forroutines/tof/tofunpack.for

C--------------------------------------------------------------------
      SUBROUTINE TOFUNPACK(vecta,lung,me)

C                                  modified  D.Campana,  May. 06
C                                            D.Campana,  Dec. 04
C--------------------------------------------------------------------

      IMPLICIT NONE

C
C Normal variables definition
C
      integer lung
      integer*1 vecta(lung)
      integer*1 vectof(lung,16)
      integer*2 ibuf
      integer me
      integer check, crctof 
      integer ic0,sup,inf 
      integer i, ic, bit, bi,j ,iadd, iword,iw,idw,iup,ind
      integer start,ntdc,tdcfirst,tdccodeq,tdccodet
      integer tdcnum(12), boardnum(12)
      integer tdcadd(8),coldadd(8)
      integer tdcid(12),evcount(12)
      integer tdcmask(12),adc(4,12),tdc(4,12)
      integer rawadc(4,12),rawtdc(4,12),grayadc(4,12),graytdc(4,12)
      integer temp1(12),temp2(12)
      logical flag2
      integer ii,ik,adc_ch2,tdc_ch1,icorr
      integer dsphot,dspcold,code
C 
c      data start,ntdc /150,12/ ! to read data before Christmas 2004
      data start,ntdc /153,12/ ! to read data after Christmas 2004
      data tdcadd /1,0,3,2,5,4,7,6/
      data coldadd /6,7,4,5,2,3,0,1/

      COMMON / tofvar /tdcid,evcount,tdcmask,adc,tdc,temp1,temp2
      save / tofvar /

C         
c----+---1---------2---------3---------4---------5---------6---------7---------8
C     Begin ! 
C    'start' is  a pointer to the ToF data 
c----+---1---------2---------3---------4---------5---------6---------7---------8

C
      ic = start
C
c      print *,'++++++++++ Tof Unpack entro ++++++++++++++++'

      dspcold = 0 
      dsphot = 0 

      do j = 1,ntdc
      flag2=.true.
      ic0 = ic      ! first index for the CRC computation
      tdcid(j) = 0
      evcount(j) = 0
      tdcnum(j) = 0        !  the 4 MSBs  in TDCid
      boardnum(j) = 0      !  the 4 LSBs  in TDCid      
      do bit = 0, 7
         bi = ibits(vecta(ic),bit,1)
         if (bi.eq.1)then 
            tdcid(j) = ibset(tdcid(j),bit)
           if (bit.le.3)then
              boardnum(j) = ibset(boardnum(j),bit)
           else
              tdcnum(j) = ibset(tdcnum(j),bit-4)
            endif
         endif
         bi = ibits(vecta(ic+1),bit,1)
         if (bi.eq.1) evcount(j) = ibset(evcount(j),bit)
      enddo
c
      ic=ic+2

      if ((ic+1).gt.lung) then
         me=1
         return
      endif

c      print *,'++++++++++ Tof Unpack 2 ++++++++++++++++'
      tdcmask(j) = 0
      do bit = 0, 7
         bi = ibits(vecta(ic),bit,1)
         if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit+8)
         bi = ibits(vecta(ic+1),bit,1)
         if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit)
      enddo
c
      ic=ic+2
      if (ic.gt.lung) then
         me=1
         return
      endif
c
c      print *,'++++++++++ Tof Unpack 3 ++++++++++++++++'
c
c   if the first word RAWADC are equal to 0
c   the data storage is shifted by a word --> ic = ic+1
c   and TEMP2 is overwritten by the CRC --> flag2=.false.
c
       tdcfirst = 0  
       do bit = 0,7
         bi = ibits(vecta(ic),bit,1)
         if (bi.eq.1) tdcfirst = ibset(tdcfirst,bit)
       enddo       
       if (tdcfirst.eq.0) then
         ic=ic+1
         flag2=.false.
       endif
      if (ic.gt.lung) then
         me=1
         return
      endif
c
c  ----- se stiamo acquisendo con il DSP cold, bisogna tener conto
c  ----- che c'e' un' inversione nel cavo che va alla scheda 5
c  ----- quindi per TDCnum =1,2 e Boardnum=4 (va da 0 a 5)
c  ----- le parole che seguono sono invertite bit a bit 
c  -----        cioe' si fa il complemento a 2**8-1 =255
c
       if (dspcold.eq.0 .and. dsphot.eq.0) then
       if (boardnum(j).eq.4)then
       if((tdcnum(j).eq.1).or.(tdcnum(j).eq.2))then
         code = 0 
         do bit = 5,7
           bi = ibits(vecta(ic),bit,1)
           if (bi.eq.1) code = ibset(code,bit-5)
         enddo         
       if (code.eq.coldadd(1)) dspcold = 1
       if (code.eq.tdcadd(1)) dsphot = 1
       endif
       endif
       endif
c 
c      print *,'++++++++++ Tof Unpack 4 ++++++++++++++++'
c     

       do i=1,16
       do iword=0,17 
          vectof(ic+iword,i)=0
       enddo
       enddo
c
       do iword=0,17 ! le parole successive sono copiate in vectof

          if ((ic+iword).gt.lung) then
             me=1
             return
          endif

          vectof(ic+iword,1)=vecta(ic+iword)
       enddo
c
       if (dspcold.eq.1) then
       if (boardnum(j).eq.4)then
       if((tdcnum(j).eq.1).or.(tdcnum(j).eq.2))then
         do iword=0,17 
            if ((ic+iword).gt.lung) then
               me=1
               return
            endif
            vectof(ic+iword,1)= 255 - vecta(ic+iword)
         enddo
       endif
       endif
       endif

c      print *,'++++++++++ Tof Unpack 5 ++++++++++++++++'

c
c -----fine cura inversione cavo FE to DSP cold
c
c
       ind=1               !  all'inizio parto da vecta(ic)==vectof(ic,1)
       tdc_ch1=0
       adc_ch2=0
       icorr=0
c
        
       do i=1,4                 !  loop on TDC 4 channels
c        print *,'====================='
c        print *,'TDC =',J,'  CANALE =',I

C
C   -------------- inizio correzione per le coppie di zeri  ------------
C
c   if first 3 bits of the word RAWADC(TDC) are not equal to 
c                              tdcadd(iadd) 
c   the data storage has to be shifted by 2 bit (are spurious zeroes
c   introduced by the F.E.board)
c
c
c   Check only on the MSB (bit 13,14 e 15 of 2(+2) word RAWADC(TDC): 
c         vecta(ic) and vecta(ic+2))
c
       iadd = 2*(i-1)+1   ! = 1,3,5,7
       ii=i
C
C ----------------- Controllo sulla parola ADC
C
11     continue
      if (ind.lt.15)then
       tdccodeq = 0  
c      print *,'++++++++++ Tof Unpack 6 (11 continue) ++++++++++++'
C
       do bit = 5,7
         bi = ibits(vectof(ic,ind),bit,1)
         if (bi.eq.1) tdccodeq = ibset(tdccodeq,bit-5)
       enddo     
C  
       if (tdccodeq.ne.tdcadd(iadd)) then
c
c------------- controllo che la colpa dei 2 zeri non sia di TDC(ch1)
c 
         if ((iadd.eq.3).and.(tdc_ch1.eq.0))then
          if (tdccodeq.ne.0) then
c            print *,'2 zeri in ADC, ma la colpa forse e` del TDC'
            ic=ic-4
            iadd=1
            ii=1
            adc_ch2=99
            goto 12
            endif
         endif
c--------------- fine controllo 
c                    
c         PRINT *, '---------shift di 2 zeri sui dati ADC ! '
c         print *,'numero di tdc = ',j,', ind = ',ind
c         print *,'vectof(ic,ind),tdccodeq,tdcadd(iadd),iadd'
c         print *,vectof(ic,ind),tdccodeq,tdcadd(iadd),iadd
c
         iup = 17-4*(ii-1) 
         idw = 0
         do iw=idw,iup
           do bit = 0, 7
             if(bit.le.5)then
               bi = ibits(vectof(ic+iw,ind),bit,1)
               if (bi.eq.1) vectof(ic+iw,ind+1) = 
     +                      ibset(vectof(ic+iw,ind+1),bit+2)
             else
               bi = ibits(vectof(ic+1+iw,ind),bit,1)
               if (bi.eq.1) vectof(ic+iw,ind+1) = 
     +                      ibset(vectof(ic+iw,ind+1),bit-6)
             endif
           enddo ! loop sui bit
         enddo ! loop sulle parole
c
c----+---1---------2---------3---------4---------5---------6---------7---------8
c
           if(iadd.eq.3)adc_ch2=adc_ch2+1
           ind = (ind + 1)   !  aggiorno l' indice
           if (ind.lt.15)then
              go to 11           !  rifaccio il check
           else
c             print *,'exit ADC senza soluzione',ind
             continue
           endif
       endif

c ------- se e' l'ADC channel 2 bisogna ricontrollare il TDC precedente

       if ((iadd.eq.3).and.(adc_ch2.ge.2).and.(tdc_ch1.eq.0))then
c         print *,'ci sono!!ADC ch 2 torno al TDC!!!'
c         print *,'adc_ch2 = ',adc_ch2
c         print *,'ind = ',ind

          ind=ind-adc_ch2
c         print *,'ind - adc_ch2 = ',ind
            do ik=1,adc_ch2
            do iword=0,17 
               vectof(ic+iword,ind+ik)=0
            enddo
            enddo
         ic=ic-4
         iadd=1
         ii=1
         goto 12
       endif

       endif ! fine controllo su ind < 15

c      print *,'++++++++++ Tof Unpack 6,5 registro ADC ++++++++++++++'
c
c ---  registro RAWADC
c
         rawadc(i,j) = 0
         do bit = 0, 7
           bi = ibits(vectof(ic,ind),bit,1)
           if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit+8)
           bi = ibits(vectof(ic+1,ind),bit,1)
           if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit)
         enddo
C
C
C ----------------- Controllo sulla parola TDC
C     
12    continue
      if (ind.lt.16)then
      tdccodet = 0  
c      print *,'++++++++++ Tof Unpack 7 (12 continue) ++++++++++++++++'
       do bit = 5,7
         bi = ibits(vectof(ic+2,ind),bit,1)
         if (bi.eq.1) tdccodet = ibset(tdccodet,bit-5)
       enddo     
       if ((tdccodet.ne.tdcadd(iadd+1)).or.
     +     ((adc_ch2.ge.2).and.(iadd.eq.1)))then
c----+---1---------2---------3---------4---------5---------6---------7---------8
c
          if(adc_ch2.ge.2)then
             adc_ch2=0
             icorr=1
          endif
c          PRINT *, '---------shift di 2 zeri sui dati TDC  ! '
c          print *,'vectof(ic+2,ind),tdccodet,tdcadd(iadd+1),(iadd+1)'
c          print *,vectof(ic+2,ind),tdccodet,tdcadd(iadd+1),(iadd+1)
c 
          iup = 17-4*(ii-1)
          idw =2
          do iw=idw,iup
           do bit = 0, 7
             if(bit.le.5)then
               bi = ibits(vectof(ic+iw,ind),bit,1)
               if (bi.eq.1) vectof(ic+iw,ind+1) = 
     +                      ibset(vectof(ic+iw,ind+1),bit+2)
             else
               bi = ibits(vectof(ic+1+iw,ind),bit,1)
               if (bi.eq.1) vectof(ic+iw,ind+1) = 
     +                      ibset(vectof(ic+iw,ind+1),bit-6)
             endif
           enddo ! loop sui bit
          enddo ! loop sulle parole
c----+---1---------2---------3---------4---------5---------6---------7---------8
c 
            if(iadd.eq.1)tdc_ch1=tdc_ch1+1
            ind = (ind + 1)   !  aggiorno l' indice
            if (ind.lt.16) then
               go to 12         !  rifaccio il check
            else
c               print *,'exit TDC senza successo ',ind
               continue
            endif         
       endif

       endif ! fine controllo su ind < 16

c      print *,'++++++++++ Tof Unpack 8 registro TDC  +++++++++++++'
c
c --- registro RAWTDC
c 
        rawtdc(ii,j) = 0
        do bit = 0, 7
           bi = ibits(vectof(ic+2,ind),bit,1)
           if (bi.eq.1) rawtdc(ii,j) = ibset(rawtdc(ii,j),bit+8)
           bi = ibits(vectof(ic+3,ind),bit,1)
           if (bi.eq.1) rawtdc(ii,j) = ibset(rawtdc(ii,j),bit)
        enddo
c
c
c ------- se e' il TDC channel 1 e' il risultato dell'iterazione prodotta
c          dall' ADC channel 2 bisogna ripassare all' ADC successivo 

       if ((iadd.eq.1).and.(icorr.eq.1).and.(tdc_ch1.gt.0))then
         iadd=3
         ii=2
         ic=ic+4
c         print *,'sto tornando all ADC dopo aver corr. il TDC',ind
         goto 11
       endif
C
C   -------------- fine correzione per le coppie di zeri  ------------
C

        ic=ic+4
      enddo   !  fine loop sui 4 TDC channel

c      print *,'++++++ Tof Unpack 9 fine primo loop sui ch +++++++++'

c
c   adc e tdc data have to be translated from Gray code to binary (bit 0-11)
c    bit 12 is added after conversion  (control bit)
c    bit 13 is 1(0) for charge(time) information
c    bits 14-15 give the channel 1-4 on the board.
c
       do i=1,4                 !  loop on TDC 4 channels
c        print *,'=========== graytobin e registro =========='
c        print *,'TDC =',J,'  CANALE =',I
        grayadc(i,j) = 0
        graytdc(i,j) = 0

        grayadc(i,j)=ibits(rawadc(i,j),0,12)
        graytdc(i,j)=ibits(rawtdc(i,j),0,12)
c     
        call graytobin(grayadc(i,j),adc(i,j),12)
        call graytobin(graytdc(i,j),tdc(i,j),12)
c     
        bi = ibits(rawtdc(i,j),12,1)
        if (bi.eq.1) tdc(i,j) = ibset(tdc(i,j),12)
        bi = ibits(rawadc(i,j),12,1)
        if (bi.eq.1) adc(i,j) = ibset(adc(i,j),12)
c
c        PRINT *,'i, j, RAWadc(i,j) ,RAWtdc(i,j)'
c        PRINT *, i, j, rawadc(i,j) ,rawtdc(i,j)
c        PRINT *,'i, j, ADC(i,j), TDC(i,j)'
c        PRINT *, i, j, adc(i,j), tdc(i,j)
c     
      enddo

c----+---1---------2---------3---------4---------5---------6---------7---------8

c      print *,'+++++++ Tof Unpack 10 fine secondo loop sui ch +++++++'

c     
      temp1(j) = 0
      temp2(j) = 0
      do bit = 0, 7
         bi = ibits(vectof(ic,ind),bit,1)
         if (bi.eq.1) temp1(j) = ibset(temp1(j),bit)
      enddo
      ic=ic+1
c
      if (flag2.eqv..true.) then     
         do bit = 0, 7         
            bi = ibits(vectof(ic,ind),bit,1)
            if (bi.eq.1) temp2(j) = ibset(temp2(j),bit)
         enddo
         ic=ic+1 
      else
         temp2(j) = 99
      endif 
c      print *,'++++++++++ Tof Unpack 11 fine temperatura ++++++++'
c     
c    vecta(ic) is the CRC
c Check consistency of CRC.
c
ccc      if(vecta(ic).lt.0)vecta(ic)=vecta(ic)+256
      if (ic.gt.lung) then
         me=1
         return
      endif

      ibuf=0
      do bit = 0, 7         
         bi = ibits(vecta(ic),bit,1)
         if (bi.eq.1) ibuf = ibset(ibuf,bit)
      enddo
c
      check = 0
      inf = ic0
      sup = ic - 1
      do i = inf,sup
         if ((i.gt.lung).or.(i.lt.1)) then
            me=1
            return
         endif
         check=crctof(check,vecta(i))
      enddo
c      if (check.ne.vecta(ic)) then
      me = 0
      if (check.ne.ibuf) then
c         print *,'crc wrong ',ibuf, check
         me = 1
      endif

c
c        print *,'---------> ic, j' ,ic,j
        ic=ic+1
        if (ic.gt.lung) then
           me=1
           return
        endif

      enddo       !  j = 1,ntdc

c      print *,'++++++++++ Tof Unpack escooo ! ++++++++++++++++'

   
      RETURN
      END
1	mocchiut	1.1	C--------------------------------------------------------------------
2			SUBROUTINE TOFUNPACK(vecta,lung,me)
3
4			C modified D.Campana, May. 06
5			C D.Campana, Dec. 04
6			C--------------------------------------------------------------------
7
8			IMPLICIT NONE
9
10			C
11			C Normal variables definition
12			C
13			integer lung
14			integer*1 vecta(lung)
15			integer*1 vectof(lung,16)
16			integer*2 ibuf
17			integer me
18			integer check, crctof
19			integer ic0,sup,inf
20			integer i, ic, bit, bi,j ,iadd, iword,iw,idw,iup,ind
21			integer start,ntdc,tdcfirst,tdccodeq,tdccodet
22			integer tdcnum(12), boardnum(12)
23			integer tdcadd(8),coldadd(8)
24			integer tdcid(12),evcount(12)
25			integer tdcmask(12),adc(4,12),tdc(4,12)
26			integer rawadc(4,12),rawtdc(4,12),grayadc(4,12),graytdc(4,12)
27			integer temp1(12),temp2(12)
28			logical flag2
29			integer ii,ik,adc_ch2,tdc_ch1,icorr
30			integer dsphot,dspcold,code
31			C
32			c data start,ntdc /150,12/ ! to read data before Christmas 2004
33			data start,ntdc /153,12/ ! to read data after Christmas 2004
34			data tdcadd /1,0,3,2,5,4,7,6/
35			data coldadd /6,7,4,5,2,3,0,1/
36
37			COMMON / tofvar /tdcid,evcount,tdcmask,adc,tdc,temp1,temp2
38			save / tofvar /
39
40			C
41			c----+---1---------2---------3---------4---------5---------6---------7---------8
42			C Begin !
43			C 'start' is a pointer to the ToF data
44			c----+---1---------2---------3---------4---------5---------6---------7---------8
45
46			C
47			ic = start
48			C
49			c print *,'++++++++++ Tof Unpack entro ++++++++++++++++'
50
51			dspcold = 0
52			dsphot = 0
53
54			do j = 1,ntdc
55			flag2=.true.
56			ic0 = ic ! first index for the CRC computation
57			tdcid(j) = 0
58			evcount(j) = 0
59			tdcnum(j) = 0 ! the 4 MSBs in TDCid
60			boardnum(j) = 0 ! the 4 LSBs in TDCid
61			do bit = 0, 7
62			bi = ibits(vecta(ic),bit,1)
63			if (bi.eq.1)then
64			tdcid(j) = ibset(tdcid(j),bit)
65			if (bit.le.3)then
66			boardnum(j) = ibset(boardnum(j),bit)
67			else
68			tdcnum(j) = ibset(tdcnum(j),bit-4)
69			endif
70			endif
71			bi = ibits(vecta(ic+1),bit,1)
72			if (bi.eq.1) evcount(j) = ibset(evcount(j),bit)
73			enddo
74			c
75			ic=ic+2
76
77			if ((ic+1).gt.lung) then
78			me=1
79			return
80			endif
81
82			c print *,'++++++++++ Tof Unpack 2 ++++++++++++++++'
83			tdcmask(j) = 0
84			do bit = 0, 7
85			bi = ibits(vecta(ic),bit,1)
86			if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit+8)
87			bi = ibits(vecta(ic+1),bit,1)
88			if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit)
89			enddo
90			c
91			ic=ic+2
92			if (ic.gt.lung) then
93			me=1
94			return
95			endif
96			c
97			c print *,'++++++++++ Tof Unpack 3 ++++++++++++++++'
98			c
99			c if the first word RAWADC are equal to 0
100			c the data storage is shifted by a word --> ic = ic+1
101			c and TEMP2 is overwritten by the CRC --> flag2=.false.
102			c
103			tdcfirst = 0
104			do bit = 0,7
105			bi = ibits(vecta(ic),bit,1)
106			if (bi.eq.1) tdcfirst = ibset(tdcfirst,bit)
107			enddo
108			if (tdcfirst.eq.0) then
109			ic=ic+1
110			flag2=.false.
111			endif
112			if (ic.gt.lung) then
113			me=1
114			return
115			endif
116			c
117			c ----- se stiamo acquisendo con il DSP cold, bisogna tener conto
118			c ----- che c'e' un' inversione nel cavo che va alla scheda 5
119			c ----- quindi per TDCnum =1,2 e Boardnum=4 (va da 0 a 5)
120			c ----- le parole che seguono sono invertite bit a bit
121			c ----- cioe' si fa il complemento a 2**8-1 =255
122			c
123			if (dspcold.eq.0 .and. dsphot.eq.0) then
124			if (boardnum(j).eq.4)then
125			if((tdcnum(j).eq.1).or.(tdcnum(j).eq.2))then
126			code = 0
127			do bit = 5,7
128			bi = ibits(vecta(ic),bit,1)
129			if (bi.eq.1) code = ibset(code,bit-5)
130			enddo
131			if (code.eq.coldadd(1)) dspcold = 1
132			if (code.eq.tdcadd(1)) dsphot = 1
133			endif
134			endif
135			endif
136			c
137			c print *,'++++++++++ Tof Unpack 4 ++++++++++++++++'
138			c
139
140			do i=1,16
141			do iword=0,17
142			vectof(ic+iword,i)=0
143			enddo
144			enddo
145			c
146			do iword=0,17 ! le parole successive sono copiate in vectof
147
148			if ((ic+iword).gt.lung) then
149			me=1
150			return
151			endif
152
153			vectof(ic+iword,1)=vecta(ic+iword)
154			enddo
155			c
156			if (dspcold.eq.1) then
157			if (boardnum(j).eq.4)then
158			if((tdcnum(j).eq.1).or.(tdcnum(j).eq.2))then
159			do iword=0,17
160			if ((ic+iword).gt.lung) then
161			me=1
162			return
163			endif
164			vectof(ic+iword,1)= 255 - vecta(ic+iword)
165			enddo
166			endif
167			endif
168			endif
169
170			c print *,'++++++++++ Tof Unpack 5 ++++++++++++++++'
171
172			c
173			c -----fine cura inversione cavo FE to DSP cold
174			c
175			c
176			ind=1 ! all'inizio parto da vecta(ic)==vectof(ic,1)
177			tdc_ch1=0
178			adc_ch2=0
179			icorr=0
180			c
181
182			do i=1,4 ! loop on TDC 4 channels
183			c print *,'====================='
184			c print *,'TDC =',J,' CANALE =',I
185
186			C
187			C -------------- inizio correzione per le coppie di zeri ------------
188			C
189			c if first 3 bits of the word RAWADC(TDC) are not equal to
190			c tdcadd(iadd)
191			c the data storage has to be shifted by 2 bit (are spurious zeroes
192			c introduced by the F.E.board)
193			c
194			c
195			c Check only on the MSB (bit 13,14 e 15 of 2(+2) word RAWADC(TDC):
196			c vecta(ic) and vecta(ic+2))
197			c
198			iadd = 2*(i-1)+1 ! = 1,3,5,7
199			ii=i
200			C
201			C ----------------- Controllo sulla parola ADC
202			C
203			11 continue
204			if (ind.lt.15)then
205			tdccodeq = 0
206			c print *,'++++++++++ Tof Unpack 6 (11 continue) ++++++++++++'
207			C
208			do bit = 5,7
209			bi = ibits(vectof(ic,ind),bit,1)
210			if (bi.eq.1) tdccodeq = ibset(tdccodeq,bit-5)
211			enddo
212			C
213			if (tdccodeq.ne.tdcadd(iadd)) then
214			c
215			c------------- controllo che la colpa dei 2 zeri non sia di TDC(ch1)
216			c
217			if ((iadd.eq.3).and.(tdc_ch1.eq.0))then
218			if (tdccodeq.ne.0) then
219			c print *,'2 zeri in ADC, ma la colpa forse e` del TDC'
220			ic=ic-4
221			iadd=1
222			ii=1
223			adc_ch2=99
224			goto 12
225			endif
226			endif
227			c--------------- fine controllo
228			c
229			c PRINT *, '---------shift di 2 zeri sui dati ADC ! '
230			c print *,'numero di tdc = ',j,', ind = ',ind
231			c print *,'vectof(ic,ind),tdccodeq,tdcadd(iadd),iadd'
232			c print *,vectof(ic,ind),tdccodeq,tdcadd(iadd),iadd
233			c
234			iup = 17-4*(ii-1)
235			idw = 0
236			do iw=idw,iup
237			do bit = 0, 7
238			if(bit.le.5)then
239			bi = ibits(vectof(ic+iw,ind),bit,1)
240			if (bi.eq.1) vectof(ic+iw,ind+1) =
241			+ ibset(vectof(ic+iw,ind+1),bit+2)
242			else
243			bi = ibits(vectof(ic+1+iw,ind),bit,1)
244			if (bi.eq.1) vectof(ic+iw,ind+1) =
245			+ ibset(vectof(ic+iw,ind+1),bit-6)
246			endif
247			enddo ! loop sui bit
248			enddo ! loop sulle parole
249			c
250			c----+---1---------2---------3---------4---------5---------6---------7---------8
251			c
252			if(iadd.eq.3)adc_ch2=adc_ch2+1
253			ind = (ind + 1) ! aggiorno l' indice
254			if (ind.lt.15)then
255			go to 11 ! rifaccio il check
256			else
257			c print *,'exit ADC senza soluzione',ind
258			continue
259			endif
260			endif
261
262			c ------- se e' l'ADC channel 2 bisogna ricontrollare il TDC precedente
263
264			if ((iadd.eq.3).and.(adc_ch2.ge.2).and.(tdc_ch1.eq.0))then
265			c print *,'ci sono!!ADC ch 2 torno al TDC!!!'
266			c print *,'adc_ch2 = ',adc_ch2
267			c print *,'ind = ',ind
268
269			ind=ind-adc_ch2
270			c print *,'ind - adc_ch2 = ',ind
271			do ik=1,adc_ch2
272			do iword=0,17
273			vectof(ic+iword,ind+ik)=0
274			enddo
275			enddo
276			ic=ic-4
277			iadd=1
278			ii=1
279			goto 12
280			endif
281
282			endif ! fine controllo su ind < 15
283
284			c print *,'++++++++++ Tof Unpack 6,5 registro ADC ++++++++++++++'
285			c
286			c --- registro RAWADC
287			c
288			rawadc(i,j) = 0
289			do bit = 0, 7
290			bi = ibits(vectof(ic,ind),bit,1)
291			if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit+8)
292			bi = ibits(vectof(ic+1,ind),bit,1)
293			if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit)
294			enddo
295			C
296			C
297			C ----------------- Controllo sulla parola TDC
298			C
299			12 continue
300			if (ind.lt.16)then
301			tdccodet = 0
302			c print *,'++++++++++ Tof Unpack 7 (12 continue) ++++++++++++++++'
303			do bit = 5,7
304			bi = ibits(vectof(ic+2,ind),bit,1)
305			if (bi.eq.1) tdccodet = ibset(tdccodet,bit-5)
306			enddo
307			if ((tdccodet.ne.tdcadd(iadd+1)).or.
308			+ ((adc_ch2.ge.2).and.(iadd.eq.1)))then
309			c----+---1---------2---------3---------4---------5---------6---------7---------8
310			c
311			if(adc_ch2.ge.2)then
312			adc_ch2=0
313			icorr=1
314			endif
315			c PRINT *, '---------shift di 2 zeri sui dati TDC ! '
316			c print *,'vectof(ic+2,ind),tdccodet,tdcadd(iadd+1),(iadd+1)'
317			c print *,vectof(ic+2,ind),tdccodet,tdcadd(iadd+1),(iadd+1)
318			c
319			iup = 17-4*(ii-1)
320			idw =2
321			do iw=idw,iup
322			do bit = 0, 7
323			if(bit.le.5)then
324			bi = ibits(vectof(ic+iw,ind),bit,1)
325			if (bi.eq.1) vectof(ic+iw,ind+1) =
326			+ ibset(vectof(ic+iw,ind+1),bit+2)
327			else
328			bi = ibits(vectof(ic+1+iw,ind),bit,1)
329			if (bi.eq.1) vectof(ic+iw,ind+1) =
330			+ ibset(vectof(ic+iw,ind+1),bit-6)
331			endif
332			enddo ! loop sui bit
333			enddo ! loop sulle parole
334			c----+---1---------2---------3---------4---------5---------6---------7---------8
335			c
336			if(iadd.eq.1)tdc_ch1=tdc_ch1+1
337			ind = (ind + 1) ! aggiorno l' indice
338			if (ind.lt.16) then
339			go to 12 ! rifaccio il check
340			else
341			c print *,'exit TDC senza successo ',ind
342			continue
343			endif
344			endif
345
346			endif ! fine controllo su ind < 16
347
348			c print *,'++++++++++ Tof Unpack 8 registro TDC +++++++++++++'
349			c
350			c --- registro RAWTDC
351			c
352			rawtdc(ii,j) = 0
353			do bit = 0, 7
354			bi = ibits(vectof(ic+2,ind),bit,1)
355			if (bi.eq.1) rawtdc(ii,j) = ibset(rawtdc(ii,j),bit+8)
356			bi = ibits(vectof(ic+3,ind),bit,1)
357			if (bi.eq.1) rawtdc(ii,j) = ibset(rawtdc(ii,j),bit)
358			enddo
359			c
360			c
361			c ------- se e' il TDC channel 1 e' il risultato dell'iterazione prodotta
362			c dall' ADC channel 2 bisogna ripassare all' ADC successivo
363
364			if ((iadd.eq.1).and.(icorr.eq.1).and.(tdc_ch1.gt.0))then
365			iadd=3
366			ii=2
367			ic=ic+4
368			c print *,'sto tornando all ADC dopo aver corr. il TDC',ind
369			goto 11
370			endif
371			C
372			C -------------- fine correzione per le coppie di zeri ------------
373			C
374
375			ic=ic+4
376			enddo ! fine loop sui 4 TDC channel
377
378			c print *,'++++++ Tof Unpack 9 fine primo loop sui ch +++++++++'
379
380			c
381			c adc e tdc data have to be translated from Gray code to binary (bit 0-11)
382			c bit 12 is added after conversion (control bit)
383			c bit 13 is 1(0) for charge(time) information
384			c bits 14-15 give the channel 1-4 on the board.
385			c
386			do i=1,4 ! loop on TDC 4 channels
387			c print *,'=========== graytobin e registro =========='
388			c print *,'TDC =',J,' CANALE =',I
389			grayadc(i,j) = 0
390			graytdc(i,j) = 0
391
392			grayadc(i,j)=ibits(rawadc(i,j),0,12)
393			graytdc(i,j)=ibits(rawtdc(i,j),0,12)
394			c
395			call graytobin(grayadc(i,j),adc(i,j),12)
396			call graytobin(graytdc(i,j),tdc(i,j),12)
397			c
398			bi = ibits(rawtdc(i,j),12,1)
399			if (bi.eq.1) tdc(i,j) = ibset(tdc(i,j),12)
400			bi = ibits(rawadc(i,j),12,1)
401			if (bi.eq.1) adc(i,j) = ibset(adc(i,j),12)
402			c
403			c PRINT *,'i, j, RAWadc(i,j) ,RAWtdc(i,j)'
404			c PRINT *, i, j, rawadc(i,j) ,rawtdc(i,j)
405			c PRINT *,'i, j, ADC(i,j), TDC(i,j)'
406			c PRINT *, i, j, adc(i,j), tdc(i,j)
407			c
408			enddo
409
410			c----+---1---------2---------3---------4---------5---------6---------7---------8
411
412			c print *,'+++++++ Tof Unpack 10 fine secondo loop sui ch +++++++'
413
414			c
415			temp1(j) = 0
416			temp2(j) = 0
417			do bit = 0, 7
418			bi = ibits(vectof(ic,ind),bit,1)
419			if (bi.eq.1) temp1(j) = ibset(temp1(j),bit)
420			enddo
421			ic=ic+1
422			c
423			if (flag2.eqv..true.) then
424			do bit = 0, 7
425			bi = ibits(vectof(ic,ind),bit,1)
426			if (bi.eq.1) temp2(j) = ibset(temp2(j),bit)
427			enddo
428			ic=ic+1
429			else
430			temp2(j) = 99
431			endif
432			c print *,'++++++++++ Tof Unpack 11 fine temperatura ++++++++'
433			c
434			c vecta(ic) is the CRC
435			c Check consistency of CRC.
436			c
437			ccc if(vecta(ic).lt.0)vecta(ic)=vecta(ic)+256
438			if (ic.gt.lung) then
439			me=1
440			return
441			endif
442
443			ibuf=0
444			do bit = 0, 7
445			bi = ibits(vecta(ic),bit,1)
446			if (bi.eq.1) ibuf = ibset(ibuf,bit)
447			enddo
448			c
449			check = 0
450			inf = ic0
451			sup = ic - 1
452			do i = inf,sup
453			if ((i.gt.lung).or.(i.lt.1)) then
454			me=1
455			return
456			endif
457			check=crctof(check,vecta(i))
458			enddo
459			c if (check.ne.vecta(ic)) then
460			me = 0
461			if (check.ne.ibuf) then
462			c print *,'crc wrong ',ibuf, check
463			me = 1
464			endif
465
466			c
467			c print *,'---------> ic, j' ,ic,j
468			ic=ic+1
469			if (ic.gt.lung) then
470			me=1
471			return
472			endif
473
474			enddo ! j = 1,ntdc
475
476			c print *,'++++++++++ Tof Unpack escooo ! ++++++++++++++++'
477
478
479			RETURN
480			END