import abc import decimal import datetime from typing import Optional, List from unittest import mock import pytest import redis from pydantic import ValidationError from redis_developer.orm import ( JsonModel, Field, ) from redis_developer.orm.model import RedisModelError, QueryNotSupportedError, NotFoundError, embedded r = redis.Redis() today = datetime.date.today() class BaseJsonModel(JsonModel, abc.ABC): class Meta: global_key_prefix = "redis-developer" class EmbeddedJsonModel(BaseJsonModel, abc.ABC): class Meta: embedded = True class Note(EmbeddedJsonModel): description: str = Field(index=True) created_on: datetime.datetime class Address(EmbeddedJsonModel): address_line_1: str address_line_2: Optional[str] city: str = Field(index=True) state: str country: str postal_code: str = Field(index=True) note: Optional[Note] class Item(EmbeddedJsonModel): price: decimal.Decimal # name: str = Field(index=True, full_text_search=True) name: str = Field(index=True) class Order(EmbeddedJsonModel): items: List[Item] total: decimal.Decimal created_on: datetime.datetime class Member(BaseJsonModel): first_name: str = Field(index=True) last_name: str = Field(index=True) email: str = Field(index=True) join_date: datetime.date age: int = Field(index=True) # Creates an embedded model. address: Address # Creates an embedded list of models. orders: Optional[List[Order]] @pytest.fixture() def address(): yield Address( address_line_1="1 Main St.", city="Portland", state="OR", country="USA", postal_code=11111 ) @pytest.fixture() def members(address): member1 = Member( first_name="Andrew", last_name="Brookins", email="a@example.com", age=38, join_date=today, address=address ) member2 = Member( first_name="Kim", last_name="Brookins", email="k@example.com", age=34, join_date=today, address=address ) member3 = Member( first_name="Andrew", last_name="Smith", email="as@example.com", age=100, join_date=today, address=address ) member1.save() member2.save() member3.save() yield member1, member2, member3 def test_validates_required_fields(address): # Raises ValidationError address is required with pytest.raises(ValidationError): Member( first_name="Andrew", last_name="Brookins", zipcode="97086", join_date=today, ) def test_validates_field(address): # Raises ValidationError: join_date is not a date with pytest.raises(ValidationError): Member( first_name="Andrew", last_name="Brookins", join_date="yesterday", address=address ) # Passes validation def test_validation_passes(address): member = Member( first_name="Andrew", last_name="Brookins", email="a@example.com", join_date=today, age=38, address=address ) assert member.first_name == "Andrew" def test_saves_model_and_creates_pk(address): member = Member( first_name="Andrew", last_name="Brookins", email="a@example.com", join_date=today, age=38, address=address ) # Save a model instance to Redis member.save() member2 = Member.get(member.pk) assert member2 == member assert member2.address == address @pytest.mark.skip("Not implemented yet") def test_saves_many(address): members = [ Member( first_name="Andrew", last_name="Brookins", email="a@example.com", join_date=today, address=address, age=38 ), Member( first_name="Kim", last_name="Brookins", email="k@example.com", join_date=today, address=address, age=34 ) ] Member.add(members) @pytest.mark.skip("Not ready yet") def test_updates_a_model(members): member1, member2, member3 = members # Or, with an implicit save: member1.update(last_name="Smith") assert Member.find(Member.pk == member1.pk).first() == member1 # Or, affecting multiple model instances with an implicit save: Member.find(Member.last_name == "Brookins").update(last_name="Smith") results = Member.find(Member.last_name == "Smith") assert results == members # Or, updating a field in an embedded model: member2.update(address__city="Happy Valley") assert Member.find(Member.pk == member2.pk).first().address.city == "Happy Valley" def test_paginate_query(members): member1, member2, member3 = members actual = Member.find().all(batch_size=1) assert actual == [member1, member2, member3] def test_access_result_by_index_cached(members): member1, member2, member3 = members query = Member.find().sort_by('age') # Load the cache, throw away the result. assert query._model_cache == [] query.execute() assert query._model_cache == [member2, member1, member3] # Access an item that should be in the cache. with mock.patch.object(query.model, 'db') as mock_db: assert query[0] == member2 assert not mock_db.called def test_access_result_by_index_not_cached(members): member1, member2, member3 = members query = Member.find().sort_by('age') # Assert that we don't have any models in the cache yet -- we # haven't made any requests of Redis. assert query._model_cache == [] assert query[0] == member2 assert query[1] == member1 assert query[2] == member3 def test_exact_match_queries(members): member1, member2, member3 = members actual = Member.find(Member.last_name == "Brookins").all() assert actual == [member1, member2] actual = Member.find( (Member.last_name == "Brookins") & ~(Member.first_name == "Andrew")).all() assert actual == [member2] actual = Member.find(~(Member.last_name == "Brookins")).all() assert actual == [member3] actual = Member.find(Member.last_name != "Brookins").all() assert actual == [member3] actual = Member.find( (Member.last_name == "Brookins") & (Member.first_name == "Andrew") | (Member.first_name == "Kim") ).all() assert actual == [member1, member2] actual = Member.find(Member.first_name == "Kim", Member.last_name == "Brookins").all() assert actual == [member2] actual = Member.find(Member.address.city == "Portland").all() assert actual == [member1, member2, member3] def test_recursive_query_expression_resolution(members): member1, member2, member3 = members actual = Member.find((Member.last_name == "Brookins") | ( Member.age == 100 ) & (Member.last_name == "Smith")).all() assert actual == [member1, member2, member3] def test_recursive_query_field_resolution(members): member1, _, _ = members member1.address.note = Note(description="Weird house", created_on=datetime.datetime.now()) member1.save() actual = Member.find(Member.address.note.description == "Weird house").all() assert actual == [member1] member1.orders = [ Order(items=[Item(price=10.99, name="Ball")], total=10.99, created_on=datetime.datetime.now()) ] member1.save() actual = Member.find(Member.orders.items.name == "Ball").all() assert actual == [member1] def test_tag_queries_boolean_logic(members): member1, member2, member3 = members actual = Member.find( (Member.first_name == "Andrew") & (Member.last_name == "Brookins") | (Member.last_name == "Smith")).all() assert actual == [member1, member3] def test_tag_queries_punctuation(address): member1 = Member( first_name="Andrew, the Michael", last_name="St. Brookins-on-Pier", email="a|b@example.com", # NOTE: This string uses the TAG field separator. age=38, join_date=today, address=address ) member1.save() member2 = Member( first_name="Bob", last_name="the Villain", email="a|villain@example.com", # NOTE: This string uses the TAG field separator. age=38, join_date=today, address=address ) member2.save() assert Member.find(Member.first_name == "Andrew, the Michael").first() == member1 assert Member.find(Member.last_name == "St. Brookins-on-Pier").first() == member1 # Notice that when we index and query multiple values that use the internal # TAG separator for single-value exact-match fields, like an indexed string, # the queries will succeed. We apply a workaround that queries for the union # of the two values separated by the tag separator. assert Member.find(Member.email == "a|b@example.com").all() == [member1] assert Member.find(Member.email == "a|villain@example.com").all() == [member2] def test_tag_queries_negation(members): member1, member2, member3 = members """ ┌first_name NOT EQ┤ └Andrew """ query = Member.find( ~(Member.first_name == "Andrew") ) assert query.all() == [member2] """ ┌first_name ┌NOT EQ┤ | └Andrew AND┤ | ┌last_name └EQ┤ └Brookins """ query = Member.find( ~(Member.first_name == "Andrew") & (Member.last_name == "Brookins") ) assert query.all() == [member2] """ ┌first_name ┌NOT EQ┤ | └Andrew AND┤ | ┌last_name | ┌EQ┤ | | └Brookins └OR┤ | ┌last_name └EQ┤ └Smith """ query = Member.find( ~(Member.first_name == "Andrew") & ((Member.last_name == "Brookins") | (Member.last_name == "Smith"))) assert query.all() == [member2] """ ┌first_name ┌NOT EQ┤ | └Andrew ┌AND┤ | | ┌last_name | └EQ┤ | └Brookins OR┤ | ┌last_name └EQ┤ └Smith """ query = Member.find( ~(Member.first_name == "Andrew") & (Member.last_name == "Brookins") | (Member.last_name == "Smith")) assert query.all() == [member2, member3] actual = Member.find( (Member.first_name == "Andrew") & ~(Member.last_name == "Brookins")).all() assert actual == [member3] def test_numeric_queries(members): member1, member2, member3 = members actual = Member.find(Member.age == 34).all() assert actual == [member2] actual = Member.find(Member.age > 34).all() assert actual == [member1, member3] actual = Member.find(Member.age < 35).all() assert actual == [member2] actual = Member.find(Member.age <= 34).all() assert actual == [member2] actual = Member.find(Member.age >= 100).all() assert actual == [member3] actual = Member.find(~(Member.age == 100)).all() assert actual == [member1, member2] def test_sorting(members): member1, member2, member3 = members actual = Member.find(Member.age > 34).sort_by('age').all() assert actual == [member1, member3] actual = Member.find(Member.age > 34).sort_by('-age').all() assert actual == [member3, member1] with pytest.raises(QueryNotSupportedError): # This field does not exist. Member.find().sort_by('not-a-real-field').all() with pytest.raises(QueryNotSupportedError): # This field is not sortable. Member.find().sort_by('join_date').all() def test_not_found(): with pytest.raises(NotFoundError): # This ID does not exist. Member.get(1000) def test_schema(): assert Member.redisearch_schema() == "ON JSON PREFIX 1 redis-developer:tests.test_json_model.Member: SCHEMA $.pk AS pk TAG SEPARATOR | SORTABLE $.first_name AS first_name TAG SEPARATOR | SORTABLE $.last_name AS last_name TAG SEPARATOR | SORTABLE $.email AS email TAG SEPARATOR | SORTABLE $.age AS age NUMERIC SORTABLE $.address.pk AS address_pk TAG SEPARATOR | SORTABLE $.address.city AS address_city TAG SEPARATOR | SORTABLE $.address.postal_code AS address_postal_code TAG SEPARATOR | SORTABLE $.address.note.pk AS address_note_pk TAG SEPARATOR | SORTABLE $.address.note.description AS address_note_description TAG SEPARATOR | SORTABLE $.orders[*].pk AS orders_pk TAG SEPARATOR | SORTABLE $.orders[*].items[*].pk AS orders_items_pk TAG SEPARATOR | SORTABLE $.orders[*].items[*].name AS orders_items_name TAG SEPARATOR | SORTABLE"