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Cloned SEACAS for EXODUS library with extra build files for internal package management.
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EXODUS/packages/seacas/applications/algebra/ag_dooper.f

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C Copyright(C) 1999-2020 National Technology & Engineering Solutions
C of Sandia, LLC (NTESS). Under the terms of Contract DE-NA0003525 with
C NTESS, the U.S. Government retains certain rights in this software.
C
C See packages/seacas/LICENSE for details
C=======================================================================
SUBROUTINE DOOPER (OP, PARTYP, LENARY, NELBLK, IXELB, ISEVOK,
& NUMIX, IXNODE, IXELEM, PARM1, PARM2, RESULT)
C=======================================================================
C --*** DOOPER *** (ALGEBRA) Perform operation (2 parameters)
C -- Written by Amy Gilkey - revised 05/17/88
C --
C --DOOPER performs an operation with up to two parameters on each array
C --value.
C --
C --Parameters:
C -- OP - IN - the operator character
C -- PARTYP - IN - the parameter type (element must be handled differently)
C -- LENARY - IN - the length of the parameter arrays
C -- NELBLK - IN - the number of element blocks
C -- IXELB - IN - the cumulative element counts for each element block
C -- ISEVOK - IN - the element variable truth table for each element block
C -- NUMIX - IN - the number of selected values; <0 if all
C -- IXNODE - IN - the indices of the selected nodes (only if NUMIX>=0)
C -- IXELEM - IN - the indices of the selected elements (only if NUMIX>=0)
C -- PARM1 - IN - the parameter 1 array
C -- PARM2 - IN - the parameter 2 array
C -- RESULT - OUT - the returned result array
CHARACTER OP
CHARACTER PARTYP
INTEGER IXELB(0:NELBLK)
LOGICAL ISEVOK(*)
INTEGER IXNODE(*)
INTEGER IXELEM(*)
REAL PARM1(*), PARM2(*)
REAL RESULT(*)
IF (OP .EQ. '~') THEN
C --Unary minus
IF (NUMIX .GE. 0) THEN
IF (PARTYP .NE. 'E') THEN
DO 100 I = 1, NUMIX
J = IXNODE(I)
RESULT(J) = - PARM1(J)
100 CONTINUE
ELSE
DO 120 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 110 I = IXELB(IELB-1)+1, IXELB(IELB)
J = IXELEM(I)
RESULT(J) = - PARM1(J)
110 CONTINUE
END IF
120 CONTINUE
END IF
ELSE
C NUMIX < 0; All values are selected
C numel = numelo numnp = numnpo
IF (PARTYP .NE. 'E') THEN
DO 130 J = 1, LENARY
RESULT(J) = - PARM1(J)
130 CONTINUE
ELSE
DO 150 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 140 J = IXELB(IELB-1)+1, IXELB(IELB)
RESULT(J) = - PARM1(J)
140 CONTINUE
END IF
150 CONTINUE
END IF
END IF
ELSE IF (OP .EQ. '+') THEN
C --Addition
IF (NUMIX .GE. 0) THEN
IF (PARTYP .NE. 'E') THEN
DO 160 I = 1, NUMIX
J = IXNODE(I)
RESULT(J) = PARM1(J) + PARM2(J)
160 CONTINUE
ELSE
DO 180 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 170 I = IXELB(IELB-1)+1, IXELB(IELB)
J = IXELEM(I)
RESULT(J) = PARM1(J) + PARM2(J)
170 CONTINUE
END IF
180 CONTINUE
END IF
ELSE
C NUMIX < 0; All values are selected
C numel = numelo numnp = numnpo
IF (PARTYP .NE. 'E') THEN
DO 190 J = 1, LENARY
RESULT(J) = PARM1(J) + PARM2(J)
190 CONTINUE
ELSE
DO 210 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 200 J = IXELB(IELB-1)+1, IXELB(IELB)
RESULT(J) = PARM1(J) + PARM2(J)
200 CONTINUE
END IF
210 CONTINUE
END IF
END IF
ELSE IF (OP .EQ. '-') THEN
C --Subtraction
IF (NUMIX .GE. 0) THEN
IF (PARTYP .NE. 'E') THEN
DO 220 I = 1, NUMIX
J = IXNODE(I)
RESULT(J) = PARM1(J) - PARM2(J)
220 CONTINUE
ELSE
DO 240 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 230 I = IXELB(IELB-1)+1, IXELB(IELB)
J = IXELEM(I)
RESULT(J) = PARM1(J) - PARM2(J)
230 CONTINUE
END IF
240 CONTINUE
END IF
ELSE
C NUMIX < 0; All values are selected
C numel = numelo numnp = numnpo
IF (PARTYP .NE. 'E') THEN
DO 250 J = 1, LENARY
RESULT(J) = PARM1(J) - PARM2(J)
250 CONTINUE
ELSE
DO 270 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 260 J = IXELB(IELB-1)+1, IXELB(IELB)
RESULT(J) = PARM1(J) - PARM2(J)
260 CONTINUE
END IF
270 CONTINUE
END IF
END IF
ELSE IF (OP .EQ. '*') THEN
C --Multiplication
C --NUMIX - the number of selected values; NUMIX<0 if all selected
IF (NUMIX .GE. 0) THEN
IF (PARTYP .NE. 'E') THEN
DO 280 I = 1, NUMIX
J = IXNODE(I)
RESULT(J) = PARM1(J) * PARM2(J)
280 CONTINUE
ELSE
DO 300 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 290 I = IXELB(IELB-1)+1, IXELB(IELB)
J = IXELEM(I)
RESULT(J) = PARM1(J) * PARM2(J)
290 CONTINUE
END IF
300 CONTINUE
END IF
ELSE
C NUMIX < 0; All values are selected
C numel = numelo numnp = numnpo
IF (PARTYP .NE. 'E') THEN
DO 310 J = 1, LENARY
RESULT(J) = PARM1(J) * PARM2(J)
310 CONTINUE
ELSE
DO 330 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 320 J = IXELB(IELB-1)+1, IXELB(IELB)
RESULT(J) = PARM1(J) * PARM2(J)
320 CONTINUE
END IF
330 CONTINUE
END IF
END IF
ELSE IF (OP .EQ. '/') THEN
C --Division
IF (NUMIX .GE. 0) THEN
IF (PARTYP .NE. 'E') THEN
DO 340 I = 1, NUMIX
J = IXNODE(I)
RESULT(J) = PARM1(J) / PARM2(J)
340 CONTINUE
ELSE
DO 360 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 350 I = IXELB(IELB-1)+1, IXELB(IELB)
J = IXELEM(I)
RESULT(J) = PARM1(J) / PARM2(J)
350 CONTINUE
END IF
360 CONTINUE
END IF
ELSE
C NUMIX < 0; All values are selected
C numel = numelo numnp = numnpo
IF (PARTYP .NE. 'E') THEN
DO 370 J = 1, LENARY
RESULT(J) = PARM1(J) / PARM2(J)
370 CONTINUE
ELSE
DO 390 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 380 J = IXELB(IELB-1)+1, IXELB(IELB)
RESULT(J) = PARM1(J) / PARM2(J)
380 CONTINUE
END IF
390 CONTINUE
END IF
END IF
ELSE IF (OP .EQ. '^') THEN
C --Exponentiation
IF (NUMIX .GE. 0) THEN
IF (PARTYP .NE. 'E') THEN
DO 400 I = 1, NUMIX
J = IXNODE(I)
III = int(PARM2(J))
IF (III .EQ. PARM2(J)) THEN
RESULT(J) = PARM1(J)**III
ELSE
RESULT(J) = PARM1(J)**PARM2(J)
END IF
400 CONTINUE
ELSE
DO 420 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 410 I = IXELB(IELB-1)+1, IXELB(IELB)
J = IXELEM(I)
III = int(PARM2(J))
IF (III .EQ. PARM2(J)) THEN
RESULT(J) = PARM1(J)**III
ELSE
RESULT(J) = PARM1(J)**PARM2(J)
END IF
410 CONTINUE
END IF
420 CONTINUE
END IF
ELSE
C NUMIX < 0; All values are selected
C numel = numelo numnp = numnpo
IF (PARTYP .NE. 'E') THEN
DO 430 J = 1, LENARY
III = int(PARM2(J))
IF (III .EQ. PARM2(J)) THEN
RESULT(J) = PARM1(J)**III
ELSE
RESULT(J) = PARM1(J)**PARM2(J)
END IF
430 CONTINUE
ELSE
DO 450 IELB = 1, NELBLK
IF (ISEVOK(IELB)) THEN
DO 440 J = IXELB(IELB-1)+1, IXELB(IELB)
III = int(PARM2(J))
IF (III .EQ. PARM2(J)) THEN
RESULT(J) = PARM1(J)**III
ELSE
RESULT(J) = PARM1(J)**PARM2(J)
END IF
440 CONTINUE
END IF
450 CONTINUE
END IF
END IF
END IF
RETURN
END