def get_predicate_boolean(expression: nlpql_parserParser.PredicateBooleanContext, define_name, final): print(expression) operator = "" entities = list() op = PhenotypeOperations(define_name, operator, entities, final=final, raw_text=get_pretty_text(expression)) return op
def get_not_expression(expression: nlpql_parserParser.ExpressionContext, define_name, final): print(expression) entities = list() operator = "" op = PhenotypeOperations(define_name, operator, entities, final=final, raw_text=get_pretty_text(expression)) return op
def get_logical_expression(expression: nlpql_parserParser.ExpressionContext, define_name, final): print(expression) entities = list() operator = list() for c in expression.getChildren(): if type(c) == nlpql_parserParser.ExpressionContext: get_generic_expression(c, entities, operator) elif type(c) == nlpql_parserParser.LogicalOperatorContext: operator.append(c.getText()) op = PhenotypeOperations(define_name, operator[0], entities, final=final, raw_text=get_pretty_text(expression)) return op
def get_predicate_expression(expression: nlpql_parserParser.PredicateContext, define_name, final): print(expression) entities = list() operator = "" for c in expression.getChildren(): if is_operator(c): operator = c.getText().strip('"') elif type(c) == nlpql_parserParser.PredicateContext: pc = get_predicate_context(c) if pc: if type(pc) == list: entities.extend(pc) else: entities.append(pc) op = PhenotypeOperations(define_name, operator, entities, final=final, raw_text=get_pretty_text(expression)) return op