i22xsave.F File Reference

#include "implicit_f.inc"
#include "comlock.inc"
#include "com04_c.inc"
#include "task_c.inc"

Go to the source code of this file.

Functions/Subroutines
subroutine	i22xsave (x, nsv, msr, nsn, nmn, itask, xsav, xmin, ymin, zmin, xmax, ymax, zmax, c_max, curv_max, icurv, irect, nrtm_t)

Function/Subroutine Documentation

i22xsave()

subroutine i22xsave	(		x,
		integer, dimension(*)	nsv,
		integer, dimension(*)	msr,
		integer	nsn,
		integer	nmn,
		integer	itask,
			xsav,
			xmin,
			ymin,
			zmin,
			xmax,
			ymax,
			zmax,
			c_max,
			curv_max,
		integer	icurv,
		integer, dimension(4,*)	irect,
		integer	nrtm_t )

Definition at line 28 of file i22xsave.F.

C saving xsav and computing the domain bounds
C-----------------------------------------------
C   I m p l i c i t   T y p e s
C-----------------------------------------------
#include      "implicit_f.inc"
#include      "comlock.inc"
C-----------------------------------------------
C   C o m m o n   B l o c k s
C-----------------------------------------------
#include      "com04_c.inc"
#include      "task_c.inc"
C-----------------------------------------------
C   D u m m y   A r g u m e n t s
C-----------------------------------------------
      INTEGER NSN,NMN,ITASK, ICURV, NRTM_T,
     .        NSV(*),MSR(*), IRECT(4,*)
      my_real
     .        xmax, ymax, zmax, xmin, ymin, zmin, c_max,
     .        x(3,*), xsav(3,*), curv_max(*)
C-----------------------------------------------
C   L o c a l   V a r i a b l e s
C-----------------------------------------------
      INTEGER NSNF,NMNF,NSNL,NMNL,I, J, II
C-----------------------------------------------
C   S o u r c e  L i n e s
C-----------------------------------------------
C
C description: calculation of the dimensions of the lagrangian domain of the local domain.
C Each thread calculates its dimensions, we dive the dimension of the domain in i22main_tri.
 
 
      nsnf=1+itask*nsn/nthread
      nsnl=(itask+1)*nsn/nthread
      nmnf=1+itask*nmn/nthread
      nmnl=(itask+1)*nmn/nthread
C
      xmin=ep30
      xmax=-ep30
      ymin=ep30
      ymax=-ep30
      zmin=ep30
      zmax=-ep30
C
      IF(nsn+nmn < numnod)THEN
        DO i=nsnf,nsnl
          j=nsv(i)
          IF(j>0)THEN
            xsav(1,i)=x(1,j)
            xsav(2,i)=x(2,j)
            xsav(3,i)=x(3,j)
          END IF
        END DO
        DO i=nmnf,nmnl
          ii = i+nsn
          j=msr(i)
C msr < 0 <=> shooting nodes
          IF(j>0) THEN 
            xmin= min(xmin,x(1,j))
            ymin= min(ymin,x(2,j))
            zmin= min(zmin,x(3,j))
            xmax= max(xmax,x(1,j))
            ymax= max(ymax,x(2,j))
            zmax= max(zmax,x(3,j))
            xsav(1,ii)=x(1,j)
            xsav(2,ii)=x(2,j)
            xsav(3,ii)=x(3,j)
          ENDIF
        END DO
      ELSE
C
        DO i=nsnf,nsnl
          j=nsv(i)
          IF(j>0)THEN
            xsav(1,j)=x(1,j)
            xsav(2,j)=x(2,j)
            xsav(3,j)=x(3,j)
          END IF
        END DO
        DO i=nmnf,nmnl
          j=msr(i)
C msr < 0 <=> shooting nodes
          IF(j>0) THEN 
            xmin= min(xmin,x(1,j))
            ymin= min(ymin,x(2,j))
            zmin= min(zmin,x(3,j))
            xmax= max(xmax,x(1,j))
            ymax= max(ymax,x(2,j))
            zmax= max(zmax,x(3,j))
            xsav(1,j)=x(1,j)
            xsav(2,j)=x(2,j)
            xsav(3,j)=x(3,j)
          END IF
        END DO
      ENDIF
C
      c_max = zero
 
      DO i=1,nrtm_t
        curv_max(i)=zero
      ENDDO
      
      RETURN