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*DECK LCMULT
SUBROUTINE LCMULT(IPLIST,FLOTT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Multiply the floating point information contained in the active
* directory of a table or XSM file by a real number.
*
*Copyright:
* Copyright (C) 1993 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): A. Hebert
*
*Parameters: input
* IPLIS1 address of the table or handle to the XSM file.
* FLOTT real number.
*
*Parameters: output
* IPLIS1 address of the table or handle to the XSM file.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIST
REAL FLOTT
*----
* LOCAL VARIABLES
*----
PARAMETER (MAXLEV=50)
TYPE(C_PTR) KDATA(MAXLEV)
CHARACTER NAMT*12,HSMG*131,MYNAME*12,NAMLCM*12,PATH(MAXLEV)*12,
1 FIRST(MAXLEV)*12
LOGICAL EMPTY,LCM
INTEGER IVEC(MAXLEV),KJLON(MAXLEV),IGO(MAXLEV)
TYPE(C_PTR) :: PT_DATA
REAL, POINTER :: RRR(:)
DOUBLE PRECISION, POINTER :: DDD(:)
COMPLEX, POINTER :: CCC(:)
*
CALL LCMVAL(IPLIST,' ')
ILEV=1
KDATA(1)=IPLIST
KJLON(1)=-1
IVEC(1)=1
IGO(1)=5
*
* ASSOCIATIVE TABLE.
10 CALL LCMINF(IPLIST,MYNAME,NAMLCM,EMPTY,ILONG,LCM)
IF(EMPTY) GO TO (100,100,240,240,250),IGO(ILEV)
NAMT=' '
CALL LCMNXT(IPLIST,NAMT)
*
FIRST(ILEV)=NAMT
15 CALL LCMLEN(IPLIST,NAMT,ILON1,ITY1)
IF(ITY1.EQ.0) THEN
* ASSOCIATIVE TABLE DATA.
ILEV=ILEV+1
IF(ILEV.GT.MAXLEV) THEN
WRITE(HSMG,'(2A,A12,A)') 'LCMULT: TOO MANY DIRECTORY ',
1 'LEVELS ON ''',MYNAME,'''(1).'
CALL XABORT(HSMG)
ENDIF
KJLON(ILEV)=-1
KDATA(ILEV)=LCMGID(IPLIST,NAMT)
PATH(ILEV)=NAMT
IPLIST=KDATA(ILEV)
IVEC(ILEV)=1
IGO(ILEV)=1
GO TO 10
ELSE IF(ITY1.EQ.10) THEN
* LIST DATA.
ILEV=ILEV+1
IF(ILEV.GT.MAXLEV) THEN
WRITE(HSMG,'(2A,A12,A)') 'LCMULT: TOO MANY DIRECTORY ',
1 'LEVELS ON ''',MYNAME,'''(2).'
CALL XABORT(HSMG)
ENDIF
KJLON(ILEV)=ILON1
KDATA(ILEV)=LCMGID(IPLIST,NAMT)
PATH(ILEV)=NAMT
IPLIST=KDATA(ILEV)
IVEC(ILEV)=0
IGO(ILEV)=2
GO TO 190
ELSE IF(ITY1.EQ.2) THEN
* SINGLE PRECISION DATA.
CALL LCMGPD(IPLIST,NAMT,PT_DATA)
CALL C_F_POINTER(PT_DATA, RRR, (/ ILON1 /))
DO 70 I=1,ILON1
RRR(I)=FLOTT*RRR(I)
70 CONTINUE
CALL LCMPPD(IPLIST,NAMT,ILON1,ITY1,PT_DATA)
ELSE IF(ITY1.EQ.4) THEN
* DOUBLE PRECISION DATA.
CALL LCMGPD(IPLIST,NAMT,PT_DATA)
CALL C_F_POINTER(PT_DATA, DDD, (/ ILON1 /))
DO 80 I=1,ILON1
DDD(I)=FLOTT*DDD(I)
80 CONTINUE
CALL LCMPPD(IPLIST,NAMT,ILON1,ITY1,PT_DATA)
ELSE IF(ITY1.EQ.6) THEN
* COMPLEX DATA.
CALL LCMGPD(IPLIST,NAMT,PT_DATA)
CALL C_F_POINTER(PT_DATA, CCC, (/ ILON1 /))
DO 90 I=1,ILON1
CCC(I)=FLOTT*CCC(I)
90 CONTINUE
CALL LCMPPD(IPLIST,NAMT,ILON1,ITY1,PT_DATA)
ENDIF
CALL LCMNXT(IPLIST,NAMT)
IF(NAMT.NE.FIRST(ILEV)) GO TO 15
GO TO (100,100,240,240,250),IGO(ILEV)
*
100 NAMT=PATH(ILEV)
ILEV=ILEV-1
IPLIST=KDATA(ILEV)
CALL LCMNXT(IPLIST,NAMT)
IF(NAMT.NE.FIRST(ILEV)) GO TO 15
GO TO (100,100,240,240,250),IGO(ILEV)
*
* LIST.
190 IVEC(ILEV)=IVEC(ILEV)+1
IF(IVEC(ILEV).GT.KJLON(ILEV)) THEN
GO TO (100,100,240,240,250),IGO(ILEV)
ENDIF
CALL LCMLEL(KDATA(ILEV),IVEC(ILEV),ILON1,ITY1)
IF((ILON1.NE.0).AND.(ITY1.EQ.0)) THEN
* ASSOCIATIVE TABLE DATA.
ILEV=ILEV+1
IF(ILEV.GT.MAXLEV) THEN
WRITE(HSMG,'(2A,A12,A)') 'LCMULT: TOO MANY DIRECTORY ',
1 'LEVELS ON ''',MYNAME,'''(3).'
CALL XABORT(HSMG)
ENDIF
KJLON(ILEV)=-1
KDATA(ILEV)=LCMGIL(IPLIST,IVEC(ILEV-1))
IPLIST=KDATA(ILEV)
IVEC(ILEV)=1
IGO(ILEV)=3
GO TO 10
ELSE IF((ILON1.NE.0).AND.(ITY1.EQ.10)) THEN
* LIST DATA.
ILEV=ILEV+1
IF(ILEV.GT.MAXLEV) THEN
WRITE(HSMG,'(2A,A12,A)') 'LCMULT: TOO MANY DIRECTORY ',
1 'LEVELS ON ''',MYNAME,'''(4).'
CALL XABORT(HSMG)
ENDIF
KJLON(ILEV)=ILON1
KDATA(ILEV)=LCMGIL(IPLIST,IVEC(ILEV-1))
IPLIST=KDATA(ILEV)
IVEC(ILEV)=0
IGO(ILEV)=4
GO TO 190
ELSE IF((ILON1.NE.0).AND.(ITY1.LE.6)) THEN
IF((ITY1.EQ.2).OR.(ITY1.EQ.6)) THEN
* SINGLE PRECISION DATA.
CALL LCMGPL(IPLIST,IVEC(ILEV),PT_DATA)
CALL C_F_POINTER(PT_DATA, RRR, (/ ILON1 /))
DO 210 I=1,ILON1
RRR(I)=FLOTT*RRR(I)
210 CONTINUE
CALL LCMPPL(IPLIST,IVEC(ILEV),ILON1,ITY1,PT_DATA)
ELSE IF(ITY1.EQ.4) THEN
* DOUBLE PRECISION DATA.
CALL LCMGPL(IPLIST,IVEC(ILEV),PT_DATA)
CALL C_F_POINTER(PT_DATA, DDD, (/ ILON1 /))
DO 220 I=1,ILON1
DDD(I)=FLOTT*DDD(I)
220 CONTINUE
CALL LCMPPL(IPLIST,IVEC(ILEV),ILON1,ITY1,PT_DATA)
ELSE IF(ITY1.EQ.6) THEN
* COMPLEX DATA.
CALL LCMGPL(IPLIST,IVEC(ILEV),PT_DATA)
CALL C_F_POINTER(PT_DATA, CCC, (/ ILON1 /))
DO 230 I=1,ILON1
CCC(I)=FLOTT*CCC(I)
230 CONTINUE
CALL LCMPPL(IPLIST,IVEC(ILEV),ILON1,ITY1,PT_DATA)
ENDIF
ENDIF
GO TO 190
*
240 ILEV=ILEV-1
IPLIST=KDATA(ILEV)
GO TO 190
*
250 RETURN
END
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