from typing import List, Mapping from aredis_om.model.model import Expression class LogicalOperatorForListOfExpressions(Expression): operator: str = "" def __init__(self, *expressions: Expression): self.expressions = list(expressions) @property def query(self) -> Mapping[str, List[Expression]]: if not self.expressions: raise AttributeError("At least one expression must be provided") # TODO: This needs to return a RediSearch string. # Use the values in each expression object to build the string. # Determine the type of query based on the field (numeric range, # tag field, etc.). return {self.operator: self.expressions} class Or(LogicalOperatorForListOfExpressions): """ Logical OR query operator Example: ```python class Product(JsonModel): price: float category: str Or(Product.price < 10, Product.category == "Sweets") ``` Will return RediSearch query string like: ``` (@price:[-inf 10]) | (@category:{Sweets}) ``` """ operator = "|" class And(LogicalOperatorForListOfExpressions): """ Logical AND query operator Example: ```python class Product(Document): price: float category: str And(Product.price < 10, Product.category == "Sweets") ``` Will return a query string like: ``` (@price:[-inf 10]) (@category:{Sweets}) ``` Note that in RediSearch, AND is implied with multiple terms. """ operator = " " class Not(LogicalOperatorForListOfExpressions): """ Logical NOT query operator Example: ```python class Product(Document): price: float category: str Not(Product.price<10, Product.category=="Sweets") ``` Will return a query string like: ``` -(@price:[-inf 10]) -(@category:{Sweets}) ``` """ @property def query(self): return "-(expression1) -(expression2)" class QueryResolver: def __init__(self, *expressions: Expression): self.expressions = expressions def resolve(self) -> str: """Resolve expressions to a RediSearch query string."""