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decuslib10-08
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43,50476/dagrid.for
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SUBROUTINE DAGRID(JSTIFY,MAXWID,XLEFT,XRIGHT,MSHWID,
1 LTROFF)
�C RENBR(/RATIONALIZE SCALE OF PRINTER PLOT)
�C
��C DONALD BARTH, HARVARD BUSINESS SCHOOL
C
��C PROPORTIONS OF GRID SUPERIMPOSED UPON PLOT AREA BY
����C DAPLAT ROUTINE MUST BE SPECIFIED BY CALLING PROGRAM.
����C NUMBERS WHICH ARE PRINTED BESIDE AND BELOW PLOT
����C MERELY REPRESENT DATA UNIT COORDINATES PLOTTED AT
����C CENTERS OF COLUMNS AND LINES WHICH BEAR GRID LINES.
����C RANGE OF DATA UNIT COORDINATES REPRESENTED BY THESE
����C SCALES CAN BE DIFFICULT TO INTERPRET IF CALLING
����C PROGRAM HOLDS GRID PROPORTIONS CONSTANT WHILE
����C ATTEMPTING TO OBTAIN MAXIMUM RESOLUTION BY ADJUSTING
����C MINIMUM AND MAXIMUM COORDINATES TO SPREAD CURVES
����C ACROSS FULL WIDTH OR HEIGHT OF PLOT. DAPLAT CANNOT
����C ITSELF CALCULATE GRID PROPORTIONS WHICH WOULD PRODUCE
����C MINIMUM NUMBER OF NONZERO DIGITS IN EACH SCALE
����C NUMBER. IF PREDETERMINED GRID SPACINGS AND OFFSETS
����C ARE NOT NECESSARY, THEN ROUTINE DAGRID CAN BE CALLED
����C ONCE FOR EACH SCALE BEFORE DATA IS PLOTTED TO SELECT
����C GRID PROPORTIONS AND TO EXPAND COORDINATE RANGES
����C SLIGHTLY TO GIVE NEATER SCALE NUMBERS.
����C
��C JSTIFY = -2, LEFT JUSTIFY LEFT GRID LINE
��C = -1, LEFT JUSTIFY XLEFT
�C = 0, CENTER RANGE
���C = 1, RIGHT JUSTIFY XRIGHT
C = 2, RIGHT JUSTIFY RIGHT GRID LINE
�C MAXWID = WIDTH (OR HEIGHT) OF PLOT STATED AS NUMBER
����C OF COLUMNS (OR LINES).
�C XLEFT = INPUT CONTAINING DATA UNIT COORDINATE TO BE
����C REPRESENTED BY CENTER OF LEFT COLUMN (OR OF
����C LOWER LINE) OF PLOT.
���C = RETURNED CONTAINING DATA UNIT COORDINATE
����C WHICH WOULD GIVE RATIONAL SCALE IF USED AS
����C DATA UNIT COORDINATE REPRESENTED BY CENTER
����C OF LEFT COLUMN (OR OF LOWER LINE) OF PLOT.
�C XRIGHT = INPUT CONTAINING DATA UNIT COORDINATE TO BE
����C REPRESENTED BY CENTER OF RIGHT COLUMN (OR OF
����C UPPER LINE) OF PLOT.
���C = RETURNED CONTAINING DATA UNIT COORDINATE
����C WHICH WOULD GIVE RATIONAL SCALE IF USED AS
����C DATA UNIT COORDINATE REPRESENTED BY CENTER
����C OF RIGHT COLUMN (OR OF UPPER LINE) OF PLOT.
C MSHWID = RETURNED CONTAINING THE GRID DIVISION WIDTH
����C STATED AS THE NUMBER OF COLUMNS (OR HEIGHT
����C STATED AS NUMBER OF LINES). INPUT VALUE OF
����C MSHWID IS IGNORED. A LINE SHOULD BE RULED
����C EVERY MSHWID CHARACTERS ACROSS THE WIDTH (OR
����C HEIGHT) OF THE PLOT. IF MSHWID IS RETURNED
����C CONTAINING 10, THEN 9 COLUMNS (OR LINES)
����C SHOULD APPEAR BETWEEN THE COLUMNS (OR LINES)
����C BEARING GRID LINES.
����C = 0, RETURNED IF THIS ROUTINE COULD NOT
����C RATIONALIZE THE SCALE, AS FOR EXAMPLE IF
����C XLEFT IS INPUT CONTAINING THE SAME VALUE AS
����C XRIGHT, OR IF MAXWID IS INPUT TOO SMALL.
���C LTROFF = RETURNED CONTAINING THE NUMBER OF COLUMNS
����C (OR LINES) BY WHICH THE LEFT (OR LOWER) GRID
����C LINE IS TO BE OFFSET FROM THE LEFT (OR
����C LOWER) EDGE OF THE PLOT. INPUT VALUE OF
����C LTROFF IS IGNORED. IF LTROFF IS RETURNED
����C CONTAINING ZERO, THEN THE LEFT (OR LOWER)
����C GRID LINE SHOULD APPEAR IN THE LEFT (OR
����C LOWER) COLUMN OF THE PLOT. IF LTROFF IS
����C RETURNED CONTAINING 5, THEN 5 COLUMNS (OR
����C LINES) OF THE PLOT AREA SHOULD APPEAR TO THE
����C LEFT OF (OR BELOW) THE LEFTMOST (OR LOWEST)
����C GRID LINE.
���C
��C SCALE RANGE TO BE BETWEEN 1.0 AND 9.999...
IF(MAXWID.LE.0)GO TO 19
���� KNTJST=0
���� IF(JSTIFY.LE.0)GO TO 1
FORMER=XLEFT
XLEFT=XRIGHT
XRIGHT=FORMER
���� 1 RANGE=XRIGHT-XLEFT
���� IF(RANGE.LT.0.0)RANGE=-RANGE
���� IF(RANGE.LE.0.0)GO TO 19
��� SHIFTD=RANGE
IPOWER=0
���� 2 IF(SHIFTD.GE.10.0)GO TO 3
�� IF(SHIFTD.GE.1.0)GO TO 4
��� IF(IPOWER.LT.-99)GO TO 19
�� IF(IPOWER.GT.0)GO TO 4
IPOWER=IPOWER-1
�� SHIFTD=10.0*SHIFTD
���� GO TO 2
3 IF(IPOWER.GT.99)GO TO 19
��� IF(IPOWER.LT.0)GO TO 4
IPOWER=IPOWER+1
�� SHIFTD=SHIFTD/10.0
���� GO TO 2
C
��C CALCULATE WIDTH OF EACH GRID DIVISION
4 STEP=0.25
��� IF(SHIFTD.GT.2.5)STEP=0.5
�� IF(SHIFTD.GT.5.0)STEP=1.0
�� STEP=STEP*(10.0**IPOWER)
��� MSHWID=FLOAT(MAXWID-1)*(STEP/RANGE)
�� IF(MSHWID.LE.0)GO TO 19
���� IF(JSTIFY.NE.0)GO TO 5
HLFWID=0.5*STEP*(FLOAT(MAXWID-1)/FLOAT(MSHWID))
IF(XLEFT.GT.XRIGHT)HLFWID=-HLFWID
���� CENTER=(XLEFT+XRIGHT)/2.0
�� XLEFT=CENTER-HLFWID
��� XRIGHT=CENTER+HLFWID
��C
��C GET INTEGRAL MULTIPLE OF STEP WHICH IS JUST GREATER
�C THAN OR EQUAL TO ABSOLUTE VALUE OF LEFT EDGE OF PLOT
5 ORIGIN=STEP
� KOUNT=0
COMPAR=XLEFT
IF(COMPAR.LT.0.0)COMPAR=-COMPAR
� 6 IF(ORIGIN.GE.COMPAR)GO TO 7
IF(KOUNT.GE.10)GO TO 19
���� KOUNT=KOUNT+1
���� ORIGIN=10.0*ORIGIN
���� GO TO 6
7 SEARCH=ORIGIN
���� 8 LIMIT=10
���� 9 FORMER=ORIGIN
���� ORIGIN=ORIGIN-SEARCH
�� IF(ORIGIN.LT.COMPAR)GO TO 10
���� LIMIT=LIMIT-1
���� IF(LIMIT.GT.0)GO TO 9
� GO TO 11
���� 10 ORIGIN=FORMER
���� 11 IF(KOUNT.LE.0)GO TO 12
SEARCH=SEARCH/10.0
���� KOUNT=KOUNT-1
���� GO TO 8
C
��C ADJUST ORIGIN FOR DIRECTION AND SIGN OF LEFT EDGE
��� 12 IF(XLEFT.LE.XRIGHT)GO TO 14
STEP=-STEP
�� IF(XLEFT.LT.0.0)GO TO 13
��� ORIGIN=ORIGIN+STEP
���� GO TO 15
���� 13 ORIGIN=-ORIGIN
��� GO TO 15
���� 14 IF(XLEFT.GE.0.0)GO TO 15
��� ORIGIN=-ORIGIN+STEP
���C
��C CALCULATE GRID PROPORTIONS
� 15 LTROFF=0.5+(FLOAT(MSHWID)*((ORIGIN-XLEFT)/STEP))
���� IF(LTROFF.LT.MSHWID)GO TO 16
���� LTROFF=LTROFF-MSHWID
�� ORIGIN=ORIGIN-STEP
���� 16 IF(LTROFF.LE.0)GO TO 17
���� IF(JSTIFY.LT.-1)GO TO 18
��� IF(JSTIFY.GT.1)GO TO 18
���� 17 XLEFT=ORIGIN-(STEP*(FLOAT(LTROFF)/FLOAT(MSHWID)))
��� XRIGHT=ORIGIN+(STEP*(FLOAT(MAXWID-1-LTROFF)/
��� 1FLOAT(MSHWID)))
�� IF(JSTIFY.LE.0)GO TO 20
���� FORMER=XLEFT
XLEFT=XRIGHT
XRIGHT=FORMER
���� LTROFF=MAXWID-LTROFF-1
LTROFF=LTROFF-(MSHWID*(LTROFF/MSHWID))
���� GO TO 20
����C
��C LOOP BACK IF NEED TO JUSTIFY GRID
���� 18 XLEFT=ORIGIN-STEP
KNTJST=KNTJST+1
�� IF(KNTJST.LE.5)GO TO 1
C
��C ERROR CONDITION
�� 19 MSHWID=0
���� LTROFF=0
����C
��C RETURN TO CALLING PROGRAM
�� 20 RETURN
�C635919530735
END