589 lines
17 KiB
Python
589 lines
17 KiB
Python
import abc
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import datetime
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import decimal
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from collections import namedtuple
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from typing import List, Optional
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from unittest import mock
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import pytest
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import redis
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from pydantic import ValidationError
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from redis_developer.model import EmbeddedJsonModel, Field, JsonModel
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from redis_developer.model.migrations.migrator import Migrator
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from redis_developer.model.model import (
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NotFoundError,
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QueryNotSupportedError,
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RedisModelError,
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)
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today = datetime.date.today()
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@pytest.fixture
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def m(key_prefix):
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class BaseJsonModel(JsonModel, abc.ABC):
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class Meta:
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global_key_prefix = key_prefix
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class Note(EmbeddedJsonModel):
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# TODO: This was going to be a full-text search example, but
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# we can't index embedded documents for full-text search in
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# the preview release.
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description: str = Field(index=True)
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created_on: datetime.datetime
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class Address(EmbeddedJsonModel):
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address_line_1: str
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address_line_2: Optional[str]
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city: str = Field(index=True)
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state: str
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country: str
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postal_code: str = Field(index=True)
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note: Optional[Note]
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class Item(EmbeddedJsonModel):
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price: decimal.Decimal
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name: str = Field(index=True)
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class Order(EmbeddedJsonModel):
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items: List[Item]
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created_on: datetime.datetime
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class Member(BaseJsonModel):
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first_name: str = Field(index=True)
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last_name: str = Field(index=True)
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email: str = Field(index=True)
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join_date: datetime.date
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age: int = Field(index=True)
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bio: Optional[str] = Field(index=True, full_text_search=True, default="")
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# Creates an embedded model.
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address: Address
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# Creates an embedded list of models.
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orders: Optional[List[Order]]
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Migrator().run()
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return namedtuple(
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"Models", ["BaseJsonModel", "Note", "Address", "Item", "Order", "Member"]
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)(BaseJsonModel, Note, Address, Item, Order, Member)
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@pytest.fixture()
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def address(m):
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yield m.Address(
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address_line_1="1 Main St.",
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city="Portland",
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state="OR",
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country="USA",
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postal_code=11111,
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)
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@pytest.fixture()
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def members(address, m):
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member1 = m.Member(
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first_name="Andrew",
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last_name="Brookins",
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email="a@example.com",
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age=38,
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join_date=today,
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address=address,
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)
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member2 = m.Member(
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first_name="Kim",
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last_name="Brookins",
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email="k@example.com",
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age=34,
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join_date=today,
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address=address,
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)
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member3 = m.Member(
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first_name="Andrew",
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last_name="Smith",
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email="as@example.com",
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age=100,
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join_date=today,
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address=address,
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)
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member1.save()
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member2.save()
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member3.save()
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yield member1, member2, member3
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def test_validates_required_fields(address, m):
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# Raises ValidationError address is required
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with pytest.raises(ValidationError):
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m.Member(
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first_name="Andrew",
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last_name="Brookins",
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zipcode="97086",
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join_date=today,
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)
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def test_validates_field(address, m):
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# Raises ValidationError: join_date is not a date
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with pytest.raises(ValidationError):
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m.Member(
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first_name="Andrew",
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last_name="Brookins",
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join_date="yesterday",
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address=address,
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)
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# Passes validation
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def test_validation_passes(address, m):
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member = m.Member(
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first_name="Andrew",
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last_name="Brookins",
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email="a@example.com",
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join_date=today,
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age=38,
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address=address,
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)
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assert member.first_name == "Andrew"
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def test_saves_model_and_creates_pk(address, m):
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member = m.Member(
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first_name="Andrew",
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last_name="Brookins",
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email="a@example.com",
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join_date=today,
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age=38,
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address=address,
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)
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# Save a model instance to Redis
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member.save()
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member2 = m.Member.get(member.pk)
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assert member2 == member
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assert member2.address == address
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@pytest.mark.skip("Not implemented yet")
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def test_saves_many(address, m):
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members = [
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m.Member(
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first_name="Andrew",
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last_name="Brookins",
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email="a@example.com",
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join_date=today,
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address=address,
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age=38,
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),
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m.Member(
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first_name="Kim",
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last_name="Brookins",
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email="k@example.com",
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join_date=today,
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address=address,
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age=34,
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),
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]
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m.Member.add(members)
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@pytest.mark.skip("Not ready yet")
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def test_updates_a_model(members, m):
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member1, member2, member3 = members
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# Or, with an implicit save:
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member1.update(last_name="Smith")
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assert m.Member.find(m.Member.pk == member1.pk).first() == member1
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# Or, affecting multiple model instances with an implicit save:
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m.Member.find(m.Member.last_name == "Brookins").update(last_name="Smith")
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results = m.Member.find(m.Member.last_name == "Smith")
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assert results == members
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# Or, updating a field in an embedded model:
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member2.update(address__city="Happy Valley")
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assert (
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m.Member.find(m.Member.pk == member2.pk).first().address.city == "Happy Valley"
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)
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def test_paginate_query(members, m):
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member1, member2, member3 = members
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actual = m.Member.find().sort_by("age").all(batch_size=1)
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assert actual == [member2, member1, member3]
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def test_access_result_by_index_cached(members, m):
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member1, member2, member3 = members
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query = m.Member.find().sort_by("age")
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# Load the cache, throw away the result.
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assert query._model_cache == []
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query.execute()
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assert query._model_cache == [member2, member1, member3]
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# Access an item that should be in the cache.
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with mock.patch.object(query.model, "db") as mock_db:
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assert query[0] == member2
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assert not mock_db.called
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def test_access_result_by_index_not_cached(members, m):
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member1, member2, member3 = members
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query = m.Member.find().sort_by("age")
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# Assert that we don't have any models in the cache yet -- we
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# haven't made any requests of Redis.
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assert query._model_cache == []
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assert query[0] == member2
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assert query[1] == member1
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assert query[2] == member3
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def test_in_query(members, m):
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member1, member2, member3 = members
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actual = (
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m.Member.find(m.Member.pk << [member1.pk, member2.pk, member3.pk])
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.sort_by("age")
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.all()
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)
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assert actual == [member2, member1, member3]
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@pytest.mark.skip("Not implemented yet")
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def test_update_query(members, m):
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member1, member2, member3 = members
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m.Member.find(m.Member.pk << [member1.pk, member2.pk, member3.pk]).update(
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first_name="Bobby"
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)
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actual = (
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m.Member.find(m.Member.pk << [member1.pk, member2.pk, member3.pk])
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.sort_by("age")
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.all()
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)
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assert actual == [member1, member2, member3]
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assert all([m.name == "Bobby" for m in actual])
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def test_exact_match_queries(members, m):
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member1, member2, member3 = members
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actual = m.Member.find(m.Member.last_name == "Brookins").sort_by("age").all()
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assert actual == [member2, member1]
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actual = m.Member.find(
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(m.Member.last_name == "Brookins") & ~(m.Member.first_name == "Andrew")
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).all()
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assert actual == [member2]
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actual = m.Member.find(~(m.Member.last_name == "Brookins")).all()
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assert actual == [member3]
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actual = m.Member.find(m.Member.last_name != "Brookins").all()
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assert actual == [member3]
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actual = (
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m.Member.find(
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(m.Member.last_name == "Brookins") & (m.Member.first_name == "Andrew")
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| (m.Member.first_name == "Kim")
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)
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.sort_by("age")
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.all()
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)
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assert actual == [member2, member1]
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actual = m.Member.find(
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m.Member.first_name == "Kim", m.Member.last_name == "Brookins"
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).all()
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assert actual == [member2]
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actual = m.Member.find(m.Member.address.city == "Portland").sort_by("age").all()
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assert actual == [member2, member1, member3]
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def test_recursive_query_expression_resolution(members, m):
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member1, member2, member3 = members
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actual = (
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m.Member.find(
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(m.Member.last_name == "Brookins")
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| (m.Member.age == 100) & (m.Member.last_name == "Smith")
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)
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.sort_by("age")
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.all()
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)
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assert actual == [member2, member1, member3]
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def test_recursive_query_field_resolution(members, m):
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member1, _, _ = members
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member1.address.note = m.Note(
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description="Weird house", created_on=datetime.datetime.now()
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)
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member1.save()
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actual = m.Member.find(m.Member.address.note.description == "Weird house").all()
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assert actual == [member1]
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member1.orders = [
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m.Order(
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items=[m.Item(price=10.99, name="Ball")],
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total=10.99,
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created_on=datetime.datetime.now(),
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)
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]
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member1.save()
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actual = m.Member.find(m.Member.orders.items.name == "Ball").all()
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assert actual == [member1]
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assert actual[0].orders[0].items[0].name == "Ball"
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def test_full_text_search(members, m):
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member1, member2, _ = members
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member1.update(bio="Hates sunsets, likes beaches")
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member2.update(bio="Hates beaches, likes forests")
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actual = m.Member.find(m.Member.bio % "beaches").sort_by("age").all()
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assert actual == [member2, member1]
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actual = m.Member.find(m.Member.bio % "forests").all()
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assert actual == [member2]
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def test_tag_queries_boolean_logic(members, m):
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member1, member2, member3 = members
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actual = (
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m.Member.find(
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(m.Member.first_name == "Andrew") & (m.Member.last_name == "Brookins")
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| (m.Member.last_name == "Smith")
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)
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.sort_by("age")
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.all()
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)
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assert actual == [member1, member3]
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def test_tag_queries_punctuation(address, m):
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member1 = m.Member(
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first_name="Andrew, the Michael",
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last_name="St. Brookins-on-Pier",
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email="a|b@example.com", # NOTE: This string uses the TAG field separator.
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age=38,
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join_date=today,
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address=address,
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)
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member1.save()
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member2 = m.Member(
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first_name="Bob",
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last_name="the Villain",
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email="a|villain@example.com", # NOTE: This string uses the TAG field separator.
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age=38,
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join_date=today,
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address=address,
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)
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member2.save()
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assert (
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m.Member.find(m.Member.first_name == "Andrew, the Michael").first() == member1
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)
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assert (
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m.Member.find(m.Member.last_name == "St. Brookins-on-Pier").first() == member1
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)
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# Notice that when we index and query multiple values that use the internal
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# TAG separator for single-value exact-match fields, like an indexed string,
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# the queries will succeed. We apply a workaround that queries for the union
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# of the two values separated by the tag separator.
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assert m.Member.find(m.Member.email == "a|b@example.com").all() == [member1]
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assert m.Member.find(m.Member.email == "a|villain@example.com").all() == [member2]
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def test_tag_queries_negation(members, m):
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member1, member2, member3 = members
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"""
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┌first_name
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NOT EQ┤
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└Andrew
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"""
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query = m.Member.find(~(m.Member.first_name == "Andrew"))
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assert query.all() == [member2]
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"""
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┌first_name
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┌NOT EQ┤
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| └Andrew
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AND┤
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| ┌last_name
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└EQ┤
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└Brookins
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"""
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query = m.Member.find(
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~(m.Member.first_name == "Andrew") & (m.Member.last_name == "Brookins")
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)
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assert query.all() == [member2]
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"""
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┌first_name
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┌NOT EQ┤
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| └Andrew
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AND┤
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| ┌last_name
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| ┌EQ┤
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| | └Brookins
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└OR┤
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| ┌last_name
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└EQ┤
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└Smith
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"""
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query = m.Member.find(
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~(m.Member.first_name == "Andrew")
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& ((m.Member.last_name == "Brookins") | (m.Member.last_name == "Smith"))
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)
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assert query.all() == [member2]
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"""
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┌first_name
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┌NOT EQ┤
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| └Andrew
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┌AND┤
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| | ┌last_name
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| └EQ┤
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| └Brookins
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OR┤
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| ┌last_name
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└EQ┤
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└Smith
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"""
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query = m.Member.find(
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~(m.Member.first_name == "Andrew") & (m.Member.last_name == "Brookins")
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| (m.Member.last_name == "Smith")
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)
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assert query.sort_by("age").all() == [member2, member3]
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actual = m.Member.find(
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(m.Member.first_name == "Andrew") & ~(m.Member.last_name == "Brookins")
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).all()
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assert actual == [member3]
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def test_numeric_queries(members, m):
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member1, member2, member3 = members
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actual = m.Member.find(m.Member.age == 34).all()
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assert actual == [member2]
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actual = m.Member.find(m.Member.age > 34).all()
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assert actual == [member1, member3]
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actual = m.Member.find(m.Member.age < 35).all()
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assert actual == [member2]
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actual = m.Member.find(m.Member.age <= 34).all()
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assert actual == [member2]
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actual = m.Member.find(m.Member.age >= 100).all()
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assert actual == [member3]
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actual = m.Member.find(~(m.Member.age == 100)).sort_by("age").all()
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assert actual == [member2, member1]
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actual = m.Member.find(m.Member.age > 30, m.Member.age < 40).sort_by("age").all()
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assert actual == [member2, member1]
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actual = m.Member.find(m.Member.age != 34).sort_by("age").all()
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assert actual == [member1, member3]
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def test_sorting(members, m):
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member1, member2, member3 = members
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actual = m.Member.find(m.Member.age > 34).sort_by("age").all()
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assert actual == [member1, member3]
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actual = m.Member.find(m.Member.age > 34).sort_by("-age").all()
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assert actual == [member3, member1]
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with pytest.raises(QueryNotSupportedError):
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# This field does not exist.
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m.Member.find().sort_by("not-a-real-field").all()
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with pytest.raises(QueryNotSupportedError):
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# This field is not sortable.
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m.Member.find().sort_by("join_date").all()
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def test_not_found(m):
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with pytest.raises(NotFoundError):
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# This ID does not exist.
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m.Member.get(1000)
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@pytest.mark.skip("Does not clean up after itself properly")
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def test_list_field_limitations(m):
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with pytest.raises(RedisModelError):
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class SortableTarotWitch(m.BaseJsonModel):
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# We support indexing lists of strings for quality and membership
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# queries. Sorting is not supported, but is planned.
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tarot_cards: List[str] = Field(index=True, sortable=True)
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with pytest.raises(RedisModelError):
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class SortableFullTextSearchAlchemicalWitch(m.BaseJsonModel):
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# We don't support indexing a list of strings for full-text search
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# queries. Support for this feature is not planned.
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potions: List[str] = Field(index=True, full_text_search=True)
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|
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with pytest.raises(RedisModelError):
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|
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class NumerologyWitch(m.BaseJsonModel):
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# We don't support indexing a list of numbers. Support for this
|
|
# feature is To Be Determined.
|
|
lucky_numbers: List[int] = Field(index=True)
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|
|
|
with pytest.raises(RedisModelError):
|
|
|
|
class ReadingWithPrice(EmbeddedJsonModel):
|
|
gold_coins_charged: int = Field(index=True)
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|
|
|
class TarotWitchWhoCharges(m.BaseJsonModel):
|
|
tarot_cards: List[str] = Field(index=True)
|
|
|
|
# The preview release does not support indexing numeric fields on models
|
|
# found within a list or tuple. This is the same limitation that stops
|
|
# us from indexing plain lists (or tuples) containing numeric values.
|
|
# The fate of this feature is To Be Determined.
|
|
readings: List[ReadingWithPrice]
|
|
|
|
class TarotWitch(m.BaseJsonModel):
|
|
# We support indexing lists of strings for quality and membership
|
|
# queries. Sorting is not supported, but is planned.
|
|
tarot_cards: List[str] = Field(index=True)
|
|
|
|
# We need to import and run this manually because we defined
|
|
# our model classes within a function that runs after the test
|
|
# suite's migrator has already looked for migrations to run.
|
|
Migrator().run()
|
|
|
|
witch = TarotWitch(tarot_cards=["death"])
|
|
witch.save()
|
|
actual = TarotWitch.find(TarotWitch.tarot_cards << "death").all()
|
|
assert actual == [witch]
|
|
|
|
|
|
def test_schema(m, key_prefix):
|
|
assert (
|
|
m.Member.redisearch_schema()
|
|
== f"ON JSON PREFIX 1 {key_prefix}:tests.test_json_model.Member: SCHEMA $.pk AS pk TAG SEPARATOR | $.first_name AS first_name TAG SEPARATOR | $.last_name AS last_name TAG SEPARATOR | $.email AS email TAG SEPARATOR | $.age AS age NUMERIC $.bio AS bio TAG SEPARATOR | $.bio AS bio_fts TEXT $.address.pk AS address_pk TAG SEPARATOR | $.address.city AS address_city TAG SEPARATOR | $.address.postal_code AS address_postal_code TAG SEPARATOR | $.address.note.pk AS address_note_pk TAG SEPARATOR | $.address.note.description AS address_note_description TAG SEPARATOR | $.orders[*].pk AS orders_pk TAG SEPARATOR | $.orders[*].items[*].pk AS orders_items_pk TAG SEPARATOR | $.orders[*].items[*].name AS orders_items_name TAG SEPARATOR |"
|
|
)
|