void shape_rf (RF_PULSE_T *rf, char rfBase[MAX_STR], char rfName[MAX_STR], double pw, double flip,
double rof1, double rof2)
{
if ((ix > 1) && !sglarray) {
rf->flip = flip;
return;
}
initRf(rf);
strcpy(rf->pulseBase,rfBase);
strcpy(rf->pulseName,rfName);
strcpy(rf->rfcoil,rfcoil);
rf->rfDuration = pw;
rf->flip = flip;
rf->flipmult = 1.0;
rf->rof1 = rof1;
rf->rof2 = rof2;
/* Generate the pulse shape if rf->pulseName is appropriate */
genRf(rf);
/* If the pulse shape has not been generated proceed as for init_rf */
switch (rf->type) {
case RF_NULL:
rf->rfDuration = shapelistpw(rfName,pw); /* Round to 200ns resolution*/
readRfPulse(rf);
/* Set actual bandwidth according to pulse duration */
if ((FP_LT(rf->flip,FLIPLIMIT_LOW)) || (FP_GT(rf->flip,FLIPLIMIT_HIGH)))
/* use excitation bandwidth */
rf->bandwidth = rf->header.bandwidth/rf->rfDuration;
else
/* use inversion bandwidth */
rf->bandwidth = rf->header.inversionBw/rf->rfDuration;
break;
default:
/* Even though shape is properly quantized for some reason we need to
use shapelistpw to round to 200ns resolution, otherwise duration may
be significantly wrong ?? */
rf->rfDuration = shapelistpw(rf->pulseName,pw);
break;
}
switch (rf->error) {
case ERR_RF_SHAPE_MISSING:
sgl_abort_message("ERROR: Can not find RF shape '%s.RF'",rfName);
break;
case ERR_RF_HEADER_ENTRIES:
sgl_abort_message("ERROR rf shape '%s': incorrect header information",rfName);
break;
default:
break;
}
if ((rf->header.rfFraction < 0) || (rf->header.rfFraction > 1))
sgl_abort_message("ERROR rf shape '%s': RF Fraction must be between 0 and 1",rfName);
}
void init_rf (RF_PULSE_T *rf, char rfName[MAX_STR], double pw, double flip,
double rof1, double rof2)
{
if ((ix > 1) && !sglarray) {
rf->flip = flip;
return;
}
initRf(rf);
strcpy(rf->pulseName,rfName);
strcpy(rf->rfcoil,rfcoil);
rf->rfDuration = shapelistpw(rfName,pw); /* Round to 200ns resolution*/
rf->flip = flip;
rf->flipmult = 1.0; /* default to 1, programmer can reassign in sequence */
rf->rof1 = rof1;
rf->rof2 = rof2;
readRfPulse(rf);
switch (rf->error) {
case ERR_RF_SHAPE_MISSING:
sgl_abort_message("ERROR: Can not find RF shape '%s.RF'",rfName);
break;
case ERR_RF_HEADER_ENTRIES:
sgl_abort_message("ERROR rf shape '%s': incorrect header information",rfName);
break;
default:
break;
}
if ((rf->header.rfFraction < 0) || (rf->header.rfFraction > 1))
sgl_abort_message("ERROR rf shape '%s': RF Fraction must be between 0 and 1",rfName);
}
pulsesequence()
{
/* Internal variable declarations *********************/
char txphase[MAXSTR];
char rxphase[MAXSTR];
char blankmode[MAXSTR]={0};
double postDelay;
double rfDuration;
double acqt;
int i,ret=-1;
static int phs1[4] = {0,2,1,3}; /* from T1meas.c */
/*************************************************/
/* Initialize paramter **************************/
i = 0;
postDelay = 0.5;
acqt = 0.0;
getstr("rxphase",rxphase);
getstr("txphase",txphase);
ret = P_getstring(GLOBAL,"blankmode",blankmode,1,MAXSTR);
//getparm("blankmode","string",GLOBAL,blankmode,MAXSTR);
postDelay = tr - at;
//printf("blankmode=%s\n",blankmode);
/*************************************************/
/* check phase setting ***************************/
if ( (txphase[0] =='n') && (rxphase[0] =='n') )
{
abort_message("ERROR - Select at least one phase [Tx or Rx]\n");
}
/**************************************************/
/* check pulse width *****************************/
rfDuration = shapelistpw(p1pat, p1); /* assign exitation pulse duration */
acqt = rfDuration + rof1 - alfa;
if (FP_GT(acqt, at))
{
abort_message("Pulse duration too long. max [%.3f] ms\n",(at-rof1+alfa)*1000.0);
}
if(ret==0 && blankmode[0]=='u')
obsunblank();
delay(postDelay);
settable(t1,4,phs1); /*from T1meas.c */
getelem(t1,ct,v11); /*from T1meas.c */
setreceiver(t1);
/*==============================================*/
/* START LOOPBACK PULSE SEQUENCE */
/*==============================================*/
status(A);
obsoffset(resto);
/* TTL trigger to scope sequence ****************************/
sp1on();
/* Relaxation delay ***********************************/
xgate(ticks);
/* RF pulse *******************************************/
obspower(tpwr);
obspwrf(tpwrf);
ShapedXmtNAcquire(p1pat, rfDuration, v11, rof1, OBSch);
endacq();
sp1off();
if(ret==0 && blankmode[0]=='u')
obsunblank();
}
pulsesequence()
{
/* Internal variable declarations *********************/
char txphase[MAXSTR];
char rxphase[MAXSTR];
char my_p1pat[MAXSTR];
char my_p4pat[MAXSTR];
char my_p2pat[MAXSTR];
char my_p3pat[MAXSTR];
char blankmode[MAXSTR]={0};
char tmpstr[MAXSTR];
double postDelay;
double rfDuration;
double acqt;
int i,ret=-1;
static int phs1[4] = {0,2,1,3}; /* from T1meas.c */
int my_pulseID;
double my_offsets[64];
double my_tpwr[64];
double my_tpwrf[64];
int my_on_off[64];
double mytmp;
int my_numrfch;
int my_retval;
for(i=0;i<64;i++) my_offsets[i] = 0.0;
/*************************************************/
/* Initialize paramter **************************/
i = 0;
postDelay = 0.5;
acqt = 0.0;
// getstr("rxphase",rxphase);
// getstr("txphase",txphase);
getstr("p1pat",my_p1pat);
getstr("p2pat",my_p2pat);
getstr("p3pat",my_p3pat);
getstr("p4pat",my_p4pat);
ret = P_getstring(GLOBAL,"blankmode",blankmode,1,MAXSTR);
if ( P_getreal(CURRENT,"ampargs",&mytmp,2) < 0 )
mytmp = 0.0;
if ( P_getreal(GLOBAL, "numrfch", &mytmp, 1) < 0 )
abort_message("Cannot proceed without global numrfch\n");
my_numrfch = (int)(mytmp+0.05);
if(my_numrfch<2) abort_message("this is a single transmit system and you don't need this pulse sequence\n");
if(my_numrfch>16) abort_message("numrfch > 16 not supported \n");
printf("mytmp=%f\n",mytmp);
// if((P_getstring(GLOBAL,"rfGroupMap",tmpstr,1,MAXSTR) < 0) || (strlen(tmp) < 2))
// {
// abort_message("global rfGroupMap doesn't exist or is too short\n");
// }
// else // rfGroupMap is set to all 1's for the same number as numrfch so we control everything here in the sequence
//{
strncpy(tmpstr,"111111111111111111111111111111111111111111111111111111111111111111",(size_t)my_numrfch);
tmpstr[my_numrfch]=0;
P_setstring(CURRENT, "rfGroupMap", tmpstr, 1);
// }
//getparm("blankmode","string",GLOBAL,blankmode,MAXSTR);
postDelay = tr - at;
//printf("blankmode=%s\n",blankmode);
/*************************************************/
/* check phase setting ***************************/
// if ( (txphase[0] =='n') && (rxphase[0] =='n') )
// {
// abort_message("ERROR - Select at least one phase [Tx or Rx]\n");
// }
/**************************************************/
/* check pulse width *****************************/
rfDuration = shapelistpw(p1pat, pw); /* assign exitation pulse duration */
printf("p1pat: %s\n",my_p1pat);
printf("duration: %e\n",rfDuration);
acqt = rfDuration + rof1 - alfa;
if (FP_GT(acqt, at))
{
abort_message("Pulse duration too long. max [%.3f] ms\n",(at-rof1+alfa)*1000.0);
}
if(ret==0 && blankmode[0]=='u')
obsunblank();
delay(postDelay);
settable(t1,4,phs1); /*from T1meas.c */
getelem(t1,ct,v11); /*from T1meas.c */
setreceiver(t1);
printf("mytmp=%d\n",my_numrfch);
my_pulseID = initRFGroupPulse(rfDuration, my_p1pat, 's', 0.0, 0.0, v11, &my_offsets[0], my_numrfch-1);
printf("pulse id = %d\n",my_pulseID);
//modifyRFGroupName(my_pulseID,2,my_p2pat);
//modifyRFGroupName(my_pulseID,3,my_p3pat);
// modifyRFGroupName(my_pulseID,4,my_p4pat);
for(i=0;i<64;i++) my_tpwr[i]=0.0;
for(i=0;i<64;i++) my_tpwrf[i]=0.0;
for(i=0;i<64;i++) my_on_off[i]=0;
//SAS turn everything off
for(i=0;i<my_numrfch-1;i++)
{
modifyRFGroupOnOff(my_pulseID, i+1,0);
printf("here is i=%d\n",i);
}
for(i=0;i<my_numrfch-1;i++) modifyRFGroupPwrf(my_pulseID, i+1, 0.0);
for(i=0;i<my_numrfch-1;i++) modifyRFGroupPwrC(my_pulseID, i+1, 0.0);
//SAS get the parameter arrays into the local arrays
my_retval=(int)getarray("my_tpwr",my_tpwr);
/*
printf("my tpwr0 was: %e\n",my_tpwr[0]);
printf("my tpwr1 was: %e\n",my_tpwr[1]);
printf("my tpwr2 was: %e\n",my_tpwr[2]);
printf("my tpwr3 was: %e\n",my_tpwr[3]);
printf("my tpwr4 was: %e\n",my_tpwr[4]);
printf("my tpwr5 was: %e\n",my_tpwr[5]);
printf("my tpwr6 was: %e\n",my_tpwr[6]);
printf("my tpwr7 was: %e\n",my_tpwr[7]);
*/
my_retval=(int)getarray("my_on_off",my_tpwrf); //dump the array of reals into a real array
for(i=0;i<my_numrfch;i++) my_on_off[i] = (int)my_tpwrf[i]; //convert to integer
/*
printf("my on_off_0 was: %d\n",my_on_off[0]);
printf("my on_off_1 was: %d\n",my_on_off[1]);
printf("my on_off_2 was: %d\n",my_on_off[2]);
printf("my on_off_3 was: %d\n",my_on_off[3]);
printf("my on_off_4 was: %d\n",my_on_off[4]);
printf("my on_off_5 was: %d\n",my_on_off[5]);
printf("my on_off_6 was: %d\n",my_on_off[6]);
printf("my on_off_7 was: %d\n",my_on_off[7]);
*/
for(i=0;i<64;i++) my_tpwrf[i]=2047.0;
//SAS set everything to array values
for(i=0;i<my_numrfch;i++) modifyRFGroupOnOff(my_pulseID, i+1,my_on_off[i]);
for(i=0;i<my_numrfch;i++) modifyRFGroupPwrf(my_pulseID, i+1, my_tpwrf[i]);
for(i=0;i<my_numrfch;i++) modifyRFGroupPwrC(my_pulseID, i+1, my_tpwr[i]);
/*==============================================*/
/* START LOOPBACK PULSE SEQUENCE */
/*==============================================*/
status(A);
obsoffset(resto);
/* TTL trigger to scope sequence ****************************/
sp1on();
/* Relaxation delay ***********************************/
xgate(ticks);
/* RF pulse *******************************************/
GroupPulse(my_pulseID, rof1, rof2, v11, 0);
endacq();
sp1off();
if(ret==0 && blankmode[0]=='u')
obsunblank();
}
