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PDP-10 Archives
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decuslib10-02
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43,50145/polrt.ssp
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C PLRT 10
���C ..................................................................PLRT 20
���C PLRT 30
���C SUBROUTINE POLRT PLRT 40
���C PLRT 50
���C PURPOSE PLRT 60
���C COMPUTES THE REAL AND COMPLEX ROOTS OF A REAL POLYNOMIAL PLRT 70
���C PLRT 80
���C USAGE PLRT 90
���C CALL POLRT(XCOF,COF,M,ROOTR,ROOTI,IER) PLRT 100
���C PLRT 110
���C DESCRIPTION OF PARAMETERS PLRT 120
���C XCOF -VECTOR OF M+1 COEFFICIENTS OF THE POLYNOMIAL PLRT 130
���C ORDERED FROM SMALLEST TO LARGEST POWER PLRT 140
���C COF -WORKING VECTOR OF LENGTH M+1 PLRT 150
���C M -ORDER OF POLYNOMIAL PLRT 160
���C ROOTR-RESULTANT VECTOR OF LENGTH M CONTAINING REAL ROOTS PLRT 170
���C OF THE POLYNOMIAL PLRT 180
���C ROOTI-RESULTANT VECTOR OF LENGTH M CONTAINING THE PLRT 190
���C CORRESPONDING IMAGINARY ROOTS OF THE POLYNOMIAL PLRT 200
���C IER -ERROR CODE WHERE PLRT 210
���C IER=0 NO ERROR PLRT 220
���C IER=1 M LESS THAN ONE PLRT 230
���C IER=2 M GREATER THAN 36 PLRT 240
���C IER=3 UNABLE TO DETERMINE ROOT WITH 500 INTERATIONS PLRT 250
���C ON 5 STARTING VALUES PLRT 260
���C IER=4 HIGH ORDER COEFFICIENT IS ZERO PLRT 270
���C PLRT 280
���C REMARKS PLRT 290
���C LIMITED TO 36TH ORDER POLYNOMIAL OR LESS. PLRT 300
���C FLOATING POINT OVERFLOW MAY OCCUR FOR HIGH ORDER PLRT 310
���C POLYNOMIALS BUT WILL NOT AFFECT THE ACCURACY OF THE RESULTS.PLRT 320
���C PLRT 330
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED PLRT 340
���C NONE PLRT 350
���C PLRT 360
���C METHOD PLRT 370
���C NEWTON-RAPHSON ITERATIVE TECHNIQUE. THE FINAL ITERATIONS PLRT 380
���C ON EACH ROOT ARE PERFORMED USING THE ORIGINAL POLYNOMIAL PLRT 390
���C RATHER THAN THE REDUCED POLYNOMIAL TO AVOID ACCUMULATED PLRT 400
���C ERRORS IN THE REDUCED POLYNOMIAL. PLRT 410
���C PLRT 420
���C ..................................................................PLRT 430
���C PLRT 440
��� SUBROUTINE POLRT(XCOF,COF,M,ROOTR,ROOTI,IER) PLRT 450
��� DIMENSION XCOF(1),COF(1),ROOTR(1),ROOTI(1) PLRT 460
��� DOUBLE PRECISION XO,YO,X,Y,XPR,YPR,UX,UY,V,YT,XT,U,XT2,YT2,SUMSQ, PLRT 470
��� 1 DX,DY,TEMP,ALPHA PLRT 480
���C PLRT 490
���C ...............................................................PLRT 500
���C PLRT 510
���C IF A DOUBLE PRECISION VERSION OF THIS ROUTINE IS DESIRED, THE PLRT 520
���C C IN COLUMN 1 SHOULD BE REMOVED FROM THE DOUBLE PRECISION PLRT 530
���C STATEMENT WHICH FOLLOWS. PLRT 540
���C PLRT 550
���C DOUBLE PRECISION XCOF,COF,ROOTR,ROOTI PLRT 560
���C PLRT 570
���C THE C MUST ALSO BE REMOVED FROM DOUBLE PRECISION STATEMENTS PLRT 580
���C APPEARING IN OTHER ROUTINES USED IN CONJUNCTION WITH THIS PLRT 590
���C ROUTINE. PLRT 600
���C THE DOUBLE PRECISION VERSION MAY BE MODIFIED BY CHANGING THE PLRT 610
���C CONSTANT IN STATEMENT 78 TO 1.0D-12 AND IN STATEMENT 122 TO PLRT 620
���C 1.0D-10. THIS WILL PROVIDE HIGHER PRECISION RESULTS AT THE PLRT 630
���C COST OF EXECUTION TIME PLRT 640
���C PLRT 650
���C ...............................................................PLRT 660
���C PLRT 670
��� IFIT=0 PLRT 680
��� N=M PLRT 690
��� IER=0 PLRT 700
��� IF(XCOF(N+1))10,25,10 PLRT 710
��� 10 IF(N) 15,15,32 PLRT 720
���C PLRT 730
���C SET ERROR CODE TO 1 PLRT 740
���C PLRT 750
��� 15 IER=1 PLRT 760
��� 20 RETURN PLRT 770
���C PLRT 780
���C SET ERROR CODE TO 4 PLRT 790
���C PLRT 800
��� 25 IER=4 PLRT 810
��� GO TO 20 PLRT 820
���C PLRT 830
���C SET ERROR CODE TO 2 PLRT 840
���C PLRT 850
��� 30 IER=2 PLRT 860
��� GO TO 20 PLRT 870
��� 32 IF(N-36) 35,35,30 PLRT 880
��� 35 NX=N PLRT 890
��� NXX=N+1 PLRT 900
��� N2=1 PLRT 910
��� KJ1 = N+1 PLRT 920
��� DO 40 L=1,KJ1 PLRT 930
��� MT=KJ1-L+1 PLRT 940
��� 40 COF(MT)=XCOF(L) PLRT 950
���C PLRT 960
���C SET INITIAL VALUES PLRT 970
���C PLRT 980
��� 45 XO=.00500101 PLRT 990
��� YO=0.01000101 PLRT1000
���C PLRT1010
���C ZERO INITIAL VALUE COUNTER PLRT1020
���C PLRT1030
��� IN=0 PLRT1040
��� 50 X=XO PLRT1050
���C PLRT1060
���C INCREMENT INITIAL VALUES AND COUNTER PLRT1070
���C PLRT1080
��� XO=-10.0*YO PLRT1090
��� YO=-10.0*X PLRT1100
���C PLRT1110
���C SET X AND Y TO CURRENT VALUE PLRT1120
���C PLRT1130
��� X=XO PLRT1140
��� Y=YO PLRT1150
��� IN=IN+1 PLRT1160
��� GO TO 59 PLRT1170
��� 55 IFIT=1 PLRT1180
��� XPR=X PLRT1190
��� YPR=Y PLRT1200
���C PLRT1210
���C EVALUATE POLYNOMIAL AND DERIVATIVES PLRT1220
���C PLRT1230
��� 59 ICT=0 PLRT1240
��� 60 UX=0.0 PLRT1250
��� UY=0.0 PLRT1260
��� V =0.0 PLRT1270
��� YT=0.0 PLRT1280
��� XT=1.0 PLRT1290
��� U=COF(N+1) PLRT1300
��� IF(U) 65,130,65 PLRT1310
��� 65 DO 70 I=1,N PLRT1320
��� L =N-I+1 PLRT1330
��� TEMP=COF(L) PLRT1340
��� XT2=X*XT-Y*YT PLRT1350
��� YT2=X*YT+Y*XT PLRT1360
��� U=U+TEMP*XT2 PLRT1370
��� V=V+TEMP*YT2 PLRT1380
��� FI=I PLRT1390
��� UX=UX+FI*XT*TEMP PLRT1400
��� UY=UY-FI*YT*TEMP PLRT1410
��� XT=XT2 PLRT1420
��� 70 YT=YT2 PLRT1430
��� SUMSQ=UX*UX+UY*UY PLRT1440
��� IF(SUMSQ) 75,110,75 PLRT1450
��� 75 DX=(V*UY-U*UX)/SUMSQ PLRT1460
��� X=X+DX PLRT1470
��� DY=-(U*UY+V*UX)/SUMSQ PLRT1480
��� Y=Y+DY PLRT1490
��� 78 IF(DABS(DY)+DABS(DX)-1.0D-05) 100,80,80 PLRT1500
���C PLRT1510
���C STEP ITERATION COUNTER PLRT1520
���C PLRT1530
��� 80 ICT=ICT+1 PLRT1540
��� IF(ICT-500) 60,85,85 PLRT1550
��� 85 IF(IFIT)100,90,100 PLRT1560
��� 90 IF(IN-5) 50,95,95 PLRT1570
���C PLRT1580
���C SET ERROR CODE TO 3 PLRT1590
���C PLRT1600
��� 95 IER=3 PLRT1610
��� GO TO 20 PLRT1620
��� 100 DO 105 L=1,NXX PLRT1630
��� MT=KJ1-L+1 PLRT1640
��� TEMP=XCOF(MT) PLRT1650
��� XCOF(MT)=COF(L) PLRT1660
��� 105 COF(L)=TEMP PLRT1670
��� ITEMP=N PLRT1680
��� N=NX PLRT1690
��� NX=ITEMP PLRT1700
��� IF(IFIT) 120,55,120 PLRT1710
��� 110 IF(IFIT) 115,50,115 PLRT1720
��� 115 X=XPR PLRT1730
��� Y=YPR PLRT1740
��� 120 IFIT=0 PLRT1750
��� 122 IF(DABS(Y)-1.0D-4*DABS(X)) 135,125,125 PLRT1760
��� 125 ALPHA=X+X PLRT1770
��� SUMSQ=X*X+Y*Y PLRT1780
��� N=N-2 PLRT1790
��� GO TO 140 PLRT1800
��� 130 X=0.0 PLRT1810
��� NX=NX-1 PLRT1820
��� NXX=NXX-1 PLRT1830
��� 135 Y=0.0 PLRT1840
��� SUMSQ=0.0 PLRT1850
��� ALPHA=X PLRT1860
��� N=N-1 PLRT1870
��� 140 COF(2)=COF(2)+ALPHA*COF(1) PLRT1880
��� 145 DO 150 L=2,N PLRT1890
��� 150 COF(L+1)=COF(L+1)+ALPHA*COF(L)-SUMSQ*COF(L-1) PLRT1900
��� 155 ROOTI(N2)=Y PLRT1910
��� ROOTR(N2)=X PLRT1920
��� N2=N2+1 PLRT1930
��� IF(SUMSQ) 160,165,160 PLRT1940
��� 160 Y=-Y PLRT1950
��� SUMSQ=0.0 PLRT1960
��� GO TO 155 PLRT1970
��� 165 IF(N) 20,20,45 PLRT1980
��� END PLRT1990