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import numpy as np
import uncertainties as u
from fitvol2 import create_uncertanities
def scan_dict(dict):
"""scans dictionary for duplicate hkl indexes
:arg dict : dictionary to scan
:return dictionary with matching scans, if there are none, the dict is empty
note: can be checked by "not d", true if empty
"""
d = {}
dupl = 0
for i in dict["Measurements"]:
for j in dict["Measurements"]:
if dict["Measurements"][str(i)] != dict["Measurements"][str(j)]:
itup = (
dict["Measurements"][str(i)]["h_index"],
dict["Measurements"][str(i)]["k_index"],
dict["Measurements"][str(i)]["l_index"],
)
jtup = (
dict["Measurements"][str(j)]["h_index"],
dict["Measurements"][str(j)]["k_index"],
dict["Measurements"][str(j)]["l_index"],
)
if itup != jtup:
pass
else:
if str(itup) not in d:
d[str(itup)] = (i, j)
else:
dupl = dupl + 1
d[str(itup) + "_" + str(dupl)] = (i, j)
else:
continue
return d
def compare_hkl(dict1, dict2):
"""Compares two dictionaries based on hkl indexes and return dictionary with str(h k l) as key and tuple with
keys to same measurement in dict1 and dict2
:arg dict1 : first dictionary
:arg dict2 : second dictionary
:return d : dict with matches
example of one key: '0.0 0.0 -1.0 : ('M1', 'M9')' meaning that 001 hkl measurement is M1 in first dict and M9 in second"""
d = {}
dupl = 0
for keys in dict1["Measurements"]:
for key in dict2["Measurements"]:
if (
dict1["Measurements"][str(keys)]["h_index"]
== dict2["Measurements"][str(key)]["h_index"]
and dict1["Measurements"][str(keys)]["k_index"]
== dict2["Measurements"][str(key)]["k_index"]
and dict1["Measurements"][str(keys)]["l_index"]
== dict2["Measurements"][str(key)]["l_index"]
):
if (
str(
(
str(dict1["Measurements"][str(keys)]["h_index"])
+ " "
+ str(dict1["Measurements"][str(keys)]["k_index"])
+ " "
+ str(dict1["Measurements"][str(keys)]["l_index"])
)
)
not in d
):
d[
str(
str(dict1["Measurements"][str(keys)]["h_index"])
+ " "
+ str(dict1["Measurements"][str(keys)]["k_index"])
+ " "
+ str(dict1["Measurements"][str(keys)]["l_index"])
)
] = (str(keys), str(key))
else:
dupl = dupl + 1
d[
str(
str(dict1["Measurements"][str(keys)]["h_index"])
+ " "
+ str(dict1["Measurements"][str(keys)]["k_index"])
+ " "
+ str(dict1["Measurements"][str(keys)]["l_index"])
+ "_dupl"
+ str(dupl)
)
] = (str(keys), str(key))
else:
continue
return d
def create_tuples(x, y, y_err):
"""creates tuples for sorting and merginng of the data
Counts need to be normalized to monitor before"""
t = list()
for i in range(len(x)):
tup = (x[i], y[i], y_err)
t.append(tup)
return t
def merge(dict1, dict2, keys, auto=True, monitor=100000):
"""merges the two tuples and sorts them, if om value is same, Counts value is average
averaging is propagated into sigma if dict1 == dict2, key[1] is deleted after merging
:arg dict1 : dictionary to which measurement will be merged
:arg dict2 : dictionary from which measurement will be merged
:arg keys : tuple with key to dict1 and dict2
:arg auto : if true, when monitors are same, does not change it, if flase, takes monitor always
:arg monitor : final monitor after merging
note: dict1 and dict2 can be same dict
:return dict1 with merged scan"""
if auto:
if dict1["Measurements"][keys[0]]["monitor"] == dict2["Measurements"][keys[1]]["monitor"]:
monitor = dict1["Measurements"][keys[0]]["monitor"]
# load om and Counts
x1, x2 = dict1["Measurements"][keys[0]]["om"], dict2["Measurements"][keys[1]]["om"]
y1, y2 = np.array(dict1["Measurements"][keys[0]]["Counts"]), np.array(
dict2["Measurements"][keys[1]]["Counts"]
)
# normalize y to monitors
cor_y1 = (y1 / dict1["Measurements"][keys[0]]["monitor"]) * monitor
cor_y2 = (y2 / dict2["Measurements"][keys[0]]["monitor"]) * monitor
# check if sigma errors for y exist, otherwise create them as sqrt(y)
y_err1 = (
np.sqrt(cor_y1)
if "sigma" not in dict1["Measurements"][keys[0]]
else np.array(dict1["Measurements"][keys[0]]["sigma"])
* np.sqrt(monitor / dict1["Measurements"][keys[0]]["monitor"])
)
y_err2 = (
np.sqrt(cor_y2)
if "sigma" not in dict2["Measurements"][keys[1]]
else np.array(dict2["Measurements"][keys[1]]["sigma"])
* np.sqrt(monitor / dict2["Measurements"][keys[1]]["monitor"])
)
# creates touples (om, Counts, sigma) for sorting and further processing
tuple_list = create_tuples(x1, cor_y1, y_err1) + create_tuples(x2, cor_y2, y_err2)
# Sort the list on om and add 0 0 0 tuple to the last postion
sorted_t = sorted(tuple_list, key=lambda tup: tup[0])
sorted_t.append((0, 0, 0))
om, Counts, sigma = [], [], []
seen = list()
for i in range(len(sorted_t) - 1):
if sorted_t[i][0] not in seen:
if sorted_t[i][0] != sorted_t[i + 1][0]:
om = np.append(om, sorted_t[i][0])
Counts = np.append(Counts, sorted_t[i][1])
sigma = np.append(sigma, sorted_t[i][2])
else:
om = np.append(om, sorted_t[i][0])
counts1, counts2 = sorted_t[i][1], sorted_t[i + 1][1]
sigma1, sigma2 = sorted_t[i][2], sorted_t[i + 1][2]
count_err1 = u.ufloat(counts1, sigma1)
count_err2 = u.ufloat(counts2, sigma2)
avg = (count_err1 + count_err2) / 2
Counts = np.append(Counts, avg.n)
sigma = np.append(sigma, avg.s)
seen.append(sorted_t[i][0])
else:
continue
if dict1 == dict2:
del dict1["Measurements"][keys[1]]
dict1["Measurements"][keys[0]]["om"] = om
dict1["Measurements"][keys[0]]["Counts"] = Counts
dict1["Measurements"][keys[0]]["sigma"] = sigma
return dict1
def substract_measurement(dict1, dict2, keys, auto=True, monitor=100000):
"""Substracts two measurement (measurement key2 from dict2 from measurent key1 in dict1), expects om to be same
:arg dict1 : dictionary to which measurement will be merged
:arg dict2 : dictionary from which measurement will be merged
:arg keys : tuple with key to dict1 and dict2
:arg auto : if true, when monitors are same, does not change it, if flase, takes monitor always
:arg monitor : final monitor after merging
:returns d : dict1 with substracted Counts from dict2 and sigma that comes from the substraction"""
if len(dict1["Measurements"][keys[0]]["om"]) != len(dict2["Measurements"][keys[1]]["om"]):
raise ValueError("Omegas have different lengths, cannot be substracted")
if auto:
if dict1["Measurements"][keys[0]]["monitor"] == dict2["Measurements"][keys[1]]["monitor"]:
monitor = dict1["Measurements"][keys[0]]["monitor"]
monitor_ratio_prim = monitor / dict1["Measurements"][str(keys[0])]["monitor"]
monitor_ratio_sec = monitor / dict2["Measurements"][str(keys[1])]["monitor"]
y1 = np.array(dict1["Measurements"][str(keys[0])]["Counts"]) * monitor_ratio_prim
y2 = np.array(dict2["Measurements"][str(keys[1])]["Counts"]) * monitor_ratio_sec
y_err1 = (
np.sqrt(y1)
if "sigma" not in dict1["Measurements"][keys[0]]
else dict1["Measurements"][keys[0]]["sigma"]
* np.sqrt(monitor / dict1["Measurements"][keys[0]]["monitor"])
)
y_err2 = (
np.sqrt(y2)
if "sigma" not in dict2["Measurements"][keys[1]]
else dict2["Measurements"][keys[1]]["sigma"]
* np.sqrt(monitor / dict2["Measurements"][keys[1]]["monitor"])
)
dict1_count_err = create_uncertanities(y1, y_err1)
dict2_count_err = create_uncertanities(y2, y_err2)
res = np.subtract(dict1_count_err, dict2_count_err)
res_nom = []
res_err = []
for k in range(len(res)):
res_nom = np.append(res_nom, res[k].n)
res_err = np.append(res_err, res[k].s)
dict1["Measurements"][str(keys[0])]["Counts"] = res_nom
dict1["Measurements"][str(keys[0])]["sigma"] = res_err
def compare_dict(dict1, dict2):
"""takes two ccl dictionaries and compare different values for each key
:arg dict1 : dictionary 1 (ccl)
:arg dict2 : dictionary 2 (ccl)
:returns warning : dictionary with keys from primary files (if they differ) with
information of how many measurement differ and which ones differ
:returns report_string string comparing all different values respecively of measurements"""
if dict1["file_type"] != dict2["file_type"]:
print("select two dicts")
return
S = []
conflicts = {}
warnings = {}
comp = compare_hkl(dict1, dict2)
d1 = scan_dict(dict1)
d2 = scan_dict(dict2)
if not d1:
S.append("There are no duplicates in %s (dict1) \n" % dict1["meta"]["original_filename"])
else:
S.append(
"There are %d duplicates in %s (dict1) \n"
% (len(d1), dict1["meta"]["original_filename"])
)
warnings["Duplicates in dict1"] = list()
for keys in d1:
S.append("Measurements %s with hkl %s \n" % (d1[keys], keys))
warnings["Duplicates in dict1"].append(d1[keys])
if not d2:
S.append("There are no duplicates in %s (dict2) \n" % dict2["meta"]["original_filename"])
else:
S.append(
"There are %d duplicates in %s (dict2) \n"
% (len(d2), dict2["meta"]["original_filename"])
)
warnings["Duplicates in dict2"] = list()
for keys in d2:
S.append("Measurements %s with hkl %s \n" % (d2[keys], keys))
warnings["Duplicates in dict2"].append(d2[keys])
# compare meta
S.append("Different values in meta: \n")
different_meta = {
k: dict1["meta"][k]
for k in dict1["meta"]
if k in dict2["meta"] and dict1["meta"][k] != dict2["meta"][k]
}
for keys in different_meta:
if keys not in conflicts:
conflicts[keys] = 1
else:
conflicts[keys] = conflicts[keys] + 1
S.append(" Different values in %s \n" % str(keys))
S.append(" dict1: %s \n" % str(dict1["meta"][str(keys)]))
S.append(" dict2: %s \n" % str(dict2["meta"][str(keys)]))
# compare Measurements
S.append(
"Number of measurements in %s = %s \n"
% (dict1["meta"]["original_filename"], len(dict1["Measurements"]))
)
S.append(
"Number of measurements in %s = %s \n"
% (dict2["meta"]["original_filename"], len(dict2["Measurements"]))
)
S.append("Different values in Measurements:\n")
select_set = ["om", "Counts", "sigma"]
exlude_set = ["time", "Counts"]
for keys1 in comp:
for key2 in dict1["Measurements"][str(comp[str(keys1)][0])]:
if key2 in exlude_set:
continue
if key2 not in select_set:
if (
dict1["Measurements"][comp[str(keys1)][0]][str(key2)]
!= dict2["Measurements"][str(comp[str(keys1)][0])][str(key2)]
):
S.append(
"Measurement value "
"%s"
", with hkl %s differs in meausrements %s and %s \n"
% (key2, keys1, comp[str(keys1)][0], comp[str(keys1)][1])
)
S.append(
" dict1: %s \n"
% str(dict1["Measurements"][comp[str(keys1)][0]][str(key2)])
)
S.append(
" dict2: %s \n"
% str(dict2["Measurements"][comp[str(keys1)][1]][str(key2)])
)
if key2 not in conflicts:
conflicts[key2] = {}
conflicts[key2]["amount"] = 1
conflicts[key2]["measurements"] = str(comp[str(keys1)][0])
else:
conflicts[key2]["amount"] = conflicts[key2]["amount"] + 1
conflicts[key2]["measurements"] = (
conflicts[key2]["measurements"] + " " + (str(comp[str(keys1)][0]))
)
else:
comparison = list(dict1["Measurements"][comp[str(keys1)][0]][str(key2)]) == list(
dict2["Measurements"][comp[str(keys1)][1]][str(key2)]
)
if len(list(dict1["Measurements"][comp[str(keys1)][0]][str(key2)])) != len(
list(dict2["Measurements"][comp[str(keys1)][1]][str(key2)])
):
if str("different length of %s" % key2) not in warnings:
warnings[str("different length of %s" % key2)] = list()
warnings[str("different length of %s" % key2)].append(
(str(comp[keys1][0]), str(comp[keys1][1]))
)
else:
warnings[str("different length of %s" % key2)].append(
(str(comp[keys1][0]), str(comp[keys1][1]))
)
if not comparison:
S.append(
"Measurement value "
"%s"
" differs in measurement %s and %s \n"
% (key2, comp[str(keys1)][0], comp[str(keys1)][1])
)
S.append(
" dict1: %s \n"
% str(list(dict1["Measurements"][comp[str(keys1)][0]][str(key2)]))
)
S.append(
" dict2: %s \n"
% str(list(dict2["Measurements"][comp[str(keys1)][1]][str(key2)]))
)
if key2 not in conflicts:
conflicts[key2] = {}
conflicts[key2]["amount"] = 1
conflicts[key2]["measurements"] = str(comp[str(keys1)][0])
else:
conflicts[key2]["amount"] = conflicts[key2]["amount"] + 1
conflicts[key2]["measurements"] = (
conflicts[key2]["measurements"] + " " + (str(comp[str(keys1)][1]))
)
for keys in conflicts:
try:
conflicts[str(keys)]["measurements"] = conflicts[str(keys)]["measurements"].split(" ")
except:
continue
report_string = "".join(S)
return warnings, conflicts, report_string
def guess_next(dict1, dict2, comp):
"""iterates thorough the scans and tries to decide if the scans should be substracted or merged"""
threshold = 0.05
for keys in comp:
if (
abs(
(
dict1["Measurements"][str(comp[keys][0])]["temperature"]
- dict2["Measurements"][str(comp[keys][1])]["temperature"]
)
/ dict2["Measurements"][str(comp[keys][1])]["temperature"]
)
< threshold
and abs(
(
dict1["Measurements"][str(comp[keys][0])]["mag_field"]
- dict2["Measurements"][str(comp[keys][1])]["mag_field"]
)
/ dict2["Measurements"][str(comp[keys][1])]["mag_field"]
)
< threshold
):
comp[keys] = comp[keys] + tuple("m")
else:
comp[keys] = comp[keys] + tuple("s")
return comp
def process_dict(dict1, dict2, comp):
"""substracts or merges scans, guess_next function must run first """
for keys in comp:
if comp[keys][2] == "s":
substract_measurement(dict1, dict2, comp[keys])
elif comp[keys][2] == "m":
merge(dict1, dict2, comp[keys])
return dict1