#ifndef _daqscope_h_
#define _daqscope_h_
#define WAVE_LEN 100000
//class VmUsbStack;
class daqscope {
public:
int scopeUseType;
int scopeChanNr;
int scopeChans[8];
char scopeChanstring[256];
int scopeMeasSel;
char eventbuf[WAVE_LEN];
double measubuf;
double tektime, tekvolt;
double choffset;
int fStop;
double tekunit(char *prefix);
int init();
int event();
int customCommand(char *command, bool query, char *sReturn);
int connect(char* IPaddr);
int disconnect(char* IPaddr);
int lockunlock(bool lockit);
daqscope();
~daqscope();
// VmUsbStack * fStack;
// VmUsbStack * fInit;
/* int OSrepetition;
int OSmeasu;
int OSmeasuchan;
int OSgating;
int OSsaving;
int OSinf;
int nmeaslc;
char OSchannels[1024];
char IP[1024];
char lecroycmd[1024];
char lecroycmd2[1024];
char lecroywfm[1024];
int lecroystate;
char pch[1024];
char lecroyadd[1024];
char multibuf[WAVE_LEN];
char eventbuf[WAVE_LEN];
double tektime,tekvolt,lctime,lcvolt;
int fastacqstate; // GKM - variable that saves the fastacq state
double choffset; // GKM - position offset for signal
int fPoints;
int fStop;
int fMode;
int clear();
int end();
int event();
int lecroyevent();
void measurement(float&);
void measulecroy(float&);
void measumult();
int init();
int initlecroy();
int connect(char* IPaddr);
int disconnect(char* IPaddr);
void fileopen(const char*);
void fileclose();
void countcontrol();
void fastacq(int setting); // GKM - gets tek out of fastacq
void header();
void measuheader();
void lecroyheader();
void lecroywave();
double tekunit(char*);
double lcunit(char*);
daqscope();
// daqscope(const char *);
~daqscope();*/
};
#endif