def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids].split('@')
except:
fail = True
if not fail and len(ids) > 0:
for id in ids:
doc = io.get_doc_db(id)
analysis = doc.get('Calibration', {}).get('Analysis', {})
if 'Values' in analysis and 'Uncertainty' in analysis['Values']:
analysis['Values']['Uncertainty'] = []
res = Analysis(doc, init_dict=analysis)
u = Uncert(doc)
u.define_model()
u.gen_val_dict(res)
u.gen_val_array(res)
u.volume_start(res)
u.volume_5(res)
u.temperature_before(res)
u.temperature_after(res)
u.pressure_fill(res)
u.total(res)
io.save_doc(res.build_doc())
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids].split('@')
except:
fail = True
if not fail and len(ids) > 0:
for id in ids:
doc = io.get_doc_db(id)
if 'Calibration' in doc and 'Analysis' in doc['Calibration']:
cal = Cal(doc)
analysis = doc['Calibration']['Analysis']
res = Analysis(doc, init_dict=analysis)
chk = Analysis(doc)
cal.check_analysis(res, chk)
io.save_doc(chk.build_doc("Check"))
else:
ret = {
"error": "doc {} contains no analysis to check".format(id)
}
else:
ret = {"error": "no --ids found"}
# print writes back to relay server by writing to std.out
print(json.dumps(ret))
def main():
io = Io()
io.eval_args()
ret = {'ok': True}
cmc = True
base_doc = io.get_base_doc("ce3")
for id in io.ids:
id = id.replace("\"", "")
doc = io.get_doc_db(id)
if io.update:
doc = io.update_cal_doc(doc, base_doc)
ana = Analysis(doc)
io.save_doc(ana.build_doc())
print(json.dumps(ret))
def main():
io = Io()
io.eval_args()
doc = io.get_state_doc(name="se3")
base_doc = io.get_base_doc(name="se3")
for k, v in base_doc.items():
doc['State'][k] = v
cal = Cal(doc)
res = Analysis(doc)
cal.time_state(res)
cal.volume_state(res)
cal.pressure_state(res)
cal.outgas_state(res)
cal.pressure_loss(res)
cal.temperature_state(res)
chk = Analysis(res.build_doc())
cal.check_state(res, chk)
io.save_doc(chk.build_doc("Check"))
def main():
io = Io()
io.eval_args()
ret = {'ok': True}
cmc = False
base_doc = io.get_base_doc("se3")
for id in io.ids:
doc = io.get_doc_db(id)
if io.update:
doc = io.update_cal_doc(doc, base_doc)
cal = Cal(doc)
ana = Analysis(doc, analysis_type="direct")
cus_dev = init_customer_device(doc)
cus_dev.range_trans(ana)
cal.temperature_comp(ana)
cal.temperature_gas_direct(ana)
cal.pressure_gn_corr(ana)
cal.pressure_gn_mean(ana)
temperature_dict = ana.pick_dict('Temperature', 'compare')
gas = cal.Aux.get_gas()
ind_dict = cal.Pres.get_dict('Type', 'ind')
offset_dict = cal.Pres.get_dict('Type', 'ind_offset')
range_dict = cal.Range.get_dict('Type', 'ind')
ind = cus_dev.pressure(ind_dict,
temperature_dict,
range_dict=range_dict,
unit=ana.pressure_unit,
gas=gas)
offset = cus_dev.pressure(offset_dict,
temperature_dict,
range_dict=range_dict,
unit=ana.pressure_unit,
gas=gas)
ana.store("Pressure", "ind", ind, ana.pressure_unit)
ana.store("Pressure", "offset", offset, ana.pressure_unit)
ana.store("Pressure", "ind_corr", ind - offset, ana.pressure_unit)
# error for rating procedures
p_ind = ana.pick("Pressure", "ind_corr", cal.unit)
p_cal = ana.pick("Pressure", "cal", cal.unit)
ana.store('Error', 'ind', p_ind / p_cal - 1.0, '1')
## uncert. calculation
uncert = Uncert(doc)
## we have cmc entries for the FRS
## so we can use the GN uncertainty
u = uncert.contrib_pressure_fill(p_cal, cal.unit)
ana.store("Uncertainty", "standard", u / p_cal, "1")
io.save_doc(ana.build_doc())
print(json.dumps(ret))
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
unit = 'Pa'
cmc = False
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids].split('@')
except:
fail = True
if not fail and len(ids) > 0:
for id in ids:
doc = io.get_doc_db(id)
customer_object = doc.get('Calibration').get('CustomerObject')
if customer_object.get("Class") == "SRG":
customer_device = Srg(doc, customer_object)
if customer_object.get("Class") == "CDG":
customer_device = Cdg(doc, customer_object)
tdo = ToDo(doc)
analysis = doc.get('Calibration').get('Analysis')
if "Values" in analysis and "Uncertainty" in analysis["Values"]:
del analysis["Values"]["Uncertainty"]
ana = Analysis(doc, init_dict=analysis)
se2_uncert = UncertSe2(doc)
result_type = analysis.get("AnalysisType", "default")
result_type = "se2_expansion_direct"
res = Result(doc, result_type=result_type)
p_cal = ana.pick('Pressure', 'cal', unit)
p_ind_corr = ana.pick('Pressure', 'ind_corr', unit)
p_off = ana.pick('Pressure', 'offset', unit)
conv = res.Const.get_conv(from_unit=unit,
to_unit=res.ToDo.pressure_unit)
average_index = res.ToDo.make_average_index(
p_cal * conv, res.ToDo.pressure_unit)
print(average_index)
average_index = ana.coarse_error_filtering(
average_index=average_index)
print(average_index)
average_index, ref_mean, ref_std, loops = ana.fine_error_filtering(
average_index=average_index)
pressure_range_index = ana.make_pressure_range_index(
ana, average_index)
print(average_index)
print(ref_mean)
print(ref_std)
print(loops)
if result_type == "se2_expansion_direct" and tdo.type == "error":
average_index, reject_index = ana.ask_for_reject(
average_index=average_index)
reject_index_offset = ana.ask_for_reject_offset(
average_index=average_index)
d = {
"AverageIndex": average_index,
"AverageIndexFlat": ana.flatten(average_index),
"PressureRangeIndex": pressure_range_index,
"RejectIndex": reject_index,
"RejectIndexOffset": reject_index_offset
}
p_tdo, p_tdo_unit = tdo.Pres.get_value_and_unit("target")
conv = res.Const.get_conv(from_unit=p_tdo_unit, to_unit="Pa")
p_tdo = conv * p_tdo
#assuming pascals, temperature correction only if more than 1 decade below 100 Pa
p_tdo_evis = [
p_tdo[i] for i in range(len(p_tdo)) if p_tdo[i] < 9.5
]
if len(p_tdo_evis) > 1:
e_vis, cf_vis, u_vis, vis_unit = ana.ask_for_evis()
d["Evis"] = e_vis
d["CFvis"] = cf_vis
d["Uvis"] = u_vis
d["VisUnit"] = vis_unit
print(d)
ana.store_dict(quant="AuxValues", d=d, dest=None, plain=True)
res.store_dict(quant="AuxValues", d=d, dest=None, plain=True)
if "Uncertainty" in customer_object:
print("lll")
u_dev = customer_device.get_total_uncert(
meas_vec=p_ind_corr,
meas_unit="Pa",
return_unit="Pa",
res=ana,
skip_source="standard",
prefix=False)
se2_uncert.u_PTB_rel(ana)
se2_uncert.make_offset_stability(ana)
customer_device.repeat_uncert(ana)
customer_device.device_uncert(ana)
ana.total_uncert()
u = ana.pick("Uncertainty", "total_rel", "1")
print(customer_device.doc)
print("ffffffffffffffffffffffffffffff")
print(tdo.type)
print(result_type)
if result_type == "se2_expansion_direct" and tdo.type == "sigma":
p_ind_corr = np.take(p_ind_corr, ana.flatten(average_index))
p_cal = np.take(p_cal, ana.flatten(average_index))
p_off = np.take(p_off, ana.flatten(average_index))
d = {
"AverageIndex": average_index,
"AverageIndexFlat": ana.flatten(average_index)
}
print(p_ind_corr)
print(p_cal)
#u = np.delete(u, skip)
sigma_null, sigma_slope, sigma_std = customer_device.sigma_null(
p_cal=p_cal,
cal_unit=unit,
p_ind=p_ind_corr,
ind_unit=unit)
d["SigmaNull"] = sigma_null
d["SigmaCorrSlope"] = np.abs(sigma_slope / sigma_null)
d["SigmaStd"] = sigma_std
# aux_values_pres = Values(doc.get('Calibration').get('Measurement').get("AuxValues").get("Pressure"))
# rd, rd_unit = aux_values_pres.get_value_and_unit(d_type="offset")
# d["OffsetMean"] = np.nanmean(rd)
# d["OffsetStd"] = np.nanstd(rd)
# d["OffsetUnit"] = rd_unit
ana.store_dict(quant="AuxValues", d=d, dest=None, plain=True)
res.store_dict(quant="AuxValues", d=d, dest=None, plain=True)
maesurement_date = cl.Counter(
doc["Calibration"]["Measurement"]["Values"]["Date"]
["Value"]).most_common(1)[0][0]
doc["Calibration"]["Measurement"]["Date"] = [{
"Type":
"measurement",
"Value": [maesurement_date]
}]
res.make_measurement_data_section(ana, result_type=result_type)
if tdo.type == "error":
# start build cert table
p_ind, err, u = res.make_error_table(ana,
pressure_unit=unit,
error_unit='1')
doc = ana.build_doc("Analysis", doc)
doc = res.build_doc("Result", doc)
io.save_doc(doc)
else:
ret = {"error": "no --ids found"}
def main():
io = Io()
io.eval_args()
ret = {"ok": True}
result_type = "sens"
i_unit = "A"
for id in io.ids:
doc = io.get_doc_db(id)
tdo = ToDo(doc)
if tdo.type not in ["sens"]:
sys.exit("wrong script")
if tdo.type == "sens":
result_type = "sens"
display = Display(doc)
cus_dev = init_customer_device(doc)
analysis = doc.get("Calibration").get("Analysis")
## wrong type:
del analysis["Values"]["Sensitivity"]
ana = Analysis(doc, init_dict=analysis, analysis_type=result_type)
res = Result(doc, result_type=result_type, skip=io.skip)
## conversion to ana.pressure_unit if necessary
cal_dict = ana.pick_dict("Pressure", "cal")
p_ind_corr = ana.pick("Pressure", "ind_corr", i_unit)
p_ind = ana.pick("Pressure", "ind", i_unit)
p_ind_offset = ana.pick("Pressure", "ind_offset", i_unit)
if cal_dict.get("Unit") != ana.pressure_unit:
p_cal = ana.pick("Pressure", "cal", tdo.pressure_unit)
conv = ana.Const.get_conv(from_unit=tdo.pressure_unit,
to_unit=ana.pressure_unit)
p_cal = p_cal * conv
else:
p_cal = ana.pick("Pressure", "cal", ana.pressure_unit)
T_gas = ana.pick("Temperature", "Tuhv", "K")
T_room = ana.pick("Temperature", "Troom", "K")
if T_room is None:
T_room = T_gas
u_std = ana.pick("Uncertainty", "uncertPcal_rel", "1")
## recal Sensitivity
s = p_ind_corr / (cus_dev.emis_current(i_unit) * p_cal)
ana.store("Pressure", "cal", p_cal, ana.pressure_unit)
ana.store("Pressure", "offset", p_ind_offset, i_unit)
ana.store("Sensitivity", "gauge", s, "1/{}".format(ana.pressure_unit))
ana.store("Uncertainty", "standard", u_std, "1")
ana.store("Temperature", "gas", T_gas, "K")
ana.store("Temperature", "room", T_room, "K")
conv = ana.Const.get_conv(from_unit=ana.pressure_unit,
to_unit=tdo.pressure_unit)
average_index = tdo.make_average_index(p_cal * conv,
tdo.pressure_unit,
max_dev=0.2)
## will be filled up with aux values:
d = {}
display.check_outlier_sens(ana)
average_index, reject_index = ana.ask_for_reject(
average_index=average_index)
flat_average_index = ana.flatten(average_index)
if result_type == "sens":
T, Tu = ana.ask_for_bake_out_temperature()
if T is not None:
d["Bakeout"] = True
d["BakeoutTemperature"] = float(T)
d["BakeoutTemperatureUnit"] = Tu
t, tu = ana.ask_for_bake_out_time()
d["BakeoutTime"] = float(t)
d["BakeoutTimeUnit"] = tu
else:
d["Bakeout"] = False
p, pu, t, tu = ana.ask_for_sputter()
if T is not None:
d["Sputter"] = True
d["SputterPressure"] = float(p)
d["SputterPressureUnit"] = pu
d["SputterTime"] = float(t)
d["SputterTimeUnit"] = tu
else:
d["Sputter"] = False
d["AverageIndex"] = average_index
d["AverageIndexFlat"] = flat_average_index
ana.store_dict(quant="AuxValues", d=d, dest=None)
## rm values
p_cal = np.take(p_cal, flat_average_index)
p_ind_corr = np.take(p_ind_corr, flat_average_index)
s = np.take(s, flat_average_index)
## store reduced quant. for plot
ana.store("Pressure",
"red_ind_corr",
p_ind_corr,
i_unit,
dest="AuxValues")
ana.store("Pressure",
"red_cal",
p_cal,
ana.pressure_unit,
dest="AuxValues")
ana.store("Sensitivity",
"red_gauge",
s,
"1/{}".format(ana.pressure_unit),
dest="AuxValues")
## offset contrib
cus_dev.coll_uncert(ana, ind_unit=i_unit)
## default uncert. contrib. repeat
cus_dev.repeat_uncert(ana, ind_unit=i_unit)
cus_dev.digit_uncert(ana, ind_unit=i_unit)
cus_dev.emis_uncert(ana, ind_unit=i_unit)
cus_dev.device_uncert(ana)
## the uncertainty of the standard is
# already calculated at analysis step
ana.total_uncert()
## store red version for plot
u_rep = ana.pick("Uncertainty", "repeat", "1")
u_off = ana.pick("Uncertainty", "offset", "1")
u_tot = ana.pick("Uncertainty", "total_rel", "1")
u_dev = ana.pick("Uncertainty", "device", "1")
u_std = ana.pick("Uncertainty", "standard", "1")
ana.store("Uncertainty",
"red_u_rep",
np.take(u_rep, flat_average_index),
"1",
dest="AuxValues")
ana.store("Uncertainty",
"red_u_std",
np.take(u_std, flat_average_index),
"1",
dest="AuxValues")
ana.store("Uncertainty",
"red_u_dev",
np.take(u_dev, flat_average_index),
"1",
dest="AuxValues")
ana.store("Uncertainty",
"red_u_tot",
np.take(u_tot, flat_average_index),
"1",
dest="AuxValues")
ana.store("Uncertainty",
"red_u_off",
np.take(u_off, flat_average_index),
"1",
dest="AuxValues")
display.plot_uncert(ana)
# start making data sections
res.make_measurement_data_section(ana, result_type=result_type)
# start build cert table
p_cal_mv, p_ind_mv, s_mv, u_mv = res.make_sens_table(
ana,
pressure_unit=ana.pressure_unit,
sens_unit='1/Pa',
uncert_unit="1",
ind_unit="A")
ana.store("Pressure", "ind_mean", p_ind_mv, i_unit, dest="AuxValues")
ana.store("Pressure",
"cal_mean",
p_cal_mv,
ana.pressure_unit,
dest="AuxValues")
ana.store("Sensitivity",
"gauge_mean",
s_mv,
"1/{}".format(ana.pressure_unit),
dest="AuxValues")
ana.store("Uncertainty", "total_mean", u_mv, "1", dest="AuxValues")
display.plot_mean(ana)
doc = ana.build_doc("Analysis", doc)
doc = res.build_doc("Result", doc)
io.save_doc(doc)
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids].split(';')
except:
fail = True
if '-u' in args:
update = True
else:
update = False
if not fail and len(ids) > 0:
base_doc = io.get_base_doc("dkm_ppc4")
for id in ids:
doc = io.get_doc_db(id)
if update:
doc = io.update_cal_doc(doc, base_doc)
cus_dev = init_customer_device(doc)
res = Analysis(doc)
uncert = Uncert(doc)
cal = Cal(doc)
cal.temperature(res)
cal.temperature_correction(res)
cal.pressure_res(res)
cal.mass_total(res)
cal.pressure_cal(res)
# cal uncert of standard
uncert.total(res)
## calculate customer indication
gas = cal.Aux.get_gas()
## todo meas temp room, gas
temperature_dict = {}
offset_dict = cal.Pres.get_dict('Type', 'ind_offset')
ind_dict = cal.Pres.get_dict('Type', 'ind')
offset = cus_dev.pressure(offset_dict,
temperature_dict,
unit=cal.unit,
gas=gas)
ind = cus_dev.pressure(ind_dict,
temperature_dict,
unit=cal.unit,
gas=gas)
ind_corr = ind - offset
res.store("Pressure", "offset", offset, cal.unit)
res.store("Pressure", "ind", ind, cal.unit)
res.store("Pressure", "ind_corr", ind_corr, cal.unit)
# error for rating procedures
p_ind_corr = res.pick("Pressure", "ind_corr", cal.unit)
p_cal = res.pick("Pressure", "cal", cal.unit)
res.store('Error', 'ind', p_ind_corr / p_cal - 1, '1')
cus_dev.range_trans(res)
print(p_ind_corr / p_cal - 1)
io.save_doc(res.build_doc())
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids].split(';')
except:
fail = True
if '-u' in args:
update = True
else:
update = False
if not fail and len(ids) > 0:
base_doc = io.get_base_doc("frs5")
for id in ids:
doc = io.get_doc_db(id)
if update:
doc = io.update_cal_doc(doc, base_doc)
cal = Cal(doc)
res = Analysis(doc)
uncert = Uncert(doc)
cal.temperature(res)
cal.pressure_res(res)
cal.pressure_cal(res)
uncert.total_standard(res)
gas = cal.Aux.get_gas()
devs = (
"1T_1",
"1T_2",
"1T_3",
"5T_1",
"10T_1",
"10T_2",
"10T_3",
"50T_1",
"100T_1",
"100T_2",
"100T_3",
)
p_cal = res.pick("Pressure", "cal", cal.unit)
for dev in devs:
p_offset = cal.Pres.get_value('{}-offset'.format(dev),
cal.unit)
p_ind = cal.Pres.get_value('{}-ind'.format(dev), cal.unit)
p_ind_corr = p_ind - p_offset
res.store("Pressure", '{}-offset'.format(dev), p_offset,
cal.unit)
res.store("Pressure", '{}-ind'.format(dev), p_ind, cal.unit)
res.store("Pressure", '{}-ind_corr'.format(dev), p_ind_corr,
cal.unit)
res.store('Error', '{}-ind'.format(dev),
p_ind_corr / p_cal - 1, '1')
print(dev)
print("----------------------------")
print(p_ind_corr / p_cal - 1)
print("----------------------------")
print("----------------------------")
print(p_cal)
io.save_doc(res.build_doc())
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok':True}
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids].split('@')
except:
fail = True
if '--min_pressure' in args:
min_i = args.index('--min_pressure') + 1
try:
min_pressure = float(args[min_i])
except:
fail = True
if '--max_pressure' in args:
max_i = args.index('--max_pressure') + 1
try:
max_pressure = float(args[max_i])
except:
fail = True
if '--pressure_unit' in args:
unit_i = args.index('--pressure_unit') + 1
try:
pressure_unit = str(args[unit_i])
except:
fail = True
if not fail and len(ids) > 0:
base_doc = io.get_base_doc("se3")
for id in ids:
doc = io.get_doc_db(id)
todo = ToDo(doc)
const = Constants(base_doc)
conv = const.get_conv(from_unit=pressure_unit, to_unit=todo.pressure_unit)
max_pressure = max_pressure * conv
min_pressure = min_pressure * conv
todo_dict, rest_dict = todo.shape_pressure(min_p=min_pressure, max_p=max_pressure, unit = todo.pressure_unit)
doc["Calibration"]["ToDo"]["Values"]["Pressure"] = todo_dict
io.save_doc(doc)
if rest_dict:
## generate a new doc with issue+1 and rest todo
rest_doc = copy.deepcopy(doc)
id_arr = rest_doc["_id"].split("_")
issue = str(int(id_arr[-1]) + 1 + 10000)[1:5]
id_arr[1] = issue
rest_doc["_id"] = "_".join(id_arr)
rest_doc["Calibration"]["Issue"] = issue
rest_doc["Calibration"]["ToDo"]["Values"]["Pressure"] = rest_dict
del rest_doc["_rev"]
io.save_doc(rest_doc)
else:
ret = {"error": "no --ids found"}
print(json.dumps(ret))
def main():
io = Io()
io.eval_args()
ret = {'ok': True}
cmc = False
for id in io.ids:
doc = io.get_doc_db(id)
display = Display(doc)
cus_dev = init_customer_device(doc)
ana = result_analysis_init(doc)
## generate result instance with analysis res type
res = Result(doc, result_type=ana.analysis_type, skip=io.skip)
if res.ToDo.type != "sigma":
sys.exit("wrong script")
p_cal = ana.pick('Pressure', 'cal', ana.pressure_unit)
p_ind_corr = ana.pick('Pressure', 'ind_corr', ana.pressure_unit)
## will be filled up with aux values:
d = {}
sigma = ana.pick("Sigma", "eff", "1")
if sigma is None:
sigma = p_ind_corr / p_cal
ana.store("Sigma", "eff", sigma, "1")
display.check_sigma(ana)
all_index = cus_dev.make_sigma_index(p_cal, ana.pressure_unit)
average_index, reject_index = ana.ask_for_reject(
average_index=all_index)
flat_average_index = ana.flatten(average_index)
d["AverageIndex"] = average_index
d["AverageIndexFlat"] = flat_average_index
ana.store_dict(quant='AuxValues', d=d, dest=None)
## reduce
p_cal = np.take(p_cal, flat_average_index)
p_ind = np.take(p_ind_corr, flat_average_index)
sigma = np.take(sigma, flat_average_index)
## store reduced quant. for plot
ana.store("Pressure",
"red_ind_corr",
p_ind,
ana.pressure_unit,
dest="AuxValues")
ana.store("Pressure",
"red_cal",
p_cal,
ana.pressure_unit,
dest="AuxValues")
ana.store("Sigma", "red_eff", sigma, "1", dest="AuxValues")
## cal. sigma
sigma_null, sigma_slope, sigma_std = cus_dev.sigma_null(
p_cal, ana.pressure_unit, p_ind, ana.pressure_unit)
d["SigmaNull"] = float(sigma_null)
d["SigmaSlope"] = float(sigma_slope)
d["SigmaCorrSlope"] = float(np.abs(sigma_slope / sigma_null))
d["SigmaStd"] = float(sigma_std)
ana.store_dict(quant='AuxValues', d=d, dest=None)
## cal. offset and offset scatter
aux_values_pres = Values(
doc.get('Calibration').get('Measurement').get("AuxValues").get(
"Pressure"))
rd, rd_unit = aux_values_pres.get_value_and_unit(d_type="offset")
d["OffsetMean"] = float(np.nanmean(rd))
d["OffsetStd"] = float(np.nanstd(rd))
d["OffsetUnit"] = rd_unit
ana.store_dict(quant='AuxValues', d=d, dest=None)
## uncert contribs.
cus_dev.uncert_sigma_eff(ana)
cus_dev.uncert_ind(ana)
cus_dev.uncert_temperature(ana)
cus_dev.uncert_offset(ana)
cus_dev.uncert_repeat(ana)
cus_dev.device_uncert(ana)
## the uncertainty of the standard is
# already calculated at analysis step
ana.total_uncert()
u_tot = ana.pick("Uncertainty", "total_rel", "1")
ana.store("Uncertainty",
"red_u_tot",
np.take(u_tot, flat_average_index),
"1",
dest="AuxValues")
# start making data sections
res.make_measurement_data_section(ana, result_type=ana.analysis_type)
display.plot_sigma(ana)
doc = ana.build_doc("Analysis", doc)
doc = res.build_doc("Result", doc)
io.save_doc(doc)
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
unit = "Pa"
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids]
ids = ids.split('@')
except:
fail = True
if not fail and len(ids) > 0:
for id in ids:
id = id.replace("\"", "")
## -------------------------
## se3
## -------------------------
base_doc_se3 = io.get_base_doc("se3")
doc = io.get_doc_db(id)
doc = io.update_cal_doc(doc, base_doc_se3)
res = Analysis(doc, analysis_type="expansion")
uncert_se3 = UncertSe3(doc)
cal_se3 = CalSe3(doc)
f_names = cal_se3.get_expansion_name()
f_name = f_names[0]
cal_se3.pressure_gn_corr(res)
cal_se3.pressure_gn_mean(res)
cal_se3.temperature_before(res)
cal_se3.temperature_after(res)
cal_se3.real_gas_correction(res)
cal_se3.correction_delta_height(res)
rg = res.pick("Correction", "rg", "1")
dh = res.pick("Correction", "delta_heigth", "1")
p_0 = res.pick("Pressure", "fill", unit)
T_0 = res.pick("Temperature", "before", "K")
T_1 = res.pick("Temperature", "after", "K")
u_p_0 = uncert_se3.contrib_pressure_fill(p_0, unit, skip_type="A")
u_T_1 = uncert_se3.contrib_temperature_vessel(T_1,
"K",
skip_type="A")
u_T_0 = uncert_se3.contrib_temperature_volume_start(T_0,
"K",
f_names,
skip_type="A")
## -------------------------
## p_nd
## -------------------------
customer_device = doc['Calibration']['CustomerObject']
CustomerDevice = Cdg(doc, customer_device)
temperature_dict = res.pick_dict('Temperature', 'before')
gas = cal_se3.get_gas()
ind_dict = cal_se3.Pres.get_dict('Type', 'nd_ind')
offset_dict = cal_se3.Pres.get_dict('Type', 'nd_offset')
ind = CustomerDevice.pressure(ind_dict,
temperature_dict,
unit=unit,
gas=gas)
offset = CustomerDevice.pressure(offset_dict,
temperature_dict,
unit=unit,
gas=gas)
p_nd = ind - offset
u_p_nd = CustomerDevice.get_total_uncert(p_nd,
unit,
unit,
skip_type="A")
## -------------------------
## frs5
## -------------------------
base_doc_frs5 = io.get_base_doc("frs5")
doc = io.update_cal_doc(doc, base_doc_frs5)
res = Analysis(doc, analysis_type="expansion")
cal_frs = CalFrs(doc)
res = Analysis(doc)
uncert = UncertFrs(doc)
cal_frs.temperature(res)
cal_frs.pressure_res(res)
cal_frs.pressure_cal(res)
uncert.total_standard(res, no_type_a=True)
p_1 = res.pick("Pressure", "cal", unit)
u_p_1 = res.pick("Uncertainty", "standard", "1") * p_1
## -------------------------
## f
## -------------------------
corr_tem = T_0 / T_1
f = (p_1 - p_nd) / (p_0 * rg * dh) * corr_tem
s_p_1 = 1 / p_0 * corr_tem
s_p_0 = -(p_1 - p_nd) / (p_0**2) * corr_tem
s_p_nd = 1 / p_0 * corr_tem
s_T_0 = (p_1 - p_nd) / (p_0) / T_1
s_T_1 = -(p_1 - p_nd) / (p_0) * T_0 / T_1**2
uc_p_1 = (s_p_1 * u_p_1)
uc_p_0 = (s_p_0 * u_p_0)
uc_p_nd = (s_p_nd * u_p_nd)
uc_T_1 = (s_T_1 * u_T_1)
uc_T_0 = (s_T_0 * u_T_0)
u = (uc_p_1**2 + uc_p_0**2 + uc_p_nd**2 + uc_T_1**2 +
uc_T_0**2)**0.5
res.store("Expansion", f_name, f, "1")
res.store("Pressure", "nd_offset", offset, unit)
res.store("Pressure", "nd_corr", p_nd, unit)
res.store("Uncertainty", "nd_corr", u_p_nd, unit)
res.store("Pressure", "fill", p_0, unit)
res.store("Uncertainty", "fill", u_p_0, unit)
res.store("Pressure", "cal", p_1, unit)
res.store("Uncertainty", "cal", u_p_1 * p_1, unit)
res.store("Temperature", "before", T_0, "K")
res.store("Temperature", "after", T_1, "K")
res.store("Uncertainty", "before", u_T_0, "K")
res.store("Uncertainty", "after", u_T_1, "K")
res.store("Uncertainty", "total", u, "1")
res.store("Correction", "delta_heigth", dh, "1")
res.store("Correction", "rg", rg, "1")
res.store("Correction", "temperature", corr_tem, "1")
doc = res.build_doc()
doc["Calibration"]["Standard"] = [
base_doc_se3["Standard"], base_doc_frs5["Standard"]
]
io.save_doc(doc)
print("------------------- p_nd:")
print(p_nd)
print(ind_dict["SdValue"])
print(offset_dict["SdValue"])
print("-------------------u p_0:")
print(u_p_0 / p_0)
print("-------------------u p_1:")
print(u_p_1)
print("-------------------u p_nd:")
print(u_p_nd)
#f = np.delete(f, f.argmin())
#f = np.delete(f, f.argmax())
print("-------------------f:")
print(f)
print(np.mean(f))
print(np.std(f))
print(np.std(f) / np.mean(f))
print(np.std(f) / np.mean(f) / (len(f) - 1)**0.5)
print("-------------------u:")
print(u / f)
def main():
io = Io()
io.eval_args()
args = sys.argv
fail = False
ret = {'ok': True}
# with open(".\script\se2\input.json") as input_json:
# print(json.load(input_json))
if '--ids' in args:
idx_ids = args.index('--ids') + 1
try:
ids = args[idx_ids]
ids = ids.split('@')
except:
fail = True
if '-u' in args: # erzeugt Einträge für KOnstatne und Calibrierobjekte
update = True
else:
update = False
if not fail and len(ids) > 0:
base_doc = io.get_base_doc("se2")
for id in ids:
id = id.replace("\"", "")
doc = io.get_doc_db(id)
if update:
doc = io.update_cal_doc(doc, base_doc)
ana = Analysis(doc, analysis_type="expansion")
cal = Cal(doc)
if 'CustomerObject' in doc['Calibration']:
customer_device = doc['Calibration']['CustomerObject']
dev_class = customer_device.get('Class', "generic")
if dev_class == 'SRG':
CustomerDevice = Srg(doc, customer_device)
if dev_class == 'CDG':
CustomerDevice = Cdg(doc, customer_device)
if dev_class == 'RSG':
CustomerDevice = Rsg(doc, {})
cal.temperature_after(ana)
cal.temperature_room(ana)
cal.pressure_cal(ana)
cal.pressure_ind(ana)
cal.pressure_offset(ana)
cal.pressure_indication_error(ana)
#cal.measurement_time(ana)
cal.faktor(ana)
cal.range(ana)
io.save_doc(ana.build_doc())
else:
ret = {"error": "no --ids found"}
# print writes back to relay server by writing to std.out
print(json.dumps(ret))
def main():
io = Io()
# holt Messdaten aus --db
io.eval_args()
meas_doc = io.load_doc()
# holt Konstanten ect. aus --db
base_doc = io.get_base_doc("se2")
# merge der beiden Dokumente
doc = io.update_cal_doc(meas_doc, base_doc)
ana = Analysis(doc)
res = Result(doc)
val = Values(doc)
# Berechnungen-Klasse leitet vom Standard se2 ab
cal = Cal(doc)
# Unsicherheits-Klasse leitet auch vom Standard se2 ab
unc = Uncert(doc)
cal.temperature_after(ana)
cal.temperature_room(ana)
cal.pressure_cal(ana)
cal.pressure_ind(ana)
cal.pressure_offset(ana)
cal.pressure_indication_error(ana)
cal.measurement_time(ana)
cal.reject_outliers_index(ana)
cal.make_main_maesurement_index(ana)
cal.make_pressure_range_index(ana)
cal.fit_thermal_transpiration(ana)
cal.make_AuxValues_section(ana)
unc.make_offset_stability(ana)
unc.repeat_rel(ana)
unc.u_PTB_rel(ana)
unc.total(ana)
res.make_error_table(ana)
res.make_formula_section(ana)
# key = self.Pres.round_to_n(p_cal, 2)
# p_cal = [np.mean(g.values.tolist()) for _, g in pd.DataFrame(p_cal).groupby(key)]
#print(pd.Series(ana.pick("Pressure","cal","mbar")))
#print(pd.DataFrame(ana.pick("Pressure","cal","mbar")).head())
doc = ana.build_doc("Analysis", doc)
doc = res.build_doc("Result", doc)
io.save_doc(doc)
disp = Display(doc)
disp.SE2_CDG_offset_abs().savefig("offset_stability_abs_" +
str(doc["Calibration"]["Certificate"]) +
".pdf")
disp.SE2_CDG_offset_rel().savefig("offset_stability_rel_" +
str(doc["Calibration"]["Certificate"]) +
".pdf")
disp.SE2_CDG_error_plot().savefig("fit_thermal_transpiration_" +
str(doc["Calibration"]["Certificate"]) +
".pdf")
print("*******")
p_cal = ana.pick("Pressure", "cal", "mbar")
print("*******")
res.ToDo.make_average_index(p_cal, "mbar")
print(res.ToDo.average_index)
print(5 < 3 < 5)
a = np.pi**50
print(val.round_to_uncertainty(a, 0.097, 2))
print(val.round_to_uncertainty_array([123, 456, 789], [0.01, 1, 10], 2))
print(val.round_to_uncertainty(0., 0.01, 2))
print(doc["Calibration"]["CustomerObject"]["Class"])
print(doc["Calibration"]["CustomerObject"]["Owner"]["Name"])
print(doc["Calibration"]["ToDo"]["Name"])
print(doc["Calibration"]["ToDo"]["Values"]["Pressure"]["Unit"])
print(doc["Calibration"]["ToDo"]["Type"])
print(val.unit_convert(5, "Torr", "mbar"))
print(val.unit_convert(5, "Torr"))
print(val.unit_convert(np.asarray([1, 2, 3, 4]), "Torr"))
print(val.unit_convert(np.asarray([1, 2, 3, 4]), "C"))
print(val.unit_convert(np.asarray([1, 2, 3, 4]), "C", "K"))
print(val.unit_convert(np.asarray([1, 2, 3, 4]), "K", "C"))
print(cal.Cons.get_conv("mbar", "Torr"))
print(val.get_object("Type", "p_fill"))
print(cal.Cons.get_conv("C", "K"))
def main():
io = Io()
io.eval_args()
ret = {'ok':True}
cmc = True
base_doc = io.get_base_doc("se3")
for id in io.ids:
id = id.replace("\"", "")
doc = io.get_doc_db(id)
if io.update:
doc = io.update_cal_doc(doc, base_doc)
cal = Cal(doc)
if io.auxval: ## get new the AuxValues from related (meas_date) state measurement
meas_date = cal.Date.first_measurement()
state_doc = io.get_state_doc("se3", date=meas_date)
ana = Analysis(doc, analysis_type="expansion")
cal.insert_state_results(ana, state_doc)
else: ## keep AuxValues from Calibration.Analysis.AuxValues
auxvalues = doc.get('Calibration').get('Analysis', {}).get('AuxValues', {})
ana = Analysis(doc, insert_dict={'AuxValues': auxvalues}, analysis_type="expansion")
cus_dev = init_customer_device(doc)
uncert = Uncert(doc)
cal.pressure_gn_corr(ana)
cal.pressure_gn_mean(ana)
cal.deviation_target_fill(ana)
cal.temperature_before(ana)
cal.temperature_after(ana)
cal.temperature_room(ana)
cal.temperature_gas_expansion(ana)
cal.real_gas_correction(ana)
cal.volume_add(ana)
cal.volume_start(ana)
cal.expansion(ana)
cal.pressure_rise(ana)
cal.correction_delta_height(ana)
cal.correction_f_pressure(ana)
cal.pressure_cal(ana)
cal.error_pressure_rise(ana)
cal.deviation_target_cal(ana)
## uncert. calculation
if cmc:
# bis update CMC Einträge --> vorh. CMC Einträge
# cal uncertainty of standard
uncert.cmc(ana)
else:
uncert.define_model()
uncert.gen_val_dict(ana)
uncert.gen_val_array(ana)
uncert.volume_start(ana)
uncert.volume_5(ana)
uncert.pressure_fill(ana)
uncert.temperature_after(ana)
uncert.temperature_before(ana)
uncert.expansion(ana)
uncert.total(ana)
## calculate customer indication
gas = cal.Aux.get_gas()
temperature_dict = ana.pick_dict('Temperature', 'after')
offset_dict = cal.Pres.get_dict('Type', 'ind_offset' )
ind_dict = cal.Pres.get_dict('Type', 'ind' )
range_dict = cal.Range.get_dict('Type', 'ind' )
offset = cus_dev.pressure(offset_dict, temperature_dict, range_dict=range_dict, unit = cal.unit, gas=gas)
ind = cus_dev.pressure(ind_dict, temperature_dict, range_dict=range_dict, unit = cal.unit, gas=gas)
ana.store("Pressure", "offset", offset, cal.unit)
ana.store("Pressure", "ind", ind, cal.unit)
ana.store("Pressure", "ind_corr", ind - offset, cal.unit)
p_ind = ana.pick("Pressure", "ind_corr", cal.unit)
p_cal = ana.pick("Pressure", "cal" , cal.unit)
if cal.ToDo.type == "error":
ana.store('Error', 'ind', p_ind/p_cal-1, '1')
cus_dev.range_trans(ana)
if cal.ToDo.type == "sigma":
ana.store('Error', 'ind', p_ind/p_cal-1, '1') ## used for check analysis
ana.store('Sigma', 'eff', p_ind/p_cal, '1')
io.save_doc(ana.build_doc())
print(json.dumps(ret))
def main():
io = Io()
io.eval_args()
doc = io.load_doc()
unit = "Pa"
if doc:
## save the doc in ana.org
res = Analysis(doc, analysis_type='expansion')
const = Constants(doc=doc)
val = Values({})
## -------------------------
## SE3
## -------------------------
base_doc_se3 = io.get_base_doc("se3")
se3_doc = io.update_cal_doc(doc, base_doc_se3)
se3_calc = Se3Calc(se3_doc)
uncert_se3 = Se3Uncert(se3_doc)
f_names = se3_calc.get_expansion_name()
f_name = f_names[0]
se3_calc.temperature_before(res)
se3_calc.temperature_after(res)
se3_calc.temperature_room(res)
se3_calc.pressure_gn_corr(res)
se3_calc.pressure_gn_mean(res)
se3_calc.expansion(res)
se3_calc.time_meas(res)
se3_calc.real_gas_correction(res)
rg = res.pick("Correction", "rg", "1")
p_0 = res.pick("Pressure", "fill", "Pa")
p_1 = res.pick("Pressure", "cal", "Pa")
T_0 = res.pick("Temperature", "before", "K")
T_1 = res.pick("Temperature", "after", "K")
u_p_0 = uncert_se3.contrib_pressure_fill(p_0, unit, skip_type="A")
u_T_1 = uncert_se3.contrib_temperature_vessel(T_1, "K", skip_type="A")
u_T_0 = uncert_se3.contrib_temperature_volume_start(T_0,
"K",
f_names,
skip_type="A")
res.store("Pressure", "fill", p_0, unit)
res.store("Uncertainty", "fill", u_p_0, unit)
res.store("Temperature", "before", T_0, "K")
res.store("Temperature", "after", T_1, "K")
res.store("Uncertainty", "before", u_T_0, "K")
res.store("Uncertainty", "after", u_T_1, "K")
res.store("Correction", "rg", rg, "1")
## old Standard section does not have delta_heigth
## values
## dh correction for f_s = 0.9999609272217588
dh = 0.9999609272217588
res.store("Correction", "delta_heigth", np.full(len(p_0), dh), "1")
## -------------------------
## frs5
## -------------------------
base_doc_frs5 = io.get_base_doc("frs5")
frs_doc = io.update_cal_doc(doc, base_doc_frs5)
cal_frs = FrsCalc(frs_doc)
uncert = FrsUncert(frs_doc)
cal_frs.temperature(res)
cal_frs.pressure_res(res)
cal_frs.pressure_cal(res)
uncert.total_standard(res, no_type_a=True)
p_1 = res.pick("Pressure", "cal", unit)
u_p_1 = res.pick("Uncertainty", "standard", "1")
res.store("Pressure", "cal", p_1, unit)
res.store("Uncertainty", "cal", u_p_1 * p_1, unit)
## -------------------------
## p_nd
## -------------------------
pres = Pressure(doc)
auxval = AuxValues(doc)
time = Time(doc)
p_nd_offset_before = auxval.get_value("nd_offset_before", "mbar")
p_nd_offset_after = auxval.get_value("nd_offset_after", "mbar")
if p_nd_offset_after:
p_nd_offset = (p_nd_offset_before + p_nd_offset_after) / 2
else:
p_nd_offset = p_nd_offset_before
p_nd_ind = pres.get_value("nd_ind", "mbar")
conv = const.get_conv(from_unit="mbar", to_unit=unit)
p_nd = (p_nd_ind - p_nd_offset) * conv
CustomerDevice = Cdg(doc, io.get_doc_db("cob-cdg-nd_se3"))
u_p_nd = CustomerDevice.get_total_uncert(p_nd_ind,
unit,
unit,
skip_type="A")
res.store("Pressure", "nd_corr", p_nd, unit)
res.store("Uncertainty", "nd_corr", u_p_nd, unit)
## -------------------------
# Unsicherheit Ausgasung:
## -------------------------
p_rise_rate = 3e-8 #Pa/s gemessen: 2019-01-18 08:40:27 (s. state docs)
t = time.get_rmt("amt_meas", "ms")
conv = const.get_conv(from_unit="ms", to_unit="s")
p_rise = p_rise_rate * t * conv
u_p_rise = 0.2 # Druckanstieg 20% Unsicher
res.store("Pressure", "rise", p_rise, unit)
res.store("Uncertainty", "rise", p_rise * u_p_rise / p_1, "1")
## -------------------------
# f:
## -------------------------
p_a = p_1 - p_nd + p_rise
p_b = p_0 * rg * dh
n = len(p_a)
x = np.full(n, 0.0)
y = np.full(n, 0.0)
for i in range(n):
# y[i] = p_a[i]/p_b[i]*T_0[i]/T_1[i] ## okish
if i == 0:
y[i] = p_a[i]
x[i] = p_b[i] * T_0[i] / T_1[i]
else:
#x[i] = p_a[i - 1]/T_1[i -1]*T_0[i]/p_0[i] ## okish
y[i] = p_a[i] - p_a[i - 1] * T_1[i] / T_1[i - 1]
x[i] = p_b[i] * T_1[i] / T_0[i] - p_a[i - 1] * T_1[i] / T_1[i -
1]
f = y / x
f = np.delete(f, f.argmin())
f = np.delete(f, f.argmax())
print(np.mean(f))
print(np.std(f) / np.mean(f))
## -------------------------
# save
## -------------------------
io.save_doc(res.build_doc())
