summaryrefslogtreecommitdiff
path: root/spectro/i1pro_imp.c
diff options
context:
space:
mode:
Diffstat (limited to 'spectro/i1pro_imp.c')
-rw-r--r--spectro/i1pro_imp.c123
1 files changed, 30 insertions, 93 deletions
diff --git a/spectro/i1pro_imp.c b/spectro/i1pro_imp.c
index 8577f8c..0b6fc69 100644
--- a/spectro/i1pro_imp.c
+++ b/spectro/i1pro_imp.c
@@ -149,8 +149,6 @@
/* Should be good up to 275 cd/m^2 */
#define DISP_INTT3 0.3 /* High brightness display spot mode seconds per reading, */
/* Should be good up to 700 cd/m^2 */
-#define DISP_INTT4 0.1 /* Very high brightness display spot mode seconds per reading, */
- /* Should be good up to 2000 cd/m^2 ? */
#define ADARKINT_MAX 2.0 /* Max cal time for adaptive dark cal */
#define ADARKINT_MAX2 4.0 /* Max cal time for adaptive dark cal Rev E or no high gain */
@@ -400,7 +398,6 @@ void del_i1proimp(i1pro *p) {
free_dvector(s->dark_data, -1, m->nraw-1);
free_dvector(s->dark_data2, -1, m->nraw-1);
free_dvector(s->dark_data3, -1, m->nraw-1);
- free_dvector(s->dark_data4, -1, m->nraw-1);
free_dvector(s->white_data, -1, m->nraw-1);
free_dmatrix(s->idark_data, 0, 3, -1, m->nraw-1);
@@ -961,7 +958,6 @@ i1pro_code i1pro_imp_init(i1pro *p) {
s->dark_data = dvectorz(-1, m->nraw-1);
s->dark_data2 = dvectorz(-1, m->nraw-1);
s->dark_data3 = dvectorz(-1, m->nraw-1);
- s->dark_data4 = dvectorz(-1, m->nraw-1);
s->cal_valid = 0; /* Scale cal invalid */
s->cal_factor[0] = dvectorz(0, m->nwav[0]-1);
@@ -976,7 +972,6 @@ i1pro_code i1pro_imp_init(i1pro *p) {
s->dark_int_time = DISP_INTT; /* 2.0 */
s->dark_int_time2 = DISP_INTT2; /* 0.8 */
s->dark_int_time3 = DISP_INTT3; /* 0.3 */
- s->dark_int_time4 = DISP_INTT4; /* 0.1 */
s->idark_int_time[0] = s->idark_int_time[2] = m->min_int_time;
if (p->itype == instI1Pro2) {
@@ -1062,14 +1057,12 @@ i1pro_code i1pro_imp_init(i1pro *p) {
s->dark_int_time = s->inttime;
s->dark_int_time2 = DISP_INTT2; /* Alternate disp integration time (ie. 0.8) */
s->dark_int_time3 = DISP_INTT3; /* Alternate disp integration time (ie. 0.3) */
- s->dark_int_time4 = DISP_INTT4; /* Alternate disp integration time (ie. 0.1) */
s->dadaptime = 0.0;
s->wadaptime = 0.10;
s->dcaltime = DISP_INTT; /* ie. determines number of measurements */
s->dcaltime2 = DISP_INTT2 * 2; /* Make it 1.6 seconds (ie, 2 x 0.8 seconds) */
s->dcaltime3 = DISP_INTT3 * 3; /* Make it 0.9 seconds (ie, 3 x 0.3 seconds) */
- s->dcaltime4 = DISP_INTT4 * 3; /* Make it 0.3 seconds (ie, 3 x 0.1 seconds) */
s->wcaltime = 0.0;
s->dreadtime = 0.0;
s->wreadtime = DISP_INTT;
@@ -1627,10 +1620,10 @@ i1pro_code i1pro_imp_calibrate(
|| (s->emiss && !s->adaptive && !s->scan)
|| (s->trans && !s->adaptive))) {
int stm;
- int usesdct234 = 0; /* Is a mode that uses dcaltime2, 3 & 4 */
+ int usesdct23 = 0; /* Is a mode that uses dcaltime2 & 3 */
if (s->emiss && !s->adaptive && !s->scan)
- usesdct234 = 1;
+ usesdct23 = 1;
nummeas = i1pro_comp_nummeas(p, s->dcaltime, s->inttime);
@@ -1644,7 +1637,7 @@ i1pro_code i1pro_imp_calibrate(
a1logd(p->log,2,"Execution time of dark calib time %f sec = %d msec\n",s->inttime,msec_time() - stm);
/* Special display mode alternate integration time black measurement */
- if (usesdct234) {
+ if (usesdct23) {
nummeas = i1pro_comp_nummeas(p, s->dcaltime2, s->dark_int_time2);
a1logd(p->log,2,"Doing 2nd initial black calibration with dcaltime2 %f, dark_int_time2 %f, nummeas %d, gainmode %d\n", s->dcaltime2, s->dark_int_time2, nummeas, s->gainmode);
stm = msec_time();
@@ -1665,17 +1658,6 @@ i1pro_code i1pro_imp_calibrate(
return ev;
}
a1logd(p->log,2,"Execution time of 3rd dark calib time %f sec = %d msec\n",s->inttime,msec_time() - stm);
-
- nummeas = i1pro_comp_nummeas(p, s->dcaltime4, s->dark_int_time4);
- a1logd(p->log,2,"Doing 4th initial black calibration with dcaltime4 %f, dark_int_time4 %f, nummeas %d, gainmode %d\n", s->dcaltime4, s->dark_int_time4, nummeas, s->gainmode);
- nummeas = i1pro_comp_nummeas(p, s->dcaltime4, s->dark_int_time4);
- stm = msec_time();
- if ((ev = i1pro_dark_measure(p, s->dark_data4,
- nummeas, &s->dark_int_time4, s->gainmode)) != I1PRO_OK) {
- m->mmode = mmode; /* Restore actual mode */
- return ev;
- }
- a1logd(p->log,2,"Execution time of 4rd dark calib time %f sec = %d msec\n",s->inttime,msec_time() - stm);
}
s->dark_valid = 1;
s->want_dcalib = 0;
@@ -1704,15 +1686,13 @@ i1pro_code i1pro_imp_calibrate(
ss->dark_gain_mode = s->dark_gain_mode;
for (k = -1; k < m->nraw; k++)
ss->dark_data[k] = s->dark_data[k];
- /* If this is a mode with dark_data2/3/4, tranfer it too */
- if (usesdct234 && ss->emiss && !ss->adaptive && !ss->scan) {
+ /* If this is a mode with dark_data2/3, tranfer it too */
+ if (usesdct23 && ss->emiss && !ss->adaptive && !ss->scan) {
ss->dark_int_time2 = s->dark_int_time2;
- ss->dark_int_time3 = s->dark_int_time3;
- ss->dark_int_time4 = s->dark_int_time4;
+ ss->dark_int_time3 = s->dark_int_time2;
for (k = -1; k < m->nraw; k++) {
ss->dark_data2[k] = s->dark_data2[k];
ss->dark_data3[k] = s->dark_data3[k];
- ss->dark_data4[k] = s->dark_data4[k];
}
}
}
@@ -2296,9 +2276,6 @@ i1pro_code i1pro_imp_calibrate(
} else if (s->dispswap == 2) {
tv = s->inttime; s->inttime = s->dark_int_time3; s->dark_int_time3 = tv;
tt = s->dark_data; s->dark_data = s->dark_data3; s->dark_data3 = tt;
- } else if (s->dispswap == 3) {
- tv = s->inttime; s->inttime = s->dark_int_time4; s->dark_int_time4 = tv;
- tt = s->dark_data; s->dark_data = s->dark_data4; s->dark_data4 = tt;
}
s->dispswap = 0;
@@ -2307,43 +2284,30 @@ i1pro_code i1pro_imp_calibrate(
nummeas = i1pro_comp_nummeas(p, s->wreadtime, s->inttime);
ev = i1pro_whitemeasure(p, NULL, NULL, data , &scale, nummeas,
&s->inttime, s->gainmode, s->targoscale, 0);
+ /* Switch to the alternate if things are too bright */
+ /* We do this simply by swapping the alternate values in. */
if (ev == I1PRO_RD_SENSORSATURATED || scale < 1.0) {
- a1logd(p->log,2,"Switching to 2nd display integration time %f seconds\n",s->dark_int_time2);
- /* swap in 2nd display integration time */
+ a1logd(p->log,2,"Switching to alternate display integration time %f seconds\n",s->dark_int_time2);
tv = s->inttime; s->inttime = s->dark_int_time2; s->dark_int_time2 = tv;
tt = s->dark_data; s->dark_data = s->dark_data2; s->dark_data2 = tt;
s->dispswap = 1;
/* Do another measurement of the full display white, and if it's close to */
- /* saturation, switch to the 3rd display integration time */
+ /* saturation, switch to the 3rd alternate display integration time */
nummeas = i1pro_comp_nummeas(p, s->wreadtime, s->inttime);
ev = i1pro_whitemeasure(p, NULL, NULL, data , &scale, nummeas,
&s->inttime, s->gainmode, s->targoscale, 0);
+ /* Switch to the 3rd alternate if things are too bright */
+ /* We do this simply by swapping the alternate values in. */
if (ev == I1PRO_RD_SENSORSATURATED || scale < 1.0) {
- a1logd(p->log,2,"Switching to 3rd display integration time %f seconds\n",s->dark_int_time3);
+ a1logd(p->log,2,"Switching to 3rd alternate display integration time %f seconds\n",s->dark_int_time3);
/* Undo previous swap */
tv = s->inttime; s->inttime = s->dark_int_time2; s->dark_int_time2 = tv;
tt = s->dark_data; s->dark_data = s->dark_data2; s->dark_data2 = tt;
- /* swap in 3rd time */
+ /* swap in 2nd alternate */
tv = s->inttime; s->inttime = s->dark_int_time3; s->dark_int_time3 = tv;
tt = s->dark_data; s->dark_data = s->dark_data3; s->dark_data3 = tt;
s->dispswap = 2;
-
- /* Do another measurement of the full display white, and if it's close to */
- /* saturation, switch to the 4th display integration time */
- nummeas = i1pro_comp_nummeas(p, s->wreadtime, s->inttime);
- ev = i1pro_whitemeasure(p, NULL, NULL, data , &scale, nummeas,
- &s->inttime, s->gainmode, s->targoscale, 0);
- if (ev == I1PRO_RD_SENSORSATURATED || scale < 1.0) {
- a1logd(p->log,2,"Switching to 4th display integration time %f seconds\n",s->dark_int_time3);
- /* Undo previous swap */
- tv = s->inttime; s->inttime = s->dark_int_time3; s->dark_int_time3 = tv;
- tt = s->dark_data; s->dark_data = s->dark_data3; s->dark_data3 = tt;
- /* swap in 4th time */
- tv = s->inttime; s->inttime = s->dark_int_time4; s->dark_int_time4 = tv;
- tt = s->dark_data; s->dark_data = s->dark_data4; s->dark_data4 = tt;
- s->dispswap = 3;
- }
}
}
free_dvector(data, -1, m->nraw-1);
@@ -2983,16 +2947,16 @@ i1pro_code i1pro_imp_measure(
/* and try again. */
if (s->emiss && !s->scan && !s->adaptive
&& ev == I1PRO_RD_SENSORSATURATED
- && s->dispswap < 3) {
+ && s->dispswap < 2) {
double *tt, tv;
if (s->dispswap == 0) {
- a1logd(p->log,2,"Switching to 2nd display integration time %f seconds\n",s->dark_int_time2);
+ a1logd(p->log,2,"Switching to alternate display integration time %f seconds\n",s->dark_int_time2);
tv = s->inttime; s->inttime = s->dark_int_time2; s->dark_int_time2 = tv;
tt = s->dark_data; s->dark_data = s->dark_data2; s->dark_data2 = tt;
s->dispswap = 1;
} else if (s->dispswap == 1) {
- a1logd(p->log,2,"Switching to 3rd display integration time %f seconds\n",s->dark_int_time3);
+ a1logd(p->log,2,"Switching to 2nd alternate display integration time %f seconds\n",s->dark_int_time3);
/* Undo first swap */
tv = s->inttime; s->inttime = s->dark_int_time2; s->dark_int_time2 = tv;
tt = s->dark_data; s->dark_data = s->dark_data2; s->dark_data2 = tt;
@@ -3000,15 +2964,6 @@ i1pro_code i1pro_imp_measure(
tv = s->inttime; s->inttime = s->dark_int_time3; s->dark_int_time3 = tv;
tt = s->dark_data; s->dark_data = s->dark_data3; s->dark_data3 = tt;
s->dispswap = 2;
- } else if (s->dispswap == 2) {
- a1logd(p->log,2,"Switching to 4th display integration time %f seconds\n",s->dark_int_time4);
- /* Undo 2nd swap */
- tv = s->inttime; s->inttime = s->dark_int_time3; s->dark_int_time3 = tv;
- tt = s->dark_data; s->dark_data = s->dark_data3; s->dark_data3 = tt;
- /* Do 3rd swap */
- tv = s->inttime; s->inttime = s->dark_int_time4; s->dark_int_time4 = tv;
- tt = s->dark_data; s->dark_data = s->dark_data4; s->dark_data4 = tt;
- s->dispswap = 3;
}
/* Recompute number of measurements and realloc measurement buffer */
free(mbuf);
@@ -4190,8 +4145,6 @@ i1pro_code i1pro_save_calibration(i1pro *p) {
write_doubles(&x, fp, s->dark_data2-1, m->nraw+1);
write_doubles(&x, fp, &s->dark_int_time3, 1);
write_doubles(&x, fp, s->dark_data3-1, m->nraw+1);
- write_doubles(&x, fp, &s->dark_int_time4, 1);
- write_doubles(&x, fp, s->dark_data4-1, m->nraw+1);
write_ints(&x, fp, &s->dark_gain_mode, 1);
if (!s->emiss) {
@@ -4335,10 +4288,7 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
read_doubles(&x, fp, &dd, 1);
for (j = -1; j < m->nraw; j++)
read_doubles(&x, fp, &dd, 1);
- read_doubles(&x, fp, &dd, 1); /* dark_data3 */
- for (j = -1; j < m->nraw; j++)
- read_doubles(&x, fp, &dd, 1);
- read_doubles(&x, fp, &dd, 1); /* dark_data4 */
+ read_doubles(&x, fp, &dd, 1);
for (j = -1; j < m->nraw; j++)
read_doubles(&x, fp, &dd, 1);
read_ints(&x, fp, &di, 1);
@@ -4388,7 +4338,6 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
ts.dark_data = dvectorz(-1, m->nraw-1);
ts.dark_data2 = dvectorz(-1, m->nraw-1);
ts.dark_data3 = dvectorz(-1, m->nraw-1);
- ts.dark_data4 = dvectorz(-1, m->nraw-1);
ts.cal_factor[0] = dvectorz(0, m->nwav[0]-1);
ts.cal_factor[1] = dvectorz(0, m->nwav[1]-1);
ts.white_data = dvectorz(-1, m->nraw-1);
@@ -4435,8 +4384,6 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
read_doubles(&x, fp, ts.dark_data2-1, m->nraw+1);
read_doubles(&x, fp, &ts.dark_int_time3, 1);
read_doubles(&x, fp, ts.dark_data3-1, m->nraw+1);
- read_doubles(&x, fp, &ts.dark_int_time4, 1);
- read_doubles(&x, fp, ts.dark_data4-1, m->nraw+1);
read_ints(&x, fp, &ts.dark_gain_mode, 1);
if (!ts.emiss) {
@@ -4472,7 +4419,6 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
&& (s->adaptive || fabs(s->dark_int_time - ts.dark_int_time) < 0.01)
&& (s->adaptive || fabs(s->dark_int_time2 - ts.dark_int_time2) < 0.01)
&& (s->adaptive || fabs(s->dark_int_time3 - ts.dark_int_time3) < 0.01)
- && (s->adaptive || fabs(s->dark_int_time4 - ts.dark_int_time4) < 0.01)
&& (!s->adaptive || fabs(s->idark_int_time[0] - ts.idark_int_time[0]) < 0.01)
&& (!s->adaptive || fabs(s->idark_int_time[1] - ts.idark_int_time[1]) < 0.01)
&& (!s->adaptive || fabs(s->idark_int_time[2] - ts.idark_int_time[2]) < 0.01)
@@ -4505,9 +4451,6 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
s->dark_int_time3 = ts.dark_int_time3;
for (j = -1; j < m->nraw; j++)
s->dark_data3[j] = ts.dark_data3[j];
- s->dark_int_time4 = ts.dark_int_time4;
- for (j = -1; j < m->nraw; j++)
- s->dark_data4[j] = ts.dark_data4[j];
s->dark_gain_mode = ts.dark_gain_mode;
if (!ts.emiss) {
s->cal_valid = ts.cal_valid;
@@ -4537,7 +4480,7 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
a1logd(p->log,2,"emis = %d : %d, trans = %d : %d, ref = %d : %d\n",s->emiss,ts.emiss,s->trans,ts.trans,s->reflective,ts.reflective);
a1logd(p->log,2,"scan = %d : %d, flash = %d : %d, ambi = %d : %d, adapt = %d : %d\n",s->scan,ts.scan,s->flash,ts.flash,s->ambient,ts.ambient,s->adaptive,ts.adaptive);
a1logd(p->log,2,"inttime = %f : %f\n",s->inttime,ts.inttime);
- a1logd(p->log,2,"darkit1 = %f : %f, 2 = %f : %f, 3 = %f : %f, 4 = %f : %f\n",s->dark_int_time,ts.dark_int_time,s->dark_int_time2,ts.dark_int_time2,s->dark_int_time3,ts.dark_int_time3,s->dark_int_time4,ts.dark_int_time4);
+ a1logd(p->log,2,"darkit1 = %f : %f, 2 = %f : %f, 3 = %f : %f\n",s->dark_int_time,ts.dark_int_time,s->dark_int_time2,ts.dark_int_time2,s->dark_int_time3,ts.dark_int_time3);
a1logd(p->log,2,"idarkit0 = %f : %f, 1 = %f : %f, 2 = %f : %f, 3 = %f : %f\n",s->idark_int_time[0],ts.idark_int_time[0],s->idark_int_time[1],ts.idark_int_time[1],s->idark_int_time[2],ts.idark_int_time[2],s->idark_int_time[3],ts.idark_int_time[3]);
}
}
@@ -4546,7 +4489,6 @@ i1pro_code i1pro_restore_calibration(i1pro *p) {
free_dvector(ts.dark_data, -1, m->nraw-1);
free_dvector(ts.dark_data2, -1, m->nraw-1);
free_dvector(ts.dark_data3, -1, m->nraw-1);
- free_dvector(ts.dark_data4, -1, m->nraw-1);
free_dvector(ts.white_data, -1, m->nraw-1);
free_dmatrix(ts.idark_data, 0, 3, -1, m->nraw-1);
@@ -4607,8 +4549,6 @@ i1pro_establish_high_power(i1pro *p) {
if ((ev = i1pro_getmisc(p, &m->fwrev, NULL, &m->maxpve, NULL, &m->powmode)) != I1PRO_OK)
return ev;
- a1logd(p->log,2,"CPLD rev = %d\n",m->cpldrev);
-
if (m->powmode != 8) { /* In high power mode */
if ((ev = i1pro_reset(p, 0x1f)) != I1PRO_OK)
return ev;
@@ -10784,14 +10724,14 @@ i1pro_readEEProm(
0xC4, 0, 0, pbuf, len, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_readEEProm: read failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_readEEProm: read failed with ICOM err 0x%x\n",se);
return rv;
}
/* Now read the bytes */
se = p->icom->usb_read(p->icom, NULL, 0x82, buf, size, &rwbytes, 5.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_readEEProm: read failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_readEEProm: read failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -10872,7 +10812,7 @@ i1pro_writeEEProm(
0xC3, 0, 0, pbuf, len, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,2,"i1pro_writeEEProm: write failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,2,"i1pro_writeEEProm: write failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -10880,7 +10820,7 @@ i1pro_writeEEProm(
se = p->icom->usb_write(p->icom, NULL, 0x03, buf, size, &rwbytes, 5.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_writeEEProm: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_writeEEProm: failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -10897,7 +10837,7 @@ i1pro_writeEEProm(
se = p->icom->usb_write(p->icom, NULL, 0x03, pbuf, 1, &rwbytes, 5.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_writeEEProm: write failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_writeEEProm: write failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -10949,7 +10889,7 @@ i1pro_getmisc(
0xC9, 0, 0, pbuf, 8, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_getmisc: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_getmisc: failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -10997,7 +10937,7 @@ i1pro_getmeasparams(
0xC2, 0, 0, pbuf, 8, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_getmeasparams: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_getmeasparams: failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -11062,7 +11002,7 @@ i1pro_setmeasparams(
0xC1, 0, 0, pbuf, 8, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_setmeasparams: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_setmeasparams: failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -11378,13 +11318,10 @@ i1pro_setmcmode(
0xCF, 0, 0, pbuf, 1, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_setmcmode: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_setmcmode: failed with ICOM err 0x%x\n",se);
return rv;
}
- /* Hmm. Give the instrument a little time to reconfigure itself. */
- msec_sleep(10);
-
a1logd(p->log,2,"i1pro_setmcmode: done, ICOM err 0x%x (%d msec)\n",
se, msec_time()-stime);
return rv;
@@ -11421,7 +11358,7 @@ i1pro_getmcmode(
0xD1, 0, 0, pbuf, 6, 2.0);
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_getmcmode: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_getmcmode: failed with ICOM err 0x%x\n",se);
return rv;
}
@@ -11466,7 +11403,7 @@ i1pro_code i1pro_waitfor_switch(i1pro *p, double top) {
}
if ((rv = icoms2i1pro_err(se)) != I1PRO_OK) {
- a1logd(p->log,1,"i1pro_waitfor_switch: failed with ICOM err 0x%x (%d msec)\n",se, msec_time()-stime);
+ a1logd(p->log,1,"i1pro_waitfor_switch: failed with ICOM err 0x%x\n",se);
return rv;
}