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decus_20tap2_198111
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decus/20-0026/rsrt.ssp
There are 2 other files named rsrt.ssp in the archive. Click here to see a list.
C RSRT 10
���C ..................................................................RSRT 20
���C RSRT 30
���C SUBROUTINE RSRT RSRT 40
���C RSRT 50
���C PURPOSE RSRT 60
���C SORT ROWS OF A MATRIX RSRT 70
���C RSRT 80
���C USAGE RSRT 90
���C CALL RSRT(A,B,R,N,M,MS) RSRT 100
���C RSRT 110
���C DESCRIPTION OF PARAMETERS RSRT 120
���C A - NAME OF INPUT MATRIX TO BE SORTED RSRT 130
���C B - NAME OF INPUT VECTOR WHICH CONTAINS SORTING KEY RSRT 140
���C R - NAME OF SORTED OUTPUT MATRIX RSRT 150
���C N - NUMBER OF ROWS IN A AND R AND LENGTH OF B RSRT 160
���C M - NUMBER OF COLUMNS IN A AND R RSRT 170
���C MS - ONE DIGIT NUMBER FOR STORAGE MODE OF MATRIX A RSRT 180
���C 0 - GENERAL RSRT 190
���C 1 - SYMMETRIC RSRT 200
���C 2 - DIAGONAL RSRT 210
���C RSRT 220
���C REMARKS RSRT 230
���C MATRIX R CANNOT BE IN THE SAME LOCATION AS MATRIX A RSRT 240
���C MATRIX R IS ALWAYS A GENERAL MATRIX RSRT 250
���C N MUST BE GREATER THAN ONE. RSRT 260
���C RSRT 270
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED RSRT 280
���C LOC RSRT 290
���C RSRT 300
���C METHOD RSRT 310
���C ROWS OF INPUT MATRIX A ARE SORTED TO FORM OUTPUT MATRIX R. RSRT 320
���C THE SORTED ROW SEQUENCE IS DETERMINED BY THE VALUES OF RSRT 330
���C ELEMENTS IN COLUMN VECTOR B. THE LOWEST VALUED ELEMENT IN RSRT 340
���C B WILL CAUSE THE CORRESPONDING ROW OF A TO BE PLACED IN THE RSRT 350
���C FIRST ROW OF R. THE HIGHEST VALUED ELEMENT OF B WILL CAUSE RSRT 360
���C THE CORRESPONDING ROW OF A TO BE PLACED IN THE LAST ROW OF RSRT 370
���C R. IF DUPLICATE VALUES EXIST IN B, THE CORRESPONDING ROWS RSRT 380
���C OF A ARE MOVED TO R IN THE SAME ORDER AS IN A. RSRT 390
���C RSRT 400
���C ..................................................................RSRT 410
���C RSRT 420
��� SUBROUTINE RSRT(A,B,R,N,M,MS) RSRT 430
��� DIMENSION A(1),B(1),R(1) RSRT 440
���C RSRT 450
���C MOVE SORTING KEY VECTOR TO FIRST COLUMN OF OUTPUT MATRIX RSRT 460
���C AND BUILD ORIGINAL SEQUENCE LIST IN SECOND COLUMN RSRT 470
���C RSRT 480
��� DO 10 I=1,N RSRT 490
��� R(I)=B(I) RSRT 500
��� I2=I+N RSRT 510
��� 10 R(I2)=I RSRT 520
���C RSRT 530
���C SORT ELEMENTS IN SORTING KEY VECTOR (ORIGINAL SEQUENCE LIST RSRT 540
���C IS RESEQUENCED ACCORDINGLY) RSRT 550
���C RSRT 560
��� L=N+1 RSRT 570
��� 20 ISORT=0 RSRT 580
��� L=L-1 RSRT 590
��� DO 40 I=2,L RSRT 600
��� IF(R(I)-R(I-1)) 30,40,40 RSRT 610
��� 30 ISORT=1 RSRT 620
��� RSAVE=R(I) RSRT 630
��� R(I)=R(I-1) RSRT 640
��� R(I-1)=RSAVE RSRT 650
��� I2=I+N RSRT 660
��� SAVER=R(I2) RSRT 670
��� R(I2)=R(I2-1) RSRT 680
��� R(I2-1)=SAVER RSRT 690
��� 40 CONTINUE RSRT 700
��� IF(ISORT) 20,50,20 RSRT 710
���C RSRT 720
���C MOVE ROWS FROM MATRIX A TO MATRIX R (NUMBER IN SECOND COLUMN RSRT 730
���C OF R REPRESENTS ROW NUMBER OF MATRIX A TO BE MOVED) RSRT 740
���C RSRT 750
��� 50 DO 80 I=1,N RSRT 760
���C RSRT 770
���C GET ROW NUMBER IN MATRIX A RSRT 780
���C RSRT 790
��� I2=I+N RSRT 800
��� IN=R(I2) RSRT 810
���C RSRT 820
��� IR=I-N RSRT 830
��� DO 80 J=1,M RSRT 840
���C RSRT 850
���C LOCATE ELEMENT IN OUTPUT MATRIX RSRT 860
���C RSRT 870
��� IR=IR+N RSRT 880
���C RSRT 890
���C LOCATE ELEMENT IN INPUT MATRIX RSRT 900
���C RSRT 910
��� CALL LOC(IN,J,IA,N,M,MS) RSRT 920
���C RSRT 930
���C TEST FOR ZERO ELEMENT IN DIAGONAL MATRIX RSRT 940
���C RSRT 950
��� IF(IA) 60,70,60 RSRT 960
���C RSRT 970
���C MOVE ELEMENT TO OUTPUT MATRIX RSRT 980
���C RSRT 990
��� 60 R(IR)=A(IA) RSRT1000
��� GO TO 80 RSRT1010
��� 70 R(IR)=0 RSRT1020
��� 80 CONTINUE RSRT1030
��� RETURN RSRT1040
��� END RSRT1050
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