Trailing-Edge
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PDP-10 Archives
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decus_20tap2_198111
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decus/20-0026/minv.ssp
There are 2 other files named minv.ssp in the archive. Click here to see a list.
C MINV 10
���C ..................................................................MINV 20
���C MINV 30
���C SUBROUTINE MINV MINV 40
���C MINV 50
���C PURPOSE MINV 60
���C INVERT A MATRIX MINV 70
���C MINV 80
���C USAGE MINV 90
���C CALL MINV(A,N,D,L,M) MINV 100
���C MINV 110
���C DESCRIPTION OF PARAMETERS MINV 120
���C A - INPUT MATRIX, DESTROYED IN COMPUTATION AND REPLACED BY MINV 130
���C RESULTANT INVERSE. MINV 140
���C N - ORDER OF MATRIX A MINV 150
���C D - RESULTANT DETERMINANT MINV 160
���C L - WORK VECTOR OF LENGTH N MINV 170
���C M - WORK VECTOR OF LENGTH N MINV 180
���C MINV 190
���C REMARKS MINV 200
���C MATRIX A MUST BE A GENERAL MATRIX MINV 210
���C MINV 220
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED MINV 230
���C NONE MINV 240
���C MINV 250
���C METHOD MINV 260
���C THE STANDARD GAUSS-JORDAN METHOD IS USED. THE DETERMINANT MINV 270
���C IS ALSO CALCULATED. A DETERMINANT OF ZERO INDICATES THAT MINV 280
���C THE MATRIX IS SINGULAR. MINV 290
���C MINV 300
���C ..................................................................MINV 310
���C MINV 320
��� SUBROUTINE MINV(A,N,D,L,M) MINV 330
��� DIMENSION A(1),L(1),M(1) MINV 340
���C MINV 350
���C ...............................................................MINV 360
���C MINV 370
���C IF A DOUBLE PRECISION VERSION OF THIS ROUTINE IS DESIRED, THE MINV 380
���C C IN COLUMN 1 SHOULD BE REMOVED FROM THE DOUBLE PRECISION MINV 390
���C STATEMENT WHICH FOLLOWS. MINV 400
���C MINV 410
���C DOUBLE PRECISION A,D,BIGA,HOLD MINV 420
���C MINV 430
���C THE C MUST ALSO BE REMOVED FROM DOUBLE PRECISION STATEMENTS MINV 440
���C APPEARING IN OTHER ROUTINES USED IN CONJUNCTION WITH THIS MINV 450
���C ROUTINE. MINV 460
���C MINV 470
���C THE DOUBLE PRECISION VERSION OF THIS SUBROUTINE MUST ALSO MINV 480
���C CONTAIN DOUBLE PRECISION FORTRAN FUNCTIONS. ABS IN STATEMENT MINV 490
���C 10 MUST BE CHANGED TO DABS. MINV 500
���C MINV 510
���C ...............................................................MINV 520
���C MINV 530
���C SEARCH FOR LARGEST ELEMENT MINV 540
���C MINV 550
��� D=1.0 MINV 560
��� NK=-N MINV 570
��� DO 80 K=1,N MINV 580
��� NK=NK+N MINV 590
��� L(K)=K MINV 600
��� M(K)=K MINV 610
��� KK=NK+K MINV 620
��� BIGA=A(KK) MINV 630
��� DO 20 J=K,N MINV 640
��� IZ=N*(J-1) MINV 650
��� DO 20 I=K,N MINV 660
��� IJ=IZ+I MINV 670
��� 10 IF( ABS(BIGA)- ABS(A(IJ))) 15,20,20 MINV 680
��� 15 BIGA=A(IJ) MINV 690
��� L(K)=I MINV 700
��� M(K)=J MINV 710
��� 20 CONTINUE MINV 720
���C MINV 730
���C INTERCHANGE ROWS MINV 740
���C MINV 750
��� J=L(K) MINV 760
��� IF(J-K) 35,35,25 MINV 770
��� 25 KI=K-N MINV 780
��� DO 30 I=1,N MINV 790
��� KI=KI+N MINV 800
��� HOLD=-A(KI) MINV 810
��� JI=KI-K+J MINV 820
��� A(KI)=A(JI) MINV 830
��� 30 A(JI) =HOLD MINV 840
���C MINV 850
���C INTERCHANGE COLUMNS MINV 860
���C MINV 870
��� 35 I=M(K) MINV 880
��� IF(I-K) 45,45,38 MINV 890
��� 38 JP=N*(I-1) MINV 900
��� DO 40 J=1,N MINV 910
��� JK=NK+J MINV 920
��� JI=JP+J MINV 930
��� HOLD=-A(JK) MINV 940
��� A(JK)=A(JI) MINV 950
��� 40 A(JI) =HOLD MINV 960
���C MINV 970
���C DIVIDE COLUMN BY MINUS PIVOT (VALUE OF PIVOT ELEMENT IS MINV 980
���C CONTAINED IN BIGA) MINV 990
���C MINV1000
��� 45 IF(BIGA) 48,46,48 MINV1010
��� 46 D=0.0 MINV1020
��� RETURN MINV1030
��� 48 DO 55 I=1,N MINV1040
��� IF(I-K) 50,55,50 MINV1050
��� 50 IK=NK+I MINV1060
��� A(IK)=A(IK)/(-BIGA) MINV1070
��� 55 CONTINUE MINV1080
���C MINV1090
���C REDUCE MATRIX MINV1100
���C MINV1110
��� DO 65 I=1,N MINV1120
��� IK=NK+I MINV1130
��� HOLD=A(IK) MINV1140
��� IJ=I-N MINV1150
��� DO 65 J=1,N MINV1160
��� IJ=IJ+N MINV1170
��� IF(I-K) 60,65,60 MINV1180
��� 60 IF(J-K) 62,65,62 MINV1190
��� 62 KJ=IJ-I+K MINV1200
��� A(IJ)=HOLD*A(KJ)+A(IJ) MINV1210
��� 65 CONTINUE MINV1220
���C MINV1230
���C DIVIDE ROW BY PIVOT MINV1240
���C MINV1250
��� KJ=K-N MINV1260
��� DO 75 J=1,N MINV1270
��� KJ=KJ+N MINV1280
��� IF(J-K) 70,75,70 MINV1290
��� 70 A(KJ)=A(KJ)/BIGA MINV1300
��� 75 CONTINUE MINV1310
���C MINV1320
���C PRODUCT OF PIVOTS MINV1330
���C MINV1340
��� D=D*BIGA MINV1350
���C MINV1360
���C REPLACE PIVOT BY RECIPROCAL MINV1370
���C MINV1380
��� A(KK)=1.0/BIGA MINV1390
��� 80 CONTINUE MINV1400
���C MINV1410
���C FINAL ROW AND COLUMN INTERCHANGE MINV1420
���C MINV1430
��� K=N MINV1440
��� 100 K=(K-1) MINV1450
��� IF(K) 150,150,105 MINV1460
��� 105 I=L(K) MINV1470
��� IF(I-K) 120,120,108 MINV1480
��� 108 JQ=N*(K-1) MINV1490
��� JR=N*(I-1) MINV1500
��� DO 110 J=1,N MINV1510
��� JK=JQ+J MINV1520
��� HOLD=A(JK) MINV1530
��� JI=JR+J MINV1540
��� A(JK)=-A(JI) MINV1550
��� 110 A(JI) =HOLD MINV1560
��� 120 J=M(K) MINV1570
��� IF(J-K) 100,100,125 MINV1580
��� 125 KI=K-N MINV1590
��� DO 130 I=1,N MINV1600
��� KI=KI+N MINV1610
��� HOLD=A(KI) MINV1620
��� JI=KI-K+J MINV1630
��� A(KI)=-A(JI) MINV1640
��� 130 A(JI) =HOLD MINV1650
��� GO TO 100 MINV1660
��� 150 RETURN MINV1670
��� END MINV1680
���