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import json | |
def validate_and_align_JSON_keys_with_template(data, JSON_dict_structure): | |
data = validate_JSON(data) | |
if data is None: | |
return None | |
else: | |
# Make sure that there are no literal list [] objects in the dict | |
for key, value in data.items(): | |
if value is None: | |
data[key] = '' | |
elif isinstance(value, str): | |
if value.lower() in ['unknown','not provided', 'missing', 'na', 'none', 'n/a', 'null', 'unspecified', | |
'TBD', | |
'not provided in the text', 'not found in the text', | |
'not in the text', 'not provided', 'not found', | |
'not provided in the ocr', 'not found in the ocr', | |
'not in the ocr', | |
'not provided in the ocr text', 'not found in the ocr text', | |
"not specified in the given text.", | |
"not specified in the given text", | |
"not specified in the text.", | |
"not specified in the text", | |
"not specified in text.", | |
"not specified in text", | |
"not specified in ocr", | |
"not specified", | |
'not in the ocr text', | |
'Not provided in ocr text', | |
'not provided in ocr text', | |
'n/a n/a','n/a, n/a', | |
'n/a, n/a, n/a','n/a n/a, n/a','n/a, n/a n/a','n/a n/a n/a', | |
'n/a, n/a, n/a, n/a','n/a n/a n/a n/a','n/a n/a, n/a, n/a','n/a, n/a n/a, n/a','n/a, n/a, n/a n/a', | |
'n/a n/a n/a, n/a','n/a, n/a n/a n/a', | |
'n/a n/a, n/a n/a',]: | |
data[key] = '' | |
elif isinstance(value, list): | |
# Join the list elements into a single string | |
data[key] = ', '.join(str(item) for item in value) | |
### align the keys with the template | |
# Create a new dictionary with the same order of keys as JSON_dict_structure | |
ordered_data = {} | |
# This will catch cases where the LLM JSON case does not match the required JSON key's case | |
for key in JSON_dict_structure: | |
truth_key_lower = key.lower() | |
llm_value = str(data.get(key, '')) | |
if not llm_value: | |
llm_value = str(data.get(truth_key_lower, '')) | |
# Copy the value from data if it exists, else use an empty string | |
ordered_data[key] = llm_value | |
return ordered_data | |
def validate_JSON(data): | |
if isinstance(data, dict): | |
return data | |
else: | |
if isinstance(data, list): | |
data = data[0] | |
try: | |
json_candidate = json.loads(data) # decoding the JSON data | |
if isinstance(json_candidate, list): | |
json_candidate = json_candidate[0] | |
if isinstance(json_candidate, dict): | |
data = json_candidate | |
return data | |
else: | |
return None | |
except: | |
return None | |
#### A manual method for pulling a JSON object out of a verbose LLM response. | |
#### It's messy butr works well enough. Only use if JSONparsing is not available | |
def extract_json_dict_manual(text): | |
text = text.strip().replace("\n", "").replace("\\\\", "") | |
# Find the first opening curly brace | |
start_index = text.find('{') | |
# Find the last closing curly brace | |
end_index = text.rfind('}') + 1 | |
text = text[start_index:end_index] | |
# Find the first opening curly brace | |
start_index = text.find('{') | |
# Find the last closing curly brace | |
end_index = text.rfind('}') + 1 | |
# Check and remove backslash immediately after the opening curly brace | |
if text[start_index + 1] == "\\": | |
text = text[:start_index + 1] + text[start_index + 2:] | |
# Find the first opening curly brace | |
start_index = text.find('{') | |
# Find the last closing curly brace | |
end_index = text.rfind('}') + 1 | |
# print(text[end_index-2]) | |
if text[end_index-2] == "\\": | |
text = text[:end_index-2] + text[end_index-1] | |
else: | |
text = text | |
# Find the first opening curly brace | |
start_index = text.find('{') | |
# Find the last closing curly brace | |
end_index = text.rfind('}') + 1 | |
# print(text[end_index-2]) | |
if text[end_index-2] == "\\": | |
text = text[:end_index-3] + text[end_index-1] | |
else: | |
text = text | |
# Trim whitespace | |
json_str = text | |
# Print the JSON string for inspection | |
# print("Extracted JSON string:", json_str) | |
# Convert JSON string to Python dictionary | |
try: | |
# If necessary, replace newline characters | |
# json_str = json_str.replace('\n', '\\n') | |
json_dict = json.loads(json_str) | |
return json_dict | |
except Exception as e: | |
print("Error parsing JSON:", e) | |
return None | |
''' | |
if __name__ == "__main__": | |
tex = """Extracted JSON string: {"catalogNumber": "MPU395640", | |
"order": "Monimizeae", | |
"family": "Monimiaceae", | |
"scientificName": "Hedycarya parvifolia", | |
"scientificNameAuthorship": "Perkins & Schltr.", | |
"genus": "Hedycarya", | |
"subgenus": null, | |
"specificEpithet": "parvifolia", | |
"infraspecificEpithet": null, | |
"identifiedBy": null, | |
"recordedBy": "R. Pouteau & J. Munzinger", | |
"recordNumber": "RP 1", | |
"verbatimEventDate": "26-2-2013", | |
"eventDate": "2013-02-26", | |
"habitat": "Ultramafique Long. 165 ° 52'21 E, Lat. 21 ° 29'19 S, Maquis", | |
"occurrenceRemarks": "Fruit Arbuste, Ht. 1,5 mètre (s), Fruits verts (immatures) à noirs (matures), Coll. R. Pouteau & J. Munzinger N° RP 1, Dupl. P - MPU, RECOLNAT, Herbier IRD de Nouvelle - Calédonie Poutan 1, Golden Thread, Alt. 818 mètre, Diam. 2 cm, Date 26-2-2013", | |
"country": "Nouvelle Calédonie", | |
"stateProvince": null, | |
"county": null, | |
"municipality": null, | |
"locality": "Antenne du plateau de Bouakaine", | |
"degreeOfEstablishment": "cultivated", | |
"decimalLatitude": -21.488611, | |
"decimalLongitude": 165.8725, | |
"verbatimCoordinates": "Long. 165 ° 52'21 E, Lat. 21 ° 29'19 S", | |
"minimumElevationInMeters": 818, | |
"maximumElevationInMeters": 818 | |
\\}""" | |
new = extract_json_dict(tex) | |
''' | |