ALLHP(IREAL8(2)) + SCIFV6=ALLHP(IREAL8(2)) + DRATQ=ALLHP(IREAL8(2)) + ERATQ=ALLHP(IREAL8(2)) + E2RATQ=ALLHP(IREAL8(2)) + BDRATQ=ALLHP(IREAL8(2)) + INRATQ=ALLHP(INTEG4(2)) + GOTO I880 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C +C----------------------------------------------------------------------- +C TO ALLOCATE-SPACE-FOR-OTHER-ARRAYS + 920 CONTINUE + IUPD=ALLHP(INTEG4(PARDIM+3)) + GOTO I920 ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } +C.##ELSE +C.##ENDIF + END diff --git a/gcc/testsuite/gfortran.dg/g77/20030115-1.f b/gcc/testsuite/gfortran.dg/g77/20030115-1.f new file mode 100644 index 00000000000..faa08e5205e --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/20030115-1.f @@ -0,0 +1,17 @@ +C { dg-do compile } + SUBROUTINE FOO (B) + + 10 CALL BAR(A) + ASSIGN 20 TO M ! { dg-warning "Obsolete: ASSIGN" "ASSIGN" } + + IF(100.LT.A) GOTO 10 + GOTO 40 +C + 20 IF(B.LT.ABS(A)) GOTO 10 + ASSIGN 30 TO M ! { dg-warning "Obsolete: ASSIGN" "ASSIGN" } + GOTO 40 +C + 30 ASSIGN 10 TO M ! { dg-warning "Obsolete: ASSIGN" "ASSIGN" } + 40 GOTO M,(10,20,30) ! { dg-warning "Obsolete: Assigned" "Assigned GO TO" } + + END diff --git a/gcc/testsuite/gfortran.dg/g77/20030326-1.f b/gcc/testsuite/gfortran.dg/g77/20030326-1.f new file mode 100644 index 00000000000..219cffa8bde --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/20030326-1.f @@ -0,0 +1,15 @@ +C { dg-do compile } +C PR fortran/9793 +C larson@w6yx.stanford.edu +C + integer a, b, c + + c = -2147483648 / -1 ! { dg-bogus "Arithmetic overflow" "Arithmetic overflow" { xfail *-*-* } } PR 16512 + + a = 1 + b = 0 + c = a / b + + print *, c + + end diff --git a/gcc/testsuite/gfortran.dg/g77/970125-0.f b/gcc/testsuite/gfortran.dg/g77/970125-0.f new file mode 100644 index 00000000000..699f4806900 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/970125-0.f @@ -0,0 +1,45 @@ +c { dg-do compile } +c +c Following line added on transfer to gfortran testsuite +c { dg-excess-errors "" } +c +C JCB comments: +C g77 doesn't accept the added line "integer(kind=7) ..." -- +C it crashes! +C +C It's questionable that g77 DTRT with regarding to passing +C %LOC() as an argument (thus by reference) and the new global +C analysis. I need to look into that further; my feeling is that +C passing %LOC() as an argument should be treated like passing an +C INTEGER(KIND=7) by reference, and no more specially than that +C (and that INTEGER(KIND=7) should be permitted as equivalent to +C INTEGER(KIND=1), INTEGER(KIND=2), or whatever, depending on the +C system's pointer size). +C +C The back end *still* has a bug here, which should be fixed, +C because, currently, what g77 is passing to it is, IMO, correct. + +C No options: +C ../../egcs/gcc/f/info.c:259: failed assertion `ffeinfo_types_[basictype][kindtype] != NULL' +C -fno-globals -O: +C ../../egcs/gcc/expr.c:7291: Internal compiler error in function expand_expr + +c Frontend bug fixed by JCB 1998-06-01 com.c &c changes. + + integer*4 i4 + integer*8 i8 + integer*8 max4 + data max4/2147483647/ + i4 = %loc(i4) + i8 = %loc(i8) + print *, max4 + print *, i4, %loc(i4) + print *, i8, %loc(i8) + call foo(i4, %loc(i4), i8, %loc(i8)) + end + subroutine foo(i4, i4a, i8, i8a) + integer(kind=7) i4a, i8a + integer*8 i8 + print *, i4, i4a + print *, i8, i8a + end diff --git a/gcc/testsuite/gfortran.dg/g77/980519-2.f b/gcc/testsuite/gfortran.dg/g77/980519-2.f new file mode 100644 index 00000000000..50b517fbd0c --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/980519-2.f @@ -0,0 +1,51 @@ +c { dg-do compile } +* Date: Fri, 17 Apr 1998 14:12:51 +0200 +* From: Jean-Paul Jeannot +* Organization: GX Technology France +* To: egcs-bugs@cygnus.com +* Subject: identified bug in g77 on Alpha +* +* Dear Sir, +* +* You will find below the assembly code of a simple Fortran routine which +* crashes with segmentation fault when storing the first element +* in( jT_f-hd_T ) = Xsp +* whereas everything is fine when commenting this line. +* +* The assembly code (generated with +* -ffast-math -fexpensive-optimizations -fomit-frame-pointer -fno-inline +* or with -O5) +* uses a zapnot instruction to copy an address. +* BUT the zapnot parameter is 15 (copuing 4 bytes) instead of 255 (to copy +* 8 bytes). +* +* I guess this is typically a 64 bit issue. As, from my understanding, +* zapnots are used a lot to copy registers, this may create problems +* elsewhere. +* +* Thanks for your help +* +* Jean-Paul Jeannot +* + subroutine simul_trace( in, Xsp, Ysp, Xrcv, Yrcv ) + +c Next declaration added on transfer to gfortran testsuite + integer hd_S, hd_Z, hd_T + + common /Idim/ jT_f, jT_l, nT, nT_dim + common /Idim/ jZ_f, jZ_l, nZ, nZ_dim + common /Idim/ jZ2_f, jZ2_l, nZ2, nZ2_dim + common /Idim/ jzs_f, jzs_l, nzs, nzs_dim, l_amp + common /Idim/ hd_S, hd_Z, hd_T + common /Idim/ nlay, nlayz + common /Idim/ n_work + common /Idim/ nb_calls + + real Xsp, Ysp, Xrcv, Yrcv + real in( jT_f-hd_T : jT_l ) + + in( jT_f-hd_T ) = Xsp + in( jT_f-hd_T + 1 ) = Ysp + in( jT_f-hd_T + 2 ) = Xrcv + in( jT_f-hd_T + 3 ) = Yrcv + end diff --git a/gcc/testsuite/gfortran.dg/g77/990115-1.f b/gcc/testsuite/gfortran.dg/g77/990115-1.f new file mode 100644 index 00000000000..fa46acb7015 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/990115-1.f @@ -0,0 +1,12 @@ +c { dg-do compile } +C Derived from lapack + SUBROUTINE ZGELSX( M, N, NRHS, A, LDA, B, LDB, JPVT, RCOND, RANK, + $ WORK, RWORK, INFO ) + COMPLEX*16 WORK( * ) +c Following declaration added on transfer to gfortran testsuite. +c It is present in original lapack source + integer rank + DO 20 I = 1, RANK + WORK( ISMAX+I-1 ) = S2*WORK( ISMAX+I-1 ) + 20 CONTINUE + END diff --git a/gcc/testsuite/gfortran.dg/g77/alpha1.f b/gcc/testsuite/gfortran.dg/g77/alpha1.f new file mode 100644 index 00000000000..5b33840f8c6 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/alpha1.f @@ -0,0 +1,27 @@ +c { dg-do compile } + REAL*8 A,B,C + REAL*4 RARRAY(19) + DATA RARRAY /19*-1/ + INTEGER BOTTOM,RIGHT + INTEGER IARRAY(19) + DATA IARRAY /0,0,0,0,0,0,0,0,0,0,0,0,13,14,0,0,0,0,0/ + EQUIVALENCE (RARRAY(13),BOTTOM),(RARRAY(14),RIGHT) +C + IF(I.NE.0) call exit(1) +C gcc: Internal compiler error: program f771 got fatal signal 11 +C at this point! + END + +! previously g77.ftorture/compile/alpha1.f with following alpha1.x +! +!# This test fails compilation in cross-endian environments, for example as +!# below, with a "sorry" message. +! +!if { [ishost "i\[34567\]86-*-*"] } { +! if { [istarget "mmix-knuth-mmixware"] +! || [istarget "powerpc-*-*"] } { +! set torture_compile_xfail [istarget] +! } +!} +! +!return 0 diff --git a/gcc/testsuite/gfortran.dg/g77/xformat.f b/gcc/testsuite/gfortran.dg/g77/xformat.f new file mode 100644 index 00000000000..9b2769a034b --- /dev/null +++ b/gcc/testsuite/gfortran.dg/g77/xformat.f @@ -0,0 +1,4 @@ +c { dg-do compile } + PRINT 10, 2, 3 +10 FORMAT (I1, X, I1) ! { dg-warning "Extension: X descriptor" "Extension: X descriptor" } + END -- 2.30.2