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#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "../include/vxi11_i686/vxi11_user.h"
#include "../include/daqscope.h"
#include "../include/workstation.h"

CLINK *clink;
char *savedIP;
const char *allChans[8] = {"CH1","CH2","CH3","CH4","MATH1","MATH2","MATH3","MATH4"};
const char *measType[11] = {"AMP","ARE","DEL","FALL","FREQ","MAX","MEAN","MINI","PK2P","PWI","RIS"};
char *bbq;

// Query and command functions to simplify analysis --------------
int vxi11_query(CLINK *clink, const char *mycmd)
{
   char buf[WAVE_LEN];
   memset(buf, 0, WAVE_LEN);
   vxi11_send(clink, mycmd);
   int bytes_returned = vxi11_receive(clink, buf, WAVE_LEN);
   if (bytes_returned > 0)
   {
      printf("%s\n", buf);
   }
   else if (bytes_returned == -15)
      printf("*** [ NOTHING RECEIVED ] ***\n");

   return 0;
}

void vxi11_command(CLINK *clink,char *mycmd)
{
   char buf[WAVE_LEN];
   memset(buf, 0, WAVE_LEN);
   vxi11_send(clink, mycmd);
}
// ---------------------------------------------------------------

// Tektronix unit conversion -------------------------------------
double daqscope::tekunit(char *prefix)
{
   if (strcmp(prefix,"m")==0) return 0.001;
   else if (strcmp(prefix,"u")==0) return 0.000001;
   else if (strcmp(prefix,"n")==0) return 0.000000001;
   else return 1;
}
// ---------------------------------------------------------------

// Connect to a scope through IP address IPaddr ------------------
int daqscope::connect(char *IPaddr)
{
   int iTemp;
   char buf[WAVE_LEN];
   printf("daqscope::connect(%s)\n", IPaddr);
   clink = new CLINK;
   iTemp = vxi11_open_device(IPaddr, clink);
   if(iTemp == 0)
   {
      vxi11_send(clink, "*IDN?");
      vxi11_receive(clink, buf, WAVE_LEN);
      printf("Connected to device (%s): %s\n", IPaddr, buf);
      savedIP = IPaddr;
      return iTemp;
   }
   else
      return iTemp;
}
// ---------------------------------------------------------------

// Disconnect from scope with IP address IPaddr ------------------
int daqscope::disconnect(char *IPaddr)
{
   int iTemp;
   printf("daqscope::disconnect(%s)\n", IPaddr);
   iTemp = vxi11_close_device(IPaddr, clink);
   if(iTemp == 0)
   {
      printf("Disconnected from device (%s).\n", IPaddr);
      delete clink;
   }
   return iTemp;
}
// ---------------------------------------------------------------

// Initialize the scope for waveform or measurement --------------
int daqscope::init()
{
   int iTemp;
   char cmd[512];
   char cTemp[256];
   printf("daqscope::init()\n");

   printf("Measurement type is: %d\n", scopeUseType);

   // For measurements, only one channel can be used (rise, fall, period,...)
   if(scopeUseType == 2) scopeChanNr = 1;
   printf("Nr. of channels selected: %d\n", scopeChanNr);

   // Only use scope if measurement is different than 0
   if(scopeUseType == 0)
      return 0;
   else
   {
      // Combine all selected channels into a comma separated string
      for(int i = 0; i < scopeChanNr; i++)
      {
         if(i == scopeChanNr-1)
         {
            if(i == 0) sprintf(scopeChanstring, "%s", allChans[scopeChans[i]]);
            else sprintf(cTemp, "%s", allChans[scopeChans[i]]);
         }
         else
         {
            if(i == 0) sprintf(scopeChanstring, "%s,", allChans[scopeChans[i]]);
            else sprintf(cTemp, "%s,", allChans[scopeChans[i]]);
         }
         if(i > 0)
            strcat(scopeChanstring, cTemp);
      }
      printf("Selected channels: %s\n", scopeChanstring);

      // Check scope ID and turn the header display on
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_query(clink, "*IDN?");
      vxi11_command(clink,(char*)"HEADER ON");
#else
      printf("Identify Tek (*IDN?, HEADER ON)\n");
#endif

      // Set the scope data sources
      sprintf(cmd, "DATA:SOURCE %s", scopeChanstring);
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_command(clink,cmd);
#else
      printf("Set data source (DATA:SOURCE): %s\n", cmd);
#endif

      // Set to fast acquisition and set encoding
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_command(clink,(char*)"FASTACQ:STATE 0");
      vxi11_command(clink,(char*)"DATA:ENCDG SRIBINARY");
      vxi11_command(clink,(char*)"WFMO:BYT_N 2");

      // Set gating (currently not used)
      vxi11_command(clink,(char*)"GAT OFF");
#else
      printf("Set fastacq, encoding and gating (FASTACQ:STATE 0, DATA:ENCDG SRIBINARY, WFMO:BYT_N 2, MEASU:GAT OFF).\n");
#endif

      // Check scale on each of selected channels (is this even needed?)
      bbq = strtok(scopeChanstring,",");
      while(bbq != NULL)
      {
         sprintf(cmd,"%s:SCALE?",bbq);
#if WORKSTAT == 'I' || WORKSTAT == 'S'
         vxi11_query(clink,cmd);
#else
         printf("Return the scale of channel: %s\n", cmd);
#endif
         bbq = strtok(NULL, ",");
      }

      // Check waveform and data options/settings
      char buf[WAVE_LEN];
      memset(buf, 0, WAVE_LEN);
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_send(clink, "WFMO:WFID?");
      iTemp = vxi11_receive(clink, buf, WAVE_LEN);
      printf("Init out (length = %d): %s\n", iTemp, buf);
#else
      printf("Get acquisition parameters (WFMOUTPRE:WFID?).\n");
      sprintf(buf, ":WFMOUTPRE:WFID \"Ch1, DC coupling, 20.0mV/div, 10.0ns/div, 500 points, Sample mode\"");
      iTemp = strlen(buf);
#endif
      if (iTemp == -15)
         printf("\n*** [ NOTHING RECEIVED ] ***\n");
      else
      {
         bbq = strtok(buf,","); // break WFID out into substrings
         for (int k = 0; k < 5; k++)
         {
            // info on voltage per division setting
            if (k == 2)
            {
               memcpy(cTemp, &bbq[1], 5);
               cTemp[5] = 0;
               bbq[7] = 0;
               tekvolt = atoi(cTemp)*tekunit(&bbq[6]);
               printf("Voltage per division: %lf\n", tekvolt);
            }
            // info on time per division setting
            if (k == 3)
            {
               memcpy(cTemp, &bbq[1], 5);
               cTemp[5] = 0;
               bbq[7] = 0;
               tektime = atoi(cTemp)*tekunit(&bbq[6]);
               printf("Time per division: %lf\n", tektime);
            }
            // info on last point to be transfered by CURVE?
            if (k == 4)
            {
               bbq[strlen(bbq)-7] = 0;
               sprintf(cmd, "DATA:STOP %d", atoi(bbq));
#if WORKSTAT == 'I' || WORKSTAT == 'S'
               vxi11_command(clink, cmd);
#else
               printf("Stop data collection (DATA:STOP): %s\n", cmd);
#endif
            }
//          printf("bbq = %s\n",bbq);
            bbq = strtok (NULL, ",");
         }
      }

      // Recheck waveform and data options/settings, turn off header
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_query(clink,"WFMO:WFID?");
      vxi11_query(clink,"DATA?");
      vxi11_command(clink,(char*)"HEADER OFF");
#else
      printf("Data format query (WFMOUTPRE:WFID?, DATA?, HEADER OFF).\n");
#endif

      // Get the channel y-axis offset (only for one CH so far)
      char posoff[WAVE_LEN];
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      sprintf(cmd, "%s:POS?", allChans[scopeChans[0]]);
      vxi11_command(clink, cmd);
      vxi11_receive(clink, posoff, WAVE_LEN);
      choffset = (double)atof(posoff);
#else
      sprintf(posoff, "Just some temporary string info.");
      printf("Check for channel position offset (CHx:POS?)\n");
#endif

      // If measurements are to be performed
      if(scopeUseType == 2)
      {
         sprintf(cmd, "MEASU:IMM:SOURCE1 %s", scopeChanstring);
#if WORKSTAT == 'I' || WORKSTAT == 'S'
         vxi11_command(clink, cmd);
#else
         printf("Set immediate measurement source (MEASU:IMM:SOURCE1): %s\n", cmd);
#endif

         sprintf(cmd, "MEASU:IMM:TYP %s", measType[scopeMeasSel]);
#if WORKSTAT == 'I' || WORKSTAT == 'S'
         vxi11_command(clink, cmd);
#else
         printf("Set immediate measurement type (MEASU:IMM:TYP): %s\n", cmd);
#endif
      }

      return 0;
   }
}
// ---------------------------------------------------------------

// Send a custom command to the scope ----------------------------
int daqscope::customCommand(char *command, bool query, char *sReturn)
{
   if(query)
   {
      char buf[WAVE_LEN];
      memset(buf, 0, WAVE_LEN);
      vxi11_send(clink, command);
      int bytes_returned = vxi11_receive(clink, buf, WAVE_LEN);
      if (bytes_returned > 0)
      {
         printf("%s\n", buf);
         sprintf(sReturn, "%s", buf);

         // For testing purposes
/*       if( strcmp(command, "CURVE?") == 0 )
         {
            FILE *fp;
            char tst[2];
            fp = fopen("./curve_return.txt","w");
            for(int i = 6; i < bytes_returned; i++)
            {
               if(i%2 == 1)
               {
                  tst[0] = buf[i];
                  tst[1] = buf[i-1];
                  fprintf(fp, "bytes returned = %d\tbyte %d = %d\treturn = %s\n", bytes_returned, i, buf[i], tst);
               }
               else
                  fprintf(fp, "bytes returned = %d\tbyte %d = %d\n", bytes_returned, i, buf[i]);
            }
            fclose(fp);
         }*/
      }
      else if (bytes_returned == -15)
      {
         printf("*** [ NOTHING RECEIVED ] ***\n");
         sprintf(sReturn, "*** [ NOTHING RECEIVED ] ***");
      }
   }
   else
   {
      vxi11_command(clink, command);
      sprintf(sReturn, "*** [ COMMAND NOT QUERY - NO RETURN ] ***");
   }

   return 0;
}
// ---------------------------------------------------------------

// Get a measuring event (either waveform or measure) ------------
int daqscope::lockunlock(bool lockit)
{
   // Lock the scope front panel for measurements
   if(lockit)
   {
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_command(clink,(char*)"LOCK ALL");
      return 0;
#else
//      printf("Locking the front panel (LOCK ALL).\n");
      return -1;
#endif
   }
   // Unlock the scope front panel after measurements
   else
   {
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      vxi11_command(clink,(char*)"LOCK NONE");
      return 0;
#else
//      printf("Unlocking the front panel (LOCK ALL).\n");
      return -1;
#endif
   }
}
// ---------------------------------------------------------------

// Get a measuring event (either waveform or measure) ------------
int daqscope::event()
{
   int bytes_returned;

   if(scopeUseType == 0)
      return -1;
   else if(scopeUseType == 1)
   {
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      memset(eventbuf, 0, WAVE_LEN);
      vxi11_send(clink, "CURVE?");
      bytes_returned = vxi11_receive(clink, eventbuf, WAVE_LEN);
#else
      printf("Ask to return the waveform (CURVE?)\n");
      bytes_returned = 0;
#endif

      if(bytes_returned > 0) return 0;
      else return -1;
   }
   else if(scopeUseType == 2)
   {
#if WORKSTAT == 'I' || WORKSTAT == 'S'
      char buf[WAVE_LEN];
      memset(buf, 0, WAVE_LEN);
      vxi11_send(clink, "MEASU:IMMED:VALUE?");
      bytes_returned = vxi11_receive(clink, buf, WAVE_LEN);
      measubuf = (double)atof(buf);
#else
//      printf("Ask to return the measurement (MEASU:IMMED:VALUE?)\n");
      bytes_returned = 0;
      measubuf = (double)rand()/(double)RAND_MAX;
#endif

      if(bytes_returned > 0) return 0;
      else return -1;
   }
   else
      return -1;
}
// ---------------------------------------------------------------

// daqscope class constructor and destructor ---------------------
daqscope::daqscope() {
   fStop=0;
}

daqscope::~daqscope() {
   disconnect(savedIP);
}
// ---------------------------------------------------------------