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decuslib10-08
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43,50476/daloop.for
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SUBROUTINE DALOOP(IRAPID,LOWSUB,KNTSUB,INISUB,LMTSUB,
���� 1 INCSUB,NXTSUB,INLOOP,NOWSUB)
C RENBR(/VARIABLY EMBEDDED DO LOOP SIMULATOR)
����C
��C DONALD BARTH, HARVARD BUSINESS SCHOOL
C
��C ROUTINE TO PROVIDE CONTROL OF VARIABLY EMBEDDED
C LOOPS TO ANY DESIRED LEVEL. EACH LOOP HAS ITS OWN
��C INITIAL AND FINAL VALUE, AND ITS OWN INCREMENT BY
���C WHICH IT VARIES BETWEEN THESE. THE FINAL VALUE CAN
�C BE EITHER LESS THAN, EQUAL TO OR GREATER THAN THE
���C INITIAL VALUE.
���C
��C ***************************************************
�����������������������������������������C * CAUTION, DALOOP MUST BE CALLED INITIALLY TO *
�C * DEFINE LOOP STRUCTURE, THEN AT EACH LOOP END. *
�C * NONE OF THE CALLING ARGUMENTS CAN BE CHANGED *
�C * BY CALLING PROGRAM UNTIL ALL LOOPS ARE DONE. *
�C ***************************************************
�C
��C THE FOLLOWING ARGUMENTS ARE USED AS INPUT ONLY
�C
��C IRAPID = 0, THE INNERMOST LOOP (ONE DONE THE MOST
���C RAPIDLY) IS THAT WITH THE SMALLEST VALUE
���C IN THE NXTSUB ARRAY.
���C = 1, THE INNERMOST LOOP IS THAT WITH THE
C LARGEST VALUE IN THE NXTSUB ARRAY.
���������C LOWSUB = THE INITIAL SUBSCRIPT OF THE ARRAYS WHICH
��C ARE TO BE USED AS THE LOOP DESCRIPTORS.
����C KNTSUB = THE FINAL SUBSCRIPT OF THE ARRAYS WHICH
����C ARE TO BE USED AS THE LOOP DESCRIPTORS.
����C KNTSUB MUST BE GREATER THAN OR EQUAL TO
����C LOWSUB.
�C INISUB = ARRAY CONTAINING THE STARTING VALUES OF THE
C INDIVIDUAL LOOP LIMITS.
C LMTSUB = ARRAY CONTAINING ENDING VALUES OF THE
�C INDIVIDUAL LOOP LIMITS. AN INDIVIDUAL ITEM
C IN THE LMTSUB ARRAY CAN BE EITHER LESS THAN,
���������������������������������������C EQUAL TO, OR GREATER THAN THE CORRESPONDING
C ITEM IN THE INISUB ARRAY.
���C INCSUB = ARRAY CONTAINING THE INCREMENT BY WHICH THE
C NOWSUB ARRAY IS VARIED BETWEEN THE STARTING
C VALUES IN INISUB ARRAY, AND THE ENDING
C VALUES IN LMTSUB ARRAY. IF THE INCREMENT
��C IS ZERO, IT IS CHANGED TO 1. IF THE
��C INCREMENT HAS THE WRONG SIGN, ITS SIGN IS
��C CHANGED.
C
��C THE FOLLOWING ARGUMENT IS USED AS INPUT, THEN IS
����C RETURNED CHANGED FOR USE BY SUBSEQUENT DALOOP CALLS
�C
��������������������������������C NXTSUB = ARRAY SET BY THE CALLING PROGRAM BEFORE THE
C INITIAL CALL TO DALOOP TO CONTROL THE ORDER
C OF THE EMBEDDED LOOPS. DALOOP WILL RETURN
�C NXTSUB AS AN ARRAY CONTAINING POINTERS FOR
�C USE BY SUBSEQUENT CALLS TO DALOOP. THE
����C ORIGINAL CONTENTS OF NXTSUB ARE USED TO
����C ESTABLISH THE ORDER OF THE POINTERS, BUT
���C THE ORIGINAL CONTENTS ARE DESTROYED AFTER
��C BEING USED. THE RETURNED VALUES MUST NOT BE
����C ALTERED BY CALLING PROGRAM. SEE DEFINITION
�����������������������������������C OF IRAPID FOR DESCRIPTION OF INPUT NXTSUB
��C VALUES. LOOPS WHICH HAVE IDENTICAL VALUES
�C OF NXTSUB ARE PERFORMED AS A SINGLE UNIT, A
C SINGLE CALL TO DALOOP ADVANCING THE NOWSUB
�C ARRAY VALUES FOR ALL MEMEBERS OF THE GROUP
�C UNTIL NOWSUB ARRAY VALUE OF ANY MEMBER OF
��C THE GROUP EXCEEDS ITS OWN CORRESPONDING
����C LMTSUB ARRAY VALUE. WHEN DALOOP FINALLY
���C SIGNALS THAT ALL LOOPS HAVE BEEN COMPLETED,
C BY RETURNING INLOOP=0, IT WILL ALSO ATTEMPT
����������������������������������������C TO RESTORE THE ORIGINAL VALUES OF THE NXTSUB
����C ARRAY, MAKING THE ASSUMPTION THAT SMALLEST
�C VALUE IN RANGE NXTSUB(LOWSUB) THROUGH
�C NXTSUB(KNTSUB) HAS THE VALUE LOWSUB, AND
���C THAT THE VALUES ARE THEN INCREMENTED BY 1.
�C THE RELATIVE ORDER WITHIN THE USED PORTION
�C OF NXTSUB ARRAY WILL BE RETURNED CORRECT,
��C BUT IF THE ASSUMPTIONS ARE NOT CORRECT, THE
C ORDER WILL BE INCORRECT RELATIVE TO THAT OF
C THE UNUSED PORTION, IF ANY, OF NXTSUB ARRAY.
����C
��������������������������������C THE FOLLOWING ARGUMENT IS USED AS INPUT, THEN IS
����C RETURNED CHANGED FOR USE BY BOTH THE CALLING PROGRAM
C AND BY SUBSEQUENT CALLS TO DALOOP
����C
��C INLOOP = MUST BE SET TO ZERO BEFORE INITIAL CALL TO
�C DALOOP. THIS INITIAL CALL WILL SET INLOOP
�C NONZERO, AND WILL COPY THE INISUB ARRAY
����C INTO THE NOWSUB ARRAY FOR USE AS THE LOOP
��C PARAMETERS. EACH SUBSEQUENT CALL TO DALOOP
C WILL EITHER LOAD THE PARAMETERS FOR THE
����C NEXT SET OF LOOPS INTO THE NOWSUB ARRAY OR
���������������������������������������������������C SET INLOOP TO ZERO IF THE LOOP STRUCTURE
���C HAS BEEN COMPLETED.
����C
��C THE FOLLOWING ARGUMENT IS RETURNED CHANGED FOR USE
��C BY BOTH THE CALLING PROGRAM AND SUBSEQUENT CALLS TO
�C DALOOP. THE ORIGINAL CONTENTS ARE IGNORED.
����C
��C NOWSUB = ARRAY RETURNED CONTAINING THE LOOP CONTROL
�C PARAMETERS FOR THE NEXT LOOP STRUCTURE.
����C THE CONTENTS OF NOWSUB(LOWSUB) THROUGH
C NOWSUB(KNTSUB) ARE USED IN THE SAME MANNER
�C AS THE INDEXES OF FORTRAN DO LOOPS.
���C THE VALUES UPON INPUT TO THE INITIAL CALL
�������C TO DALOOP ARE IGNORED.
�C
��C AS AN EXAMPLE, WITH LOWSUB=5, KNTSUB=8, IRAPID=1 AND
C (NXTSUB(I),I=5,8)=1,2,3,4
��C THE STATEMENTS
���C
��C INLOOP=0
���C 1 CALL DALOOP(IRAPID,LOWSUB,KNTSUB,INISUB,LMTSUB,
����C 1INCSUB,NXTSUB,INLOOP,NOWSUB)
���C IF(INLOOP.EQ.0)GO TO 2
����C *
C *
C TEXT TO BE EXECUTED WITHIN THE LOOP STRUCTURE
�C *
C *
C GO TO 1
����C 2 CONTINUE
���C
��C WOULD SIMULATE THE CORRESPONDING DO LOOP STRUCTURE
��C
�������������������������������������C DO 2 NOWSUB(5)=INISUB(5),LMTSUB(5),INCSUB(5)
��C DO 2 NOWSUB(6)=INISUB(6),LMTSUB(6),INCSUB(6)
��C DO 2 NOWSUB(7)=INISUB(7),LMTSUB(7),INCSUB(7)
��C DO 2 NOWSUB(8)=INISUB(8),LMTSUB(8),INCSUB(8)
��C *
C *
C TEXT TO BE EXECUTED WITHIN THE LOOP STRUCTURE
�C *
C *
C 2 CONTINUE
���C
��C HOWEVER, MERELY BY CHANGING THE NXTSUB ARRAY TO
C (NXTSUB(I),I=5,8)=3,1,4,2
��C THE ORDER OF THE SIMULATED DO LOOPS WOULD BECOME
����C
��C DO 2 NOWSUB(6)=INISUB(6),LMTSUB(6),INCSUB(6)
�����������������C DO 2 NOWSUB(8)=INISUB(8),LMTSUB(8),INCSUB(8)
��C DO 2 NOWSUB(5)=INISUB(5),LMTSUB(5),INCSUB(5)
��C DO 2 NOWSUB(7)=INISUB(7),LMTSUB(7),INCSUB(7)
��C *
C *
C TEXT TO BE EXECUTED WITHIN THE LOOP STRUCTURE
�C *
C *
C 2 CONTINUE
���C
��C THE FIRST CALL TO DALOOP CONVERTS THE NXTSUB ARRAY
����C FROM AN ORDER ARRAY TO A POINTER ARRAY SO AS TO
����C PREVENT UNNECESSARY SEARCHES BY SUCCEEDING CALLS.
����C THE FIRST LOCATION IN THE USED PORTION OF THE NXTSUB
����������������������������������C ARRAY AFTER ITS CONVERSION TO A POINTER ARRAY
����C CONTAINS THE SUBSCRIPT OF THE INDEX WHICH IS BEING
����C VARIED THE MOST RAPIDLY. IF ADDITIONAL INDEXES ARE
����C BEING VARIED AT THE SAME RATE, THEN THE SECOND
����C LOCATION IN THE POINTER ARRAY WILL CONTAIN THE SUM OF
����C THE SUBSCRIPT OF THE INDEX BEING VARIED AT THE SAME
����C RATE AND THE TOTAL NUMBER OF INDEXES SO THAT THE SUM
����C IS GREATER THAN THE MAXIMUM POSSIBLE SUBSCRIPT.
����C SCANNING FROM LEFT TO RIGHT, THE NEXT LOCATION IN THE
�����������������������������������������������������������C POINTER ARRAY WHICH CONTAINS A VALUE LESS THAN OR
����C EQUAL TO THE MAXIMUM SUBSCRIPT OF AN INDEX WILL POINT
����C TO THE INDEX BEING VARIED THE NEXT MOST RAPIDLY. FOR
����C EXAMPLE, IF THE INITIAL CONTENTS OF THE NXTSUB ARRAY
����C IS
C
��C 1, 2, 3, 2, 3, 4, 3, 4, 5
��C
��C MEANING (IF SMALLEST NUMBER INDICATES INNERMOST LOOP)
����C THAT THE FIRST INDEX IS VARIED MOST RAPIDLY, THE
����C SECOND AND FOURTH ARE VARIED NEXT MOST RAPIDLY, AND
����C SO ON THROUGH THE NINTH WHICH IS VARIED THE LEAST
����������������������������������������������������������������C RAPIDLY, THEN, AFTER CONVERSION TO A POINTER ARRAY,
����C THE CONTENTS OF THE NXTSUB ARRAY ARE
�C
��C 1, 2, (4+9)=13, 3, (5+9)=14, (7+9)=16, 6, (8+9)=17, 9
����C
�� DIMENSION NOWSUB(KNTSUB),NXTSUB(KNTSUB),
�� 1INISUB(KNTSUB),LMTSUB(KNTSUB),INCSUB(KNTSUB)
��� IF(INLOOP.GT.0)GO TO 11
����C
��C CHANGE ORDER ARRAY INTO A POINTER ARRAY
��� INLOOP=KNTSUB-LOWSUB+1
IF(INLOOP.LE.0)GO TO 24
���� DO 1 I=LOWSUB,KNTSUB
�� 1 NOWSUB(I)=I
� I=LOWSUB
���� L=LOWSUB
���� 2 IF(I.GT.KNTSUB)GO TO 25
���� N=NXTSUB(I)
� M=I
���� IF(I.EQ.KNTSUB)GO TO 6
����� L=L+1
�� DO 5 K=L,KNTSUB
�� IF(IRAPID.LE.0)GO TO 3
IF(NXTSUB(K).LE.N)GO TO 5
�� GO TO 4
3 IF(NXTSUB(K).GE.N)GO TO 5
�� 4 M=K
���� N=NXTSUB(K)
� 5 CONTINUE
���� NXTSUB(M)=NXTSUB(I)
��� 6 J=NOWSUB(M)
� NOWSUB(M)=NOWSUB(I)
��� IF(I.EQ.LOWSUB)GO TO 7
IF(LAST.EQ.N)J=J+INLOOP
���� 7 NXTSUB(I)=J
� LAST=N
� NOWSUB(I)=INISUB(I)
��� IF(INCSUB(I).EQ.0)INCSUB(I)=1
��� IF(INISUB(I).GT.LMTSUB(I))GO TO 8
���� IF(INCSUB(I).GE.0)GO TO 10
� GO TO 9
8 IF(INCSUB(I).LE.0)GO TO 10
� 9 INCSUB(I)=-INCSUB(I)
�� 10 I=I+1
������� GO TO 2
C
��C IF ALREADY INITIALIZED, FIND NEXT VALUES
�� 11 I=LOWSUB
���� 12 J=I
���� K=NXTSUB(J)
� 13 NOWSUB(K)=NOWSUB(K)+INCSUB(K)
��� IF(INISUB(K).GT.LMTSUB(K))GO TO 14
��� IF(NOWSUB(K).GT.LMTSUB(K))GO TO 16
��� GO TO 15
���� 14 IF(NOWSUB(K).LT.LMTSUB(K))GO TO 16
��� 15 J=J+1
�� IF(J.GT.KNTSUB)GO TO 25
���� K=NXTSUB(J)
� IF(K.LE.KNTSUB)GO TO 25
���� K=K-INLOOP
�� GO TO 13
���� 16 J=NXTSUB(I)
� 17 NOWSUB(J)=INISUB(J)
��� I=I+1
�� IF(I.GT.KNTSUB)GO TO 18
���� IF(NXTSUB(I).LE.KNTSUB)GO TO 12
� J=NXTSUB(I)-INLOOP
��������� GO TO 17
����C
��C ALL DONE WITH LOOPS, TRY TO RESTORE NXTSUB ARRAY
���� 18 I=LOWSUB
���� K=-1
��� GO TO 21
���� 19 K=K+1
�� 20 NOWSUB(J)=K
� I=I+1
�� 21 IF(I.GT.KNTSUB)GO TO 22
���� J=NXTSUB(I)
� IF(J.LE.KNTSUB)GO TO 19
���� J=J-INLOOP
�� GO TO 20
���� 22 DO 23 I=LOWSUB,KNTSUB
� IF(IRAPID.GT.0)NOWSUB(I)=K-NOWSUB(I)
� 23 NXTSUB(I)=LOWSUB+NOWSUB(I)
�C
��C ALL DONE
���� 24 INLOOP=0
���� 25 RETURN
�C485603982534
END