forroutines/anticounter/AC.c

/*******************************v1.0********************************

Functions to read AC physics data (ACphysics) and AC calibration
data (ACcalib).
Author: Petter Hofverberg, petter@particle.kth.se

0410 v1.0 alive

Errors: (returned to the main program as the variable "err")
err=
0xFF - data (physics or calibration) from both cards found
0xF0 - only data from main card found
0x0F - only data from extra card found
0x00 - no data found

******************************************************************/

#include <stdio.h>
#include "AC.h"

int i,found,j;
unsigned short buffer[1000];
unsigned short tmp1,tmp2;
unsigned char err;

struct physicsstruct physicsdata[2];
struct physicsstruct *physicspointer;

struct calibstruct calibdata[2];
struct calibstruct *calibpointer;

//Fill physicsdata from buffer
void fillphys(int k,unsigned short *buff)
{
  for(i=0;i<2;i++) physicsdata[k].header[i]=buff[i];
  physicsdata[k].status=buff[2];
  physicsdata[k].hitmap=buff[3];
  for(i=0;i<6;i++) physicsdata[k].regist[i]=buff[4+i];
  for(i=0;i<16;i++) physicsdata[k].shift[i]=buff[10+i];
  for(i=0;i<16;i++) physicsdata[k].counters[i]=buff[26+i];
  for(i=0;i<8;i++) physicsdata[k].coinc[i]=buff[42+i];
  physicsdata[k].trigg=buff[50];
  for(i=0;i<2;i++) physicsdata[k].clock[i]=buff[51+i];
  for(i=0;i<2;i++) physicsdata[k].temp[i]=buff[53+i];
  for(i=0;i<8;i++) physicsdata[k].DAC[i]=buff[55+i];
  physicsdata[k].CRC=buff[63];

}

//Fill calibdata from buffer
void fillcalib(int k,unsigned short *buff)
{
  for(i=0;i<2;i++) calibdata[k].header[i]=buff[i];
  for(i=0;i<5;i++) calibdata[k].status[i]=buff[2+i];
  for(i=0;i<8;i++) calibdata[k].temp[i]=buff[7+i];
  for(i=0;i<8;i++) calibdata[k].DAC1[i]=buff[15+i];
  for(i=0;i<8;i++) calibdata[k].DAC2[i]=buff[23+i];
  for(i=0;i<6;i++) calibdata[k].regist[i]=buff[31+i];
  for(i=0;i<8;i++) calibdata[k].time[i]=buff[37+i];
  calibdata[k].n_tr=buff[45];
  for(i=0;i<16;i++) calibdata[k].hitmap_tr[i]=buff[46+i];
  for(i=0;i<4096;i++) calibdata[k].curve1[i]=buff[62+i];
  for(i=0;i<4096;i++) calibdata[k].curve2[i]=buff[4158+i];
  calibdata[k].iCRC=buff[8254];
  calibdata[k].tail=buff[8255];
  calibdata[k].CRC=buff[8256];
  printf("tail:CRC > %hx:%hx\n",buff[8255],buff[8256]);
}


unsigned char ACphysics(int length,unsigned char* datapointer,struct physicsstruct* physicspointer)
{

 int iter=2;
  physicspointer[0]=physicsdata[0];
  physicspointer[1]=physicsdata[1];

  //look for top header ACAC, then unpack data to main card buffer or extra card buffer depending on the subheader
  //AC11 for main, AC22 for extra
  while(found<2 && iter<length)
    {
      tmp1 = ((*datapointer) << 8) | *(datapointer+1);
      tmp2 = ((*(datapointer+2)) << 8) | *(datapointer+3);

      if(tmp1 == 0xACAC && ((tmp2 == 0xAC11 && (err&0xF0)==0x0) || (tmp2 == 0xAC22 && (err&0x0F)==0x0)))
        { 
         
          for(i=0;i<64;i++)
            {
              buffer[i]=((*datapointer) << 8) | *(datapointer+1);
              datapointer=datapointer+2;
            }
          
          if(tmp2==0xAC11){          //main card
            fillphys(0,&buffer[0]);
            err |= 0xF0;
          }
          else{                      //extra card
            fillphys(1,&buffer[0]);
            err |= 0x0F;
          } 
          tmp1=tmp2=0x0000;
          found++;
        }
      else{
        datapointer++;
        iter=iter+1;}
    }

  return err;

}


unsigned char ACcalib(int length, unsigned char* datapointer, struct calibstruct* calibpointer)
{

  int iter=2;
            
  //point struct-pointer to calibdata
  calibpointer[0]=calibdata[0];  //card1
  calibpointer[1]=calibdata[1];  //card2

  //look for the top header 0xACCA, then the subheaders 0xAC11 and 0xAC22, and unpack the data
  //to each card depending on these.
  while(found<2 && iter<length)
    {
      tmp1 = ((*datapointer) << 8) | *(datapointer+1);
      tmp2 = ((*(datapointer+2)) << 8) | *(datapointer+3);

      if(tmp1 == 0xACCA && ((tmp2 == 0xAC11 && (err&0xF0)==0x0) || (tmp2 == 0xAC22 && (err&0x0F)==0x0)))
        {
          for(i=0;i<8258;i++)
            {
              buffer[i]=((*datapointer) << 8) | *(datapointer+1);
              datapointer=datapointer+2;
            }
         
          if(tmp2==0xAC11){          //main
            fillcalib(0,&buffer[0]);
            err |= 0xF0;
          }
          else{                      //extra
            fillcalib(1,&buffer[0]);
            err |= 0x0F; 
          }
           tmp1=tmp2=0x0000;
          found++;
        }
      else{
        datapointer++;
        iter=iter+1;}
    }

  return err;
}

1	kusanagi	2.2	/*****************************v1.0******************************
2
3			Functions to read AC physics data (ACphysics) and AC calibration
4			data (ACcalib).
5	kusanagi	2.1	Author: Petter Hofverberg, petter@particle.kth.se
6
7	kusanagi	2.2	0410 v1.0 alive
8
9	kusanagi	2.1	Errors: (returned to the main program as the variable "err")
10			err=
11	kusanagi	2.2	0xFF - data (physics or calibration) from both cards found
12			0xF0 - only data from main card found
13			0x0F - only data from extra card found
14			0x00 - no data found
15	kusanagi	2.1
16			******************************************************************/
17
18			#include <stdio.h>
19			#include "AC.h"
20
21	kusanagi	2.2	int i,found,j;
22	kusanagi	2.1	unsigned short buffer[1000];
23	kusanagi	2.2	unsigned short tmp1,tmp2;
24			unsigned char err;
25	kusanagi	2.1
26	kusanagi	2.2	struct physicsstruct physicsdata[2];
27	kusanagi	2.1	struct physicsstruct *physicspointer;
28
29	kusanagi	2.2	struct calibstruct calibdata[2];
30	kusanagi	2.1	struct calibstruct *calibpointer;
31
32	kusanagi	2.3	//Fill physicsdata from buffer
33			void fillphys(int k,unsigned short *buff)
34			{
35			for(i=0;i<2;i++) physicsdata[k].header[i]=buff[i];
36			physicsdata[k].status=buff[2];
37			physicsdata[k].hitmap=buff[3];
38			for(i=0;i<6;i++) physicsdata[k].regist[i]=buff[4+i];
39			for(i=0;i<16;i++) physicsdata[k].shift[i]=buff[10+i];
40			for(i=0;i<16;i++) physicsdata[k].counters[i]=buff[26+i];
41			for(i=0;i<8;i++) physicsdata[k].coinc[i]=buff[42+i];
42			physicsdata[k].trigg=buff[50];
43			for(i=0;i<2;i++) physicsdata[k].clock[i]=buff[51+i];
44			for(i=0;i<2;i++) physicsdata[k].temp[i]=buff[53+i];
45			for(i=0;i<8;i++) physicsdata[k].DAC[i]=buff[55+i];
46			physicsdata[k].CRC=buff[63];
47
48			}
49
50			//Fill calibdata from buffer
51			void fillcalib(int k,unsigned short *buff)
52			{
53			for(i=0;i<2;i++) calibdata[k].header[i]=buff[i];
54			for(i=0;i<5;i++) calibdata[k].status[i]=buff[2+i];
55			for(i=0;i<8;i++) calibdata[k].temp[i]=buff[7+i];
56			for(i=0;i<8;i++) calibdata[k].DAC1[i]=buff[15+i];
57			for(i=0;i<8;i++) calibdata[k].DAC2[i]=buff[23+i];
58			for(i=0;i<6;i++) calibdata[k].regist[i]=buff[31+i];
59			for(i=0;i<8;i++) calibdata[k].time[i]=buff[37+i];
60			calibdata[k].n_tr=buff[45];
61			for(i=0;i<16;i++) calibdata[k].hitmap_tr[i]=buff[46+i];
62			for(i=0;i<4096;i++) calibdata[k].curve1[i]=buff[62+i];
63			for(i=0;i<4096;i++) calibdata[k].curve2[i]=buff[4158+i];
64			calibdata[k].iCRC=buff[8254];
65			calibdata[k].tail=buff[8255];
66			calibdata[k].CRC=buff[8256];
67			printf("tail:CRC > %hx:%hx\n",buff[8255],buff[8256]);
68			}
69	kusanagi	2.1
70	kusanagi	2.2
71			unsigned char ACphysics(int length,unsigned char* datapointer,struct physicsstruct* physicspointer)
72	kusanagi	2.1	{
73
74			int iter=2;
75	kusanagi	2.2	physicspointer[0]=physicsdata[0];
76			physicspointer[1]=physicsdata[1];
77	kusanagi	2.1
78	kusanagi	2.2	//look for top header ACAC, then unpack data to main card buffer or extra card buffer depending on the subheader
79			//AC11 for main, AC22 for extra
80			while(found<2 && iter<length)
81	kusanagi	2.1	{
82			tmp1 = ((datapointer) << 8) \| (datapointer+1);
83	kusanagi	2.2	tmp2 = (((datapointer+2)) << 8) \| (datapointer+3);
84
85	kusanagi	2.4	if(tmp1 == 0xACAC && ((tmp2 == 0xAC11 && (err&0xF0)==0x0) \|\| (tmp2 == 0xAC22 && (err&0x0F)==0x0)))
86	kusanagi	2.1	{
87	kusanagi	2.2
88	kusanagi	2.1	for(i=0;i<64;i++)
89			{
90			buffer[i]=((datapointer) << 8) \| (datapointer+1);
91			datapointer=datapointer+2;
92			}
93	kusanagi	2.2
94			if(tmp2==0xAC11){ //main card
95			fillphys(0,&buffer[0]);
96			err \|= 0xF0;
97			}
98			else{ //extra card
99			fillphys(1,&buffer[0]);
100			err \|= 0x0F;
101			}
102			tmp1=tmp2=0x0000;
103			found++;
104	kusanagi	2.1	}
105			else{
106			datapointer++;
107			iter=iter+1;}
108			}
109
110			return err;
111
112			}
113
114
115	kusanagi	2.2	unsigned char ACcalib(int length, unsigned char* datapointer, struct calibstruct* calibpointer)
116	kusanagi	2.1	{
117
118			int iter=2;
119
120			//point struct-pointer to calibdata
121	kusanagi	2.2	calibpointer[0]=calibdata[0]; //card1
122			calibpointer[1]=calibdata[1]; //card2
123	kusanagi	2.1
124	kusanagi	2.2	//look for the top header 0xACCA, then the subheaders 0xAC11 and 0xAC22, and unpack the data
125			//to each card depending on these.
126			while(found<2 && iter<length)
127	kusanagi	2.1	{
128			tmp1 = ((datapointer) << 8) \| (datapointer+1);
129	kusanagi	2.2	tmp2 = (((datapointer+2)) << 8) \| (datapointer+3);
130
131			if(tmp1 == 0xACCA && ((tmp2 == 0xAC11 && (err&0xF0)==0x0) \|\| (tmp2 == 0xAC22 && (err&0x0F)==0x0)))
132	kusanagi	2.1	{
133	kusanagi	2.3	for(i=0;i<8258;i++)
134	kusanagi	2.1	{
135			buffer[i]=((datapointer) << 8) \| (datapointer+1);
136			datapointer=datapointer+2;
137			}
138	kusanagi	2.2
139			if(tmp2==0xAC11){ //main
140			fillcalib(0,&buffer[0]);
141			err \|= 0xF0;
142			}
143			else{ //extra
144			fillcalib(1,&buffer[0]);
145			err \|= 0x0F;
146			}
147			tmp1=tmp2=0x0000;
148			found++;
149	kusanagi	2.1	}
150			else{
151	kusanagi	2.2	datapointer++;
152			iter=iter+1;}
153	kusanagi	2.1	}
154
155			return err;
156			}
157