X-Git-Url: http://gitweb.hachti.de/?a=blobdiff_plain;f=sw%2Frescue%2Flab8e_goettingen%2Fdisk2_11%2Frkb%2Fparoff%2Fhaespl.ft;fp=sw%2Frescue%2Flab8e_goettingen%2Fdisk2_11%2Frkb%2Fparoff%2Fhaespl.ft;h=47bdd09118f802d63231de178fe472fb8e8bfbc7;hb=81e70d488b71bf995c459ca3a02c025993460ffa;hp=0000000000000000000000000000000000000000;hpb=07ec0278333ed187ac242dedcff13c56cf1b0b91;p=pdp8.git diff --git a/sw/rescue/lab8e_goettingen/disk2_11/rkb/paroff/haespl.ft b/sw/rescue/lab8e_goettingen/disk2_11/rkb/paroff/haespl.ft new file mode 100644 index 0000000..47bdd09 --- /dev/null +++ b/sw/rescue/lab8e_goettingen/disk2_11/rkb/paroff/haespl.ft @@ -0,0 +1,411 @@ +C -+-+-+-+-+  H A E S P L . F T  -+-+-+-+-+ +C +C * UP 1-OCT-82 +C * UP 3-NOV-82 +C * UP 26-NOV-82 +C * UP 12-JAN-83 +C * UP 25-APR-83 +C * UP 26-APR-83 +C * UP 28-APR-83 +C * UP 5-MAY-83 +C * UP 10-MAY-83 +C * UP 11-NOV-83 TIME SCALE OF PLOT MAY EXCEED SAMPLE TIME +C * UP 8-DEC-83 DEBUGGING +C * UP 30-NOV-84 SOME NEW ENHANCEMENTS FOR I/O AND PLOTTER +C * UP 10-DEC-84 +C * UP 3-JUL-85 OUTPUT SCHMITT TRIGGER CHANNELS +C * UP 15-AUG-85 +C * UP 22-AUG-85 REMOVES SOME BUGS CONCERNING TRIGG OUTPUT +C * UP 3-SEP-85 IF SW 8 UP: INSERTS TRIGG FREQUENCY PLOT +C * UP 1-NOV-85 DEBUGGS ASZISSA SCALE ROUTINE +C * UP 19-NOV-85 REMOVES SOME BUGS +C +C PLOT THE DATA POINTS +C + SUBROUTINE SPLOT + INCLUDE HAEPTI.FI + INCLUDE HAEBUF.FI + INCLUDE HAEGSA.FI + INCLUDE HAETTY.FI + INCLUDE HABRK.FI + INCLUDE HAECSZ.FI + INCLUDE HAEHAS.FI + INCLUDE HAECSP.FI + INCLUDE HAECTR.FI + INCLUDE HAPPEN.FI + REAL XYSAM,COND + LOGICAL BETW + INTEGER NCOND,TOASCI,IXTA,FLD + EXTERNAL XYSAM,NCOND,COND,TOASCI,IXTA,FLD,BETW +C + C + REAL ORDMIN(8),ORDMAX(8) + EQUIVALENCE (SRDMIN(1),ORDMIN(1)),(SRDMAX(1),ORDMAX(1)) @ EQUIVALENCE INTO THE HAECSP COMMON BLOCK + LOGICAL TIMABZ,TIMORD, @ ABZISSE / ORDINATE IS TIME SCALE + * ABISMI, @ IF THE ABZISSA SCALE EXCEEDS 5 MINUTES THEN .TRUE. ELSE .FALSE. + * BOTH,L1,ADPLT @ PLOT MIN&MAX OF SOME Y POINTS, WE ARE PLOTTING A/D CHANNELS + INTEGER I,K,K1,J,PENPOS,MSG, @ MSG HOLDS TEMP MESSAGE FOR FORMAT 5 AND 6 + * STEP,STEPS, @ INCREMENT IN SAMBUF SCAN + * CA,CO, @ CHANNEL OF ABZISSE, ORDINATE + * PLBEG,PLEND, @ START/END OF TIME SCALE + * NUMCN, @ NUMBER OF CHANNELS TO SCAN (NO MEANING IF TIMABZ IS SET .FALSE.) + * NUMTRI,ALLCHS, @ NUMBER OF TRIGGER INPUTS TO PLOTT, TOTAL # OF CHANNELS TO SCAN (A/D +STRIGG) + * EXPAND @ IF THE TIME SCALE .LE. 5 SECONDS THEN WE MARK EACH 1/10 SECOND ELSE EACH SECOND + * ,TS1 @ HOLDS PLEND*SAMRAT FOR SCALEING THE ABZISSA + REAL TEMSET, @ DIFFERENCE PLOTTER 0,0 AND PICTURE 0,0 (NO MEANING IF TIMABZ IS SET TO .FALSE.) + * LEFT,RIGHT,UP,DOWN, @ PLOT SCALES ABZISSE/ ORDINATE + * TE1,TE2,TE3, @ TEMPS + * X,Y,YFMIN,YFMAX, @ USED TO COMPRESS PLOT OUTPUT + * OLDX @ USED TO COMPRESS PLOT OUTPUT + * ,OMAX,OMIN @ MAXIMUM AND MINIMUM OF ORDINATE DATA + INTEGER TEXT0(4) @ DIMENSION OF THE TIME AXIS (MIN OR SEC) + * ,TEXT1(2) @ MSG FOR FORMAT 3 OUTPUT + DATA CA,CO,NUMCN,STEP,NUMTRI,ALLCHS /0,8,2,3,0,2/, + * TEXT0 /'TIME [MIN] TIME [SEC]'/ + * ,TEXT1 /'A/D','TRG'/ +C +C STATEMENT FUNCTIONS ARE: +C + BOX(AP1)=AMAX1(AMIN1(AP1,UP-DOWN),-.01) + XF(IP1)=XYSAM(IP1,CA)-LEFT @ RETURNS THE VALUE OF THE ABZISSA WITH CORRECT OFFSET + YF(IP1)=XYSAM(IP1,CO)-DOWN @ RETURNS THE VALUES OF THE ORDINATE WITH THE CORRECT OFFSET + DEFALT(I1,I2)=NCOND(I1.EQ.1H ,I2,IXTA(FLD(0,6,I1))-48) @ RETURNS DEFAULT VALUES + C + IF (SAMCNT.EQ.0) RETURN @ NO SAMPLE, NOTHING TO DO +C +C COMPUTE THE DEFAULT VALUES FOR THE PLOT +C + IF (OPTION.EQ.11) GOTO 15 @ SP- SKIPS QUESTIONS AND TAKES THE LAST VALUES USED + IF (OPTION.NE.12) CALL ASKHIM (2) @ SP* DOES NOT ASK SCILLY QUESTIONS +14 CO=0 @ THE ORDINATE IS CHANNEL 0 + CA=8 @ THE ABZISSA IS THE TIME SCALE + NUMCN=CHNLS-CO @ ALL CHANNELS TO PLOT + STEP=1 @ WE PLOT EACH POINT OF THE DATA + WRITE (TTO,1) CA,CO,STEP @ READ CHANNEL ## + READ (TTI,2) I,J,K @ AND STEP INCREMENTS + IF BREAK(11) RETURN + CA=DEFALT(I,CA) + CO=DEFALT(J,CO) + STEP=NCOND(K,K,STEP) @ CA,CO, STEP DEFAULT VALUES FOR BLANK INPUT + IF (.NOT.(CA.LT.0 .OR. CO.LT.0 .OR. STEP.LE.0)) GOTO 12 +13 WRITE (TTO,9)CA,CO,STEP + GOTO 14 +12 IF (CA.GE.CHNLS .AND. CA.LT.8) GOTO 13 @ TEST FOR VALID CHANNEL NUMBER + IF (CO.GE.CHNLS .AND. CO.LT.8) GOTO 13 +C + TIMABZ=CA.GT.7 @ ABZISSE IS THE TIME SCALE + TIMORD=CO.GT.7 @ ORDINATE IS THE TIME SCALE + IF (.NOT.TIMABZ) GOTO 15 @ ABZISSA IS NO TIME SCALE: ONLY TWO CHANNELS (CO,CO+1) TO PLOT + NUMCN=MIN0(NUMCN,CHNLS-CO) @ COMPUTE CORRECT NUMBER OF CHANNELS + WRITE (TTO,3) TEXT1(1),NUMCN @ READ THE NUMBER OF CHANNELS TO SCAN + READ (TTI,2) I + CA=DEFALT(I,CA) + CO=DEFALT(J,CO) + I=DEFALT(I,NUMCN) @ FOR BLANK INPUT DEFAULT IS NUMCN + NUMCN=MIN0(CHNLS-CO,NCOND(I,I,NUMCN)) @ NO INPUT MEANS CHNLS-CO + NUMTRI=STRIGS + ALLCHS=NUMCN+NUMTRI @ NUMBER OF A/D AND STRIGG CHANNELS TO PLOT +C +C ASK FOR NUMBER OF STRIGG CHANNELS TO PLOT +C + IF (STRIGS.EQ.0) GOTO 11 @ NO STRIGS, NO QUESTIONS + NUMTRI=STRIGS @ INSERT DEFAULT VALUE + WRITE (TTO,3) TEXT1(2),NUMTRI @ READ THE NUMBER OF STRIGG CHANNELS TO SCAN + READ (TTI,2) I + I=DEFALT(I,NUMTRI) @ BLANK INPUTS DEFAULTS TO NUMTRI + NUMTRI=MIN0(STRIGS,MAX0(0,I)) @ INSERT CORRECT VALUE + ALLCHS=MIN0(NUMCN+NUMTRI,7) @ ONLY 8 CHANNELS ALLOWED +11 CONTINUE +C +C ASK FOR SCALE OF THE ORDINATE (MINIMUM AND MAXIMUM) +C + K=CO-1 + DO 80 I=1,ALLCHS + K=K+1 + MSG=NCOND(K.GE.CO+NUMCN,TEXT1(2),TEXT1(1)) @ EITHER A/D OR TRG MESSAGE TO PRINT + J=NCOND(K.GE.CO+NUMCN,1+K-CO-NUMCN,K) @ NUMBER OF A/D OR TRIGGER CHANNEL + WRITE (TTO,5) MSG,J,ORDMAX(K+1) @ READ THE MAXIMUM + READ (TTI,7) TE1 + ORDMAX(K+1)=COND(TE1,TE1,ORDMAX(K+1)) + IF (BREAK(11)) RETURN + WRITE (TTO,6) MSG,J,ORDMIN(K+1) @ READ THE MINIMUM + READ (TTI,7) TE1 + ORDMIN(K+1)=COND(TE1,TE1,ORDMIN(K+1)) + IF (BREAK(11)) RETURN +80 CONTINUE +15 CONTINUE + C +C COMPUTE THE SCALING LIMITS +C + S0=BEGIN*SAMRAT @ HERE WE START THE OUTPUT PLOT + S1=ENDS*SAMRAT @ AND HERE WE END THE PLOT + TS1=S1 +C PLBEG HOLDS THE FIRST SECOND OF THE TIME SCALE (LEFTMOST ) +C PLEND HOLDS THE LAST SECOND OF THE TIME SCALE ( RIGHTMOST DOT) +C TS1 HOLDS FACTOR FOR TIME SCALE (PLEND*SAMRAT) +C S0 HOLDS THE STARTING INDEX OF DATA TO PLOT ( PLBEG*SAMRAT) +C S1 HOLDS THE INDEX OF LAST DATA POINT (MIN0(SAMCNT,TS1)) + PLBEG=BEGIN + PLEND=ENDS +C + IF (S1.LE.SAMCNT) GOTO 17 @ IF THE INTERVALL TO PLOT EXCEEDS THE + TE1=SAMCNT/SAMRAT @ DATA POINTS THEN + TE2=S1/SAMRAT + WRITE (TTO,4) TE1,TE2 @ WE PRINT THE OVERFLOW MSG AND + S1=SAMCNT-1 @ TAKE CARE FOR TRUNCATION ERRORS +17 CONTINUE @ INTERVALL OK, COMPUTE UPPER AND LOWER MARGIN OF PLOT DATA + RIGHT=COND(TIMABZ,FLOAT(TS1),512.) @ ABZISSE MARGIN EITHER TIME OR 10 BIT CONVERTER + LEFT =COND(TIMABZ,FLOAT(S0),-512.) + UP =COND(TIMORD,FLOAT(TS1),512.) @ ORDINATE MARGIN + DOWN =COND(TIMORD,FLOAT(S0),-512.) + IF BREAK(11) RETURN @ USER GETS RID OF PRGRM + CALL STPLT @ START THE PLOTTER ( CALL PLOTS) + CALL XYPLOT (XOFSET,YOFSET,-PENUP) @ DRIVE PEN TO PICTURE ZERO +C +C LOOP TO PLOT EACH CHANNEL WITH CORRECT OFFSET, FACTOR AND SCALE +C TEMSET HOLDS THE ORIGIN FOR EACH CHANNEL +C TEMSET=0 PLOT ONE CHANNEL/TIME OR X/Y +C TEMSET=YLEN/(NUMCN+NUMTRI) FOR MORE THAN ONE CHANNEL +C THE TEMSET ORIGIN OFFSET IS RESET AT THE END OF THE LOOP ( ST. 25) +C +C + TEMSET=0 @ CO HOLDS THE FIRST CHANNEL TO PLOT (INCREMENTED AT END OF LOOP) + DO 20 K=1,NCOND(TIMABZ,ALLCHS,1) @ SCAN ALLCHS CHANNELS WITH INDEX K FROM 1 TO ALLCHS +C +C HERE WE COMPUTE THE ACTUAL CHANNEL NUMBER: +C EITHER A/D CO TO NUMCN-1 (0 TO CHNLS-1) OR +C TRIGG EVENT FROM CHNLS TO CHNLS+STRIGS +C +C ADPLT IS SET TRUE FOR A/D CHANNELS TO SCAN +C STEPSIZE IS THE INCREMENT FOR THE SCAN; +C FOR A/D CHANNELS THE MAXIMUM VALUE OF THE SPECIFIED: STEP OR +C IF LOWER SAMPLE FREQUENCY THAN MAXRAT THE PACK-VALUE. +C FOR TRIGG EVENT CHANNELS STEP MUST ALLWAYS BE 1! +C + IF (K.GT.NUMCN)CO=CHNLS+K-NUMCN-1 @ CO RUNS FROM CO TO CO+NUMCN FOR AD, FOR TRIGG'S FROM CHNLS TO CHNLS+TRIGS + ADPLT=CO.LT.CHNLS @ WE ARE PLOTTING A/D CHANNELS + STEPS=NCOND(ADPLT,MAX0(STEP,PACK(CO+1)),1) @ COMPUTE STEPSIZE FOR SCAN +C +C HERE WE DECIDE : X OVER Y PLOT +C OR X OVER TIME +C + IF (.NOT. TIMABZ) GOTO 51 +C +C X OVER TIME +C +C IF THERE IS MORE THAN ONE CHANNEL WE HAVE TO PREPARE A LOT OF SMALL +C Y - AXIS FOR EACH CHANNEL TO SCAN. SO WE SET A TEMPORARY Y OFFSET CALLED TEMSET + TEMSET=FLOAT(ALLCHS-K)*(YLEN-ALLCHS*.5+.5)/ + * FLOAT(ALLCHS)+(ALLCHS-K)*.5 @ TEMPORARY Y OFFSET + CALL XYPLOT (0,TEMSET,-PENUP) @ SWITCH TO CORRECT PART OF PICTURE +C +C COMPUTE THE FACTOR TO GET A PRETTY PLOT +C + K1=CO+1 @ INDEX TO ORDMIN/MAX SINCE CO STARTS WITH 0 + UP=ORDMAX(K1) + DOWN=ORDMIN(K1) @ INSERT THE DEFAULT SCALING LIMITS + IF (ORDMAX(K1).LE.ORDMIN(K1)) GOTO 21 @ AUTOMATIC SCALING DESIRED + OMAX=UP + OMIN=DOWN + GOTO 51 @ SCALING ALREADY DONE + C +C HERE WE DO AUTOMATIC SCALING +C +21 CONTINUE + OMAX=-99999. + OMIN=-OMAX + DO 50 J=S0,S1,STEPS @ FETCH MIN & MAX OF THE DATA + IF (BREAK(11)) GOTO 25 @ IF THE USER GETS RID OF PLOT THEN WE EXIT VIA 25 + TE1=XYSAM(J,CO) @ DATA POINT --> TE1 + OMAX=AMAX1(OMAX,TE1) @ MAXIMUM --> OMAX +50 OMIN=AMIN1(OMIN,TE1) @ MINIMUM --> OMIN +C + IF (UP .GT. DOWN-1.) GOTO 52 @ IF UP.LE.DOWN THEN WE MAKE A FIXED SCALE +C FIXED SCALE IF POSSIBLE: + IF (OMIN.GE.OMAX-(DOWN-UP)) GOTO 53 @ MAKE A FIXED SCALE AT 53 + DOWN=OMIN @ DIFFERENCE BETWEEN MIN AND MAX EXCEEDS THE FIX SCALE LENGTH, SO WE TAKE DEFAULT VALUES + UP=OMAX @ ELSE DOWN=UP-(OMIN-OMAX) (FIXED DIFFERENCE SCALE) + GOTO 51 @ WORK DONE +C FIXED SCALE POSSIBLE, MAKE IT AND CENTER THE PLOT +53 TE1=OMIN-((DOWN-UP)-(OMAX-OMIN))*.5 + UP=TE1+DOWN-UP @ UPPER LIMIT + DOWN=TE1 @ WE SHIFT THE LINE INTO THE CENTER + GOTO 51 @ FIXED DIFFERENCE SCALE DONE +C AUTOMATIC SCALE BUT WITH INCREMENTAL STEPPED LIMITS +52 CONTINUE + DOWN=COND(OMIN.LT.-512.,OMIN,OMIN.LT.-255.,-512., + * OMIN.LT.0,-255.,OMIN.LT.256.,0, 255.) @ MAKE 255 STEPS INCREMENT + UP=COND(OMAX.GT.512.,OMAX,OMAX.GT.255.,512., + * OMAX.GT.0,255.,OMAX.GT.-255.,0, -255.) @ 255 STEPS INCREMENT +C + UP=COND(DOWN.GE.UP,DOWN+255.,UP) @ SOMETIMES IT WILL HAPPEN: UP=DOWN +51 CONTINUE @ HERE WE COMPUTE THE FACTOR FOR ONE LINE + IF (TIMABZ) CALL FACTOR (XLEN/(RIGHT-LEFT), + * (YLEN-ALLCHS*.5+.5)/FLOAT(ALLCHS)/(UP-DOWN)) + IF (.NOT.TIMABZ) CALL FACTOR (AMIN1(XLEN,YLEN)/(RIGHT-LEFT), + * AMIN1(XLEN,YLEN)/(UP-DOWN)) + IF BREAK(11) GOTO 25 @ USER GETS RID OF PRGRM + C +C HERE WE COMPRESS ( TO SAVE PLOTTER TIME) AND PLOT THE DATA POINTS +C + CALL WHERE (TE1,TE1,TE1,TE2) @ FETCH THE X FACTOR --> TE1 + YFMIN=9999. + YFMAX=-YFMIN @ PREP TEMPS TO FETCH THE MIN/MAX OF THE ORDINATE POINTS + BOTH=.FALSE. +C + OLDX=XF(S0)-0.4/TE1*XLEN + PENPOS=PENUP + L1=.FALSE. @ L1 HOLDS: YF(I) INSIDE LOWER/UPPER LIMIT OF PLOT +C +C IF THERE IS A X MOVEMENT LESS THAN .3 MM THEN WE DO NOT PLOT THE +C POINT. WE FETCH THE MIN/MAX OF Y AND PLOT A LINE FROM MIN TO MAX AT THIS X LOCATION. +C THIS IS TO COMPRESS USELESS OUTPUT TO THE PLOTTER. +C +C +C + DO 10 I=S0,S1,STEPS @ HERE WE PLOT THE DATA POINTS ONE BY ONE + X=XF(I) @ TEMP TO SAVE COMPUTING TIME +75 Y=YF(I) @ IF MORE THAN ONE SPIKE SET IN THE TRIGGER TIME WORD, WE REENTER HERE + IF BREAK(11) GOTO 25 @ USER GETS RID OF PROGRAM + IF(ADPLT)PENPOS=NCOND(BETW(-.1,Y,UP-DOWN+.5).OR.L1,PENPOS,PENUP) @ WE DO NOT PLOT ANY POINTS EXCEEDING THE UPPER/LOWER LIMIT + IF (.NOT.ADPLT) GOTO 74 @ TRIGGER EVENTS WITHOUT ANY COMPRESSION! + IF (ABS(OLDX-X)*TE1.GE.0.25/XLEN) GOTO 71 @ PLOT THIS POINT + YFMIN=AMIN1(Y,YFMIN) @ NO X MOVEMENT, GET THE MIN Y VALUE + YFMAX=AMAX1(Y,YFMAX) @ FETCH THE MAX Y VALUE + BOTH=.TRUE. @ TWO Y POINTS TO PLOT!! (MIN & MAX) + GOTO 10 @ WITH THE NEXT REAL X MOVEMENT +C +74 CALL XYPLOT(X,BOX(-DOWN),PENPOS) @ DELTA SPIKE FOR TRIGGER CHANNEL +71 IF (BOTH) GOTO 72 @ IF THERE ARE TWO POINTS TO PLOT THEN GO 72 ELSE + CALL XYPLOT (X,BOX(Y),PENPOS) @ WE PLOT THIS ONE AND PRESS IT INTO U/L LIMITS + IF (.NOT.ADPLT) + * CALL XYPLOT(X,BOX(-DOWN),PENPOS) @ DELTA SPIKE FOR TRIGGER CHANNEL + GO TO 73 +72 CALL XYPLOT (X,BOX(YFMIN),PENPOS) @ UPPER AND LOWER Y VALUE TO PLOT + CALL XYPLOT (X,BOX(YFMAX),PENPOS) + YFMIN=9999. @ SET UP NEW MIN/MAX FETCH CYCLE + YFMAX=-YFMIN + BOTH =.FALSE. @ CLEAR UPPER/LOWER FLAG +73 CONTINUE + OLDX=X @ SAVE LAST X VALUE + L1=BETW(-.1,Y,UP-DOWN) @ L1:= Y INSIDE U/L LIMITS! + PENPOS=PENDWN + IF (NXTBIT.GE.0) GOTO 10 @ NO MORE SPIKES IN THIS TRIGG TIME WORD, SKIP TO 10 + X=X+(XF(I+1)-XF(I))/TTRGW @ COMPUTE NEW X FOR MULTIPLE SPIKE EVENTS + GOTO 75 @ REPEAT FOR NEXT SPIKE IN THIS TIME WORD +10 CONTINUE + IF (.NOT. TIMABZ) GOTO 25 @ WORK DONE FOR X-Y GRAPHICS +C +C MAKE A SCALE FOR THE ORDINATE ( INPUT VOLTAGE ) +C + CALL WHERE (TE1,TE1,TE1,TE2) + CALL FACTOR (1.,TE2) + CALL XYPLOT (-.5,0,-PENUP) + PENPOS=PENUP + DO 55 I=0,10 + TE1=DOWN+I*(UP-DOWN)/10. + CALL XYPLOT (0,TE1-DOWN,PENPOS) + PENPOS=PENDWN + J=MOD(I,5) + TE3=COND(J.EQ.0,-.5,-.3) + CALL XYPLOT (TE3,TE1-DOWN,PENDWN) + CALL XYPLOT (0,TE1-DOWN,PENDWN) + IF (MOD(I,10).NE.0) GOTO 55 + CALL FACTOR (1.,1.) @ WRITE LOWER AND UPPER LIMIT ONTO THE + CALL NUMBER (-XOFSET+2.*YZ,(TE1-DOWN)*TE2-YN*.38,YN*.75,TE1,0, + * -1) @ AXIS + CALL FACTOR (1.,TE2) + CALL XYPLOT (0,TE1-DOWN,PENUP) +55 CONTINUE + CALL XYPLOT (.5,0,-PENUP) + CALL FACTOR (1.,1.) + CALL SYMBOL (-XOFSET+YZ, + * AMAX1(0.,((YLEN-ALLCHS*.5)/ALLCHS-4.*YZ))*.5,YZ, + * NCOND(ADPLT,'CH ','TRG'),90.,3) + CALL NUMBER (999.,999.,YZ, + * NCOND(ADPLT,CO,CO-CHNLS+1),90.,-1) @ AD CHANNEL # : 0 .. CHNLS, TRG CHAN#: 1 .. STRIGS +C +C + CO=CO+1 @ HERE WE INCREMENT THE CHANNEL NUMBER +25 CALL FACTOR (1.,1.) + CALL XYPLOT (0.,-TEMSET,-PENUP) @ RESET CORRECT ORIGIN OF DIAGRAM + IF BREAK(11) GOTO 40 +20 CONTINUE + C +C IF ABZISSA IS TIME SCALE THEN DRAW A TIME SCALE +C + IF (.NOT.TIMABZ) GOTO 40 + CALL FACTOR (XLEN/(PLEND-PLBEG),1.) + CALL XYPLOT (0.,-.5,-PENUP) +C HERE WE PLOT THE LITTLE BAR INDICATING A SECOND OR MINUTE + ABISMI=PLEND-PLBEG.GT.300 @ ABZISSE EXCEEDS 5 MINUTES SO WE DRAW A MINUTE SCALING + EXPAND=NCOND(PLEND-PLBEG.LE.5,10,1) @ IF THE TIME SCALE IS .LE. 5 SECONDS THEN WE MARK EACH 1/10 SEC +C @ REMEMBER : IF (ABISMI) EXPAND=.FALSE. FOR CORRECT ACTION + DO 30 I=PLBEG*EXPAND,PLEND*EXPAND @ 1 SEC INCREMENTS + TE1=I-PLBEG*EXPAND + CALL XYPLOT (TE1/EXPAND,0,PENDWN) + IF (.NOT.ABISMI) TE2=COND(MOD(I,10).EQ.0,-.7, MOD(I,5).EQ.0,-.5, + * -.3) + IF (ABISMI) TE2=COND(MOD(I,600).EQ.0,-.7, + * MOD(I,300).EQ.0,-.5, MOD(I,60).EQ.0,-.3) + CALL XYPLOT (TE1/EXPAND,TE2,PENDWN) @ HERE WE PLOT THE SMALL BAR + CALL XYPLOT (TE1/EXPAND,0,PENDWN) +C HERE WE COMPUTE WHERE TO WRITE A NUMBER ONTO THE TIME AXIS + TE2=PLEND-PLBEG @ COMPUTE THE SIZE OF THE TIME AXIS + IF (.NOT.ABISMI) GOTO 31 @ IF WE PLOT A SECONDS AXIS THEN GOTO 31 + IF (MOD(I, + * NCOND(TE2.GT.5400,1800,TE2.GE.1800,600,TE2.GT.900,300, + * TE2.GT.290,120,60)).GT.0) GOTO 29 @ COMPUTE THE MINUTE WHERE TO PLOT THE NUMBER + GOTO 32 @ SKIP TO PLOT THE NUMBER +31 IF (MOD(I,NCOND(TE2.GT.180,30,TE2.GT.60,20,TE2.GT.30,10, + * TE2.GT.10,5,TE2.GT.5,2,10)).GT.0) @ WE ASSUME: TE2.LE.5 THEN EXPAND:=10 ELSE EXPAND:=1 !!! + * GOTO 30 +C +C HERE WE PLOT THE NUMBER ONTO THE AXIS +C +32 CONTINUE + CALL WHERE (TE2,TE2,TE2,TE3) @ GET THE X FACTOR + CALL FACTOR (1.,1.) @ RESET TO THE NORMAL FACTOR FOR SYMBOL + CALL NUMBER (TE1/EXPAND*TE2-INT(ALOG10(AMAX0(COND(ABISMI, + * I/60.,I/EXPAND),1))+.01) + * *YN/2.-YN*.3, + * -1.3,YN,COND(ABISMI,I/60.,I/EXPAND),0,-1) + CALL FACTOR (TE2,TE3) + CALL XYPLOT (TE1/EXPAND,0,PENUP) + CALL XYPLOT (TE1/EXPAND,0,PENDWN) +29 I=NCOND(ABISMI,MIN0(I+59, + * NCOND(I.EQ.PLEND*EXPAND,I,PLEND*EXPAND-1)),I) @ MINUTE SCALE HAS 60 SEC INCREMENT +C SECOND NCOND ABOVE PREVENTS ENDLESS LOOP +C +30 CONTINUE + CALL FACTOR (1.,1.) + CALL XYPLOT (0,.5,-PENUP) + CALL SYMBOL (XLEN/1.5,-YOFSET,YZ,TEXT0(NCOND(ABISMI,1,3)),0,10) +C +C +40 CALL FACTOR (1.,1.) + IF (BREAK(11)) GOTO 60 @ USER SWITCHED OFF THE PLOTTER + CALL LABPLT (0,-YOFSET,PLEND) + IF (BREAK(11)) GOTO 60 + CALL SYMBOL (YZ,YLEN+YZ,YZ,LABEL,0,MIN0(42,LABCNT*6)) @ PLOT 42 CHARACTERS INTO THE FIRST LINE OF LABEL + IF (LABCNT.GT.7) + * CALL SYMBOL (YZ,YLEN,YZ,LABEL(8),0,LABCNT*6-42) @ AND THE REMAINING INTO THE NEXT LINE +60 CONTINUE + CALL XYPLOT (38.,25.,PENUP) + CALL EXPLT + RETURN +1 FORMAT (' KANAL ABZISSE/ORDINATE (ZEITBASIS=8), SCHRITTWEITE', + * ' (2I1,I3) (', + * 2I1,I3,')? ',$) +2 FORMAT (2A1,I3) +3 FORMAT (' ANZAHL DER DARZUSTELLENDEN ',A3,' KANAELE (I1) (',I1, + * ') ? ',$) +4 FORMAT (' NUR FUER',F6.1,' SEK. MESSDATEN JEDOCH',F6.1, + * ' SEC. ANGEFORDERT. ') +5 FORMAT (' ORDINATEN MAXIMUM FUER ',A3,' KANAL',I2,' (',F5.0,')?',$) +6 FORMAT (' " " MINIMUM FUER ',A3,' KANAL',I2,' (',F5.0,')?',$) +7 FORMAT (F5.0) +9 FORMAT (' ABZISSEN/ ORDINATEN KANAL ODER SCHRITTWEITE ', + * ' FEHLERHAFT: ',3I4) + END + \ No newline at end of file