forroutines/tof/tofunpack.for

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

C                                  modified  D.Campana,  Mar. 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 ++++++++++++++++'

      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         print *,'tdcnum(j),boardnum(j)'
c         print *, tdcnum(j),boardnum(j)
c
      ic=ic+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
c
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
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      
       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
          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 
            vectof(ic+iword,1)= 255 - vecta(ic+iword)
         enddo
       endif
       endif
       endif

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
       tdccodeq = 0  
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.le.14)then
              go to 11           !  rifaccio il check
           else
c             print *,'exit ADC senza soluzione',ind
           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!!!!!!!!!!!!!!!!!!'
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
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
       tdccodet = 0  
       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.le.15) then
               go to 12         !  rifaccio il check
            else
c               print *,'exit TDC senza successo ',ind
            endif         
       endif
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
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     
      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     
c    vecta(ic) is the CRC
c Check consistency of CRC.
c
ccc      if(vecta(ic).lt.0)vecta(ic)=vecta(ic)+256

      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
         check=crctof(check,vecta(i))
      enddo
c      if (check.ne.vecta(ic)) then
      if (check.ne.ibuf) then
         print *,'crc wrong ',ibuf, check
         me = 1
      endif

c
c        print *,'---------> ic, j' ,ic,j
        ic=ic+1

      enddo       !  j = 1,ntdc

   
      RETURN
      END
1	C--------------------------------------------------------------------
2	SUBROUTINE TOFUNPACK(vecta,lung,me)
3
4	C modified D.Campana, Mar. 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 ++++++++++++++++'
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 print *,'tdcnum(j),boardnum(j)'
75	c print *, tdcnum(j),boardnum(j)
76	c
77	ic=ic+2
78	tdcmask(j) = 0
79	do bit = 0, 7
80	bi = ibits(vecta(ic),bit,1)
81	if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit+8)
82	bi = ibits(vecta(ic+1),bit,1)
83	if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit)
84	enddo
85	c
86	ic=ic+2
87	c
88	c
89	c if the first word RAWADC are equal to 0
90	c the data storage is shifted by a word --> ic = ic+1
91	c and TEMP2 is overwritten by the CRC --> flag2=.false.
92	c
93	tdcfirst = 0
94	do bit = 0,7
95	bi = ibits(vecta(ic),bit,1)
96	if (bi.eq.1) tdcfirst = ibset(tdcfirst,bit)
97	enddo
98	if (tdcfirst.eq.0) then
99	ic=ic+1
100	flag2=.false.
101	endif
102	c
103	c ----- se stiamo acquisendo con il DSP cold, bisogna tener conto
104	c ----- che c'e' un' inversione nel cavo che va alla scheda 5
105	c ----- quindi per TDCnum =1,2 e Boardnum=4 (va da 0 a 5)
106	c ----- le parole che seguono sono invertite bit a bit
107	c ----- cioe' si fa il complemento a 2**8-1 =255
108	c
109	if (dspcold.eq.0 .and. dsphot.eq.0) then
110	if (boardnum(j).eq.4)then
111	if((tdcnum(j).eq.1).or.(tdcnum(j).eq.2))then
112	code = 0
113	do bit = 5,7
114	bi = ibits(vecta(ic),bit,1)
115	if (bi.eq.1) code = ibset(code,bit-5)
116	enddo
117	if (code.eq.coldadd(1)) dspcold = 1
118	if (code.eq.tdcadd(1)) dsphot = 1
119	endif
120	endif
121	endif
122	c
123	do i=1,16
124	do iword=0,17
125	vectof(ic+iword,i)=0
126	enddo
127	enddo
128	c
129	do iword=0,17 ! le parole successive sono copiate in vectof
130	vectof(ic+iword,1)=vecta(ic+iword)
131	enddo
132	c
133	if (dspcold.eq.1) then
134	if (boardnum(j).eq.4)then
135	if((tdcnum(j).eq.1).or.(tdcnum(j).eq.2))then
136	do iword=0,17
137	vectof(ic+iword,1)= 255 - vecta(ic+iword)
138	enddo
139	endif
140	endif
141	endif
142
143	c
144	c -----fine cura inversione cavo FE to DSP cold
145	c
146	c
147	ind=1 ! all'inizio parto da vecta(ic)==vectof(ic,1)
148	tdc_ch1=0
149	adc_ch2=0
150	icorr=0
151	c
152
153	do i=1,4 ! loop on TDC 4 channels
154	c print *,'====================='
155	c print *,'TDC =',J,' CANALE =',I
156
157	C
158	C -------------- inizio correzione per le coppie di zeri ------------
159	C
160	c if first 3 bits of the word RAWADC(TDC) are not equal to
161	c tdcadd(iadd)
162	c the data storage has to be shifted by 2 bit (are spurious zeroes
163	c introduced by the F.E.board)
164	c
165	c
166	c Check only on the MSB (bit 13,14 e 15 of 2(+2) word RAWADC(TDC):
167	c vecta(ic) and vecta(ic+2))
168	c
169	iadd = 2*(i-1)+1 ! = 1,3,5,7
170	ii=i
171	C
172	C ----------------- Controllo sulla parola ADC
173	C
174	11 continue
175	tdccodeq = 0
176	C
177	do bit = 5,7
178	bi = ibits(vectof(ic,ind),bit,1)
179	if (bi.eq.1) tdccodeq = ibset(tdccodeq,bit-5)
180	enddo
181	C
182	if (tdccodeq.ne.tdcadd(iadd)) then
183	c
184	c------------- controllo che la colpa dei 2 zeri non sia di TDC(ch1)
185	c
186	if ((iadd.eq.3).and.(tdc_ch1.eq.0))then
187	if (tdccodeq.ne.0) then
188	c print *,'2 zeri in ADC, ma la colpa forse e` del TDC'
189	ic=ic-4
190	iadd=1
191	ii=1
192	adc_ch2=99
193	goto 12
194	endif
195	endif
196	c--------------- fine controllo
197	c
198	c PRINT *, '---------shift di 2 zeri sui dati ADC ! '
199	c print *,'numero di tdc = ',j,', ind = ',ind
200	c print *,'vectof(ic,ind),tdccodeq,tdcadd(iadd),iadd'
201	c print *,vectof(ic,ind),tdccodeq,tdcadd(iadd),iadd
202	c
203	iup = 17-4*(ii-1)
204	idw = 0
205	do iw=idw,iup
206	do bit = 0, 7
207	if(bit.le.5)then
208	bi = ibits(vectof(ic+iw,ind),bit,1)
209	if (bi.eq.1) vectof(ic+iw,ind+1) =
210	+ ibset(vectof(ic+iw,ind+1),bit+2)
211	else
212	bi = ibits(vectof(ic+1+iw,ind),bit,1)
213	if (bi.eq.1) vectof(ic+iw,ind+1) =
214	+ ibset(vectof(ic+iw,ind+1),bit-6)
215	endif
216	enddo ! loop sui bit
217	enddo ! loop sulle parole
218	c
219	c----+---1---------2---------3---------4---------5---------6---------7---------8
220	c
221	if(iadd.eq.3)adc_ch2=adc_ch2+1
222	ind = (ind + 1) ! aggiorno l' indice
223	if (ind.le.14)then
224	go to 11 ! rifaccio il check
225	else
226	c print *,'exit ADC senza soluzione',ind
227	endif
228	endif
229
230	c ------- se e' l'ADC channel 2 bisogna ricontrollare il TDC precedente
231
232	if ((iadd.eq.3).and.(adc_ch2.ge.2).and.(tdc_ch1.eq.0))then
233	c print *,'ci sono!!!!!!!!!!!!!!!!!!'
234	c print *,'adc_ch2 = ',adc_ch2
235	c print *,'ind = ',ind
236	ind=ind-adc_ch2
237	c print *,'ind - adc_ch2 = ',ind
238	do ik=1,adc_ch2
239	do iword=0,17
240	vectof(ic+iword,ind+ik)=0
241	enddo
242	enddo
243	ic=ic-4
244	iadd=1
245	ii=1
246	goto 12
247	endif
248	c
249	c --- registro RAWADC
250	c
251	rawadc(i,j) = 0
252	do bit = 0, 7
253	bi = ibits(vectof(ic,ind),bit,1)
254	if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit+8)
255	bi = ibits(vectof(ic+1,ind),bit,1)
256	if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit)
257	enddo
258	C
259	C
260	C ----------------- Controllo sulla parola TDC
261	C
262	12 continue
263	tdccodet = 0
264	do bit = 5,7
265	bi = ibits(vectof(ic+2,ind),bit,1)
266	if (bi.eq.1) tdccodet = ibset(tdccodet,bit-5)
267	enddo
268	if ((tdccodet.ne.tdcadd(iadd+1)).or.
269	+ ((adc_ch2.ge.2).and.(iadd.eq.1)))then
270	c----+---1---------2---------3---------4---------5---------6---------7---------8
271	c
272	if(adc_ch2.ge.2)then
273	adc_ch2=0
274	icorr=1
275	endif
276	c PRINT *, '---------shift di 2 zeri sui dati TDC ! '
277	c print *,'vectof(ic+2,ind),tdccodet,tdcadd(iadd+1),(iadd+1)'
278	c print *,vectof(ic+2,ind),tdccodet,tdcadd(iadd+1),(iadd+1)
279	c
280	iup = 17-4*(ii-1)
281	idw =2
282	do iw=idw,iup
283	do bit = 0, 7
284	if(bit.le.5)then
285	bi = ibits(vectof(ic+iw,ind),bit,1)
286	if (bi.eq.1) vectof(ic+iw,ind+1) =
287	+ ibset(vectof(ic+iw,ind+1),bit+2)
288	else
289	bi = ibits(vectof(ic+1+iw,ind),bit,1)
290	if (bi.eq.1) vectof(ic+iw,ind+1) =
291	+ ibset(vectof(ic+iw,ind+1),bit-6)
292	endif
293	enddo ! loop sui bit
294	enddo ! loop sulle parole
295	c----+---1---------2---------3---------4---------5---------6---------7---------8
296	c
297	if(iadd.eq.1)tdc_ch1=tdc_ch1+1
298	ind = (ind + 1) ! aggiorno l' indice
299	if (ind.le.15) then
300	go to 12 ! rifaccio il check
301	else
302	c print *,'exit TDC senza successo ',ind
303	endif
304	endif
305	c
306	c --- registro RAWTDC
307	c
308	rawtdc(ii,j) = 0
309	do bit = 0, 7
310	bi = ibits(vectof(ic+2,ind),bit,1)
311	if (bi.eq.1) rawtdc(ii,j) = ibset(rawtdc(ii,j),bit+8)
312	bi = ibits(vectof(ic+3,ind),bit,1)
313	if (bi.eq.1) rawtdc(ii,j) = ibset(rawtdc(ii,j),bit)
314	enddo
315	c
316	c
317	c ------- se e' il TDC channel 1 e' il risultato dell'iterazione prodotta
318	c dall' ADC channel 2 bisogna ripassare all' ADC successivo
319
320	if ((iadd.eq.1).and.(icorr.eq.1).and.(tdc_ch1.gt.0))then
321	iadd=3
322	ii=2
323	ic=ic+4
324	c print *,'sto tornando all ADC dopo aver corr. il TDC',ind
325	goto 11
326	endif
327	C
328	C -------------- fine correzione per le coppie di zeri ------------
329	C
330
331	ic=ic+4
332	enddo ! fine loop sui 4 TDC channel
333
334	c
335	c adc e tdc data have to be translated from Gray code to binary (bit 0-11)
336	c bit 12 is added after conversion (control bit)
337	c bit 13 is 1(0) for charge(time) information
338	c bits 14-15 give the channel 1-4 on the board.
339	c
340	do i=1,4 ! loop on TDC 4 channels
341	c print *,'=========== graytobin e registro =========='
342	c print *,'TDC =',J,' CANALE =',I
343	grayadc(i,j) = 0
344	graytdc(i,j) = 0
345
346	grayadc(i,j)=ibits(rawadc(i,j),0,12)
347	graytdc(i,j)=ibits(rawtdc(i,j),0,12)
348	c
349	call graytobin(grayadc(i,j),adc(i,j),12)
350	call graytobin(graytdc(i,j),tdc(i,j),12)
351	c
352	bi = ibits(rawtdc(i,j),12,1)
353	if (bi.eq.1) tdc(i,j) = ibset(tdc(i,j),12)
354	bi = ibits(rawadc(i,j),12,1)
355	if (bi.eq.1) adc(i,j) = ibset(adc(i,j),12)
356	c
357	c PRINT *,'i, j, RAWadc(i,j) ,RAWtdc(i,j)'
358	c PRINT *, i, j, rawadc(i,j) ,rawtdc(i,j)
359	c PRINT *,'i, j, ADC(i,j), TDC(i,j)'
360	c PRINT *, i, j, adc(i,j), tdc(i,j)
361	c
362	enddo
363
364
365	c
366	temp1(j) = 0
367	temp2(j) = 0
368	do bit = 0, 7
369	bi = ibits(vectof(ic,ind),bit,1)
370	if (bi.eq.1) temp1(j) = ibset(temp1(j),bit)
371	enddo
372	ic=ic+1
373	c
374	if (flag2.eqv..true.) then
375	do bit = 0, 7
376	bi = ibits(vectof(ic,ind),bit,1)
377	if (bi.eq.1) temp2(j) = ibset(temp2(j),bit)
378	enddo
379	ic=ic+1
380	else
381	temp2(j) = 99
382	endif
383	c
384	c vecta(ic) is the CRC
385	c Check consistency of CRC.
386	c
387	ccc if(vecta(ic).lt.0)vecta(ic)=vecta(ic)+256
388
389	ibuf=0
390	do bit = 0, 7
391	bi = ibits(vecta(ic),bit,1)
392	if (bi.eq.1) ibuf = ibset(ibuf,bit)
393	enddo
394	c
395	check = 0
396	inf = ic0
397	sup = ic - 1
398	do i = inf,sup
399	check=crctof(check,vecta(i))
400	enddo
401	c if (check.ne.vecta(ic)) then
402	if (check.ne.ibuf) then
403	print *,'crc wrong ',ibuf, check
404	me = 1
405	endif
406
407	c
408	c print *,'---------> ic, j' ,ic,j
409	ic=ic+1
410
411	enddo ! j = 1,ntdc
412
413
414	RETURN
415	END