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decuslib10-02
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43,50145/mfgr.ssp
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C MFGR 10
���C ..................................................................MFGR 20
���C MFGR 30
���C SUBROUTINE MFGR MFGR 40
���C MFGR 50
���C PURPOSE MFGR 60
���C FOR A GIVEN M BY N MATRIX THE FOLLOWING CALCULATIONS MFGR 70
���C ARE PERFORMED MFGR 80
���C (1) DETERMINE RANK AND LINEARLY INDEPENDENT ROWS AND MFGR 90
���C COLUMNS (BASIS). MFGR 100
���C (2) FACTORIZE A SUBMATRIX OF MAXIMAL RANK. MFGR 110
���C (3) EXPRESS NON-BASIC ROWS IN TERMS OF BASIC ONES. MFGR 120
���C (4) EXPRESS BASIC VARIABLES IN TERMS OF FREE ONES. MFGR 130
���C MFGR 140
���C USAGE MFGR 150
���C CALL MFGR(A,M,N,EPS,IRANK,IROW,ICOL) MFGR 160
���C MFGR 170
���C DESCRIPTION OF PARAMETERS MFGR 180
���C A - GIVEN MATRIX WITH M ROWS AND N COLUMNS. MFGR 190
���C ON RETURN A CONTAINS THE FIVE SUBMATRICES MFGR 200
���C L, R, H, D, O. MFGR 210
���C M - NUMBER OF ROWS OF MATRIX A. MFGR 220
���C N - NUMBER OF COLUMNS OF MATRIX A. MFGR 230
���C EPS - TESTVALUE FOR ZERO AFFECTED BY ROUNDOFF NOISE. MFGR 240
���C IRANK - RESULTANT RANK OF GIVEN MATRIX. MFGR 250
���C IROW - INTEGER VECTOR OF DIMENSION M CONTAINING THE MFGR 260
���C SUBSCRIPTS OF BASIC ROWS IN IROW(1),...,IROW(IRANK)MFGR 270
���C ICOL - INTEGER VECTOR OF DIMENSION N CONTAINING THE MFGR 280
���C SUBSCRIPTS OF BASIC COLUMNS IN ICOL(1) UP TO MFGR 290
���C ICOL(IRANK). MFGR 300
���C MFGR 310
���C REMARKS MFGR 320
���C THE LEFT HAND TRIANGULAR FACTOR IS NORMALIZED SUCH THAT MFGR 330
���C THE DIAGONAL CONTAINS ALL ONES THUS ALLOWING TO STORE ONLY MFGR 340
���C THE SUBDIAGONAL PART. MFGR 350
���C MFGR 360
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED MFGR 370
���C NONE MFGR 380
���C MFGR 390
���C METHOD MFGR 400
���C GAUSSIAN ELIMINATION TECHNIQUE IS USED FOR CALCULATION MFGR 410
���C OF THE TRIANGULAR FACTORS OF A GIVEN MATRIX. MFGR 420
���C COMPLETE PIVOTING IS BUILT IN. MFGR 430
���C IN CASE OF A SINGULAR MATRIX ONLY THE TRIANGULAR FACTORS MFGR 440
���C OF A SUBMATRIX OF MAXIMAL RANK ARE RETAINED. MFGR 450
���C THE REMAINING PARTS OF THE RESULTANT MATRIX GIVE THE MFGR 460
���C DEPENDENCIES OF ROWS AND THE SOLUTION OF THE HOMOGENEOUS MFGR 470
���C MATRIX EQUATION A*X=0. MFGR 480
���C MFGR 490
���C ..................................................................MFGR 500
���C MFGR 510
��� SUBROUTINE MFGR(A,M,N,EPS,IRANK,IROW,ICOL) MFGR 520
���C MFGR 530
���C DIMENSIONED DUMMY VARIABLES MFGR 540
��� DIMENSION A(1),IROW(1),ICOL(1) MFGR 550
���C MFGR 560
���C TEST OF SPECIFIED DIMENSIONS MFGR 570
��� IF(M)2,2,1 MFGR 580
��� 1 IF(N)2,2,4 MFGR 590
��� 2 IRANK=-1 MFGR 600
��� 3 RETURN MFGR 610
���C RETURN IN CASE OF FORMAL ERRORS MFGR 620
���C MFGR 630
���C MFGR 640
���C INITIALIZE COLUMN INDEX VECTOR MFGR 650
���C SEARCH FIRST PIVOT ELEMENT MFGR 660
��� 4 IRANK=0 MFGR 670
��� PIV=0. MFGR 680
��� JJ=0 MFGR 690
��� DO 6 J=1,N MFGR 700
��� ICOL(J)=J MFGR 710
��� DO 6 I=1,M MFGR 720
��� JJ=JJ+1 MFGR 730
��� HOLD=A(JJ) MFGR 740
��� IF(ABS(PIV)-ABS(HOLD))5,6,6 MFGR 750
��� 5 PIV=HOLD MFGR 760
��� IR=I MFGR 770
��� IC=J MFGR 780
��� 6 CONTINUE MFGR 790
���C MFGR 800
���C INITIALIZE ROW INDEX VECTOR MFGR 810
��� DO 7 I=1,M MFGR 820
��� 7 IROW(I)=I MFGR 830
���C MFGR 840
���C SET UP INTERNAL TOLERANCE MFGR 850
��� TOL=ABS(EPS*PIV) MFGR 860
���C MFGR 870
���C INITIALIZE ELIMINATION LOOP MFGR 880
��� NM=N*M MFGR 890
��� DO 19 NCOL=M,NM,M MFGR 900
���C MFGR 910
���C TEST FOR FEASIBILITY OF PIVOT ELEMENT MFGR 920
��� 8 IF(ABS(PIV)-TOL)20,20,9 MFGR 930
���C MFGR 940
���C UPDATE RANK MFGR 950
��� 9 IRANK=IRANK+1 MFGR 960
���C MFGR 970
���C INTERCHANGE ROWS IF NECESSARY MFGR 980
��� JJ=IR-IRANK MFGR 990
��� IF(JJ)12,12,10 MFGR1000
��� 10 DO 11 J=IRANK,NM,M MFGR1010
��� I=J+JJ MFGR1020
��� SAVE=A(J) MFGR1030
��� A(J)=A(I) MFGR1040
��� 11 A(I)=SAVE MFGR1050
���C MFGR1060
���C UPDATE ROW INDEX VECTOR MFGR1070
��� JJ=IROW(IR) MFGR1080
��� IROW(IR)=IROW(IRANK) MFGR1090
��� IROW(IRANK)=JJ MFGR1100
���C MFGR1110
���C INTERCHANGE COLUMNS IF NECESSARY MFGR1120
��� 12 JJ=(IC-IRANK)*M MFGR1130
��� IF(JJ)15,15,13 MFGR1140
��� 13 KK=NCOL MFGR1150
��� DO 14 J=1,M MFGR1160
��� I=KK+JJ MFGR1170
��� SAVE=A(KK) MFGR1180
��� A(KK)=A(I) MFGR1190
��� KK=KK-1 MFGR1200
��� 14 A(I)=SAVE MFGR1210
���C MFGR1220
���C UPDATE COLUMN INDEX VECTOR MFGR1230
��� JJ=ICOL(IC) MFGR1240
��� ICOL(IC)=ICOL(IRANK) MFGR1250
��� ICOL(IRANK)=JJ MFGR1260
��� 15 KK=IRANK+1 MFGR1270
��� MM=IRANK-M MFGR1280
��� LL=NCOL+MM MFGR1290
���C MFGR1300
���C TEST FOR LAST ROW MFGR1310
��� IF(MM)16,25,25 MFGR1320
���C MFGR1330
���C TRANSFORM CURRENT SUBMATRIX AND SEARCH NEXT PIVOT MFGR1340
��� 16 JJ=LL MFGR1350
��� SAVE=PIV MFGR1360
��� PIV=0. MFGR1370
��� DO 19 J=KK,M MFGR1380
��� JJ=JJ+1 MFGR1390
��� HOLD=A(JJ)/SAVE MFGR1400
��� A(JJ)=HOLD MFGR1410
��� L=J-IRANK MFGR1420
���C MFGR1430
���C TEST FOR LAST COLUMN MFGR1440
��� IF(IRANK-N)17,19,19 MFGR1450
��� 17 II=JJ MFGR1460
��� DO 19 I=KK,N MFGR1470
��� II=II+M MFGR1480
��� MM=II-L MFGR1490
��� A(II)=A(II)-HOLD*A(MM) MFGR1500
��� IF(ABS(A(II))-ABS(PIV))19,19,18 MFGR1510
��� 18 PIV=A(II) MFGR1520
��� IR=J MFGR1530
��� IC=I MFGR1540
��� 19 CONTINUE MFGR1550
���C MFGR1560
���C SET UP MATRIX EXPRESSING ROW DEPENDENCIES MFGR1570
��� 20 IF(IRANK-1)3,25,21 MFGR1580
��� 21 IR=LL MFGR1590
��� DO 24 J=2,IRANK MFGR1600
��� II=J-1 MFGR1610
��� IR=IR-M MFGR1620
��� JJ=LL MFGR1630
��� DO 23 I=KK,M MFGR1640
��� HOLD=0. MFGR1650
��� JJ=JJ+1 MFGR1660
��� MM=JJ MFGR1670
��� IC=IR MFGR1680
��� DO 22 L=1,II MFGR1690
��� HOLD=HOLD+A(MM)*A(IC) MFGR1700
��� IC=IC-1 MFGR1710
��� 22 MM=MM-M MFGR1720
��� 23 A(MM)=A(MM)-HOLD MFGR1730
��� 24 CONTINUE MFGR1740
���C MFGR1750
���C TEST FOR COLUMN REGULARITY MFGR1760
��� 25 IF(N-IRANK)3,3,26 MFGR1770
���C MFGR1780
���C SET UP MATRIX EXPRESSING BASIC VARIABLES IN TERMS OF FREE MFGR1790
���C PARAMETERS (HOMOGENEOUS SOLUTION). MFGR1800
��� 26 IR=LL MFGR1810
��� KK=LL+M MFGR1820
��� DO 30 J=1,IRANK MFGR1830
��� DO 29 I=KK,NM,M MFGR1840
��� JJ=IR MFGR1850
��� LL=I MFGR1860
��� HOLD=0. MFGR1870
��� II=J MFGR1880
��� 27 II=II-1 MFGR1890
��� IF(II)29,29,28 MFGR1900
��� 28 HOLD=HOLD-A(JJ)*A(LL) MFGR1910
��� JJ=JJ-M MFGR1920
��� LL=LL-1 MFGR1930
��� GOTO 27 MFGR1940
��� 29 A(LL)=(HOLD-A(LL))/A(JJ) MFGR1950
��� 30 IR=IR-1 MFGR1960
��� RETURN MFGR1970
��� END MFGR1980