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main
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| f60b58f2f2 |
7
.gitignore
vendored
7
.gitignore
vendored
@@ -1,6 +1,11 @@
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# ignora log di h5tojson e jsontoh5
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# ignores logs of h5tojson, jsontoh5
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*.log
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# ignores any output of main.py
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output/*.json
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output/*.h5
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output/*.nxs
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# ---> Python
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# Byte-compiled / optimized / DLL files
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__pycache__/
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0
output/placeholder
Normal file
0
output/placeholder
Normal file
@@ -1,2 +1,3 @@
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requests
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asyncio
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h5py
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@@ -13,17 +13,17 @@ class Layer:
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'''
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def __init__(self, layer_data):
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try:
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self.operator = layer_data["fullname"]
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self.extra = layer_data["metadata_decoded"]["extra_fields"]
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self.layer_number = self.extra["Layer Progressive Number"]["value"] # integer
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self.target_elabid = self.extra["Target"]["value"] # elabid
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self.laser_system_elabid = self.extra["Laser System"]["value"] # elabid
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self.chamber_elabid = self.extra["Chamber"]["value"] # elabid
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self.rheed_system_elabid = self.extra["RHEED System"]["value"] # elabid
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self.start_time = layer_data.get("created_at")
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self.operator = layer_data.get("fullname")
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self.description = layer_data.get("body")
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self.deposition_time = self.extra["Duration"]["value"]
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self.deposition_time_unit = self.extra["Duration"]["unit"]
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self.repetition_rate = self.extra["Repetition rate"]["value"]
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self.repetition_rate_unit = self.extra["Repetition rate"]["unit"]
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try:
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self.number_of_pulses = (float(self.deposition_time) * float(self.repetition_rate)).__floor__()
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except ValueError:
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@@ -34,15 +34,22 @@ class Layer:
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Please edit your eLabFTW entry and retry.
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""")
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self.temperature = self.extra["Heater temperature"]["value"] # Note: this field used to have a trailing space in its name
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self.temperature_unit = self.extra["Heater temperature"]["unit"]
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self.process_pressure = self.extra["Process pressure"]["value"] # Note: this field used to have a trailing space in its name
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self.process_pressure_unit = self.extra["Process pressure"]["unit"]
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self.heating_method = self.extra["Heating Method"]["value"]
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self.layer_thickness = self.extra["Thickness"]["value"]
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self.layer_thickness_unit = self.extra["Thickness"]["unit"]
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self.buffer_gas = self.extra["Buffer gas"]["value"]
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self.heater_target_distance = self.extra["Heater-target distance"]["value"]
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self.heater_target_distance_unit = self.extra["Heater-target distance"]["unit"]
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self.laser_fluence = self.extra["Laser Intensity"]["value"] # here fluence = intensity
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self.laser_fluence_unit = "J/(s cm^2)"
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self.laser_spot_area = self.extra["Spot Area"]["value"]
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self.laser_spot_area_unit = "mm^2"
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try:
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self.laser_energy = (float(self.laser_fluence) * float(self.laser_spot_area)).__round__(3)
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self.laser_energy = ( float(self.laser_fluence) * float(self.laser_spot_area) / 100 ).__round__(3)
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self.laser_energy_unit = "J/s"
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except ValueError:
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# Since laser_energy is NOT required, if it can't be calculated warn user but allow the software to continue execution:
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print("""
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@@ -61,17 +68,27 @@ class Layer:
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self.pre_annealing_pressure = self.extra["Process pressure Pre"]["value"]
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self.pre_annealing_temperature = self.extra["Heater temperature Pre"]["value"]
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self.pre_annealing_duration = self.extra["Duration Pre"]["value"]
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self.pre_annealing_pressure_unit = self.extra["Process pressure Pre"]["unit"]
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self.pre_annealing_temperature_unit = self.extra["Heater temperature Pre"]["unit"]
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self.pre_annealing_duration_unit = self.extra["Duration Pre"]["unit"]
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# Post annealing section
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self.post_annealing_ambient_gas = self.extra["Buffer gas PA"]["value"]
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self.post_annealing_pressure = self.extra["Process pressure PA"]["value"]
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self.post_annealing_temperature = self.extra["Heater temperature PA"]["value"]
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self.post_annealing_duration = self.extra["Duration PA"]["value"]
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self.post_annealing_pressure_unit = self.extra["Process pressure PA"]["unit"]
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self.post_annealing_temperature_unit = self.extra["Heater temperature PA"]["unit"]
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self.post_annealing_duration_unit = self.extra["Duration PA"]["unit"]
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# Rejected but suggested by the NeXus standard:
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#self.laser_rastering_coefficients = None
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except KeyError as k:
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# Some keys are not required and can be called through the .get() method - which is permissive and allows null values;
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# Other keys are required so if they can't be called (invalid or null) raise error and stop execution of the program:
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raise KeyError(f"The provided dictionary lacks a \"{k}\" key. Check the deposition layer entry on eLabFTW and make sure you used the correct Experiment template.")
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# Optional
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self.start_time = layer_data.get("created_at") or None
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self.description = layer_data.get("body") or None
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def get_instruments(self, apikey):
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raw_lasersys_data = APIHandler(apikey).get_entry_from_elabid(self.laser_system_elabid, entryType="items")
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raw_chamber_data = APIHandler(apikey).get_entry_from_elabid(self.chamber_elabid, entryType="items")
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@@ -122,7 +139,13 @@ class Material:
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self.name = material_data["title"] # required
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self.extra = material_data["metadata_decoded"]["extra_fields"]
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self.compound_elabid = self.extra["Compound"]["value"]
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self.dimensions = self.extra["Size"]["value"]
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self.dimensions = str(self.extra["Size"]["value"]) # strings have a .count() method
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if self.dimensions.count("mm") == 2:
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self.dimensions_unit = "mm x mm"
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elif self.dimensions[-1] == '"':
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self.dimensions_unit = "inches"
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else:
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self.dimensions_unit = None
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except KeyError as k:
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# Some keys are not required and can be called through the .get() method - which is permissive and allows null values;
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# Other keys are required so if they can't be called (invalid or null) raise error and stop execution of the program:
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@@ -149,9 +172,11 @@ class Substrate(Material):
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try:
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self.orientation = self.extra["Orientation"]["value"]
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self.miscut_angle = self.extra["Miscut Angle"]["value"]
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self.miscut_angle_unit = self.extra["Miscut Angle"]["unit"]
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self.miscut_direction = self.extra["Miscut Direction"]["value"]
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# Not present (yet) on eLabFTW for Substrates:
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self.thickness = None #self.extra["Thickness"]["value"]
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self.thickness = "" #self.extra["Thickness"]["value"]
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self.thickness_unit = "μm" #self.extra["Thickness"]["unit"]
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self.surface_treatment = self.extra["Surface treatment"]["value"]
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self.manufacturer = self.extra["Supplier"]["value"]
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self.batch_id = self.extra["Batch ID"]["value"]
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@@ -163,6 +188,7 @@ class Target(Material):
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super().__init__(material_data)
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try:
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self.thickness = self.extra["Thickness"]["value"]
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self.thickness_unit = self.extra["Thickness"]["unit"]
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self.shape = self.extra["shape"]["value"]
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self.solid_form = self.extra["Solid form"]["value"]
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self.manufacturer = self.extra["Supplier"]["value"]
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303
src/main.py
303
src/main.py
@@ -1,4 +1,4 @@
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import os, json, requests
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import os, json, requests, h5py
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from getpass import getpass
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from APIHandler import APIHandler
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from classes import *
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@@ -100,7 +100,9 @@ def chain_layer_to_target(layer_object):
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def deduplicate_instruments_from_layers(layers):
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'''
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Takes a list of Layer-class objects and for each layer gets the instruments used (laser, depo chamber and RHEED), returns deduplicated list. Ideally, the lists should only contain one element.
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Takes a list of Layer-class objects and for each layer gets the instruments used (laser, depo chamber and RHEED), returns dictionary with one item per category. This means that if more layers share the same instruments it returns a dictionary with just their names as strings (no lists or sub-dictionaries).
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If different layers have different instruments (e.g. laser systems) the user is prompted to only select one.
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'''
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lasers = []
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chambers = []
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@@ -110,11 +112,57 @@ def deduplicate_instruments_from_layers(layers):
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lasers.append(instruments["laser_system"])
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chambers.append(instruments["deposition_chamber"])
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rheeds.append(instruments["rheed_system"])
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ded_lasers = list( set( lasers ) )
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ded_chambers = list( set( chambers ) )
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ded_rheeds = list( set( rheeds ) )
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elegant_dict = {
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# Keep key names human readable since they're used in the messages of the following errors
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"Laser Systems": ded_lasers,
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"Deposition Chamber": ded_chambers,
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"RHEED Systems": ded_rheeds
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} # dictionary's name's a joke
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updated_dict = {} # use this for containing the final dataset
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for ded in elegant_dict:
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if len(elegant_dict[ded]) == 0:
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# if len of list is 0 - empty list - raise error
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raise IndexError(f"Missing data: no Laser System, Chamber and/or RHEED System is specified in any of the Deposition-type experiments related to this sample. Fix this on eLabFTW before retrying. Affected list: {ded}.")
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elif len(elegant_dict[ded]) > 1:
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# if len of list is > 1 - too many values - allow the user to pick one
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print("Warning: different instruments have been used for different layers - which is currently not allowed.")
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# there's a better way to do this but I can't remember now for the life of me...
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i = 0
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while i < len(elegant_dict[ded]):
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print(f"{i} - {elegant_dict[ded][i]}")
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i += 1
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ans = None
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while not type(ans) == int or not ans in range(0, len(elegant_dict[ded])):
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ans = input("Please pick one of the previous (0, 1, ...) [default = 0]: ") or "0"
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if ans.isdigit():
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ans = int(ans)
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continue # unnecessary?
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updated_dict[ded] = elegant_dict[ded][ans]
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elif elegant_dict[ded][0] in ["", 0, None]:
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# if len is 1 BUT value is "", 0 or None raise error
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raise ValueError(f"Missing data: a Laser System, Chamber and/or RHEED System which is specified across all the Deposition-type experiments related to this sample is either empty or invalid. Fix this on eLabFTW before retrying. Affected list: {ded}.")
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else:
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# if none of the previous (only 1 value), that single value is used
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updated_dict[ded] = elegant_dict[ded][0]
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instruments_used_dict = {
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"laser_system": list( set( lasers ) ),
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"deposition_chamber": list( set( chambers ) ),
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"rheed_system" : list( set( rheeds ) ),
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"laser_system": updated_dict["Laser Systems"],
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"deposition_chamber": updated_dict["Deposition Chamber"],
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"rheed_system": updated_dict["RHEED Systems"],
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}
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return instruments_used_dict
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### OLD CODE
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# if 0 in [ len(i) for i in elegant_list ]:
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# # i.e. if length of one of the lists in elegant_list is zero (missing data):
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# raise IndexError("Missing data: no Laser System, Chamber and/or RHEED System is specified in any of the Deposition-type experiments related to this sample.")
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# if not all([ len(i) == 1 for i in elegant_list ]):
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# print("Warning: different instruments have been used for different layers - which is currently not allowed.")
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# # for every element in elegant list check if len > 1 and if it is
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# print("Selecting the first occurence for every category...")
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###
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# lasers = { f"layer_{lyr.layer_number}": lyr.laser_system for lyr in layers }
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# chambers = { f"layer_{lyr.layer_number}": lyr.deposition_chamber for lyr in layers }
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# rheeds = { f"layer_{lyr.layer_number}": lyr.rheed_system for lyr in layers }
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@@ -123,7 +171,6 @@ def deduplicate_instruments_from_layers(layers):
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# "deposition_chamber": chambers,
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# "rheed_system": rheeds,
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# }
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return instruments_used_dict
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def make_nexus_schema_dictionary(substrate_object, layers):
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'''
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@@ -135,9 +182,15 @@ def make_nexus_schema_dictionary(substrate_object, layers):
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"name": substrate_object.name,
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"chemical_formula" : substrate_object.get_compound_formula(apikey),
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"orientation" : substrate_object.orientation,
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"miscut_angle" : substrate_object.miscut_angle,
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"miscut_angle" : {
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"value": substrate_object.miscut_angle,
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"units": substrate_object.miscut_angle_unit
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},
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"miscut_direction" : substrate_object.miscut_direction,
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"thickness" : substrate_object.thickness,
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"thickness" : {
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"value": substrate_object.thickness,
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"units": substrate_object.thickness_unit,
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},
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"dimensions" : substrate_object.dimensions,
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"surface_treatment" : substrate_object.surface_treatment,
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"manufacturer" : substrate_object.manufacturer,
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@@ -157,11 +210,14 @@ def make_nexus_schema_dictionary(substrate_object, layers):
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"description" : target_object.description,
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"shape" : target_object.shape,
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"dimensions" : target_object.dimensions,
|
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"thickness" : target_object.thickness,
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"thickness" : {
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"value": target_object.thickness,
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"units": target_object.thickness_unit,
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},
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"solid_form" : target_object.solid_form,
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"manufacturer" : target_object.manufacturer,
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"batch_id" : target_object.name,
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# TO-DO: currently not available:
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# "batch_id" : target_object.batch_id,
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}
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multilayer[name] = {
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"target": target_dict,
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@@ -169,17 +225,44 @@ def make_nexus_schema_dictionary(substrate_object, layers):
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"operator": layer.operator,
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"description": layer.description,
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"number_of_pulses": layer.number_of_pulses,
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"deposition_time": layer.deposition_time,
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"temperature": layer.temperature,
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"deposition_time": {
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"value": layer.deposition_time,
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"units": layer.deposition_time_unit,
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},
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"temperature": {
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"value": layer.temperature,
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"units": layer.temperature_unit,
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},
|
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"heating_method": layer.heating_method,
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"layer_thickness": layer.layer_thickness,
|
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"layer_thickness": {
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"value": layer.layer_thickness,
|
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"units": layer.layer_thickness_unit,
|
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},
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"buffer_gas": layer.buffer_gas,
|
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"process_pressure": layer.process_pressure,
|
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"heater_target_distance": layer.heater_target_distance,
|
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"repetition_rate": layer.repetition_rate,
|
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"laser_fluence": layer.laser_fluence,
|
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"laser_spot_area": layer.laser_spot_area,
|
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"laser_energy": layer.laser_energy,
|
||||
"process_pressure": {
|
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"value": layer.process_pressure,
|
||||
"units": layer.process_pressure_unit,
|
||||
},
|
||||
"heater_target_distance": {
|
||||
"value": layer.heater_target_distance,
|
||||
"units": layer.heater_target_distance_unit,
|
||||
},
|
||||
"repetition_rate": {
|
||||
"value": layer.repetition_rate,
|
||||
"units": layer.repetition_rate_unit,
|
||||
},
|
||||
"laser_fluence": {
|
||||
"value": layer.laser_fluence,
|
||||
"units": layer.laser_fluence_unit,
|
||||
},
|
||||
"laser_spot_area": {
|
||||
"value": layer.laser_spot_area,
|
||||
"units": layer.laser_spot_area_unit,
|
||||
},
|
||||
"laser_energy": {
|
||||
"value": layer.laser_energy,
|
||||
"units": layer.laser_energy_unit,
|
||||
},
|
||||
"laser_rastering": {
|
||||
"geometry": layer.laser_rastering_geometry,
|
||||
"positions": layer.laser_rastering_positions,
|
||||
@@ -187,27 +270,189 @@ def make_nexus_schema_dictionary(substrate_object, layers):
|
||||
},
|
||||
"pre_annealing": {
|
||||
"ambient_gas": layer.pre_annealing_ambient_gas,
|
||||
"pressure": layer.pre_annealing_pressure,
|
||||
"temperature": layer.pre_annealing_temperature,
|
||||
"duration": layer.pre_annealing_duration,
|
||||
"pressure": {
|
||||
"value": layer.pre_annealing_pressure,
|
||||
"units": layer.pre_annealing_pressure_unit,
|
||||
},
|
||||
"temperature": {
|
||||
"value": layer.pre_annealing_temperature,
|
||||
"units": layer.pre_annealing_temperature_unit,
|
||||
},
|
||||
"duration": {
|
||||
"value": layer.pre_annealing_duration,
|
||||
"units": layer.pre_annealing_duration_unit,
|
||||
},
|
||||
},
|
||||
"post_annealing": {
|
||||
"ambient_gas": layer.post_annealing_ambient_gas,
|
||||
"pressure": layer.post_annealing_pressure,
|
||||
"temperature": layer.post_annealing_temperature,
|
||||
"duration": layer.post_annealing_duration,
|
||||
"pressure": {
|
||||
"value": layer.post_annealing_pressure,
|
||||
"units": layer.post_annealing_pressure_unit,
|
||||
},
|
||||
"temperature": {
|
||||
"value": layer.post_annealing_temperature,
|
||||
"units": layer.post_annealing_temperature_unit,
|
||||
},
|
||||
"duration": {
|
||||
"value": layer.post_annealing_duration,
|
||||
"units": layer.post_annealing_duration_unit,
|
||||
},
|
||||
},
|
||||
}
|
||||
return json.dumps(pld_fabrication, indent=2)
|
||||
return pld_fabrication
|
||||
|
||||
def build_nexus_file(pld_fabrication, output_path):
|
||||
# NOTE: look at the mail attachment from Emiliano...
|
||||
with h5py.File(output_path, "w") as f:
|
||||
nx_pld_entry = f.create_group("pld_fabrication")
|
||||
nx_pld_entry.attrs["NX_class"] = "NXentry"
|
||||
|
||||
# Sample section
|
||||
nx_sample = nx_pld_entry.create_group("sample")
|
||||
nx_sample.attrs["NX_class"] = "NXsample"
|
||||
sample_dict = pld_fabrication["sample"]
|
||||
|
||||
# Substrate sub-section
|
||||
nx_substrate = nx_sample.create_group("substrate")
|
||||
nx_substrate.attrs["NX_class"] = "NXsubentry"
|
||||
substrate_dict = sample_dict["substrate"]
|
||||
try:
|
||||
# Substrate fields (datasets)
|
||||
nx_substrate.create_dataset("name", data=substrate_dict["name"])
|
||||
nx_substrate.create_dataset("chemical_formula", data=substrate_dict["chemical_formula"])
|
||||
nx_substrate.create_dataset("orientation", data=substrate_dict["orientation"])
|
||||
nx_substrate.create_dataset("miscut_angle", data=substrate_dict["miscut_angle"]["value"]) # float
|
||||
nx_substrate["miscut_angle"].attrs["units"] = substrate_dict["miscut_angle"]["units"]
|
||||
nx_substrate.create_dataset("miscut_direction", data=substrate_dict["miscut_direction"])
|
||||
nx_substrate.create_dataset("thickness", data=substrate_dict["thickness"]["value"]) # float/int
|
||||
nx_substrate["thickness"].attrs["units"] = substrate_dict["thickness"]["units"]
|
||||
nx_substrate.create_dataset("dimensions", data=substrate_dict["dimensions"])
|
||||
nx_substrate.create_dataset("surface_treatment", data=substrate_dict["surface_treatment"])
|
||||
nx_substrate.create_dataset("manufacturer", data=substrate_dict["manufacturer"])
|
||||
nx_substrate.create_dataset("batch_id", data=substrate_dict["batch_id"])
|
||||
except TypeError as te:
|
||||
# sooner or later I'll handle this too - not today tho
|
||||
raise TypeError(te)
|
||||
|
||||
# Multilayer sub-section
|
||||
nx_multilayer = nx_sample.create_group("multilayer")
|
||||
nx_multilayer.attrs["NX_class"] = "NXsubentry"
|
||||
multilayer_dict = sample_dict["multilayer"]
|
||||
# Repeat FOR EACH LAYER:
|
||||
for layer in multilayer_dict:
|
||||
nx_layer = nx_multilayer.create_group(layer)
|
||||
nx_layer.attrs["NX_class"] = "NXsubentry"
|
||||
layer_dict = multilayer_dict[layer]
|
||||
# Sub-groups of a layer
|
||||
## Target
|
||||
nx_target = nx_layer.create_group("target")
|
||||
nx_target.attrs["NX_class"] = "NXsample"
|
||||
target_dict = layer_dict["target"]
|
||||
## Rastering and Annealing
|
||||
nx_laser_rastering = nx_layer.create_group("laser_rastering")
|
||||
nx_laser_rastering.attrs["NX_class"] = "NXprocess"
|
||||
rastering_dict = layer_dict["laser_rastering"]
|
||||
nx_pre_annealing = nx_layer.create_group("pre_annealing")
|
||||
nx_pre_annealing.attrs["NX_class"] = "NXprocess"
|
||||
pre_ann_dict = layer_dict["pre_annealing"]
|
||||
nx_post_annealing = nx_layer.create_group("post_annealing")
|
||||
nx_post_annealing.attrs["NX_class"] = "NXprocess"
|
||||
post_ann_dict = layer_dict["post_annealing"]
|
||||
|
||||
## Target metadata
|
||||
try:
|
||||
nx_target.create_dataset("name", data = target_dict["name"])
|
||||
nx_target.create_dataset("chemical_formula", data = target_dict["chemical_formula"])
|
||||
nx_target.create_dataset("description", data = target_dict["description"])
|
||||
nx_target.create_dataset("shape", data = target_dict["shape"])
|
||||
nx_target.create_dataset("dimensions", data = target_dict["dimensions"])
|
||||
nx_target.create_dataset("thickness", data = target_dict["thickness"]["value"]) # float/int
|
||||
nx_target["thickness"].attrs["units"] = target_dict["thickness"]["units"]
|
||||
nx_target.create_dataset("solid_form", data = target_dict["solid_form"])
|
||||
nx_target.create_dataset("manufacturer", data = target_dict["manufacturer"])
|
||||
nx_target.create_dataset("batch_id", data = target_dict["batch_id"])
|
||||
except TypeError as te:
|
||||
raise TypeError(te)
|
||||
## Other layer-specific metadata
|
||||
try:
|
||||
nx_layer.create_dataset("start_time", data = layer_dict["start_time"])
|
||||
nx_layer.create_dataset("operator", data = layer_dict["operator"])
|
||||
nx_layer.create_dataset("number_of_pulses", data = layer_dict["number_of_pulses"])
|
||||
nx_layer.create_dataset("deposition_time", data = layer_dict["deposition_time"]["value"])
|
||||
nx_layer["deposition_time"].attrs["units"] = layer_dict["deposition_time"]["units"]
|
||||
nx_layer.create_dataset("repetition_rate", data = layer_dict["repetition_rate"]["value"])
|
||||
nx_layer["repetition_rate"].attrs["units"] = layer_dict["repetition_rate"]["units"]
|
||||
nx_layer.create_dataset("temperature", data = layer_dict["temperature"]["value"])
|
||||
nx_layer["temperature"].attrs["units"] = layer_dict["temperature"]["units"]
|
||||
nx_layer.create_dataset("heating_method", data = layer_dict["heating_method"])
|
||||
nx_layer.create_dataset("layer_thickness", data = layer_dict["layer_thickness"]["value"])
|
||||
nx_layer["layer_thickness"].attrs["units"] = layer_dict["layer_thickness"]["units"]
|
||||
nx_layer.create_dataset("buffer_gas", data = layer_dict["buffer_gas"])
|
||||
nx_layer.create_dataset("process_pressure", data = layer_dict["process_pressure"]["value"])
|
||||
nx_layer["process_pressure"].attrs["units"] = layer_dict["process_pressure"]["units"]
|
||||
nx_layer.create_dataset("heater_target_distance", data = layer_dict["heater_target_distance"]["value"])
|
||||
nx_layer["heater_target_distance"].attrs["units"] = layer_dict["heater_target_distance"]["units"]
|
||||
nx_layer.create_dataset("laser_fluence", data = layer_dict["laser_fluence"]["value"])
|
||||
nx_layer["laser_fluence"].attrs["units"] = layer_dict["laser_fluence"]["units"]
|
||||
nx_layer.create_dataset("laser_spot_area", data = layer_dict["laser_spot_area"]["value"])
|
||||
nx_layer["laser_spot_area"].attrs["units"] = layer_dict["laser_spot_area"]["units"]
|
||||
nx_layer.create_dataset("laser_energy", data = layer_dict["laser_energy"]["value"])
|
||||
nx_layer["laser_energy"].attrs["units"] = layer_dict["laser_energy"]["units"]
|
||||
except TypeError as te:
|
||||
raise TypeError(te)
|
||||
## Rastering metadata
|
||||
try:
|
||||
nx_laser_rastering.create_dataset("geometry", data = rastering_dict["geometry"])
|
||||
nx_laser_rastering.create_dataset("positions", data = rastering_dict["positions"])
|
||||
nx_laser_rastering.create_dataset("velocities", data = rastering_dict["velocities"])
|
||||
except TypeError as te:
|
||||
raise TypeError(te)
|
||||
## Annealing metadata
|
||||
try:
|
||||
nx_pre_annealing.create_dataset("ambient_gas", data = pre_ann_dict["ambient_gas"])
|
||||
nx_pre_annealing.create_dataset("pressure", data = pre_ann_dict["pressure"]["value"])
|
||||
nx_pre_annealing["pressure"].attrs["units"] = pre_ann_dict["pressure"]["units"]
|
||||
nx_pre_annealing.create_dataset("temperature", data = pre_ann_dict["temperature"]["value"])
|
||||
nx_pre_annealing["temperature"].attrs["units"] = pre_ann_dict["temperature"]["units"]
|
||||
nx_pre_annealing.create_dataset("duration", data = pre_ann_dict["duration"]["value"])
|
||||
nx_pre_annealing["duration"].attrs["units"] = pre_ann_dict["duration"]["units"]
|
||||
except TypeError as te:
|
||||
raise TypeError(te)
|
||||
try:
|
||||
nx_post_annealing.create_dataset("ambient_gas", data = post_ann_dict["ambient_gas"])
|
||||
nx_post_annealing.create_dataset("pressure", data = post_ann_dict["pressure"]["value"])
|
||||
nx_post_annealing["pressure"].attrs["units"] = post_ann_dict["pressure"]["units"]
|
||||
nx_post_annealing.create_dataset("temperature", data = post_ann_dict["temperature"]["value"])
|
||||
nx_post_annealing["temperature"].attrs["units"] = post_ann_dict["temperature"]["units"]
|
||||
nx_post_annealing.create_dataset("duration", data = post_ann_dict["duration"]["value"])
|
||||
nx_post_annealing["duration"].attrs["units"] = post_ann_dict["duration"]["units"]
|
||||
except TypeError as te:
|
||||
raise TypeError(te)
|
||||
|
||||
# Instruments used section
|
||||
nx_instruments = nx_pld_entry.create_group("instruments_used")
|
||||
nx_instruments.attrs["NX_class"] = "NXinstrument"
|
||||
instruments_dict = pld_fabrication["instruments_used"]
|
||||
try:
|
||||
nx_instruments.create_dataset("laser_system", data = instruments_dict["laser_system"])
|
||||
nx_instruments.create_dataset("deposition_chamber", data = instruments_dict["deposition_chamber"])
|
||||
nx_instruments.create_dataset("rheed_system", data = instruments_dict["rheed_system"])
|
||||
except TypeError as te:
|
||||
raise TypeError(te)
|
||||
return
|
||||
|
||||
if __name__=="__main__":
|
||||
# TO-DO: place the API base URL somewhere else.
|
||||
ELABFTW_API_URL = "https://elabftw.fisica.unina.it/api/v2"
|
||||
apikey = getpass("Paste API key here: ")
|
||||
elabid = input("Enter elabid of your starting sample [default= 1111]: ") or 1111
|
||||
elabid = input("Enter elabid of your starting sample [default = 1111]: ") or 1111
|
||||
data = APIHandler(apikey).get_entry_from_elabid(elabid)
|
||||
sample = Entrypoint(data)
|
||||
sample_name = sample.name.strip().replace(" ","_")
|
||||
substrate_object = chain_entrypoint_to_batch(sample) # Substrate-class object
|
||||
layers = chain_entrypoint_to_layers(sample) # list of Layer-class objects
|
||||
print(make_nexus_schema_dictionary(substrate_object, layers)) # debug
|
||||
|
||||
result = make_nexus_schema_dictionary(substrate_object, layers)
|
||||
# print(make_nexus_schema_dictionary(substrate_object, layers)) # debug
|
||||
with open (f"output/sample-{sample_name}.json", "w") as f:
|
||||
json.dump(result, f, indent=3)
|
||||
build_nexus_file(result, output_path=f"output/sample-{sample_name}-nexus.h5")
|
||||
|
||||
Reference in New Issue
Block a user