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- *DECK SPLPMU
- SUBROUTINE SPLPMU (MRELAS, NVARS, LMX, LBM, NREDC, INFO, IENTER,
- + ILEAVE, IOPT, NPP, JSTRT, IBASIS, IMAT, IBRC, IPR, IWR, IND,
- + IBB, ANORM, EPS, UU, GG, RPRNRM, ERDNRM, DULNRM, THETA, COSTSC,
- + XLAMDA, RHSNRM, AMAT, BASMAT, CSC, WR, RPRIM, WW, BU, BL, RHS,
- + ERD, ERP, RZ, RG, COLNRM, COSTS, PRIMAL, DUALS, SINGLR, REDBAS,
- + ZEROLV, STPEDG)
- C***BEGIN PROLOGUE SPLPMU
- C***SUBSIDIARY
- C***PURPOSE Subsidiary to SPLP
- C***LIBRARY SLATEC
- C***TYPE SINGLE PRECISION (SPLPMU-S, DPLPMU-D)
- C***AUTHOR (UNKNOWN)
- C***DESCRIPTION
- C
- C THE EDITING REQUIRED TO CONVERT THIS SUBROUTINE FROM SINGLE TO
- C DOUBLE PRECISION INVOLVES THE FOLLOWING CHARACTER STRING CHANGES.
- C
- C USE AN EDITING COMMAND (CHANGE) /STRING-1/(TO)STRING-2/.
- C /REAL (12 BLANKS)/DOUBLE PRECISION/,
- C /SASUM/DASUM/,/SCOPY/DCOPY/,/SDOT/DDOT/,
- C /.E0/.D0/
- C
- C THIS SUBPROGRAM IS FROM THE SPLP( ) PACKAGE. IT PERFORMS THE
- C TASKS OF UPDATING THE PRIMAL SOLUTION, EDGE WEIGHTS, REDUCED
- C COSTS, AND MATRIX DECOMPOSITION.
- C IT IS THE MAIN PART OF THE PROCEDURE (MAKE MOVE AND UPDATE).
- C
- C REVISED 821122-1100
- C REVISED YYMMDD
- C
- C***SEE ALSO SPLP
- C***ROUTINES CALLED IPLOC, LA05BS, LA05CS, PNNZRS, PRWPGE, SASUM,
- C SCOPY, SDOT, SPLPDM, XERMSG
- C***REVISION HISTORY (YYMMDD)
- C 811215 DATE WRITTEN
- C 890531 Changed all specific intrinsics to generic. (WRB)
- C 890605 Removed unreferenced labels. (WRB)
- C 890606 Removed unused COMMON block LA05DS. (WRB)
- C 891214 Prologue converted to Version 4.0 format. (BAB)
- C 900315 CALLs to XERROR changed to CALLs to XERMSG. (THJ)
- C 900328 Added TYPE section. (WRB)
- C***END PROLOGUE SPLPMU
- INTEGER IBASIS(*),IMAT(*),IBRC(LBM,2),IPR(*),IWR(*),IND(*),IBB(*)
- REAL AIJ,ALPHA,ANORM,COSTSC,ERDNRM,DULNRM,EPS,GAMMA,
- * GG,GQ,ONE,RPRNRM,RZJ,SCALR,THETA,TWO,UU,WP,XLAMDA,RHSNRM,
- * ZERO,AMAT(*),BASMAT(*),CSC(*),WR(*),RPRIM(*),WW(*),BU(*),BL(*),
- * RHS(*),ERD(*),ERP(*),RZ(*),RG(*),COSTS(*),PRIMAL(*),DUALS(*),
- * COLNRM(*),RCOST,SASUM,SDOT
- LOGICAL SINGLR,REDBAS,PAGEPL,TRANS,ZEROLV,STPEDG
- C
- C***FIRST EXECUTABLE STATEMENT SPLPMU
- ZERO=0.E0
- ONE=1.E0
- TWO=2.E0
- LPG=LMX-(NVARS+4)
- C
- C UPDATE THE PRIMAL SOLUTION WITH A MULTIPLE OF THE SEARCH
- C DIRECTION.
- I=1
- N20002=MRELAS
- GO TO 20003
- 20002 I=I+1
- 20003 IF ((N20002-I).LT.0) GO TO 20004
- RPRIM(I)=RPRIM(I)-THETA*WW(I)
- GO TO 20002
- C
- C IF EJECTED VARIABLE IS LEAVING AT AN UPPER BOUND, THEN
- C TRANSLATE RIGHT HAND SIDE.
- 20004 IF (.NOT.(ILEAVE.LT.0)) GO TO 20006
- IBAS=IBASIS(ABS(ILEAVE))
- SCALR=RPRIM(ABS(ILEAVE))
- ASSIGN 20009 TO NPR001
- GO TO 30001
- 20009 IBB(IBAS)=ABS(IBB(IBAS))+1
- C
- C IF ENTERING VARIABLE IS RESTRICTED TO ITS UPPER BOUND, TRANSLATE
- C RIGHT HAND SIDE. IF THE VARIABLE DECREASED FROM ITS UPPER
- C BOUND, A SIGN CHANGE IS REQUIRED IN THE TRANSLATION.
- 20006 IF (.NOT.(IENTER.EQ.ILEAVE)) GO TO 20010
- IBAS=IBASIS(IENTER)
- SCALR=THETA
- IF (MOD(IBB(IBAS),2).EQ.0) SCALR=-SCALR
- ASSIGN 20013 TO NPR001
- GO TO 30001
- 20013 IBB(IBAS)=IBB(IBAS)+1
- GO TO 20011
- 20010 IBAS=IBASIS(IENTER)
- C
- C IF ENTERING VARIABLE IS DECREASING FROM ITS UPPER BOUND,
- C COMPLEMENT ITS PRIMAL VALUE.
- IF (.NOT.(IND(IBAS).EQ.3.AND.MOD(IBB(IBAS),2).EQ.0)) GO TO 20014
- SCALR=-(BU(IBAS)-BL(IBAS))
- IF (IBAS.LE.NVARS) SCALR=SCALR/CSC(IBAS)
- ASSIGN 20017 TO NPR001
- GO TO 30001
- 20017 THETA=-SCALR-THETA
- IBB(IBAS)=IBB(IBAS)+1
- 20014 CONTINUE
- RPRIM(ABS(ILEAVE))=THETA
- IBB(IBAS)=-ABS(IBB(IBAS))
- I=IBASIS(ABS(ILEAVE))
- IBB(I)=ABS(IBB(I))
- IF(PRIMAL(ABS(ILEAVE)+NVARS).GT.ZERO) IBB(I)=IBB(I)+1
- C
- C INTERCHANGE COLUMN POINTERS TO NOTE EXCHANGE OF COLUMNS.
- 20011 IBAS=IBASIS(IENTER)
- IBASIS(IENTER)=IBASIS(ABS(ILEAVE))
- IBASIS(ABS(ILEAVE))=IBAS
- C
- C IF VARIABLE WAS EXCHANGED AT A ZERO LEVEL, MARK IT SO THAT
- C IT CAN'T BE BROUGHT BACK IN. THIS IS TO HELP PREVENT CYCLING.
- IF(ZEROLV) IBASIS(IENTER)=-ABS(IBASIS(IENTER))
- RPRNRM=MAX(RPRNRM,SASUM(MRELAS,RPRIM,1))
- K=1
- N20018=MRELAS
- GO TO 20019
- 20018 K=K+1
- 20019 IF ((N20018-K).LT.0) GO TO 20020
- C
- C SEE IF VARIABLES THAT WERE CLASSIFIED AS INFEASIBLE HAVE NOW
- C BECOME FEASIBLE. THIS MAY REQUIRED TRANSLATING UPPER BOUNDED
- C VARIABLES.
- IF (.NOT.(PRIMAL(K+NVARS).NE.ZERO .AND.
- * ABS(RPRIM(K)).LE.RPRNRM*ERP(K))) GO TO 20022
- IF (.NOT.(PRIMAL(K+NVARS).GT.ZERO)) GO TO 20025
- IBAS=IBASIS(K)
- SCALR=-(BU(IBAS)-BL(IBAS))
- IF(IBAS.LE.NVARS)SCALR=SCALR/CSC(IBAS)
- ASSIGN 20028 TO NPR001
- GO TO 30001
- 20028 RPRIM(K)=-SCALR
- RPRNRM=RPRNRM-SCALR
- 20025 PRIMAL(K+NVARS)=ZERO
- 20022 CONTINUE
- GO TO 20018
- C
- C UPDATE REDUCED COSTS, EDGE WEIGHTS, AND MATRIX DECOMPOSITION.
- 20020 IF (.NOT.(IENTER.NE.ILEAVE)) GO TO 20029
- C
- C THE INCOMING VARIABLE IS ALWAYS CLASSIFIED AS FEASIBLE.
- PRIMAL(ABS(ILEAVE)+NVARS)=ZERO
- C
- WP=WW(ABS(ILEAVE))
- GQ=SDOT(MRELAS,WW,1,WW,1)+ONE
- C
- C COMPUTE INVERSE (TRANSPOSE) TIMES SEARCH DIRECTION.
- TRANS=.TRUE.
- CALL LA05BS(BASMAT,IBRC,LBM,MRELAS,IPR,IWR,WR,GG,WW,TRANS)
- C
- C UPDATE THE MATRIX DECOMPOSITION. COL. ABS(ILEAVE) IS LEAVING.
- C THE ARRAY DUALS(*) CONTAINS INTERMEDIATE RESULTS FOR THE
- C INCOMING COLUMN.
- CALL LA05CS(BASMAT,IBRC,LBM,MRELAS,IPR,IWR,DUALS,GG,UU,
- * ABS(ILEAVE))
- REDBAS=.FALSE.
- IF (.NOT.(GG.LT.ZERO)) GO TO 20032
- C
- C REDECOMPOSE BASIS MATRIX WHEN AN ERROR RETURN FROM
- C LA05CS( ) IS NOTED. THIS WILL PROBABLY BE DUE TO
- C SPACE BEING EXHAUSTED, GG=-7.
- CALL SPLPDM(
- *MRELAS,NVARS,LMX,LBM,NREDC,INFO,IOPT,
- *IBASIS,IMAT,IBRC,IPR,IWR,IND,IBB,
- *ANORM,EPS,UU,GG,
- *AMAT,BASMAT,CSC,WR,
- *SINGLR,REDBAS)
- IF (.NOT.(SINGLR)) GO TO 20035
- NERR=26
- CALL XERMSG ('SLATEC', 'SPLPMU',
- + 'IN SPLP, MOVED TO A SINGULAR POINT. THIS SHOULD NOT HAPPEN.',
- + NERR, IOPT)
- INFO=-NERR
- RETURN
- 20035 CONTINUE
- GO TO 30002
- 20038 CONTINUE
- 20032 CONTINUE
- C
- C IF STEEPEST EDGE PRICING IS USED, UPDATE REDUCED COSTS
- C AND EDGE WEIGHTS.
- IF (.NOT.(STPEDG)) GO TO 20039
- C
- C COMPUTE COL. ABS(ILEAVE) OF THE NEW INVERSE (TRANSPOSE) MATRIX
- C HERE ABS(ILEAVE) POINTS TO THE EJECTED COLUMN.
- C USE ERD(*) FOR TEMP. STORAGE.
- CALL SCOPY(MRELAS,ZERO,0,ERD,1)
- ERD(ABS(ILEAVE))=ONE
- TRANS=.TRUE.
- CALL LA05BS(BASMAT,IBRC,LBM,MRELAS,IPR,IWR,WR,GG,ERD,TRANS)
- C
- C COMPUTE UPDATED DUAL VARIABLES IN DUALS(*).
- ASSIGN 20042 TO NPR003
- GO TO 30003
- C
- C COMPUTE THE DOT PRODUCT OF COL. J OF THE NEW INVERSE (TRANSPOSE)
- C WITH EACH NON-BASIC COLUMN. ALSO COMPUTE THE DOT PRODUCT OF THE
- C INVERSE (TRANSPOSE) OF NON-UPDATED MATRIX (TIMES) THE
- C SEARCH DIRECTION WITH EACH NON-BASIC COLUMN.
- C RECOMPUTE REDUCED COSTS.
- 20042 PAGEPL=.TRUE.
- CALL SCOPY(NVARS+MRELAS,ZERO,0,RZ,1)
- NNEGRC=0
- J=JSTRT
- 20043 IF (.NOT.(IBB(J).LE.0)) GO TO 20045
- PAGEPL=.TRUE.
- RG(J)=ONE
- GO TO 20046
- C
- C NONBASIC INDEPENDENT VARIABLES (COLUMN IN SPARSE MATRIX STORAGE)
- 20045 IF (.NOT.(J.LE.NVARS)) GO TO 20048
- RZJ=COSTS(J)*COSTSC
- ALPHA=ZERO
- GAMMA=ZERO
- C
- C COMPUTE THE DOT PRODUCT OF THE SPARSE MATRIX NONBASIC COLUMNS
- C WITH THREE VECTORS INVOLVED IN THE UPDATING STEP.
- IF (.NOT.(J.EQ.1)) GO TO 20051
- ILOW=NVARS+5
- GO TO 20052
- 20051 ILOW=IMAT(J+3)+1
- 20052 IF (.NOT.(PAGEPL)) GO TO 20054
- IL1=IPLOC(ILOW,AMAT,IMAT)
- IF (.NOT.(IL1.GE.LMX-1)) GO TO 20057
- ILOW=ILOW+2
- IL1=IPLOC(ILOW,AMAT,IMAT)
- 20057 CONTINUE
- IPAGE=ABS(IMAT(LMX-1))
- GO TO 20055
- 20054 IL1=IHI+1
- 20055 IHI=IMAT(J+4)-(ILOW-IL1)
- 20060 IU1=MIN(LMX-2,IHI)
- IF (.NOT.(IL1.GT.IU1)) GO TO 20062
- GO TO 20061
- 20062 CONTINUE
- DO 10 I=IL1,IU1
- RZJ=RZJ-AMAT(I)*DUALS(IMAT(I))
- ALPHA=ALPHA+AMAT(I)*ERD(IMAT(I))
- GAMMA=GAMMA+AMAT(I)*WW(IMAT(I))
- 10 CONTINUE
- IF (.NOT.(IHI.LE.LMX-2)) GO TO 20065
- GO TO 20061
- 20065 CONTINUE
- IPAGE=IPAGE+1
- KEY=1
- CALL PRWPGE(KEY,IPAGE,LPG,AMAT,IMAT)
- IL1=NVARS+5
- IHI=IHI-LPG
- GO TO 20060
- 20061 PAGEPL=IHI.EQ.(LMX-2)
- RZ(J)=RZJ*CSC(J)
- ALPHA=ALPHA*CSC(J)
- GAMMA=GAMMA*CSC(J)
- RG(J)=MAX(RG(J)-TWO*ALPHA*GAMMA+ALPHA**2*GQ,ONE+ALPHA**2)
- C
- C NONBASIC DEPENDENT VARIABLES (COLUMNS DEFINED IMPLICITLY)
- GO TO 20049
- 20048 PAGEPL=.TRUE.
- SCALR=-ONE
- IF(IND(J).EQ.2) SCALR=ONE
- I=J-NVARS
- ALPHA=SCALR*ERD(I)
- RZ(J)=-SCALR*DUALS(I)
- GAMMA=SCALR*WW(I)
- RG(J)=MAX(RG(J)-TWO*ALPHA*GAMMA+ALPHA**2*GQ,ONE+ALPHA**2)
- 20049 CONTINUE
- 20046 CONTINUE
- C
- RCOST=RZ(J)
- IF (MOD(IBB(J),2).EQ.0) RCOST=-RCOST
- IF (.NOT.(IND(J).EQ.3)) GO TO 20068
- IF(BU(J).EQ.BL(J)) RCOST=ZERO
- 20068 CONTINUE
- IF (IND(J).EQ.4) RCOST=-ABS(RCOST)
- CNORM=ONE
- IF (J.LE.NVARS) CNORM=COLNRM(J)
- IF (RCOST+ERDNRM*DULNRM*CNORM.LT.ZERO) NNEGRC=NNEGRC+1
- J=MOD(J,MRELAS+NVARS)+1
- IF (.NOT.(NNEGRC.GE.NPP .OR. J.EQ.JSTRT)) GO TO 20071
- GO TO 20044
- 20071 CONTINUE
- GO TO 20043
- 20044 JSTRT=J
- C
- C UPDATE THE EDGE WEIGHT FOR THE EJECTED VARIABLE.
- RG(ABS(IBASIS(IENTER)))= GQ/WP**2
- C
- C IF MINIMUM REDUCED COST (DANTZIG) PRICING IS USED,
- C CALCULATE THE NEW REDUCED COSTS.
- GO TO 20040
- C
- C COMPUTE THE UPDATED DUALS IN DUALS(*).
- 20039 ASSIGN 20074 TO NPR003
- GO TO 30003
- 20074 CALL SCOPY(NVARS+MRELAS,ZERO,0,RZ,1)
- NNEGRC=0
- J=JSTRT
- PAGEPL=.TRUE.
- C
- 20075 IF (.NOT.(IBB(J).LE.0)) GO TO 20077
- PAGEPL=.TRUE.
- GO TO 20078
- C
- C NONBASIC INDEPENDENT VARIABLE (COLUMN IN SPARSE MATRIX STORAGE)
- 20077 IF (.NOT.(J.LE.NVARS)) GO TO 20080
- RZ(J)=COSTS(J)*COSTSC
- IF (.NOT.(J.EQ.1)) GO TO 20083
- ILOW=NVARS+5
- GO TO 20084
- 20083 ILOW=IMAT(J+3)+1
- 20084 CONTINUE
- IF (.NOT.(PAGEPL)) GO TO 20086
- IL1=IPLOC(ILOW,AMAT,IMAT)
- IF (.NOT.(IL1.GE.LMX-1)) GO TO 20089
- ILOW=ILOW+2
- IL1=IPLOC(ILOW,AMAT,IMAT)
- 20089 CONTINUE
- IPAGE=ABS(IMAT(LMX-1))
- GO TO 20087
- 20086 IL1=IHI+1
- 20087 CONTINUE
- IHI=IMAT(J+4)-(ILOW-IL1)
- 20092 IU1=MIN(LMX-2,IHI)
- IF (.NOT.(IU1.GE.IL1 .AND.MOD(IU1-IL1,2).EQ.0)) GO TO 20094
- RZ(J)=RZ(J)-AMAT(IL1)*DUALS(IMAT(IL1))
- IL1=IL1+1
- 20094 CONTINUE
- IF (.NOT.(IL1.GT.IU1)) GO TO 20097
- GO TO 20093
- 20097 CONTINUE
- C
- C UNROLL THE DOT PRODUCT LOOP TO A DEPTH OF TWO. (THIS IS DONE
- C FOR INCREASED EFFICIENCY).
- DO 40 I=IL1,IU1,2
- RZ(J)=RZ(J)-AMAT(I)*DUALS(IMAT(I))-AMAT(I+1)*DUALS(IMAT(I+1))
- 40 CONTINUE
- IF (.NOT.(IHI.LE.LMX-2)) GO TO 20100
- GO TO 20093
- 20100 CONTINUE
- IPAGE=IPAGE+1
- KEY=1
- CALL PRWPGE(KEY,IPAGE,LPG,AMAT,IMAT)
- IL1=NVARS+5
- IHI=IHI-LPG
- GO TO 20092
- 20093 PAGEPL=IHI.EQ.(LMX-2)
- RZ(J)=RZ(J)*CSC(J)
- C
- C NONBASIC DEPENDENT VARIABLES (COLUMNS DEFINED IMPLICITLY)
- GO TO 20081
- 20080 PAGEPL=.TRUE.
- SCALR=-ONE
- IF(IND(J).EQ.2) SCALR=ONE
- I=J-NVARS
- RZ(J)=-SCALR*DUALS(I)
- 20081 CONTINUE
- 20078 CONTINUE
- C
- RCOST=RZ(J)
- IF (MOD(IBB(J),2).EQ.0) RCOST=-RCOST
- IF (.NOT.(IND(J).EQ.3)) GO TO 20103
- IF(BU(J).EQ.BL(J)) RCOST=ZERO
- 20103 CONTINUE
- IF (IND(J).EQ.4) RCOST=-ABS(RCOST)
- CNORM=ONE
- IF (J.LE.NVARS) CNORM=COLNRM(J)
- IF (RCOST+ERDNRM*DULNRM*CNORM.LT.ZERO) NNEGRC=NNEGRC+1
- J=MOD(J,MRELAS+NVARS)+1
- IF (.NOT.(NNEGRC.GE.NPP .OR. J.EQ.JSTRT)) GO TO 20106
- GO TO 20076
- 20106 CONTINUE
- GO TO 20075
- 20076 JSTRT=J
- 20040 CONTINUE
- GO TO 20030
- C
- C THIS IS NECESSARY ONLY FOR PRINTING OF INTERMEDIATE RESULTS.
- 20029 ASSIGN 20109 TO NPR003
- GO TO 30003
- 20109 CONTINUE
- 20030 RETURN
- C PROCEDURE (TRANSLATE RIGHT HAND SIDE)
- C
- C PERFORM THE TRANSLATION ON THE RIGHT-HAND SIDE.
- 30001 IF (.NOT.(IBAS.LE.NVARS)) GO TO 20110
- I=0
- 20113 CALL PNNZRS(I,AIJ,IPLACE,AMAT,IMAT,IBAS)
- IF (.NOT.(I.LE.0)) GO TO 20115
- GO TO 20114
- 20115 CONTINUE
- RHS(I)=RHS(I)-SCALR*AIJ*CSC(IBAS)
- GO TO 20113
- 20114 GO TO 20111
- 20110 I=IBAS-NVARS
- IF (.NOT.(IND(IBAS).EQ.2)) GO TO 20118
- RHS(I)=RHS(I)-SCALR
- GO TO 20119
- 20118 RHS(I)=RHS(I)+SCALR
- 20119 CONTINUE
- 20111 CONTINUE
- RHSNRM=MAX(RHSNRM,SASUM(MRELAS,RHS,1))
- GO TO NPR001, (20009,20013,20017,20028)
- C PROCEDURE (COMPUTE NEW PRIMAL)
- C
- C COPY RHS INTO WW(*), SOLVE SYSTEM.
- 30002 CALL SCOPY(MRELAS,RHS,1,WW,1)
- TRANS = .FALSE.
- CALL LA05BS(BASMAT,IBRC,LBM,MRELAS,IPR,IWR,WR,GG,WW,TRANS)
- CALL SCOPY(MRELAS,WW,1,RPRIM,1)
- RPRNRM=SASUM(MRELAS,RPRIM,1)
- GO TO 20038
- C PROCEDURE (COMPUTE NEW DUALS)
- C
- C SOLVE FOR DUAL VARIABLES. FIRST COPY COSTS INTO DUALS(*).
- 30003 I=1
- N20121=MRELAS
- GO TO 20122
- 20121 I=I+1
- 20122 IF ((N20121-I).LT.0) GO TO 20123
- J=IBASIS(I)
- IF (.NOT.(J.LE.NVARS)) GO TO 20125
- DUALS(I)=COSTSC*COSTS(J)*CSC(J) + XLAMDA*PRIMAL(I+NVARS)
- GO TO 20126
- 20125 DUALS(I)=XLAMDA*PRIMAL(I+NVARS)
- 20126 CONTINUE
- GO TO 20121
- C
- 20123 TRANS=.TRUE.
- CALL LA05BS(BASMAT,IBRC,LBM,MRELAS,IPR,IWR,WR,GG,DUALS,TRANS)
- DULNRM=SASUM(MRELAS,DUALS,1)
- GO TO NPR003, (20042,20074,20109)
- END
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