src/F77/readB.f

*************************************************************************
*     
*     Subroutine read_B.f
*     
*     it calls the subroutines which read the magnetic field maps for
*     the PAMELA spectrometer
*     
*     needs:
*     - ./read_B_inner.f inner map reading subroutine
*     - ./read_B_outer.f outer map reading subroutine
*     
*     to be called before ./inter_B.f (interpolation subroutine)
*     
*************************************************************************

      subroutine readB(cpath)
      include 'common_c2f.f'

      LOGICAL DEBUG
      LOGICAL VERBOSE
      LOGICAL WARNING
      COMMON/DBG/DEBUG,VERBOSE,WARNING
      SAVE/DBG/

      character*256 cpath
      character*256 ppath

      
      b_error=0
      ppath=''

      la=256
      do i=1,256
         if(cpath(i:i).eq.'/')la=i
      enddo
      ppath=cpath(1:la)

      b_path    = ppath
      b_pathlen = la

      if(DEBUG)print*,'Field loaded: ',b_loaded
      if(b_loaded.eq.0)then

c     call the subroutine which reads the maps of the measurements taken
c     inside the magnetic cavity      
         call readBinner(ppath)
         if(b_error.eq.1)return

c     call the subroutine which reads the maps of the measurements taken
c     outside the magnetic cavity
         call readBouter(ppath)   
         if(b_error.eq.1)return

         b_loaded  = 1
      endif

      return
      end

************************************************************


*************************************************************************
*     
*     Subroutine readBinner
*     
*     it reads from rz files the two magnetic field maps taken inside the
*     spectrometer cavity and fills the variables in common_B_inner.f
*     
*     needs:
*     - common_B.f common file for the inner magnetic field map
*     - .rz map files in ./ containing coordinates of measured points, Bx, By
*     and Bz components + errors
*     
*     output variables: (see common_B_inner.f)
*     - px#(nx,3)         with #=1,2 for the 2 maps
*     - py#(ny,3)
*     - pz#(nz,3)
*     - b#(nx,ny,nz,3)
*     
*************************************************************************

      subroutine readBinner(path)

c     implicit double precision (a-h,o-z)
      include 'common_B.f'
      include 'common_c2f.f'

      LOGICAL DEBUG
      LOGICAL VERBOSE
      LOGICAL WARNING
      COMMON/DBG/DEBUG,VERBOSE,WARNING
      SAVE/DBG/

      character*80 path
      
C
      REAL hmemor(10000000)
      integer Iquest(100)    
      COMMON /pawc/hmemor
      save /pawc/
C
      Common /QUEST/ Iquest
      save /quest/
     

c------------------------------------------------------------------------
c     
c     local variables
c     
c------------------------------------------------------------------------

      character*64 Bmap_file    !magnetic field file name
      parameter (lun_Bmap_file=66) !magnetic field map file id number

      parameter (ntpl_Bmap=20)  !ntuple identifier

      REAL PFX(3),FX,DFX,       !Bx field component coordinates in m, value and error in T
     $     PFY(3),FY,DFY
     $     ,PFZ(3),FZ,DFZ
      INTEGER INDEX(3)          !point index

      COMMON /PAWCR4/ INDEX,PFX,FX,DFX,PFY,FY,DFY,PFZ,FZ,DFZ

   
      CALL HLIMIT(10000000)
C     - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C     largest RZ file: IQUEST(10) records x LREC words x 4 byte
C     with the following settings: 65000 x 4096 x 4 = 1G
C     - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 
      
c     permette di ottenere ntuple funzionanti nonostante
c     il messaggio dei 64K di RZOUT
      Iquest(10) = 512000
c------------------------------------------------------------------------
c     
c     *** FIRST MAP ***
c     
c------------------------------------------------------------------------

c------------------------------------------------------------------------
c     
c     initialization and map file opening
c     
c------------------------------------------------------------------------

c     print*,' '
c     print*,' '

      Bmap_file='measure_n3_290302.rz'
      
c     opens magnetic field map first file
c      if(b_debug.eq.1)print *                 
      if(VERBOSE)print *                 
     $     ,path(1:LNBLNK(path))//Bmap_file
      call HROPEN
     $     (lun_Bmap_file,'Bmap'
     $     ,path(1:LNBLNK(path))//Bmap_file
     $     ,'P',1024,istat) 
      if(istat.ne.0) goto 21


      call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory

c     call HPRNTU(ntpl_Bmap)
      call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
      call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
      call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
      call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
      call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')


c------------------------------------------------------------------------
c     
c     reads events and fills variables
c     
c------------------------------------------------------------------------

      call HNOENT(ntpl_Bmap,iemax) !number of events

c     initializes measurement grid edges
      do ic=1,3
        px1max(ic)=0.
        px1min(ic)=0.
        py1max(ic)=0.
        py1min(ic)=0.
        pz1max(ic)=0.
        pz1min(ic)=0.
      enddo


      do iev=1,iemax            !event loop

        call HGNT(ntpl_Bmap,iev,ierr) !reads event
        if(ierr.ne.0) goto 22

c     the output consists of matrices for coordinates, B components values 
c     and errors:
c     e.g. px1(4,2) = X coordinate of the point with index = 4 along X, 
c     in which By (=2) component has been measured
c     e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
c     indexes = 3,23,4 along X, Y and Z

c     Bx component
        px1(index(1),1) = pfx(1)
        if(px1(index(1),1).lt.px1min(1)) px1min(1)=px1(index(1),1)
        if(px1(index(1),1).gt.px1max(1)) px1max(1)=px1(index(1),1)
        py1(index(2),1) = pfx(2)
        if(py1(index(2),1).lt.py1min(1)) py1min(1)=py1(index(2),1)
        if(py1(index(2),1).gt.py1max(1)) py1max(1)=py1(index(2),1)
        pz1(index(3),1) = pfx(3)
        if(pz1(index(3),1).lt.pz1min(1)) pz1min(1)=pz1(index(3),1)
        if(pz1(index(3),1).gt.pz1max(1)) pz1max(1)=pz1(index(3),1)

        b1(index(1),index(2),index(3),1) = fx


c     By component
        px1(index(1),2) = pfy(1)
        if(px1(index(1),2).lt.px1min(2)) px1min(2)=px1(index(1),2)
        if(px1(index(1),2).gt.px1max(2)) px1max(2)=px1(index(1),2)
        py1(index(2),2) = pfy(2)
        if(py1(index(2),2).lt.py1min(2)) py1min(2)=py1(index(2),2)
        if(py1(index(2),2).gt.py1max(2)) py1max(2)=py1(index(2),2)
        pz1(index(3),2) = pfy(3)
        if(pz1(index(3),2).lt.pz1min(2)) pz1min(2)=pz1(index(3),2)
        if(pz1(index(3),2).gt.pz1max(2)) pz1max(2)=pz1(index(3),2)

        b1(index(1),index(2),index(3),2) = fy


c     Bz component
        px1(index(1),3) = pfz(1)
        if(px1(index(1),3).lt.px1min(3)) px1min(3)=px1(index(1),3)
        if(px1(index(1),3).gt.px1max(3)) px1max(3)=px1(index(1),3)
        py1(index(2),3) = pfz(2)
        if(py1(index(2),3).lt.py1min(3)) py1min(3)=py1(index(2),3)
        if(py1(index(2),3).gt.py1max(3)) py1max(3)=py1(index(2),3)
        pz1(index(3),3) = pfz(3)
        if(pz1(index(3),3).lt.pz1min(3)) pz1min(3)=pz1(index(3),3)
        if(pz1(index(3),3).gt.pz1max(3)) pz1max(3)=pz1(index(3),3)

        b1(index(1),index(2),index(3),3) = fz

      enddo

c------------------------------------------------------------------------
c     
c     closes files
c     
c------------------------------------------------------------------------

      call HREND('Bmap')
      close(lun_Bmap_file)
c$$$  cmd2='rm -f '
c$$$  $     //Bmap_file(1:LNBLNK(Bmap_file))
c$$$  call system(cmd2)
c$$$  


c------------------------------------------------------------------------
c     
c     *** SECOND MAP ***
c     
c------------------------------------------------------------------------

c------------------------------------------------------------------------
c     
c     initialization and map file opening
c     
c------------------------------------------------------------------------

c     print*,' '
c     print*,' '

      Bmap_file='measure_n4_110402_corrected.rz'
c     opens magnetic field map first file
c      if(b_debug.eq.1)print *                   !,'Opening file: '
      if(VERBOSE)print *                   !,'Opening file: '
     $     ,path(1:LNBLNK(path))//Bmap_file
      call HROPEN
     $     (lun_Bmap_file,'Bmap'
     $     ,path(1:LNBLNK(path))//Bmap_file
     $     ,'P',1024,istat) 
      if(istat.ne.0) goto 21


      call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory

c     call HPRNTU(ntpl_Bmap)
      call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
      call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
      call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
      call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
      call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')


c------------------------------------------------------------------------
c     
c     reads events and fills variables
c     
c------------------------------------------------------------------------

      call HNOENT(ntpl_Bmap,iemax) !number of events

c      print*,'iemax ',iemax

      do ic=1,3                 !grid edges
        px2max(ic)=0.
        px2min(ic)=0.
        py2max(ic)=0.
        py2min(ic)=0.
        pz2max(ic)=0.
        pz2min(ic)=0.
      enddo


      do iev=1,iemax            !event loop

        call HGNT(ntpl_Bmap,iev,ierr) !reads event
        if(ierr.ne.0) goto 22

c     the output consists of matrices for coordinates, B components values 
c     and errors:
c     e.g. px(4,2) = X coordinate of the point with index = 4 along X, 
c     in which By (=2) component has been measured
c     e.g. b(3,23,4,1) = Bx (=1) component value, measured in the point with
c     indexes = 3,23,4 along X, Y and Z

c     Bx component
        px2(index(1),1) = pfx(1)
        if(px2(index(1),1).lt.px2min(1)) px2min(1)=px2(index(1),1)
        if(px2(index(1),1).gt.px2max(1)) px2max(1)=px2(index(1),1)
        py2(index(2),1) = pfx(2)
        if(py2(index(2),1).lt.py2min(1)) py2min(1)=py2(index(2),1)
        if(py2(index(2),1).gt.py2max(1)) py2max(1)=py2(index(2),1)
        pz2(index(3),1) = pfx(3)
        if(pz2(index(3),1).lt.pz2min(1)) pz2min(1)=pz2(index(3),1)
        if(pz2(index(3),1).gt.pz2max(1)) pz2max(1)=pz2(index(3),1)

        b2(index(1),index(2),index(3),1) = fx


c     By component
        px2(index(1),2) = pfy(1)
        if(px2(index(1),2).lt.px2min(2)) px2min(2)=px2(index(1),2)
        if(px2(index(1),2).gt.px2max(2)) px2max(2)=px2(index(1),2)
        py2(index(2),2) = pfy(2)
        if(py2(index(2),2).lt.py2min(2)) py2min(2)=py2(index(2),2)
        if(py2(index(2),2).gt.py2max(2)) py2max(2)=py2(index(2),2)
        pz2(index(3),2) = pfy(3)
        if(pz2(index(3),2).lt.pz2min(2)) pz2min(2)=pz2(index(3),2)
        if(pz2(index(3),2).gt.pz2max(2)) pz2max(2)=pz2(index(3),2)

        b2(index(1),index(2),index(3),2) = fy


c     Bz component
        px2(index(1),3) = pfz(1)
        if(px2(index(1),3).lt.px2min(3)) px2min(3)=px2(index(1),3)
        if(px2(index(1),3).gt.px2max(3)) px2max(3)=px2(index(1),3)
        py2(index(2),3) = pfz(2)
        if(py2(index(2),3).lt.py2min(3)) py2min(3)=py2(index(2),3)
        if(py2(index(2),3).gt.py2max(3)) py2max(3)=py2(index(2),3)
        pz2(index(3),3) = pfz(3)
        if(pz2(index(3),3).lt.pz2min(3)) pz2min(3)=pz2(index(3),3)
        if(pz2(index(3),3).gt.pz2max(3)) pz2max(3)=pz2(index(3),3)

        b2(index(1),index(2),index(3),3) = fz

      enddo

c------------------------------------------------------------------------
c     
c     closes files
c     
c------------------------------------------------------------------------
      
      call HREND('Bmap')
      close(lun_Bmap_file)

c------------------------------------------------------------------------
c     
c     no error exit
c     
c------------------------------------------------------------------------

      goto 9000                 !happy ending

c------------------------------------------------------------------------
c     
c     magnetic field map file opening error
c     
c------------------------------------------------------------------------
      
 21   continue
      
      b_error = 1
c      if(b_debug.eq.1)
      if(DEBUG)
     $     print*
     $     ,'read_B_inner: ERROR OPENING MAGNETIC FIELD MAP FILE: '
     $     ,Bmap_file
      
      goto 9000                 !the end


c------------------------------------------------------------------------
c     
c     ntuple event reading error
c     
c------------------------------------------------------------------------
      
 22   continue
      
      b_error = 1
c      if(b_debug.eq.1)
      if(DEBUG)
     $     print*,'read_B_inner: ERROR WHILE READING NTUPLE, at entry
     $     : ',iev
      
      goto 9000                 !the end


c------------------------------------------------------------------------
c     
c     exit
c     
c------------------------------------------------------------------------

 9000 continue

      return
      end
*************************************************************************
*     
*     Subroutine readBouter
*     
*     it reads from rz files the two magnetic field maps taken inside the
*     spectrometer cavity and fills the variables in common_B_inner.f
*     
*     needs:
*     - common_B_outer.f common file for the outer magnetic field map
*     - .rz map files in ./ containing coordinates of measured points, Bx, By
*     and Bz components + errors
*     
*     output variables: (see common_B_outer.f)
*     - pxo(nx,3)        
*     - pyo(ny,3)
*     - pzo(nz,3)
*     - bo(nx,ny,nz,3)
*     
*************************************************************************

      subroutine readBouter(path)

c     implicit double precision (a-h,o-z)
      include 'common_B.f'
      include 'common_c2f.f'
C
      LOGICAL DEBUG
      LOGICAL VERBOSE
      LOGICAL WARNING
      COMMON/DBG/DEBUG,VERBOSE,WARNING
      SAVE/DBG/

      character*80 path

      REAL hmemor(10000000)
      integer Iquest(100)    
      COMMON /pawc/hmemor
      save /pawc/
C
      Common /QUEST/ Iquest
      save /quest/
     

c------------------------------------------------------------------------
c     
c     local variables
c     
c------------------------------------------------------------------------

      character*64 Bmap_file    !magnetic field file name
      parameter (lun_Bmap_file=66) !magnetic field map file id number

      parameter (ntpl_Bmap=20)  !ntuple identifier

      REAL PFX(3),FX,DFX,       !Bx field component coordinates in m, value and error in T
     $     PFY(3),FY,DFY
     $     ,PFZ(3),FZ,DFZ
      INTEGER INDEX(3)          !point index

      COMMON /PAWCR4/ INDEX,PFX,FX,DFX,PFY,FY,DFY,PFZ,FZ,DFZ

   
c      print*,'Calling HLIMIT'
      CALL HLIMIT(10000000)
C     - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C     largest RZ file: IQUEST(10) records x LREC words x 4 byte
C     with the following settings: 65000 x 4096 x 4 = 1G
C     - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 
      
c     permette di ottenere ntuple funzionanti nonostante
c     il messaggio dei 64K di RZOUT
      Iquest(10) = 512000
c------------------------------------------------------------------------
c     
c     *** FIRST MAP ***
c     
c------------------------------------------------------------------------

c------------------------------------------------------------------------
c     
c     initialization and map file opening
c     
c------------------------------------------------------------------------

c     print*,' '
c     print*,' '

      Bmap_file='External_top_map_n4_150402.rz'
      
c     opens magnetic field map first file
c      if(b_debug.eq.1)print *
      if(VERBOSE)print *
     $     ,path(1:LNBLNK(path))//Bmap_file
      call HROPEN
     $     (lun_Bmap_file,'Bmap'
     $     ,path(1:LNBLNK(path))//Bmap_file
     $     ,'P',1024,istat) 
      if(istat.ne.0) goto 21


      call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory

c     call HPRNTU(ntpl_Bmap)
      call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
      call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
      call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
      call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
      call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')


c------------------------------------------------------------------------
c     
c     reads events and fills variables
c     
c------------------------------------------------------------------------

      call HNOENT(ntpl_Bmap,iemax) !number of events

c     initializes measurement grid edges
      do ic=1,3
        poxmax(ic)=0.
        poxmin(ic)=0.
        poymax(ic)=0.
        poymin(ic)=0.
        pozmax(ic)=0.
        pozmin(ic)=0.
      enddo


      do iev=1,iemax            !event loop

        call HGNT(ntpl_Bmap,iev,ierr) !reads event
        if(ierr.ne.0) goto 22

c     the output consists of matrices for coordinates, B components values 
c     and errors:
c     e.g. px1(4,2) = X coordinate of the point with index = 4 along X, 
c     in which By (=2) component has been measured
c     e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
c     indexes = 3,23,4 along X, Y and Z

c     Bx component
        pox(index(1),1) = pfx(1)
        if(pox(index(1),1).lt.poxmin(1)) poxmin(1)=pox(index(1),1)
        if(pox(index(1),1).gt.poxmax(1)) poxmax(1)=pox(index(1),1)
        poy(index(2),1) = pfx(2)
        if(poy(index(2),1).lt.poymin(1)) poymin(1)=poy(index(2),1)
        if(poy(index(2),1).gt.poymax(1)) poymax(1)=poy(index(2),1)
        poz(index(3),1) = pfx(3)
        if(poz(index(3),1).lt.pozmin(1)) pozmin(1)=poz(index(3),1)
        if(poz(index(3),1).gt.pozmax(1)) pozmax(1)=poz(index(3),1)

        bo(index(1),index(2),index(3),1) = fx


c     By component
        pox(index(1),2) = pfy(1)
        if(pox(index(1),2).lt.poxmin(2)) poxmin(2)=pox(index(1),2)
        if(pox(index(1),2).gt.poxmax(2)) poxmax(2)=pox(index(1),2)
        poy(index(2),2) = pfy(2)
        if(poy(index(2),2).lt.poymin(2)) poymin(2)=poy(index(2),2)
        if(poy(index(2),2).gt.poymax(2)) poymax(2)=poy(index(2),2)
        poz(index(3),2) = pfy(3)
        if(poz(index(3),2).lt.pozmin(2)) pozmin(2)=poz(index(3),2)
        if(poz(index(3),2).gt.pozmax(2)) pozmax(2)=poz(index(3),2)

        bo(index(1),index(2),index(3),2) = fy


c     Bz component
        pox(index(1),3) = pfz(1)
        if(pox(index(1),3).lt.poxmin(3)) poxmin(3)=pox(index(1),3)
        if(pox(index(1),3).gt.poxmax(3)) poxmax(3)=pox(index(1),3)
        poy(index(2),3) = pfz(2)
        if(poy(index(2),3).lt.poymin(3)) poymin(3)=poy(index(2),3)
        if(poy(index(2),3).gt.poymax(3)) poymax(3)=poy(index(2),3)
        poz(index(3),3) = pfz(3)
        if(poz(index(3),3).lt.pozmin(3)) pozmin(3)=poz(index(3),3)
        if(poz(index(3),3).gt.pozmax(3)) pozmax(3)=poz(index(3),3)

        bo(index(1),index(2),index(3),3) = fz

      enddo


c------------------------------------------------------------------------
c     
c     closes files
c     
c------------------------------------------------------------------------

      call HREND('Bmap')
      close(lun_Bmap_file)


c------------------------------------------------------------------------
c     
c     no error exit
c     
c------------------------------------------------------------------------
      
      goto 9000                 !happy ending

c------------------------------------------------------------------------
c     
c     magnetic field map file opening error
c     
c------------------------------------------------------------------------
      
 21   continue
      
      b_error = 1
c      if(b_debug.eq.1)
      if(DEBUG)
     $     print*
     $     ,'read_B_inner: ERROR OPENING MAGNETIC FIELD MAP FILE: '
     $     ,Bmap_file
      
      goto 9000                 !the end


c------------------------------------------------------------------------
c     
c     ntuple event reading error
c     
c------------------------------------------------------------------------
      
 22   continue
      
      b_error = 1
c      if(b_debug.eq.1)
      if(DEBUG)
     $     print*
     $     ,'read_B_inner: ERROR WHILE READING NTUPLE, at event
     $     : ',iev
      
      goto 9000                 !the end


c------------------------------------------------------------------------
c     
c     exit
c     
c------------------------------------------------------------------------

 9000 continue

      return
      end

1	mocchiut	1.1	*************************************************************************
2			*
3			* Subroutine read_B.f
4			*
5			* it calls the subroutines which read the magnetic field maps for
6			* the PAMELA spectrometer
7			*
8			* needs:
9			* - ./read_B_inner.f inner map reading subroutine
10			* - ./read_B_outer.f outer map reading subroutine
11			*
12			* to be called before ./inter_B.f (interpolation subroutine)
13			*
14			*************************************************************************
15
16			subroutine readB(cpath)
17			include 'common_c2f.f'
18	pam-fi	1.2
19			LOGICAL DEBUG
20			LOGICAL VERBOSE
21			LOGICAL WARNING
22			COMMON/DBG/DEBUG,VERBOSE,WARNING
23			SAVE/DBG/
24
25	pam-fi	1.4	character*256 cpath
26			character*256 ppath
27	mocchiut	1.1
28
29			b_error=0
30	pam-fi	1.3	ppath=''
31	mocchiut	1.1
32	pam-fi	1.4	la=256
33			do i=1,256
34	mocchiut	1.1	if(cpath(i:i).eq.'/')la=i
35			enddo
36			ppath=cpath(1:la)
37
38			b_path = ppath
39			b_pathlen = la
40
41	pam-fi	1.2	if(DEBUG)print*,'Field loaded: ',b_loaded
42	mocchiut	1.1	if(b_loaded.eq.0)then
43
44			c call the subroutine which reads the maps of the measurements taken
45			c inside the magnetic cavity
46			call readBinner(ppath)
47			if(b_error.eq.1)return
48
49			c call the subroutine which reads the maps of the measurements taken
50			c outside the magnetic cavity
51			call readBouter(ppath)
52			if(b_error.eq.1)return
53
54			b_loaded = 1
55			endif
56
57			return
58			end
59
60			************************************************************
61
62
63			*************************************************************************
64			*
65			* Subroutine readBinner
66			*
67			* it reads from rz files the two magnetic field maps taken inside the
68			* spectrometer cavity and fills the variables in common_B_inner.f
69			*
70			* needs:
71			* - common_B.f common file for the inner magnetic field map
72			* - .rz map files in ./ containing coordinates of measured points, Bx, By
73			* and Bz components + errors
74			*
75			* output variables: (see common_B_inner.f)
76			* - px#(nx,3) with #=1,2 for the 2 maps
77			* - py#(ny,3)
78			* - pz#(nz,3)
79			* - b#(nx,ny,nz,3)
80			*
81			*************************************************************************
82
83			subroutine readBinner(path)
84
85			c implicit double precision (a-h,o-z)
86			include 'common_B.f'
87			include 'common_c2f.f'
88	pam-fi	1.2
89			LOGICAL DEBUG
90			LOGICAL VERBOSE
91			LOGICAL WARNING
92			COMMON/DBG/DEBUG,VERBOSE,WARNING
93			SAVE/DBG/
94
95	mocchiut	1.1	character*80 path
96
97			C
98			REAL hmemor(10000000)
99			integer Iquest(100)
100			COMMON /pawc/hmemor
101			save /pawc/
102			C
103			Common /QUEST/ Iquest
104			save /quest/
105
106
107			c------------------------------------------------------------------------
108			c
109			c local variables
110			c
111			c------------------------------------------------------------------------
112
113			character*64 Bmap_file !magnetic field file name
114			parameter (lun_Bmap_file=66) !magnetic field map file id number
115
116			parameter (ntpl_Bmap=20) !ntuple identifier
117
118			REAL PFX(3),FX,DFX, !Bx field component coordinates in m, value and error in T
119			$ PFY(3),FY,DFY
120			$ ,PFZ(3),FZ,DFZ
121			INTEGER INDEX(3) !point index
122
123			COMMON /PAWCR4/ INDEX,PFX,FX,DFX,PFY,FY,DFY,PFZ,FZ,DFZ
124
125
126			CALL HLIMIT(10000000)
127			C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
128			C largest RZ file: IQUEST(10) records x LREC words x 4 byte
129			C with the following settings: 65000 x 4096 x 4 = 1G
130			C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
131
132			c permette di ottenere ntuple funzionanti nonostante
133			c il messaggio dei 64K di RZOUT
134			Iquest(10) = 512000
135			c------------------------------------------------------------------------
136			c
137			c * FIRST MAP *
138			c
139			c------------------------------------------------------------------------
140
141			c------------------------------------------------------------------------
142			c
143			c initialization and map file opening
144			c
145			c------------------------------------------------------------------------
146
147			c print*,' '
148			c print*,' '
149
150			Bmap_file='measure_n3_290302.rz'
151
152			c opens magnetic field map first file
153	pam-fi	1.2	c if(b_debug.eq.1)print *
154			if(VERBOSE)print *
155	mocchiut	1.1	$ ,path(1:LNBLNK(path))//Bmap_file
156			call HROPEN
157			$ (lun_Bmap_file,'Bmap'
158			$ ,path(1:LNBLNK(path))//Bmap_file
159			$ ,'P',1024,istat)
160			if(istat.ne.0) goto 21
161
162
163			call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
164
165			c call HPRNTU(ntpl_Bmap)
166			call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
167			call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
168			call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
169			call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
170			call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
171
172
173			c------------------------------------------------------------------------
174			c
175			c reads events and fills variables
176			c
177			c------------------------------------------------------------------------
178
179			call HNOENT(ntpl_Bmap,iemax) !number of events
180
181			c initializes measurement grid edges
182			do ic=1,3
183			px1max(ic)=0.
184			px1min(ic)=0.
185			py1max(ic)=0.
186			py1min(ic)=0.
187			pz1max(ic)=0.
188			pz1min(ic)=0.
189			enddo
190
191
192			do iev=1,iemax !event loop
193
194			call HGNT(ntpl_Bmap,iev,ierr) !reads event
195			if(ierr.ne.0) goto 22
196
197			c the output consists of matrices for coordinates, B components values
198			c and errors:
199			c e.g. px1(4,2) = X coordinate of the point with index = 4 along X,
200			c in which By (=2) component has been measured
201			c e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
202			c indexes = 3,23,4 along X, Y and Z
203
204			c Bx component
205			px1(index(1),1) = pfx(1)
206			if(px1(index(1),1).lt.px1min(1)) px1min(1)=px1(index(1),1)
207			if(px1(index(1),1).gt.px1max(1)) px1max(1)=px1(index(1),1)
208			py1(index(2),1) = pfx(2)
209			if(py1(index(2),1).lt.py1min(1)) py1min(1)=py1(index(2),1)
210			if(py1(index(2),1).gt.py1max(1)) py1max(1)=py1(index(2),1)
211			pz1(index(3),1) = pfx(3)
212			if(pz1(index(3),1).lt.pz1min(1)) pz1min(1)=pz1(index(3),1)
213			if(pz1(index(3),1).gt.pz1max(1)) pz1max(1)=pz1(index(3),1)
214
215			b1(index(1),index(2),index(3),1) = fx
216
217
218			c By component
219			px1(index(1),2) = pfy(1)
220			if(px1(index(1),2).lt.px1min(2)) px1min(2)=px1(index(1),2)
221			if(px1(index(1),2).gt.px1max(2)) px1max(2)=px1(index(1),2)
222			py1(index(2),2) = pfy(2)
223			if(py1(index(2),2).lt.py1min(2)) py1min(2)=py1(index(2),2)
224			if(py1(index(2),2).gt.py1max(2)) py1max(2)=py1(index(2),2)
225			pz1(index(3),2) = pfy(3)
226			if(pz1(index(3),2).lt.pz1min(2)) pz1min(2)=pz1(index(3),2)
227			if(pz1(index(3),2).gt.pz1max(2)) pz1max(2)=pz1(index(3),2)
228
229			b1(index(1),index(2),index(3),2) = fy
230
231
232			c Bz component
233			px1(index(1),3) = pfz(1)
234			if(px1(index(1),3).lt.px1min(3)) px1min(3)=px1(index(1),3)
235			if(px1(index(1),3).gt.px1max(3)) px1max(3)=px1(index(1),3)
236			py1(index(2),3) = pfz(2)
237			if(py1(index(2),3).lt.py1min(3)) py1min(3)=py1(index(2),3)
238			if(py1(index(2),3).gt.py1max(3)) py1max(3)=py1(index(2),3)
239			pz1(index(3),3) = pfz(3)
240			if(pz1(index(3),3).lt.pz1min(3)) pz1min(3)=pz1(index(3),3)
241			if(pz1(index(3),3).gt.pz1max(3)) pz1max(3)=pz1(index(3),3)
242
243			b1(index(1),index(2),index(3),3) = fz
244
245			enddo
246
247			c------------------------------------------------------------------------
248			c
249			c closes files
250			c
251			c------------------------------------------------------------------------
252
253			call HREND('Bmap')
254			close(lun_Bmap_file)
255			c$$$ cmd2='rm -f '
256			c$$$ $ //Bmap_file(1:LNBLNK(Bmap_file))
257			c$$$ call system(cmd2)
258			c$$$
259
260
261			c------------------------------------------------------------------------
262			c
263			c * SECOND MAP *
264			c
265			c------------------------------------------------------------------------
266
267			c------------------------------------------------------------------------
268			c
269			c initialization and map file opening
270			c
271			c------------------------------------------------------------------------
272
273			c print*,' '
274			c print*,' '
275
276			Bmap_file='measure_n4_110402_corrected.rz'
277			c opens magnetic field map first file
278	pam-fi	1.2	c if(b_debug.eq.1)print * !,'Opening file: '
279			if(VERBOSE)print * !,'Opening file: '
280	mocchiut	1.1	$ ,path(1:LNBLNK(path))//Bmap_file
281			call HROPEN
282			$ (lun_Bmap_file,'Bmap'
283			$ ,path(1:LNBLNK(path))//Bmap_file
284			$ ,'P',1024,istat)
285			if(istat.ne.0) goto 21
286
287
288			call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
289
290			c call HPRNTU(ntpl_Bmap)
291			call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
292			call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
293			call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
294			call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
295			call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
296
297
298			c------------------------------------------------------------------------
299			c
300			c reads events and fills variables
301			c
302			c------------------------------------------------------------------------
303
304			call HNOENT(ntpl_Bmap,iemax) !number of events
305
306			c print*,'iemax ',iemax
307
308			do ic=1,3 !grid edges
309			px2max(ic)=0.
310			px2min(ic)=0.
311			py2max(ic)=0.
312			py2min(ic)=0.
313			pz2max(ic)=0.
314			pz2min(ic)=0.
315			enddo
316
317
318			do iev=1,iemax !event loop
319
320			call HGNT(ntpl_Bmap,iev,ierr) !reads event
321			if(ierr.ne.0) goto 22
322
323			c the output consists of matrices for coordinates, B components values
324			c and errors:
325			c e.g. px(4,2) = X coordinate of the point with index = 4 along X,
326			c in which By (=2) component has been measured
327			c e.g. b(3,23,4,1) = Bx (=1) component value, measured in the point with
328			c indexes = 3,23,4 along X, Y and Z
329
330			c Bx component
331			px2(index(1),1) = pfx(1)
332			if(px2(index(1),1).lt.px2min(1)) px2min(1)=px2(index(1),1)
333			if(px2(index(1),1).gt.px2max(1)) px2max(1)=px2(index(1),1)
334			py2(index(2),1) = pfx(2)
335			if(py2(index(2),1).lt.py2min(1)) py2min(1)=py2(index(2),1)
336			if(py2(index(2),1).gt.py2max(1)) py2max(1)=py2(index(2),1)
337			pz2(index(3),1) = pfx(3)
338			if(pz2(index(3),1).lt.pz2min(1)) pz2min(1)=pz2(index(3),1)
339			if(pz2(index(3),1).gt.pz2max(1)) pz2max(1)=pz2(index(3),1)
340
341			b2(index(1),index(2),index(3),1) = fx
342
343
344			c By component
345			px2(index(1),2) = pfy(1)
346			if(px2(index(1),2).lt.px2min(2)) px2min(2)=px2(index(1),2)
347			if(px2(index(1),2).gt.px2max(2)) px2max(2)=px2(index(1),2)
348			py2(index(2),2) = pfy(2)
349			if(py2(index(2),2).lt.py2min(2)) py2min(2)=py2(index(2),2)
350			if(py2(index(2),2).gt.py2max(2)) py2max(2)=py2(index(2),2)
351			pz2(index(3),2) = pfy(3)
352			if(pz2(index(3),2).lt.pz2min(2)) pz2min(2)=pz2(index(3),2)
353			if(pz2(index(3),2).gt.pz2max(2)) pz2max(2)=pz2(index(3),2)
354
355			b2(index(1),index(2),index(3),2) = fy
356
357
358			c Bz component
359			px2(index(1),3) = pfz(1)
360			if(px2(index(1),3).lt.px2min(3)) px2min(3)=px2(index(1),3)
361			if(px2(index(1),3).gt.px2max(3)) px2max(3)=px2(index(1),3)
362			py2(index(2),3) = pfz(2)
363			if(py2(index(2),3).lt.py2min(3)) py2min(3)=py2(index(2),3)
364			if(py2(index(2),3).gt.py2max(3)) py2max(3)=py2(index(2),3)
365			pz2(index(3),3) = pfz(3)
366			if(pz2(index(3),3).lt.pz2min(3)) pz2min(3)=pz2(index(3),3)
367			if(pz2(index(3),3).gt.pz2max(3)) pz2max(3)=pz2(index(3),3)
368
369			b2(index(1),index(2),index(3),3) = fz
370
371			enddo
372
373			c------------------------------------------------------------------------
374			c
375			c closes files
376			c
377			c------------------------------------------------------------------------
378
379			call HREND('Bmap')
380			close(lun_Bmap_file)
381
382			c------------------------------------------------------------------------
383			c
384			c no error exit
385			c
386			c------------------------------------------------------------------------
387
388			goto 9000 !happy ending
389
390			c------------------------------------------------------------------------
391			c
392			c magnetic field map file opening error
393			c
394			c------------------------------------------------------------------------
395
396			21 continue
397
398			b_error = 1
399	pam-fi	1.2	c if(b_debug.eq.1)
400			if(DEBUG)
401	mocchiut	1.1	$ print*
402			$ ,'read_B_inner: ERROR OPENING MAGNETIC FIELD MAP FILE: '
403			$ ,Bmap_file
404
405			goto 9000 !the end
406
407
408			c------------------------------------------------------------------------
409			c
410			c ntuple event reading error
411			c
412			c------------------------------------------------------------------------
413
414			22 continue
415
416			b_error = 1
417	pam-fi	1.2	c if(b_debug.eq.1)
418			if(DEBUG)
419	mocchiut	1.1	$ print*,'read_B_inner: ERROR WHILE READING NTUPLE, at entry
420			$ : ',iev
421
422			goto 9000 !the end
423
424
425			c------------------------------------------------------------------------
426			c
427			c exit
428			c
429			c------------------------------------------------------------------------
430
431			9000 continue
432
433			return
434			end
435			*************************************************************************
436			*
437			* Subroutine readBouter
438			*
439			* it reads from rz files the two magnetic field maps taken inside the
440			* spectrometer cavity and fills the variables in common_B_inner.f
441			*
442			* needs:
443			* - common_B_outer.f common file for the outer magnetic field map
444			* - .rz map files in ./ containing coordinates of measured points, Bx, By
445			* and Bz components + errors
446			*
447			* output variables: (see common_B_outer.f)
448			* - pxo(nx,3)
449			* - pyo(ny,3)
450			* - pzo(nz,3)
451			* - bo(nx,ny,nz,3)
452			*
453			*************************************************************************
454
455			subroutine readBouter(path)
456
457			c implicit double precision (a-h,o-z)
458			include 'common_B.f'
459			include 'common_c2f.f'
460			C
461	pam-fi	1.2	LOGICAL DEBUG
462			LOGICAL VERBOSE
463			LOGICAL WARNING
464			COMMON/DBG/DEBUG,VERBOSE,WARNING
465			SAVE/DBG/
466
467	mocchiut	1.1	character*80 path
468
469			REAL hmemor(10000000)
470			integer Iquest(100)
471			COMMON /pawc/hmemor
472			save /pawc/
473			C
474			Common /QUEST/ Iquest
475			save /quest/
476
477
478
479			c------------------------------------------------------------------------
480			c
481			c local variables
482			c
483			c------------------------------------------------------------------------
484
485			character*64 Bmap_file !magnetic field file name
486			parameter (lun_Bmap_file=66) !magnetic field map file id number
487
488			parameter (ntpl_Bmap=20) !ntuple identifier
489
490			REAL PFX(3),FX,DFX, !Bx field component coordinates in m, value and error in T
491			$ PFY(3),FY,DFY
492			$ ,PFZ(3),FZ,DFZ
493			INTEGER INDEX(3) !point index
494
495			COMMON /PAWCR4/ INDEX,PFX,FX,DFX,PFY,FY,DFY,PFZ,FZ,DFZ
496
497
498			c print*,'Calling HLIMIT'
499			CALL HLIMIT(10000000)
500			C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
501			C largest RZ file: IQUEST(10) records x LREC words x 4 byte
502			C with the following settings: 65000 x 4096 x 4 = 1G
503			C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
504
505			c permette di ottenere ntuple funzionanti nonostante
506			c il messaggio dei 64K di RZOUT
507			Iquest(10) = 512000
508			c------------------------------------------------------------------------
509			c
510			c * FIRST MAP *
511			c
512			c------------------------------------------------------------------------
513
514			c------------------------------------------------------------------------
515			c
516			c initialization and map file opening
517			c
518			c------------------------------------------------------------------------
519
520			c print*,' '
521			c print*,' '
522
523			Bmap_file='External_top_map_n4_150402.rz'
524
525			c opens magnetic field map first file
526	pam-fi	1.2	c if(b_debug.eq.1)print *
527			if(VERBOSE)print *
528	mocchiut	1.1	$ ,path(1:LNBLNK(path))//Bmap_file
529			call HROPEN
530			$ (lun_Bmap_file,'Bmap'
531			$ ,path(1:LNBLNK(path))//Bmap_file
532			$ ,'P',1024,istat)
533			if(istat.ne.0) goto 21
534
535
536			call HRIN(ntpl_Bmap,9999,0) !puts B map ntuple in memory
537
538			c call HPRNTU(ntpl_Bmap)
539			call HBNAME(ntpl_Bmap,' ',0,'$CLEAR')
540			call HBNAME(ntpl_Bmap,'INDEX',index,'$SET')
541			call HBNAME(ntpl_Bmap,'BX',pfx,'$SET')
542			call HBNAME(ntpl_Bmap,'BY',pfy,'$SET')
543			call HBNAME(ntpl_Bmap,'BZ',pfz,'$SET')
544
545
546			c------------------------------------------------------------------------
547			c
548			c reads events and fills variables
549			c
550			c------------------------------------------------------------------------
551
552			call HNOENT(ntpl_Bmap,iemax) !number of events
553
554			c initializes measurement grid edges
555			do ic=1,3
556			poxmax(ic)=0.
557			poxmin(ic)=0.
558			poymax(ic)=0.
559			poymin(ic)=0.
560			pozmax(ic)=0.
561			pozmin(ic)=0.
562			enddo
563
564
565			do iev=1,iemax !event loop
566
567			call HGNT(ntpl_Bmap,iev,ierr) !reads event
568			if(ierr.ne.0) goto 22
569
570			c the output consists of matrices for coordinates, B components values
571			c and errors:
572			c e.g. px1(4,2) = X coordinate of the point with index = 4 along X,
573			c in which By (=2) component has been measured
574			c e.g. b1(3,23,4,1) = Bx (=1) component value, measured in the point with
575			c indexes = 3,23,4 along X, Y and Z
576
577			c Bx component
578			pox(index(1),1) = pfx(1)
579			if(pox(index(1),1).lt.poxmin(1)) poxmin(1)=pox(index(1),1)
580			if(pox(index(1),1).gt.poxmax(1)) poxmax(1)=pox(index(1),1)
581			poy(index(2),1) = pfx(2)
582			if(poy(index(2),1).lt.poymin(1)) poymin(1)=poy(index(2),1)
583			if(poy(index(2),1).gt.poymax(1)) poymax(1)=poy(index(2),1)
584			poz(index(3),1) = pfx(3)
585			if(poz(index(3),1).lt.pozmin(1)) pozmin(1)=poz(index(3),1)
586			if(poz(index(3),1).gt.pozmax(1)) pozmax(1)=poz(index(3),1)
587
588			bo(index(1),index(2),index(3),1) = fx
589
590
591			c By component
592			pox(index(1),2) = pfy(1)
593			if(pox(index(1),2).lt.poxmin(2)) poxmin(2)=pox(index(1),2)
594			if(pox(index(1),2).gt.poxmax(2)) poxmax(2)=pox(index(1),2)
595			poy(index(2),2) = pfy(2)
596			if(poy(index(2),2).lt.poymin(2)) poymin(2)=poy(index(2),2)
597			if(poy(index(2),2).gt.poymax(2)) poymax(2)=poy(index(2),2)
598			poz(index(3),2) = pfy(3)
599			if(poz(index(3),2).lt.pozmin(2)) pozmin(2)=poz(index(3),2)
600			if(poz(index(3),2).gt.pozmax(2)) pozmax(2)=poz(index(3),2)
601
602			bo(index(1),index(2),index(3),2) = fy
603
604
605			c Bz component
606			pox(index(1),3) = pfz(1)
607			if(pox(index(1),3).lt.poxmin(3)) poxmin(3)=pox(index(1),3)
608			if(pox(index(1),3).gt.poxmax(3)) poxmax(3)=pox(index(1),3)
609			poy(index(2),3) = pfz(2)
610			if(poy(index(2),3).lt.poymin(3)) poymin(3)=poy(index(2),3)
611			if(poy(index(2),3).gt.poymax(3)) poymax(3)=poy(index(2),3)
612			poz(index(3),3) = pfz(3)
613			if(poz(index(3),3).lt.pozmin(3)) pozmin(3)=poz(index(3),3)
614			if(poz(index(3),3).gt.pozmax(3)) pozmax(3)=poz(index(3),3)
615
616			bo(index(1),index(2),index(3),3) = fz
617
618			enddo
619
620
621			c------------------------------------------------------------------------
622			c
623			c closes files
624			c
625			c------------------------------------------------------------------------
626
627			call HREND('Bmap')
628			close(lun_Bmap_file)
629
630
631			c------------------------------------------------------------------------
632			c
633			c no error exit
634			c
635			c------------------------------------------------------------------------
636
637			goto 9000 !happy ending
638
639			c------------------------------------------------------------------------
640			c
641			c magnetic field map file opening error
642			c
643			c------------------------------------------------------------------------
644
645			21 continue
646
647			b_error = 1
648	pam-fi	1.2	c if(b_debug.eq.1)
649			if(DEBUG)
650	mocchiut	1.1	$ print*
651			$ ,'read_B_inner: ERROR OPENING MAGNETIC FIELD MAP FILE: '
652			$ ,Bmap_file
653
654			goto 9000 !the end
655
656
657			c------------------------------------------------------------------------
658			c
659			c ntuple event reading error
660			c
661			c------------------------------------------------------------------------
662
663			22 continue
664
665			b_error = 1
666	pam-fi	1.2	c if(b_debug.eq.1)
667			if(DEBUG)
668	mocchiut	1.1	$ print*
669			$ ,'read_B_inner: ERROR WHILE READING NTUPLE, at event
670			$ : ',iev
671
672			goto 9000 !the end
673
674
675			c------------------------------------------------------------------------
676			c
677			c exit
678			c
679			c------------------------------------------------------------------------
680
681			9000 continue
682
683			return
684			end
685