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35 Commits
43a898e4e6 ... main

Author SHA256 Message Date
PioApocalypse
3ae6b86b8e more elegant solution for deduplicating instruments 
also edits help for deduplicate_instruments... to better explain what it
does; also fixes small typo ('default=' instead of 'default ='), row 448
 2026-02-17 16:15:17 +01:00
PioApocalypse
d83873c763 raises IndexError if no laser, rheed sys. or chamber is ever specified 
i.e. if one or more of these fields aren't specified thru all layers
 2026-02-17 14:54:33 +01:00
PioApocalypse
de401b5474 adds instruments metadata to h5 file 2026-02-17 14:39:04 +01:00
PioApocalypse
fde2615107 changes method of instrument list deduplication 
picks first occurrence in every set (ded_lasers, ded_chambers,
ded_rheeds) and eventually warns user if duplicates exist
 2026-02-17 14:37:35 +01:00
PioApocalypse
59e173c54f adds rastering and annealing metadata incl. UoM's 2026-02-16 19:40:23 +01:00
PioApocalypse
712cbc4788 cleans code 2026-02-16 19:40:09 +01:00
PioApocalypse
207d166227 adds most of the required metadata to function build_nexus_file 
the file is generated into the "output" folder w/ .h5 extension
the most has been done already (probably)
 2026-02-16 15:43:07 +01:00
PioApocalypse
74b8c9cfae extends pld_fabrication dictionary with UoM's 
now keys with numeric values are sub-dictionaries with a "value" and a
"units" key - unitS not unit to comply directly with NeXus format, which
turned out to be a good idea to avoid confusion since eLabFTW uses the
word "units" for the list of accepted units and "unit" for the selected
one...

NOTE: UoM = Unit of Measurement
 2026-02-16 15:39:32 +01:00
PioApocalypse
1b1834d4e6 some attributes don't default to NoneType anymore 
Target.description defaults to "" (empty str)
Substrate.thickness defaults to "" (empty str)
Substrate.thickness_unit is now hardcoded to "μm"
did you know? apparently h5py does NOT like null values
 2026-02-16 15:35:22 +01:00
PioApocalypse
dfd3c07d2f ignores h5 and nxs files 2026-02-16 11:50:44 +01:00
PioApocalypse
d094a60725 replaces elabid with sample name in the names of output files 2026-02-16 11:49:48 +01:00
PioApocalypse
41ff025098 adds units of measurement (UoM) in Material class and children 2026-02-16 11:30:08 +01:00
PioApocalypse
ca2cdbfded adds units of measurement in Layer class 
plus moves around fullname/operator, created_at and description/body so
that operator is required while the others aren't
 2026-02-16 11:28:17 +01:00
PioApocalypse
b4d7373933 starts working on nexus file creation 2026-02-13 16:23:42 +01:00
PioApocalypse
2f4985c443 adds h5py to requirements 2026-02-13 16:23:24 +01:00
PioApocalypse
0a879cbfe9 removes debug line, writes json to file instead (path: output/) 2026-02-13 11:49:59 +01:00
PioApocalypse
f60b58f2f2 ignores output of main.py (output/*.json) 2026-02-13 11:49:13 +01:00
PioApocalypse
6f618b2340 adds comments 2026-02-13 01:05:32 +01:00
PioApocalypse
38940995b5 completes the dataset with instruments_used (in a way...) 
only lacks units of measurement, then I'll be ready for conversion
 2026-02-13 00:59:22 +01:00
PioApocalypse
f686ea65b1 adds get_instruments method to Layer class 
get_instruments returns a dictionary with the names of every system used
during the deposition
unfortunately, NeXus standard allows for a single value of all three
keys per every sample - not every layer
this means that every layer has its own data for laser, rheed system and
depo chamber which IDEALLY is the same for every layer, but in practice
they COULD be different and I still don't know how to deal with this
 2026-02-13 00:32:31 +01:00
PioApocalypse
23bfdefd30 adds all the remaining layer data 
only lacks the instrument_used data and units of measurement
NOTE: units of measurement are hard to collect, but could be assumed
considering our instruments are standard
 2026-02-13 00:18:07 +01:00
PioApocalypse
38d281543e code cleanup: deletes debug lines from main.py 2026-02-13 00:07:39 +01:00
PioApocalypse
a12506b8be MAJOR: main.py successfully produces JSON following NeXus-schema 
takes API key and elabid of the "entrypoint" sample as input
returns indented JSON with the reconstructed dataset!
currently lacks instruments_used data (matter of minutes)
and all the layer data (already present in Layer-class objects)
 2026-02-13 00:01:24 +01:00
PioApocalypse
43cfd788f3 adds non-req. attr. "description" to class Target 2026-02-12 23:53:21 +01:00
PioApocalypse
da42de5466 handles error 400 bad request with exit message 2026-02-12 23:52:37 +01:00
PioApocalypse
d86b35a5fe integrates sub-classes Target and Substrate in main.py 2026-02-12 16:01:10 +01:00
PioApocalypse
c4903a536b [untested] creates child classes of Material for Substrates and Targets 2026-02-12 15:53:44 +01:00
PioApocalypse
3e85940eb6 adds chained request from layer to pld target 2026-02-12 15:24:01 +01:00
PioApocalypse
820337c06e fixes category title for materials: "Substrate", not "Substrate batch" 
"Substrate" is the title of the category of substrate items
"Substrate batch" is a key in a sample's dictionary
 2026-02-12 15:16:35 +01:00
PioApocalypse
5a605038df fixes small residual from copy-paste in call_material_from_elabid 
the fix changes "sample_data" - which was residual from copy-pasting the
call_entrypoint... function and therefore undefined - with
"material_data" which is very well defined in the previous line
 2026-02-12 15:09:59 +01:00
PioApocalypse
fd4c3b718a creates chain functions to expand the dataset from the entrypoint 2026-02-12 14:58:48 +01:00
PioApocalypse
7b3bff854d adds mock layers of mock sample 26015 for testing purposes 2026-02-12 14:37:50 +01:00
PioApocalypse
4df8048e55 aligns chained requests test with main.py (Layer class) 2026-02-12 14:37:16 +01:00
PioApocalypse
97d534c5d1 documents main.py functions 2026-02-12 12:15:25 +01:00
PioApocalypse
88aacf23c1 aligns chained requests test with main.py (debug mode) 2026-02-12 11:29:40 +01:00
10 changed files with 1956 additions and 63 deletions
Expand all files Collapse all files

7
.gitignore vendored
View File

@@ -1,6 +1,11 @@
# ignora log di h5tojson e jsontoh5 # ignores logs of h5tojson, jsontoh5
*.log *.log
# ignores any output of main.py
output/*.json
output/*.h5
output/*.nxs
# ---> Python # ---> Python
# Byte-compiled / optimized / DLL files # Byte-compiled / optimized / DLL files
__pycache__/ __pycache__/

0
output/placeholder Normal file
View File

1
requirements.txt
View File

@@ -1,2 +1,3 @@
requests requests
asyncio asyncio
h5py

2
src/APIHandler.py
View File

@@ -33,6 +33,8 @@ class APIHandler:
raise ConnectionError(f"Invalid API key or authentication method.") raise ConnectionError(f"Invalid API key or authentication method.")
case 404: case 404:
raise ConnectionError(f"404: Not Found. This means there's no resource with this elabid (wrong elabid?) on your eLabFTW (wrong endpoint?).") raise ConnectionError(f"404: Not Found. This means there's no resource with this elabid (wrong elabid?) on your eLabFTW (wrong endpoint?).")
case 400:
raise ConnectionError(f"400: Bad Request. This means the API endpoint you tried to reach is invalid. Did you tamper with the source code? If not, contact the developer.")
case _: case _:
raise ConnectionError(f"HTTP request failed with status code: {response.status_code} (NOTE: 4xx means user's fault).") raise ConnectionError(f"HTTP request failed with status code: {response.status_code} (NOTE: 4xx means user's fault).")
else: else:

77
src/classes.py
View File

@@ -13,16 +13,17 @@ class Layer:
''' '''
def __init__(self, layer_data): def __init__(self, layer_data):
try: try:
self.operator = layer_data["fullname"]
self.extra = layer_data["metadata_decoded"]["extra_fields"] self.extra = layer_data["metadata_decoded"]["extra_fields"]
self.layer_number = self.extra["Layer Progressive Number"]["value"] # integer self.layer_number = self.extra["Layer Progressive Number"]["value"] # integer
self.target_elabid = self.extra["Target"]["value"] # elabid self.target_elabid = self.extra["Target"]["value"] # elabid
self.rheed_system_elabid = self.extra["RHEED System"]["value"] # elabid
self.laser_system_elabid = self.extra["Laser System"]["value"] # elabid self.laser_system_elabid = self.extra["Laser System"]["value"] # elabid
self.start_time = layer_data.get("created_at") self.chamber_elabid = self.extra["Chamber"]["value"] # elabid
self.operator = layer_data.get("fullname") self.rheed_system_elabid = self.extra["RHEED System"]["value"] # elabid
self.description = layer_data.get("body")
self.deposition_time = self.extra["Duration"]["value"] self.deposition_time = self.extra["Duration"]["value"]
self.deposition_time_unit = self.extra["Duration"]["unit"]
self.repetition_rate = self.extra["Repetition rate"]["value"] self.repetition_rate = self.extra["Repetition rate"]["value"]
self.repetition_rate_unit = self.extra["Repetition rate"]["unit"]
try: try:
self.number_of_pulses = (float(self.deposition_time) * float(self.repetition_rate)).__floor__() self.number_of_pulses = (float(self.deposition_time) * float(self.repetition_rate)).__floor__()
except ValueError: except ValueError:
@@ -33,15 +34,22 @@ class Layer:
Please edit your eLabFTW entry and retry. Please edit your eLabFTW entry and retry.
""") """)
self.temperature = self.extra["Heater temperature"]["value"] # Note: this field used to have a trailing space in its name self.temperature = self.extra["Heater temperature"]["value"] # Note: this field used to have a trailing space in its name
self.temperature_unit = self.extra["Heater temperature"]["unit"]
self.process_pressure = self.extra["Process pressure"]["value"] # Note: this field used to have a trailing space in its name self.process_pressure = self.extra["Process pressure"]["value"] # Note: this field used to have a trailing space in its name
self.process_pressure_unit = self.extra["Process pressure"]["unit"]
self.heating_method = self.extra["Heating Method"]["value"] self.heating_method = self.extra["Heating Method"]["value"]
self.layer_thickness = self.extra["Thickness"]["value"] self.layer_thickness = self.extra["Thickness"]["value"]
self.layer_thickness_unit = self.extra["Thickness"]["unit"]
self.buffer_gas = self.extra["Buffer gas"]["value"] self.buffer_gas = self.extra["Buffer gas"]["value"]
self.heater_target_distance = self.extra["Heater-target distance"]["value"] self.heater_target_distance = self.extra["Heater-target distance"]["value"]
self.heater_target_distance_unit = self.extra["Heater-target distance"]["unit"]
self.laser_fluence = self.extra["Laser Intensity"]["value"] # here fluence = intensity self.laser_fluence = self.extra["Laser Intensity"]["value"] # here fluence = intensity
self.laser_fluence_unit = "J/(s cm^2)"
self.laser_spot_area = self.extra["Spot Area"]["value"] self.laser_spot_area = self.extra["Spot Area"]["value"]
self.laser_spot_area_unit = "mm^2"
try: try:
self.laser_energy = (float(self.laser_fluence) * float(self.laser_spot_area)).__round__(3) self.laser_energy = ( float(self.laser_fluence) * float(self.laser_spot_area) / 100 ).__round__(3)
self.laser_energy_unit = "J/s"
except ValueError: except ValueError:
# Since laser_energy is NOT required, if it can't be calculated warn user but allow the software to continue execution: # Since laser_energy is NOT required, if it can't be calculated warn user but allow the software to continue execution:
print(""" print("""
@@ -60,17 +68,37 @@ class Layer:
self.pre_annealing_pressure = self.extra["Process pressure Pre"]["value"] self.pre_annealing_pressure = self.extra["Process pressure Pre"]["value"]
self.pre_annealing_temperature = self.extra["Heater temperature Pre"]["value"] self.pre_annealing_temperature = self.extra["Heater temperature Pre"]["value"]
self.pre_annealing_duration = self.extra["Duration Pre"]["value"] self.pre_annealing_duration = self.extra["Duration Pre"]["value"]
self.pre_annealing_pressure_unit = self.extra["Process pressure Pre"]["unit"]
self.pre_annealing_temperature_unit = self.extra["Heater temperature Pre"]["unit"]
self.pre_annealing_duration_unit = self.extra["Duration Pre"]["unit"]
# Post annealing section # Post annealing section
self.post_annealing_ambient_gas = self.extra["Buffer gas PA"]["value"] self.post_annealing_ambient_gas = self.extra["Buffer gas PA"]["value"]
self.post_annealing_pressure = self.extra["Process pressure PA"]["value"] self.post_annealing_pressure = self.extra["Process pressure PA"]["value"]
self.post_annealing_temperature = self.extra["Heater temperature PA"]["value"] self.post_annealing_temperature = self.extra["Heater temperature PA"]["value"]
self.post_annealing_duration = self.extra["Duration PA"]["value"] self.post_annealing_duration = self.extra["Duration PA"]["value"]
self.post_annealing_pressure_unit = self.extra["Process pressure PA"]["unit"]
self.post_annealing_temperature_unit = self.extra["Heater temperature PA"]["unit"]
self.post_annealing_duration_unit = self.extra["Duration PA"]["unit"]
# Rejected but suggested by the NeXus standard: # Rejected but suggested by the NeXus standard:
#self.laser_rastering_coefficients = None #self.laser_rastering_coefficients = None
except KeyError as k: except KeyError as k:
# Some keys are not required and can be called through the .get() method - which is permissive and allows null values; # Some keys are not required and can be called through the .get() method - which is permissive and allows null values;
# Other keys are required so if they can't be called (invalid or null) raise error and stop execution of the program: # Other keys are required so if they can't be called (invalid or null) raise error and stop execution of the program:
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.") 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.")
# Optional
self.start_time = layer_data.get("created_at") or None
self.description = layer_data.get("body") or None
def get_instruments(self, apikey):
raw_lasersys_data = APIHandler(apikey).get_entry_from_elabid(self.laser_system_elabid, entryType="items")
raw_chamber_data = APIHandler(apikey).get_entry_from_elabid(self.chamber_elabid, entryType="items")
raw_rheedsys_data = APIHandler(apikey).get_entry_from_elabid(self.rheed_system_elabid, entryType="items")
instruments_used = {
"laser_system": raw_lasersys_data.get("title") or None,
"deposition_chamber": raw_chamber_data.get("title") or None,
"rheed_system": raw_rheedsys_data.get("title") or None,
}
return instruments_used
class Entrypoint: class Entrypoint:
''' '''
@@ -108,8 +136,16 @@ class Material:
''' '''
def __init__(self, material_data): def __init__(self, material_data):
try: try:
self.name = material_data["title"] # required
self.extra = material_data["metadata_decoded"]["extra_fields"] self.extra = material_data["metadata_decoded"]["extra_fields"]
self.compound_elabid = self.extra["Compound"]["value"] self.compound_elabid = self.extra["Compound"]["value"]
self.dimensions = str(self.extra["Size"]["value"]) # strings have a .count() method
if self.dimensions.count("mm") == 2:
self.dimensions_unit = "mm x mm"
elif self.dimensions[-1] == '"':
self.dimensions_unit = "inches"
else:
self.dimensions_unit = None
except KeyError as k: except KeyError as k:
# Some keys are not required and can be called through the .get() method - which is permissive and allows null values; # Some keys are not required and can be called through the .get() method - which is permissive and allows null values;
# Other keys are required so if they can't be called (invalid or null) raise error and stop execution of the program: # Other keys are required so if they can't be called (invalid or null) raise error and stop execution of the program:
@@ -130,6 +166,37 @@ class Material:
formula = self.get_compound_data(apikey).get("chemical_formula") formula = self.get_compound_data(apikey).get("chemical_formula")
return formula return formula
class Substrate(Material):
def __init__(self, material_data):
super().__init__(material_data)
try:
self.orientation = self.extra["Orientation"]["value"]
self.miscut_angle = self.extra["Miscut Angle"]["value"]
self.miscut_angle_unit = self.extra["Miscut Angle"]["unit"]
self.miscut_direction = self.extra["Miscut Direction"]["value"]
# Not present (yet) on eLabFTW for Substrates:
self.thickness = "" #self.extra["Thickness"]["value"]
self.thickness_unit = "μm" #self.extra["Thickness"]["unit"]
self.surface_treatment = self.extra["Surface treatment"]["value"]
self.manufacturer = self.extra["Supplier"]["value"]
self.batch_id = self.extra["Batch ID"]["value"]
except KeyError as k:
raise KeyError(f"The provided dictionary lacks a \"{k}\" key - which is specific for substrates. Check the {self.name} substrate entry on eLabFTW and make sure you used the correct Resource template.")
class Target(Material):
def __init__(self, material_data):
super().__init__(material_data)
try:
self.thickness = self.extra["Thickness"]["value"]
self.thickness_unit = self.extra["Thickness"]["unit"]
self.shape = self.extra["shape"]["value"]
self.solid_form = self.extra["Solid form"]["value"]
self.manufacturer = self.extra["Supplier"]["value"]
except KeyError as k:
raise KeyError(f"The provided dictionary lacks a \"{k}\" key - which is specific for PLD targets. Check the {self.name} target entry on eLabFTW and make sure you used the correct Resource template.")
# Non-required attributes:
self.description = material_data.get("body") or ""
if __name__=="__main__": if __name__=="__main__":

458
src/main.py
View File

@@ -1,10 +1,15 @@
import os, json, requests import os, json, requests, h5py
from getpass import getpass from getpass import getpass
from APIHandler import APIHandler from APIHandler import APIHandler
from classes import * from classes import *
def call_entrypoint_from_elabid(elabid): def call_entrypoint_from_elabid(elabid):
'''
Calls an entrypoint sample from eLabFTW using its elabid, then returns an object of the Entrypoint class.
If the entry is not a sample (category_title not matching exactly "Sample") returns ValueError.
'''
try: try:
sample_data = APIHandler(apikey).get_entry_from_elabid(elabid, entryType="items") sample_data = APIHandler(apikey).get_entry_from_elabid(elabid, entryType="items")
if not sample_data.get("category_title") == "Sample": if not sample_data.get("category_title") == "Sample":
@@ -15,17 +20,33 @@ def call_entrypoint_from_elabid(elabid):
return sample_object # Entrypoint-class object return sample_object # Entrypoint-class object
def call_material_from_elabid(elabid): def call_material_from_elabid(elabid):
'''
Calls a material from eLabFTW using its elabid, then returns an object of the Material class.
If the entry is neither a PLD Target or a Substrate batch returns ValueError. Such entries always have a category_title key with its value matching exactly "PLD Target" or "Substrate".
Because of an old typo, the value "Subtrate" (second 's' is missing) is also accepted.
'''
try: try:
material_data = APIHandler(apikey).get_entry_from_elabid(elabid, entryType="items") material_data = APIHandler(apikey).get_entry_from_elabid(elabid, entryType="items")
material_category = material_data.get("category_title")
# TO-DO: correct this typo on elabftw: Subtrate → Substrate. # TO-DO: correct this typo on elabftw: Subtrate → Substrate.
if not sample_data.get("category_title") in ["PLD Target", "Substrate batch", "Subtrate batch"]: if not material_category in ["PLD Target", "Substrate", "Subtrate"]:
print(f"Category of the resource: {material_category}.")
raise ValueError(f"The referenced resource (elabid = {elabid}) is not a material.") raise ValueError(f"The referenced resource (elabid = {elabid}) is not a material.")
material_object = Material(material_data) elif material_category == "PLD Target":
material_object = Target(material_data)
else:
material_object = Substrate(material_data)
except ConnectionError as e: except ConnectionError as e:
raise ConnectionError(e) raise ConnectionError(e)
return material_object # Material-class object return material_object # Material-class object
def call_layers_from_list(elabid_list): def call_layers_from_list(elabid_list):
'''
Calls a list of (PLD deposition) experiments from eLabFTW using their elabid - which means the input must be a list of integers instead of a single one - then returns a list of Layer-class objects.
If one of the entries is not related to a deposition layer (category_title not matching exactly "PLD Deposition") that entry is skipped, with no error raised.
'''
list_of_layers = [] list_of_layers = []
for elabid in elabid_list: for elabid in elabid_list:
try: try:
@@ -37,64 +58,401 @@ def call_layers_from_list(elabid_list):
except ConnectionError as e: except ConnectionError as e:
nums = [ layer.layer_number for layer in list_of_layers ] nums = [ layer.layer_number for layer in list_of_layers ]
nums.sort() nums.sort()
print(f"LISTA DEI LAYER PROCESSATI FINORA (in ordine sparso):\n" + str(nums)) print(f"LIST OF THE LAYERS PROCESSED (unordered):\n" + str(nums))
raise ConnectionError(f"An error occurred while fetching the experiment with elabid = {elabid}:\n" + raise ConnectionError(f"An error occurred while fetching the experiment with elabid = {elabid}:\n" +
str(e) + f"\nPlease solve the problem before retrying." + "\n\n" + str(e) + f"\nPlease solve the problem before retrying." + "\n\n" +
f"Last resource attempted to call: {ELABFTW_API_URL}/experiments/{elabid}" f"Last resource attempted to call: {ELABFTW_API_URL}/experiments/{elabid}"
) )
return list_of_layers # list of Layer-class objects return list_of_layers # list of Layer-class objects
def from_entrypoint_to_material(sample_object): def chain_entrypoint_to_batch(sample_object):
'''
Takes an Entrypoint-class object, looks at its .batch_elabid attribute and returns a Material-class object containing data on the substrate batch associated to the starting sample.
Dependency: call_material_from_elabid.
'''
material_elabid = sample_object.batch_elabid material_elabid = sample_object.batch_elabid
material_object = call_material_from_elabid(material_elabid) material_object = call_material_from_elabid(material_elabid)
return sample_object, material_object return material_object
sample_object = call_entrypoint_from_elabid(elabid) def chain_entrypoint_to_layers(sample_object):
from_entrypoint_to_material(sample_object) '''
Takes an Entrypoint-class object, looks at its .linked_experiments_elabid attribute (list) and returns a list of Layer-class objects containing data on the deposition layers associated to the starting sample - using the function call_layers_from_list.
The list is sorted by progressive layer number (layer_number attribute).
Dependency: call_layers_from_list.
'''
linked_experiments_elabid = sample_object.linked_experiments_elabid # list of elabid
layer_object_list = call_layers_from_list(linked_experiments_elabid)
layer_object_list.sort(key=lambda x: x.layer_number)
return layer_object_list
def chain_layer_to_target(layer_object):
'''
Takes a Layer-class object, looks at its .target_elabid attribute and returns a Material-class object containing data on the PLD target used in the deposition of said layer.
Dependency: call_material_from_elabid.
'''
target_elabid = layer_object.target_elabid
material_object = call_material_from_elabid(target_elabid)
return material_object
def deduplicate_instruments_from_layers(layers):
'''
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).
If different layers have different instruments (e.g. laser systems) the user is prompted to only select one.
'''
lasers = []
chambers = []
rheeds = []
for lyr in layers:
instruments = lyr.get_instruments(apikey)
lasers.append(instruments["laser_system"])
chambers.append(instruments["deposition_chamber"])
rheeds.append(instruments["rheed_system"])
ded_lasers = list( set( lasers ) )
ded_chambers = list( set( chambers ) )
ded_rheeds = list( set( rheeds ) )
elegant_dict = {
# Keep key names human readable since they're used in the messages of the following errors
"Laser Systems": ded_lasers,
"Deposition Chamber": ded_chambers,
"RHEED Systems": ded_rheeds
} # dictionary's name's a joke
updated_dict = {} # use this for containing the final dataset
for ded in elegant_dict:
if len(elegant_dict[ded]) == 0:
# if len of list is 0 - empty list - raise error
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}.")
elif len(elegant_dict[ded]) > 1:
# if len of list is > 1 - too many values - allow the user to pick one
print("Warning: different instruments have been used for different layers - which is currently not allowed.")
# there's a better way to do this but I can't remember now for the life of me...
i = 0
while i < len(elegant_dict[ded]):
print(f"{i} - {elegant_dict[ded][i]}")
i += 1
ans = None
while not type(ans) == int or not ans in range(0, len(elegant_dict[ded])):
ans = input("Please pick one of the previous (0, 1, ...) [default = 0]: ") or "0"
if ans.isdigit():
ans = int(ans)
continue # unnecessary?
updated_dict[ded] = elegant_dict[ded][ans]
elif elegant_dict[ded][0] in ["", 0, None]:
# if len is 1 BUT value is "", 0 or None raise error
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}.")
else:
# if none of the previous (only 1 value), that single value is used
updated_dict[ded] = elegant_dict[ded][0]
instruments_used_dict = {
"laser_system": updated_dict["Laser Systems"],
"deposition_chamber": updated_dict["Deposition Chamber"],
"rheed_system": updated_dict["RHEED Systems"],
}
return instruments_used_dict
### OLD CODE
# if 0 in [ len(i) for i in elegant_list ]:
# # i.e. if length of one of the lists in elegant_list is zero (missing data):
# 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.")
# if not all([ len(i) == 1 for i in elegant_list ]):
# print("Warning: different instruments have been used for different layers - which is currently not allowed.")
# # for every element in elegant list check if len > 1 and if it is
# print("Selecting the first occurence for every category...")
###
# lasers = { f"layer_{lyr.layer_number}": lyr.laser_system for lyr in layers }
# chambers = { f"layer_{lyr.layer_number}": lyr.deposition_chamber for lyr in layers }
# rheeds = { f"layer_{lyr.layer_number}": lyr.rheed_system for lyr in layers }
# instruments_used_dict = {
# "laser_system": lasers,
# "deposition_chamber": chambers,
# "rheed_system": rheeds,
# }
def make_nexus_schema_dictionary(substrate_object, layers):
'''
Main function, takes all the other functions to reconstruct the full dataset. Takes a Substrate-class object (output of the chain_entrypoint_to_batch() function) and a list of Layer-class objects (output of the chain_entrypoint_to_layers() function), returns dictionary with the same schema as the NeXus standard for PLD fabrications.
'''
pld_fabrication = {
"sample": {
"substrate": {
"name": substrate_object.name,
"chemical_formula" : substrate_object.get_compound_formula(apikey),
"orientation" : substrate_object.orientation,
"miscut_angle" : {
"value": substrate_object.miscut_angle,
"units": substrate_object.miscut_angle_unit
},
"miscut_direction" : substrate_object.miscut_direction,
"thickness" : {
"value": substrate_object.thickness,
"units": substrate_object.thickness_unit,
},
"dimensions" : substrate_object.dimensions,
"surface_treatment" : substrate_object.surface_treatment,
"manufacturer" : substrate_object.manufacturer,
"batch_id" : substrate_object.batch_id,
},
"multilayer": {},
},
"instruments_used": deduplicate_instruments_from_layers(layers),
}
multilayer = pld_fabrication["sample"]["multilayer"]
for layer in layers:
name = "layer_" + layer.layer_number
target_object = chain_layer_to_target(layer)
target_dict = {
"name": target_object.name,
"chemical_formula" : target_object.get_compound_formula(apikey),
"description" : target_object.description,
"shape" : target_object.shape,
"dimensions" : target_object.dimensions,
"thickness" : {
"value": target_object.thickness,
"units": target_object.thickness_unit,
},
"solid_form" : target_object.solid_form,
"manufacturer" : target_object.manufacturer,
"batch_id" : target_object.name,
# TO-DO: currently not available:
}
multilayer[name] = {
"target": target_dict,
"start_time": layer.start_time,
"operator": layer.operator,
"description": layer.description,
"number_of_pulses": layer.number_of_pulses,
"deposition_time": {
"value": layer.deposition_time,
"units": layer.deposition_time_unit,
},
"temperature": {
"value": layer.temperature,
"units": layer.temperature_unit,
},
"heating_method": layer.heating_method,
"layer_thickness": {
"value": layer.layer_thickness,
"units": layer.layer_thickness_unit,
},
"buffer_gas": layer.buffer_gas,
"process_pressure": {
"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,
"velocities": layer.laser_rastering_velocities,
},
"pre_annealing": {
"ambient_gas": layer.pre_annealing_ambient_gas,
"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": {
"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 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__": if __name__=="__main__":
print(f"=======================\n===== DEBUG MODE! =====\n=======================\n") # TO-DO: place the API base URL somewhere else.
ELABFTW_API_URL = "https://elabftw.fisica.unina.it/api/v2" ELABFTW_API_URL = "https://elabftw.fisica.unina.it/api/v2"
apikey = getpass("Paste API key here: ") apikey = getpass("Paste API key here: ")
# TEST. In production the entryType will probably just be "items" since the entrypoint is an item (sample). elabid = input("Enter elabid of your starting sample [default = 1111]: ") or 1111
entryType = None data = APIHandler(apikey).get_entry_from_elabid(elabid)
while entryType not in ["items", "experiments"]: sample = Entrypoint(data)
eT = input("Enter a valid entry type [items, experiments]: ") sample_name = sample.name.strip().replace(" ","_")
# This allows for a shortcut: instead of prompting the type before and the elabid after I can just prompt both at the same time - e.g. e51 is exp. 51, i1108 is item 1108... substrate_object = chain_entrypoint_to_batch(sample) # Substrate-class object
if eT[0] in ["e", "i"] and eT[-1].isnumeric(): layers = chain_entrypoint_to_layers(sample) # list of Layer-class objects
try: result = make_nexus_schema_dictionary(substrate_object, layers)
elabid = int(eT[1:]) # print(make_nexus_schema_dictionary(substrate_object, layers)) # debug
eT = eT[0] with open (f"output/sample-{sample_name}.json", "w") as f:
except Exception: json.dump(result, f, indent=3)
print("Usage: i|item|items|i[ELABID] for items, e|experiment|experiments|e[ELABID] for experiments.") build_nexus_file(result, output_path=f"output/sample-{sample_name}-nexus.h5")
continue
match eT:
case "items" | "i" | "item":
entryType = "items"
case "experiments" | "e" | "exp" | "experiment":
entryType = "experiments"
case _:
continue
# This will probably be reworked in production
try:
elabid = elabid
except NameError:
elabid = input("Input elabid here [default = 1111]: ") or 1111
data = APIHandler(apikey).get_entry_from_elabid(elabid, entryType)
if entryType == "experiments":
layer = Layer(data)
result = layer.__dict__
result.pop("extra")
print(result)
elif entryType == "items":
if data.get("category_title") == "Sample":
item = Entrypoint(data)
elif data.get("category_title") in ["PLD Target", "Substrate"]:
item = Material(data)
print(item.get_compound_formula(apikey))
else:
raise Exception("The selected item or experiment is not in one of the following categories: [Sample, PLD Target, Substrate, PLD Deposition].")
result = item.__dict__
result.pop("extra")
print(result)

14
tests/chained_requests.py
View File

@@ -42,6 +42,7 @@ class Layer:
def __init__(self, layer_data): def __init__(self, layer_data):
try: try:
self.extra = layer_data["metadata_decoded"]["extra_fields"] self.extra = layer_data["metadata_decoded"]["extra_fields"]
self.layer_number = self.extra["Layer Progressive Number"]["value"] # integer
self.target_elabid = self.extra["Target"]["value"] # elabid self.target_elabid = self.extra["Target"]["value"] # elabid
self.rheed_system_elabid = self.extra["RHEED System"]["value"] # elabid self.rheed_system_elabid = self.extra["RHEED System"]["value"] # elabid
self.laser_system_elabid = self.extra["Laser System"]["value"] # elabid self.laser_system_elabid = self.extra["Laser System"]["value"] # elabid
@@ -174,14 +175,14 @@ if __name__=="__main__":
eT = eT[0] eT = eT[0]
except Exception: except Exception:
print("Usage: i|item|items|i[ELABID] for items, e|experiment|experiments|e[ELABID] for experiments.") print("Usage: i|item|items|i[ELABID] for items, e|experiment|experiments|e[ELABID] for experiments.")
pass continue
match eT: match eT:
case "items" | "i" | "item": case "items" | "i" | "item":
entryType = "items" entryType = "items"
case "experiments" | "e" | "exp" | "experiment": case "experiments" | "e" | "exp" | "experiment":
entryType = "experiments" entryType = "experiments"
case _: case _:
pass continue
# This will probably be reworked in production # This will probably be reworked in production
try: try:
elabid = elabid elabid = elabid
@@ -198,10 +199,9 @@ if __name__=="__main__":
item = Entrypoint(data) item = Entrypoint(data)
elif data.get("category_title") in ["PLD Target", "Substrate"]: elif data.get("category_title") in ["PLD Target", "Substrate"]:
item = Material(data) item = Material(data)
print(item.get_compound_formula()) print(item.get_compound_formula(apikey))
else:
raise Exception("The selected item or experiment is not in one of the following categories: [Sample, PLD Target, Substrate, PLD Deposition].")
result = item.__dict__ result = item.__dict__
result.pop("extra") result.pop("extra")
print(result) print(result)
# print(json.dumps(chain.sample_data))
# print(json.dumps(chain.linked_experiments))
# print(chain.batch_elabid)

480
tests/layer_A.json Normal file
View File

@@ -0,0 +1,480 @@
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"canwrite_is_immutable": 0,
"category": 2,
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"category_title": "PLD Deposition",
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500
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