source/tof/tofunpack.for

C--------------------------------------------------------------------
      SUBROUTINE TOFUNPACK(vecta,lung,me)
C                                            D.Campana,  Dec. 04
C---------------------------------------------------------------------

      IMPLICIT NONE

C
C Normal variables definition
C
      integer lung
      integer*1 vecta(lung)
      integer*2 ibuf
      integer me
      integer check, crctof 
      integer ic0,sup,inf 
      integer i, ic, bit, bi,j 
      integer start,ntdc,tdcfirst
      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
C 
c      data start,ntdc /150,12/ ! to read data before Christmas 2004
       data start,ntdc /153,12/ ! to read data after Christmas 2004

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

C
C AAA : would be better to have a pattern for the tof!
C       at this moment we have just a pointer (start)
C

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

      do j = 1,ntdc
      flag2=.true.
      ic0 = ic      ! first index for the CRC computation
      tdcid(j) = 0
      evcount(j) = 0
      do bit = 0, 7
         bi = ibits(vecta(ic),bit,1)
         if (bi.eq.1) tdcid(j) = ibset(tdcid(j),bit)
         bi = ibits(vecta(ic+1),bit,1)
         if (bi.eq.1) evcount(j) = ibset(evcount(j),bit)
      enddo
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 first 3 bit of the 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 = 5,7
         bi = ibits(vecta(ic),bit,1)
         if (bi.eq.1) tdcfirst = ibset(tdcfirst,bit-5)
       enddo       
       if (tdcfirst.eq.0) then
         ic=ic+1
         flag2=.false.
       endif
c
      do i=1,4
         rawadc(i,j) = 0
         rawtdc(i,j) = 0
         grayadc(i,j) = 0
         graytdc(i,j) = 0
         do bit = 0, 7
           bi = ibits(vecta(ic),bit,1)
           if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit+8)
           bi = ibits(vecta(ic+1),bit,1)
           if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit)
           bi = ibits(vecta(ic+2),bit,1)
           if (bi.eq.1) rawtdc(i,j) = ibset(rawtdc(i,j),bit+8)
           bi = ibits(vecta(ic+3),bit,1)
           if (bi.eq.1) rawtdc(i,j) = ibset(rawtdc(i,j),bit)
        enddo
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
        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 
        ic=ic+4
      enddo
c
      temp1(j) = 0
      temp2(j) = 0
      do bit = 0, 7
         bi = ibits(vecta(ic),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(vecta(ic),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
c         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	C D.Campana, Dec. 04
4	C---------------------------------------------------------------------
5
6	IMPLICIT NONE
7
8	C
9	C Normal variables definition
10	C
11	integer lung
12	integer*1 vecta(lung)
13	integer*2 ibuf
14	integer me
15	integer check, crctof
16	integer ic0,sup,inf
17	integer i, ic, bit, bi,j
18	integer start,ntdc,tdcfirst
19	integer tdcid(12),evcount(12)
20	integer tdcmask(12),adc(4,12),tdc(4,12)
21	integer rawadc(4,12),rawtdc(4,12),grayadc(4,12),graytdc(4,12)
22	integer temp1(12),temp2(12)
23	logical flag2
24	C
25	c data start,ntdc /150,12/ ! to read data before Christmas 2004
26	data start,ntdc /153,12/ ! to read data after Christmas 2004
27
28	COMMON / tofvar /tdcid,evcount,tdcmask,adc,tdc,temp1,temp2
29	save / tofvar /
30
31	C
32	C Begin !
33	C
34
35	C
36	C AAA : would be better to have a pattern for the tof!
37	C at this moment we have just a pointer (start)
38	C
39
40	ic = start
41	C
42	c print *,'++++++++++ Tof Unpack ++++++++++++++++'
43
44	do j = 1,ntdc
45	flag2=.true.
46	ic0 = ic ! first index for the CRC computation
47	tdcid(j) = 0
48	evcount(j) = 0
49	do bit = 0, 7
50	bi = ibits(vecta(ic),bit,1)
51	if (bi.eq.1) tdcid(j) = ibset(tdcid(j),bit)
52	bi = ibits(vecta(ic+1),bit,1)
53	if (bi.eq.1) evcount(j) = ibset(evcount(j),bit)
54	enddo
55	c
56	ic=ic+2
57	tdcmask(j) = 0
58	do bit = 0, 7
59	bi = ibits(vecta(ic),bit,1)
60	if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit+8)
61	bi = ibits(vecta(ic+1),bit,1)
62	if (bi.eq.1) tdcmask(j) = ibset(tdcmask(j),bit)
63	enddo
64	c
65	ic=ic+2
66	c
67	c
68	c if first 3 bit of the word RAWADC are equal to 0
69	c the data storage is shifted by a word --> ic = ic+1
70	c and TEMP2 is overwritten by the CRC --> flag2=.false.
71	c
72	tdcfirst = 0
73	do bit = 5,7
74	bi = ibits(vecta(ic),bit,1)
75	if (bi.eq.1) tdcfirst = ibset(tdcfirst,bit-5)
76	enddo
77	if (tdcfirst.eq.0) then
78	ic=ic+1
79	flag2=.false.
80	endif
81	c
82	do i=1,4
83	rawadc(i,j) = 0
84	rawtdc(i,j) = 0
85	grayadc(i,j) = 0
86	graytdc(i,j) = 0
87	do bit = 0, 7
88	bi = ibits(vecta(ic),bit,1)
89	if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit+8)
90	bi = ibits(vecta(ic+1),bit,1)
91	if (bi.eq.1) rawadc(i,j) = ibset(rawadc(i,j),bit)
92	bi = ibits(vecta(ic+2),bit,1)
93	if (bi.eq.1) rawtdc(i,j) = ibset(rawtdc(i,j),bit+8)
94	bi = ibits(vecta(ic+3),bit,1)
95	if (bi.eq.1) rawtdc(i,j) = ibset(rawtdc(i,j),bit)
96	enddo
97	c
98	c adc e tdc data have to be translated from Gray code to binary (bit 0-11)
99	c bit 12 is added after conversion (control bit)
100	c bit 13 is 1(0) for charge(time) information
101	c bits 14-15 give the channel 1-4 on the board.
102	c
103	grayadc(i,j)=ibits(rawadc(i,j),0,12)
104	graytdc(i,j)=ibits(rawtdc(i,j),0,12)
105	c
106	call graytobin(grayadc(i,j),adc(i,j),12)
107	call graytobin(graytdc(i,j),tdc(i,j),12)
108	c
109	bi = ibits(rawtdc(i,j),12,1)
110	if (bi.eq.1) tdc(i,j) = ibset(tdc(i,j),12)
111	bi = ibits(rawadc(i,j),12,1)
112	if (bi.eq.1) adc(i,j) = ibset(adc(i,j),12)
113	c
114	ic=ic+4
115	enddo
116	c
117	temp1(j) = 0
118	temp2(j) = 0
119	do bit = 0, 7
120	bi = ibits(vecta(ic),bit,1)
121	if (bi.eq.1) temp1(j) = ibset(temp1(j),bit)
122	enddo
123	ic=ic+1
124	c
125	if (flag2.eqv..true.) then
126	do bit = 0, 7
127	bi = ibits(vecta(ic),bit,1)
128	if (bi.eq.1) temp2(j) = ibset(temp2(j),bit)
129	enddo
130	ic=ic+1
131	else
132	temp2(j) = 99
133	endif
134	c
135	c vecta(ic) is the CRC
136	c Check consistency of CRC.
137	c
138	ccc if(vecta(ic).lt.0)vecta(ic)=vecta(ic)+256
139
140	ibuf=0
141	do bit = 0, 7
142	bi = ibits(vecta(ic),bit,1)
143	if (bi.eq.1) ibuf = ibset(ibuf,bit)
144	enddo
145	c
146	check = 0
147	inf = ic0
148	sup = ic - 1
149	do i = inf,sup
150	check=crctof(check,vecta(i))
151	enddo
152	c if (check.ne.vecta(ic)) then
153	if (check.ne.ibuf) then
154	c print *,'crc wrong ',ibuf, check
155	me = 1
156	endif
157
158	c
159	c print *,'---------> ic, j' ,ic,j
160	ic=ic+1
161
162	enddo ! j = 1,ntdc
163
164
165	RETURN
166	END
167
168
169