def __init__(self): self.trie = TokenTrie(name="disease") if self.trie.is_empty(): diseases_file = open( os.path.join(*[ os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt' ])) disease_names = diseases_file.read().split('\n') count = 0 for disease in disease_names: self.trie.add(tokenize(disease)) print disease count += 1 self.trie.save_to_cache()
def __init__(self): self.trie = TokenTrie(name="symptoms") if self.trie.is_empty(): symptoms_file = open( os.path.join(*[ os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt' ])) symptoms = symptoms_file.read().split('\n') count = 0 for symptom in symptoms: (code, name) = symptom.split("\t") self.trie.add(tokenize(name)) print name count += 1 self.trie.save_to_cache()
def __init__(self): self.trie = TokenTrie(name="disease") if self.trie.is_empty(): diseases_file = open(os.path.join(*[os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt'])) disease_names = diseases_file.read().split('\n') count = 0 for disease in disease_names: self.trie.add(tokenize(disease)) print disease count += 1 self.trie.save_to_cache()
def __init__(self): self.trie = TokenTrie(name="symptoms") if self.trie.is_empty(): symptoms_file = open(os.path.join(*[os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt'])) symptoms = symptoms_file.read().split('\n') count = 0 for symptom in symptoms: (code, name) = symptom.split("\t") self.trie.add(tokenize(name)) print name count += 1 self.trie.save_to_cache()
class DiseaseExtractor(object): def __init__(self): self.trie = TokenTrie(name="disease") if self.trie.is_empty(): diseases_file = open(os.path.join(*[os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt'])) disease_names = diseases_file.read().split('\n') count = 0 for disease in disease_names: self.trie.add(tokenize(disease)) print disease count += 1 self.trie.save_to_cache() def extract(self, text): sequences = self.trie.scan(tokenize(text)) # assemble sequences into tokens return [" ".join(seq) for seq in sequences]
class SymptomExtractor(object): def __init__(self): self.trie = TokenTrie(name="symptoms") if self.trie.is_empty(): symptoms_file = open(os.path.join(*[os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt'])) symptoms = symptoms_file.read().split('\n') count = 0 for symptom in symptoms: (code, name) = symptom.split("\t") self.trie.add(tokenize(name)) print name count += 1 self.trie.save_to_cache() def extract(self, text): sequences = self.trie.scan(tokenize(text)) # assemble sequences into tokens return [" ".join(seq) for seq in sequences]
class DiseaseExtractor(object): def __init__(self): self.trie = TokenTrie(name="disease") if self.trie.is_empty(): diseases_file = open( os.path.join(*[ os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt' ])) disease_names = diseases_file.read().split('\n') count = 0 for disease in disease_names: self.trie.add(tokenize(disease)) print disease count += 1 self.trie.save_to_cache() def extract(self, text): sequences = self.trie.scan(tokenize(text)) # assemble sequences into tokens return [" ".join(seq) for seq in sequences]
class SymptomExtractor(object): def __init__(self): self.trie = TokenTrie(name="symptoms") if self.trie.is_empty(): symptoms_file = open( os.path.join(*[ os.path.dirname(__file__), 'data', 'UMLS', 'diseases.txt' ])) symptoms = symptoms_file.read().split('\n') count = 0 for symptom in symptoms: (code, name) = symptom.split("\t") self.trie.add(tokenize(name)) print name count += 1 self.trie.save_to_cache() def extract(self, text): sequences = self.trie.scan(tokenize(text)) # assemble sequences into tokens return [" ".join(seq) for seq in sequences]