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from typing import List from fastapi import APIRouter, Depends from sqlmodel import select, Session from app.models import * from utils import get_session router = APIRouter() @router.get("/users", response_model=List[UserRead]) async def get_users(*, session: Session=Depends(get_session)): statement =
select(User)
sqlmodel.select
from typing import List from fastapi import APIRouter, Depends from sqlmodel import select, Session from app.models import * from utils import get_session router = APIRouter() @router.get("/users", response_model=List[UserRead]) async def get_users(*, session: Session=Depends(get_session)): statement = select(User) results = session.exec(statement).all() return results @router.post("/tasks", response_model=List[TaskRead]) async def get_tasks(user: UserQuery, session: Session=Depends(get_session)): statement =
select(Task)
sqlmodel.select
from typing import List from fastapi import APIRouter, Depends from sqlmodel import select, Session from app.models import * from utils import get_session router = APIRouter() @router.get("/users", response_model=List[UserRead]) async def get_users(*, session: Session=Depends(get_session)): statement = select(User) results = session.exec(statement).all() return results @router.post("/tasks", response_model=List[TaskRead]) async def get_tasks(user: UserQuery, session: Session=Depends(get_session)): statement = select(Task).where(Task.owner_id == user.id) results = session.exec(statement).all() return results @router.post("/task", response_model=TaskRead) async def get_task(task: TaskQuery, session: Session=Depends(get_session)): statement =
select(Task)
sqlmodel.select
from typing import List from fastapi import APIRouter, Depends from sqlmodel import select, Session from app.models import * from utils import get_session router = APIRouter() @router.get("/users", response_model=List[UserRead]) async def get_users(*, session: Session=Depends(get_session)): statement = select(User) results = session.exec(statement).all() return results @router.post("/tasks", response_model=List[TaskRead]) async def get_tasks(user: UserQuery, session: Session=Depends(get_session)): statement = select(Task).where(Task.owner_id == user.id) results = session.exec(statement).all() return results @router.post("/task", response_model=TaskRead) async def get_task(task: TaskQuery, session: Session=Depends(get_session)): statement = select(Task).where(Task.owner_id == task.owner_id and Task.id == task.id) result = session.exec(statement).one_or_none() return result @router.post("/create/task", response_model=StandardResponse) async def create_task(task: TaskCreate, session: Session=Depends(get_session)): db_task = Task.from_orm(task) session.add(db_task) session.commit() session.refresh(db_task) return StandardResponse() @router.post("/create/user", response_model=StandardResponse) async def create_user(user: UserCreate, session: Session=Depends(get_session)): db_user = User.from_orm(user) session.add(db_user) session.commit() session.refresh(db_user) return StandardResponse() @router.post("/delete/task", response_model=StandardResponse) async def delete_task(task: TaskQuery, session: Session=Depends(get_session)): statement =
select(Task)
sqlmodel.select
from typing import List from fastapi import APIRouter, Depends from sqlmodel import select, Session from app.models import * from utils import get_session router = APIRouter() @router.get("/users", response_model=List[UserRead]) async def get_users(*, session: Session=Depends(get_session)): statement = select(User) results = session.exec(statement).all() return results @router.post("/tasks", response_model=List[TaskRead]) async def get_tasks(user: UserQuery, session: Session=Depends(get_session)): statement = select(Task).where(Task.owner_id == user.id) results = session.exec(statement).all() return results @router.post("/task", response_model=TaskRead) async def get_task(task: TaskQuery, session: Session=Depends(get_session)): statement = select(Task).where(Task.owner_id == task.owner_id and Task.id == task.id) result = session.exec(statement).one_or_none() return result @router.post("/create/task", response_model=StandardResponse) async def create_task(task: TaskCreate, session: Session=Depends(get_session)): db_task = Task.from_orm(task) session.add(db_task) session.commit() session.refresh(db_task) return StandardResponse() @router.post("/create/user", response_model=StandardResponse) async def create_user(user: UserCreate, session: Session=Depends(get_session)): db_user = User.from_orm(user) session.add(db_user) session.commit() session.refresh(db_user) return StandardResponse() @router.post("/delete/task", response_model=StandardResponse) async def delete_task(task: TaskQuery, session: Session=Depends(get_session)): statement = select(Task).where(Task.id == task.id and Task.owner_id == task.owner_id) result = session.exec(statement) task = result.one_or_none() if task: session.delete(task) session.commit() return StandardResponse() return StandardResponse(success="Failure", message="Invalid Task id or Owner id", code=400) @router.post("/delete/user", response_model=StandardResponse) async def delete_user(user: UserQuery, session: Session=Depends(get_session)): statement =
select(User)
sqlmodel.select
import types from dataclasses import dataclass from typing import Callable, List, Union from fastapi import Depends, FastAPI, HTTPException, Query from sqlmodel import Field, Session, SQLModel, select # Model generator + container ------------------------------------------------------------- @dataclass class MultipleModels: path: str base: SQLModel response: SQLModel def __post_init__(self): self.creation: SQLModel = self.make_creator_cls() self.table: SQLModel = self.make_table_cls() self.update: SQLModel = self.make_updater_cls() @staticmethod def make_cls_name(base: type, rename_base_to: str) -> str: """For a class name of format ``"ClassBase"``, return a modified name in which the substring ``"Base"`` is replaced with the string passed to ``rename_base_to``. :param base: The base model. It's name must end with the substring ``"Base"``. :param rename_base_to: String to replace `"Base"` with. """ return base.__name__.replace("Base", rename_base_to) def make_creator_cls(self) -> SQLModel: """From a base model, make and return a creation model. As described in https://sqlmodel.tiangolo.com/tutorial/fastapi/multiple-models/#the-herocreate-data-model, the creation model is simply a copy of the base model, with the substring ``"Base"`` in the class name replaced by the substring ``"Create"``. :param base: The base model. """ cls_name = self.make_cls_name(self.base, "Create") return type(cls_name, (self.base,), {}) def make_updater_cls(self) -> SQLModel: """From a base model, make and return an update model. As described in https://sqlmodel.tiangolo.com/tutorial/fastapi/update/#heroupdate-model, the update model is the same as the base model, but with all fields annotated as ``Optional`` and all field defaults set to ``None``. :param base: The base model. Note that unlike in ``make_creator``, this is not the base for inheritance (all updaters inherit directly from ``SQLModel``) but rather is used to derive the output class name, attributes, and type annotations. """ cls_name = self.make_cls_name(self.base, "Update") sig = self.base.__signature__ params = list(sig.parameters) # Pulling type via `__signature__` rather than `__annotation__` because # this accessor drops the `typing.Union[...]` wrapper for optional fields annotations = {p: Union[sig.parameters[p].annotation, None] for p in params} defaults = {p: None for p in params} attrs = {**defaults, "__annotations__": annotations} return type(cls_name, (SQLModel,), attrs) def make_table_cls(self) -> SQLModel: """From a base model, make and return a table model. As described in https://sqlmodel.tiangolo.com/tutorial/fastapi/multiple-models/#the-hero-table-model, the table model is the same as the base model, with the addition of the ``table=True`` class creation keyword and an ``id`` attribute of type ``Optional[int]`` set to a default value of ``Field(default=None, primary_key=True)``. :param base: The base model. """ cls_name = self.make_cls_name(self.base, "") attrs = dict(id=
Field(default=None, primary_key=True)
sqlmodel.Field
import types from dataclasses import dataclass from typing import Callable, List, Union from fastapi import Depends, FastAPI, HTTPException, Query from sqlmodel import Field, Session, SQLModel, select # Model generator + container ------------------------------------------------------------- @dataclass class MultipleModels: path: str base: SQLModel response: SQLModel def __post_init__(self): self.creation: SQLModel = self.make_creator_cls() self.table: SQLModel = self.make_table_cls() self.update: SQLModel = self.make_updater_cls() @staticmethod def make_cls_name(base: type, rename_base_to: str) -> str: """For a class name of format ``"ClassBase"``, return a modified name in which the substring ``"Base"`` is replaced with the string passed to ``rename_base_to``. :param base: The base model. It's name must end with the substring ``"Base"``. :param rename_base_to: String to replace `"Base"` with. """ return base.__name__.replace("Base", rename_base_to) def make_creator_cls(self) -> SQLModel: """From a base model, make and return a creation model. As described in https://sqlmodel.tiangolo.com/tutorial/fastapi/multiple-models/#the-herocreate-data-model, the creation model is simply a copy of the base model, with the substring ``"Base"`` in the class name replaced by the substring ``"Create"``. :param base: The base model. """ cls_name = self.make_cls_name(self.base, "Create") return type(cls_name, (self.base,), {}) def make_updater_cls(self) -> SQLModel: """From a base model, make and return an update model. As described in https://sqlmodel.tiangolo.com/tutorial/fastapi/update/#heroupdate-model, the update model is the same as the base model, but with all fields annotated as ``Optional`` and all field defaults set to ``None``. :param base: The base model. Note that unlike in ``make_creator``, this is not the base for inheritance (all updaters inherit directly from ``SQLModel``) but rather is used to derive the output class name, attributes, and type annotations. """ cls_name = self.make_cls_name(self.base, "Update") sig = self.base.__signature__ params = list(sig.parameters) # Pulling type via `__signature__` rather than `__annotation__` because # this accessor drops the `typing.Union[...]` wrapper for optional fields annotations = {p: Union[sig.parameters[p].annotation, None] for p in params} defaults = {p: None for p in params} attrs = {**defaults, "__annotations__": annotations} return type(cls_name, (SQLModel,), attrs) def make_table_cls(self) -> SQLModel: """From a base model, make and return a table model. As described in https://sqlmodel.tiangolo.com/tutorial/fastapi/multiple-models/#the-hero-table-model, the table model is the same as the base model, with the addition of the ``table=True`` class creation keyword and an ``id`` attribute of type ``Optional[int]`` set to a default value of ``Field(default=None, primary_key=True)``. :param base: The base model. """ cls_name = self.make_cls_name(self.base, "") attrs = dict(id=Field(default=None, primary_key=True)) annotations = dict(id=Union[int, None]) attrs.update(dict(__annotations__=annotations)) # We are using `typing.new_class` (vs. `type`) b/c it supports the `table=True` kwarg. # https://twitter.com/simonw/status/1430255521127305216?s=20 # https://docs.python.org/3/reference/datamodel.html#customizing-class-creation return types.new_class( cls_name, (self.base,), dict(table=True), lambda ns: ns.update(attrs) ) # SQLModel database interface functions --------------------------------------------------- def create(*, session: Session, table_cls: SQLModel, model: SQLModel) -> SQLModel: db_model = table_cls.from_orm(model) session.add(db_model) session.commit() session.refresh(db_model) return db_model def read_range(*, session: Session, table_cls: SQLModel, offset: int, limit: int) -> List: return session.exec(
select(table_cls)
sqlmodel.select
import datetime from sqlmodel import Field, Relationship, SQLModel class User(SQLModel, table=True): __tablename__ = "users" id: int =
Field(primary_key=True)
sqlmodel.Field
import contextlib import os import pathlib import hypothesis.strategies as st import pytest import strawberry from hypothesis.strategies import SearchStrategy from sqlalchemy.pool import StaticPool from sqlmodel import Session, SQLModel, create_engine from starlette.testclient import TestClient from fastapi_server.database.database import get_session from fastapi_server.main import app from fastapi_server.routes.graphql import schema TEST_DB_FILE_PATH = 'test.db' TEST_DB_URL = f'sqlite:///{TEST_DB_FILE_PATH}' TEST_DB_MEMORY_PATH = ':memory:' TEST_DB_MEMORY_URL = f'sqlite:///{TEST_DB_MEMORY_PATH}' class BaseTest: method_client: TestClient = None # type: ignore method_session: Session = None # type: ignore example_client: TestClient = None # type: ignore example_session: Session = None # type: ignore def setup_method(self, _method): BaseTest.method_session = BaseTest.create_memory_sesssion() # BaseTest.method_session = BaseTest.create_file_sesssion() BaseTest.method_client = TestClient(app) BaseTest.method_client.app.dependency_overrides[get_session] = BaseTest.method_get_session def teardown_method(self, _method): if BaseTest.method_session is not None: db_path = pathlib.Path(TEST_DB_FILE_PATH) # Remove file if it wasnt a memory database if BaseTest.method_session.bind.url.database != TEST_DB_MEMORY_PATH and db_path.is_file(): os.remove(db_path) BaseTest.method_session.close() BaseTest.method_session = None app.dependency_overrides.clear() BaseTest.method_client = None @classmethod def create_file_sesssion(cls): engine =
create_engine(TEST_DB_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool)
sqlmodel.create_engine
import contextlib import os import pathlib import hypothesis.strategies as st import pytest import strawberry from hypothesis.strategies import SearchStrategy from sqlalchemy.pool import StaticPool from sqlmodel import Session, SQLModel, create_engine from starlette.testclient import TestClient from fastapi_server.database.database import get_session from fastapi_server.main import app from fastapi_server.routes.graphql import schema TEST_DB_FILE_PATH = 'test.db' TEST_DB_URL = f'sqlite:///{TEST_DB_FILE_PATH}' TEST_DB_MEMORY_PATH = ':memory:' TEST_DB_MEMORY_URL = f'sqlite:///{TEST_DB_MEMORY_PATH}' class BaseTest: method_client: TestClient = None # type: ignore method_session: Session = None # type: ignore example_client: TestClient = None # type: ignore example_session: Session = None # type: ignore def setup_method(self, _method): BaseTest.method_session = BaseTest.create_memory_sesssion() # BaseTest.method_session = BaseTest.create_file_sesssion() BaseTest.method_client = TestClient(app) BaseTest.method_client.app.dependency_overrides[get_session] = BaseTest.method_get_session def teardown_method(self, _method): if BaseTest.method_session is not None: db_path = pathlib.Path(TEST_DB_FILE_PATH) # Remove file if it wasnt a memory database if BaseTest.method_session.bind.url.database != TEST_DB_MEMORY_PATH and db_path.is_file(): os.remove(db_path) BaseTest.method_session.close() BaseTest.method_session = None app.dependency_overrides.clear() BaseTest.method_client = None @classmethod def create_file_sesssion(cls): engine = create_engine(TEST_DB_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool)
SQLModel.metadata.create_all(engine)
sqlmodel.SQLModel.metadata.create_all
import contextlib import os import pathlib import hypothesis.strategies as st import pytest import strawberry from hypothesis.strategies import SearchStrategy from sqlalchemy.pool import StaticPool from sqlmodel import Session, SQLModel, create_engine from starlette.testclient import TestClient from fastapi_server.database.database import get_session from fastapi_server.main import app from fastapi_server.routes.graphql import schema TEST_DB_FILE_PATH = 'test.db' TEST_DB_URL = f'sqlite:///{TEST_DB_FILE_PATH}' TEST_DB_MEMORY_PATH = ':memory:' TEST_DB_MEMORY_URL = f'sqlite:///{TEST_DB_MEMORY_PATH}' class BaseTest: method_client: TestClient = None # type: ignore method_session: Session = None # type: ignore example_client: TestClient = None # type: ignore example_session: Session = None # type: ignore def setup_method(self, _method): BaseTest.method_session = BaseTest.create_memory_sesssion() # BaseTest.method_session = BaseTest.create_file_sesssion() BaseTest.method_client = TestClient(app) BaseTest.method_client.app.dependency_overrides[get_session] = BaseTest.method_get_session def teardown_method(self, _method): if BaseTest.method_session is not None: db_path = pathlib.Path(TEST_DB_FILE_PATH) # Remove file if it wasnt a memory database if BaseTest.method_session.bind.url.database != TEST_DB_MEMORY_PATH and db_path.is_file(): os.remove(db_path) BaseTest.method_session.close() BaseTest.method_session = None app.dependency_overrides.clear() BaseTest.method_client = None @classmethod def create_file_sesssion(cls): engine = create_engine(TEST_DB_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool) SQLModel.metadata.create_all(engine) with Session(engine, autoflush=False, autocommit=False) as session: return session @classmethod def create_memory_sesssion(cls): engine =
create_engine(TEST_DB_MEMORY_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool)
sqlmodel.create_engine
import contextlib import os import pathlib import hypothesis.strategies as st import pytest import strawberry from hypothesis.strategies import SearchStrategy from sqlalchemy.pool import StaticPool from sqlmodel import Session, SQLModel, create_engine from starlette.testclient import TestClient from fastapi_server.database.database import get_session from fastapi_server.main import app from fastapi_server.routes.graphql import schema TEST_DB_FILE_PATH = 'test.db' TEST_DB_URL = f'sqlite:///{TEST_DB_FILE_PATH}' TEST_DB_MEMORY_PATH = ':memory:' TEST_DB_MEMORY_URL = f'sqlite:///{TEST_DB_MEMORY_PATH}' class BaseTest: method_client: TestClient = None # type: ignore method_session: Session = None # type: ignore example_client: TestClient = None # type: ignore example_session: Session = None # type: ignore def setup_method(self, _method): BaseTest.method_session = BaseTest.create_memory_sesssion() # BaseTest.method_session = BaseTest.create_file_sesssion() BaseTest.method_client = TestClient(app) BaseTest.method_client.app.dependency_overrides[get_session] = BaseTest.method_get_session def teardown_method(self, _method): if BaseTest.method_session is not None: db_path = pathlib.Path(TEST_DB_FILE_PATH) # Remove file if it wasnt a memory database if BaseTest.method_session.bind.url.database != TEST_DB_MEMORY_PATH and db_path.is_file(): os.remove(db_path) BaseTest.method_session.close() BaseTest.method_session = None app.dependency_overrides.clear() BaseTest.method_client = None @classmethod def create_file_sesssion(cls): engine = create_engine(TEST_DB_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool) SQLModel.metadata.create_all(engine) with Session(engine, autoflush=False, autocommit=False) as session: return session @classmethod def create_memory_sesssion(cls): engine = create_engine(TEST_DB_MEMORY_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool)
SQLModel.metadata.create_all(engine)
sqlmodel.SQLModel.metadata.create_all
import contextlib import os import pathlib import hypothesis.strategies as st import pytest import strawberry from hypothesis.strategies import SearchStrategy from sqlalchemy.pool import StaticPool from sqlmodel import Session, SQLModel, create_engine from starlette.testclient import TestClient from fastapi_server.database.database import get_session from fastapi_server.main import app from fastapi_server.routes.graphql import schema TEST_DB_FILE_PATH = 'test.db' TEST_DB_URL = f'sqlite:///{TEST_DB_FILE_PATH}' TEST_DB_MEMORY_PATH = ':memory:' TEST_DB_MEMORY_URL = f'sqlite:///{TEST_DB_MEMORY_PATH}' class BaseTest: method_client: TestClient = None # type: ignore method_session: Session = None # type: ignore example_client: TestClient = None # type: ignore example_session: Session = None # type: ignore def setup_method(self, _method): BaseTest.method_session = BaseTest.create_memory_sesssion() # BaseTest.method_session = BaseTest.create_file_sesssion() BaseTest.method_client = TestClient(app) BaseTest.method_client.app.dependency_overrides[get_session] = BaseTest.method_get_session def teardown_method(self, _method): if BaseTest.method_session is not None: db_path = pathlib.Path(TEST_DB_FILE_PATH) # Remove file if it wasnt a memory database if BaseTest.method_session.bind.url.database != TEST_DB_MEMORY_PATH and db_path.is_file(): os.remove(db_path) BaseTest.method_session.close() BaseTest.method_session = None app.dependency_overrides.clear() BaseTest.method_client = None @classmethod def create_file_sesssion(cls): engine = create_engine(TEST_DB_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool) SQLModel.metadata.create_all(engine) with
Session(engine, autoflush=False, autocommit=False)
sqlmodel.Session
import contextlib import os import pathlib import hypothesis.strategies as st import pytest import strawberry from hypothesis.strategies import SearchStrategy from sqlalchemy.pool import StaticPool from sqlmodel import Session, SQLModel, create_engine from starlette.testclient import TestClient from fastapi_server.database.database import get_session from fastapi_server.main import app from fastapi_server.routes.graphql import schema TEST_DB_FILE_PATH = 'test.db' TEST_DB_URL = f'sqlite:///{TEST_DB_FILE_PATH}' TEST_DB_MEMORY_PATH = ':memory:' TEST_DB_MEMORY_URL = f'sqlite:///{TEST_DB_MEMORY_PATH}' class BaseTest: method_client: TestClient = None # type: ignore method_session: Session = None # type: ignore example_client: TestClient = None # type: ignore example_session: Session = None # type: ignore def setup_method(self, _method): BaseTest.method_session = BaseTest.create_memory_sesssion() # BaseTest.method_session = BaseTest.create_file_sesssion() BaseTest.method_client = TestClient(app) BaseTest.method_client.app.dependency_overrides[get_session] = BaseTest.method_get_session def teardown_method(self, _method): if BaseTest.method_session is not None: db_path = pathlib.Path(TEST_DB_FILE_PATH) # Remove file if it wasnt a memory database if BaseTest.method_session.bind.url.database != TEST_DB_MEMORY_PATH and db_path.is_file(): os.remove(db_path) BaseTest.method_session.close() BaseTest.method_session = None app.dependency_overrides.clear() BaseTest.method_client = None @classmethod def create_file_sesssion(cls): engine = create_engine(TEST_DB_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool) SQLModel.metadata.create_all(engine) with Session(engine, autoflush=False, autocommit=False) as session: return session @classmethod def create_memory_sesssion(cls): engine = create_engine(TEST_DB_MEMORY_URL, connect_args={'check_same_thread': False}, poolclass=StaticPool) SQLModel.metadata.create_all(engine) with
Session(engine, autoflush=False, autocommit=False)
sqlmodel.Session
# Copyright 2021 Modelyst LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from random import shuffle from typing import Optional, cast import pytest from sqlalchemy.future import Engine from sqlmodel import Session, func, select import tests.example.entities as entities from dbgen.core.args import Const from dbgen.core.entity import Entity from dbgen.core.func import Import from dbgen.core.generator import Generator from dbgen.core.metadata import RunEntity from dbgen.core.node.load import Load from dbgen.core.node.query import BaseQuery from dbgen.core.node.transforms import PyBlock def transform_func(x): return f"{x}-child" @pytest.fixture(scope='function') def basic_generator() -> Generator: Parent = entities.Parent Child = entities.Child select_stmt =
select(Parent.label)
sqlmodel.select
# Copyright 2021 Modelyst LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from random import shuffle from typing import Optional, cast import pytest from sqlalchemy.future import Engine from sqlmodel import Session, func, select import tests.example.entities as entities from dbgen.core.args import Const from dbgen.core.entity import Entity from dbgen.core.func import Import from dbgen.core.generator import Generator from dbgen.core.metadata import RunEntity from dbgen.core.node.load import Load from dbgen.core.node.query import BaseQuery from dbgen.core.node.transforms import PyBlock def transform_func(x): return f"{x}-child" @pytest.fixture(scope='function') def basic_generator() -> Generator: Parent = entities.Parent Child = entities.Child select_stmt = select(Parent.label) query = BaseQuery.from_select_statement(select_stmt) assert isinstance(query.hash, str) pyblock = PyBlock(function=transform_func, inputs=[query["label"]], outputs=["newnames"]) load = Child.load(insert=True, label=pyblock["newnames"], type=Const("child_type")) assert isinstance(load.hash, str) gen = Generator(name="test", extract=query, transforms=[pyblock], loads=[load]) return gen def test_basic_graph_sort(basic_generator: Generator): """Ensure a simple Query->PyBlock->Load is sorted correctly.""" graph = basic_generator._computational_graph() assert len(graph) == 3 sorted_nodes = basic_generator._sort_graph() query, transform, load = sorted_nodes assert isinstance(query, BaseQuery) assert isinstance(transform, PyBlock) assert isinstance(load, Load) def test_basic_graph_in_place(basic_generator: Generator): """Ensure that changes to the output of ._sort_graph() are in place and affect the generator as well.""" query, transform, load = basic_generator._sort_graph() assert isinstance(load, Load) load.run({transform.hash: {"newnames": ("1", "2")}}) assert load._output == basic_generator._sorted_loads()[0]._output assert isinstance(query, BaseQuery) query.outputs.append("test") assert basic_generator.extract == query assert isinstance(transform, PyBlock) import_to_add = Import(lib="numpy", lib_alias="np") transform.env.imports.append(import_to_add) assert basic_generator.transforms[0] == transform assert basic_generator.transforms[0].env.imports == [import_to_add] def test_sorted_loads(): """Shuffle around the loads and make sure sorted_loads still works.""" val = Const("test") gp_load = entities.GrandParent.load(label=val, type=val) u_load = entities.Parent.load(label=val, type=Const("uncle"), grand_parent_id=gp_load) p_load = entities.Parent.load(label=val, type=val, grand_parent_id=gp_load) c_load = entities.Child.load(label=val, type=val, parent_id=p_load, uncle_id=u_load) loads = [gp_load, c_load, p_load, u_load] for _ in range(10): shuffle(loads) gen = Generator(name="test", loads=loads) assert gen._sorted_loads() == [ gp_load, *sorted((u_load, p_load), key=lambda x: x.hash), c_load, ] @pytest.mark.skip def test_no_extractor(sql_engine: Engine, raw_connection): """Shuffle around the loads and make sure sorted_loads still works.""" entities.Parent.metadata.create_all(sql_engine) pyblock = PyBlock(function=transform_func, inputs=[Const("test")], outputs=["newnames"]) p_load = entities.GrandParent.load(insert=True, label=pyblock["newnames"], type=Const("gp_type")) gen = Generator(name="test", transforms=[pyblock], loads=[p_load]) gen.run(sql_engine) with Session(sql_engine) as session: session = cast(Session, session) statement = select(entities.GrandParent).where(entities.GrandParent.label == "test-child") result = session.exec(statement) assert result.one() @pytest.mark.database def test_dumb_extractor(connection, sql_engine, recreate_meta): class User(Entity, table=True): __identifying__ = {"label"} label: Optional[str] new_label: Optional[str] = None User.metadata.create_all(connection) num_users = 100 sess =
Session(connection)
sqlmodel.Session
# Copyright 2021 Modelyst LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from random import shuffle from typing import Optional, cast import pytest from sqlalchemy.future import Engine from sqlmodel import Session, func, select import tests.example.entities as entities from dbgen.core.args import Const from dbgen.core.entity import Entity from dbgen.core.func import Import from dbgen.core.generator import Generator from dbgen.core.metadata import RunEntity from dbgen.core.node.load import Load from dbgen.core.node.query import BaseQuery from dbgen.core.node.transforms import PyBlock def transform_func(x): return f"{x}-child" @pytest.fixture(scope='function') def basic_generator() -> Generator: Parent = entities.Parent Child = entities.Child select_stmt = select(Parent.label) query = BaseQuery.from_select_statement(select_stmt) assert isinstance(query.hash, str) pyblock = PyBlock(function=transform_func, inputs=[query["label"]], outputs=["newnames"]) load = Child.load(insert=True, label=pyblock["newnames"], type=Const("child_type")) assert isinstance(load.hash, str) gen = Generator(name="test", extract=query, transforms=[pyblock], loads=[load]) return gen def test_basic_graph_sort(basic_generator: Generator): """Ensure a simple Query->PyBlock->Load is sorted correctly.""" graph = basic_generator._computational_graph() assert len(graph) == 3 sorted_nodes = basic_generator._sort_graph() query, transform, load = sorted_nodes assert isinstance(query, BaseQuery) assert isinstance(transform, PyBlock) assert isinstance(load, Load) def test_basic_graph_in_place(basic_generator: Generator): """Ensure that changes to the output of ._sort_graph() are in place and affect the generator as well.""" query, transform, load = basic_generator._sort_graph() assert isinstance(load, Load) load.run({transform.hash: {"newnames": ("1", "2")}}) assert load._output == basic_generator._sorted_loads()[0]._output assert isinstance(query, BaseQuery) query.outputs.append("test") assert basic_generator.extract == query assert isinstance(transform, PyBlock) import_to_add = Import(lib="numpy", lib_alias="np") transform.env.imports.append(import_to_add) assert basic_generator.transforms[0] == transform assert basic_generator.transforms[0].env.imports == [import_to_add] def test_sorted_loads(): """Shuffle around the loads and make sure sorted_loads still works.""" val = Const("test") gp_load = entities.GrandParent.load(label=val, type=val) u_load = entities.Parent.load(label=val, type=Const("uncle"), grand_parent_id=gp_load) p_load = entities.Parent.load(label=val, type=val, grand_parent_id=gp_load) c_load = entities.Child.load(label=val, type=val, parent_id=p_load, uncle_id=u_load) loads = [gp_load, c_load, p_load, u_load] for _ in range(10): shuffle(loads) gen = Generator(name="test", loads=loads) assert gen._sorted_loads() == [ gp_load, *sorted((u_load, p_load), key=lambda x: x.hash), c_load, ] @pytest.mark.skip def test_no_extractor(sql_engine: Engine, raw_connection): """Shuffle around the loads and make sure sorted_loads still works.""" entities.Parent.metadata.create_all(sql_engine) pyblock = PyBlock(function=transform_func, inputs=[Const("test")], outputs=["newnames"]) p_load = entities.GrandParent.load(insert=True, label=pyblock["newnames"], type=Const("gp_type")) gen = Generator(name="test", transforms=[pyblock], loads=[p_load]) gen.run(sql_engine) with Session(sql_engine) as session: session = cast(Session, session) statement = select(entities.GrandParent).where(entities.GrandParent.label == "test-child") result = session.exec(statement) assert result.one() @pytest.mark.database def test_dumb_extractor(connection, sql_engine, recreate_meta): class User(Entity, table=True): __identifying__ = {"label"} label: Optional[str] new_label: Optional[str] = None User.metadata.create_all(connection) num_users = 100 sess = Session(connection) users = [User(label=f"user_{i}") for i in range(num_users)] user_le = User._get_load_entity() for user in users: user.id = user_le._get_hash(user.dict()) sess.add(user) count = sess.exec(select(func.count(User.id))).one() assert count == num_users connection.commit() statement =
select(User.id, User.label)
sqlmodel.select
# Copyright 2021 Modelyst LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from random import shuffle from typing import Optional, cast import pytest from sqlalchemy.future import Engine from sqlmodel import Session, func, select import tests.example.entities as entities from dbgen.core.args import Const from dbgen.core.entity import Entity from dbgen.core.func import Import from dbgen.core.generator import Generator from dbgen.core.metadata import RunEntity from dbgen.core.node.load import Load from dbgen.core.node.query import BaseQuery from dbgen.core.node.transforms import PyBlock def transform_func(x): return f"{x}-child" @pytest.fixture(scope='function') def basic_generator() -> Generator: Parent = entities.Parent Child = entities.Child select_stmt = select(Parent.label) query = BaseQuery.from_select_statement(select_stmt) assert isinstance(query.hash, str) pyblock = PyBlock(function=transform_func, inputs=[query["label"]], outputs=["newnames"]) load = Child.load(insert=True, label=pyblock["newnames"], type=Const("child_type")) assert isinstance(load.hash, str) gen = Generator(name="test", extract=query, transforms=[pyblock], loads=[load]) return gen def test_basic_graph_sort(basic_generator: Generator): """Ensure a simple Query->PyBlock->Load is sorted correctly.""" graph = basic_generator._computational_graph() assert len(graph) == 3 sorted_nodes = basic_generator._sort_graph() query, transform, load = sorted_nodes assert isinstance(query, BaseQuery) assert isinstance(transform, PyBlock) assert isinstance(load, Load) def test_basic_graph_in_place(basic_generator: Generator): """Ensure that changes to the output of ._sort_graph() are in place and affect the generator as well.""" query, transform, load = basic_generator._sort_graph() assert isinstance(load, Load) load.run({transform.hash: {"newnames": ("1", "2")}}) assert load._output == basic_generator._sorted_loads()[0]._output assert isinstance(query, BaseQuery) query.outputs.append("test") assert basic_generator.extract == query assert isinstance(transform, PyBlock) import_to_add = Import(lib="numpy", lib_alias="np") transform.env.imports.append(import_to_add) assert basic_generator.transforms[0] == transform assert basic_generator.transforms[0].env.imports == [import_to_add] def test_sorted_loads(): """Shuffle around the loads and make sure sorted_loads still works.""" val = Const("test") gp_load = entities.GrandParent.load(label=val, type=val) u_load = entities.Parent.load(label=val, type=Const("uncle"), grand_parent_id=gp_load) p_load = entities.Parent.load(label=val, type=val, grand_parent_id=gp_load) c_load = entities.Child.load(label=val, type=val, parent_id=p_load, uncle_id=u_load) loads = [gp_load, c_load, p_load, u_load] for _ in range(10): shuffle(loads) gen = Generator(name="test", loads=loads) assert gen._sorted_loads() == [ gp_load, *sorted((u_load, p_load), key=lambda x: x.hash), c_load, ] @pytest.mark.skip def test_no_extractor(sql_engine: Engine, raw_connection): """Shuffle around the loads and make sure sorted_loads still works.""" entities.Parent.metadata.create_all(sql_engine) pyblock = PyBlock(function=transform_func, inputs=[Const("test")], outputs=["newnames"]) p_load = entities.GrandParent.load(insert=True, label=pyblock["newnames"], type=Const("gp_type")) gen = Generator(name="test", transforms=[pyblock], loads=[p_load]) gen.run(sql_engine) with
Session(sql_engine)
sqlmodel.Session
# Copyright 2021 Modelyst LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from random import shuffle from typing import Optional, cast import pytest from sqlalchemy.future import Engine from sqlmodel import Session, func, select import tests.example.entities as entities from dbgen.core.args import Const from dbgen.core.entity import Entity from dbgen.core.func import Import from dbgen.core.generator import Generator from dbgen.core.metadata import RunEntity from dbgen.core.node.load import Load from dbgen.core.node.query import BaseQuery from dbgen.core.node.transforms import PyBlock def transform_func(x): return f"{x}-child" @pytest.fixture(scope='function') def basic_generator() -> Generator: Parent = entities.Parent Child = entities.Child select_stmt = select(Parent.label) query = BaseQuery.from_select_statement(select_stmt) assert isinstance(query.hash, str) pyblock = PyBlock(function=transform_func, inputs=[query["label"]], outputs=["newnames"]) load = Child.load(insert=True, label=pyblock["newnames"], type=Const("child_type")) assert isinstance(load.hash, str) gen = Generator(name="test", extract=query, transforms=[pyblock], loads=[load]) return gen def test_basic_graph_sort(basic_generator: Generator): """Ensure a simple Query->PyBlock->Load is sorted correctly.""" graph = basic_generator._computational_graph() assert len(graph) == 3 sorted_nodes = basic_generator._sort_graph() query, transform, load = sorted_nodes assert isinstance(query, BaseQuery) assert isinstance(transform, PyBlock) assert isinstance(load, Load) def test_basic_graph_in_place(basic_generator: Generator): """Ensure that changes to the output of ._sort_graph() are in place and affect the generator as well.""" query, transform, load = basic_generator._sort_graph() assert isinstance(load, Load) load.run({transform.hash: {"newnames": ("1", "2")}}) assert load._output == basic_generator._sorted_loads()[0]._output assert isinstance(query, BaseQuery) query.outputs.append("test") assert basic_generator.extract == query assert isinstance(transform, PyBlock) import_to_add = Import(lib="numpy", lib_alias="np") transform.env.imports.append(import_to_add) assert basic_generator.transforms[0] == transform assert basic_generator.transforms[0].env.imports == [import_to_add] def test_sorted_loads(): """Shuffle around the loads and make sure sorted_loads still works.""" val = Const("test") gp_load = entities.GrandParent.load(label=val, type=val) u_load = entities.Parent.load(label=val, type=Const("uncle"), grand_parent_id=gp_load) p_load = entities.Parent.load(label=val, type=val, grand_parent_id=gp_load) c_load = entities.Child.load(label=val, type=val, parent_id=p_load, uncle_id=u_load) loads = [gp_load, c_load, p_load, u_load] for _ in range(10): shuffle(loads) gen = Generator(name="test", loads=loads) assert gen._sorted_loads() == [ gp_load, *sorted((u_load, p_load), key=lambda x: x.hash), c_load, ] @pytest.mark.skip def test_no_extractor(sql_engine: Engine, raw_connection): """Shuffle around the loads and make sure sorted_loads still works.""" entities.Parent.metadata.create_all(sql_engine) pyblock = PyBlock(function=transform_func, inputs=[Const("test")], outputs=["newnames"]) p_load = entities.GrandParent.load(insert=True, label=pyblock["newnames"], type=Const("gp_type")) gen = Generator(name="test", transforms=[pyblock], loads=[p_load]) gen.run(sql_engine) with Session(sql_engine) as session: session = cast(Session, session) statement =
select(entities.GrandParent)
sqlmodel.select
# Copyright 2021 Modelyst LLC # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from random import shuffle from typing import Optional, cast import pytest from sqlalchemy.future import Engine from sqlmodel import Session, func, select import tests.example.entities as entities from dbgen.core.args import Const from dbgen.core.entity import Entity from dbgen.core.func import Import from dbgen.core.generator import Generator from dbgen.core.metadata import RunEntity from dbgen.core.node.load import Load from dbgen.core.node.query import BaseQuery from dbgen.core.node.transforms import PyBlock def transform_func(x): return f"{x}-child" @pytest.fixture(scope='function') def basic_generator() -> Generator: Parent = entities.Parent Child = entities.Child select_stmt = select(Parent.label) query = BaseQuery.from_select_statement(select_stmt) assert isinstance(query.hash, str) pyblock = PyBlock(function=transform_func, inputs=[query["label"]], outputs=["newnames"]) load = Child.load(insert=True, label=pyblock["newnames"], type=Const("child_type")) assert isinstance(load.hash, str) gen = Generator(name="test", extract=query, transforms=[pyblock], loads=[load]) return gen def test_basic_graph_sort(basic_generator: Generator): """Ensure a simple Query->PyBlock->Load is sorted correctly.""" graph = basic_generator._computational_graph() assert len(graph) == 3 sorted_nodes = basic_generator._sort_graph() query, transform, load = sorted_nodes assert isinstance(query, BaseQuery) assert isinstance(transform, PyBlock) assert isinstance(load, Load) def test_basic_graph_in_place(basic_generator: Generator): """Ensure that changes to the output of ._sort_graph() are in place and affect the generator as well.""" query, transform, load = basic_generator._sort_graph() assert isinstance(load, Load) load.run({transform.hash: {"newnames": ("1", "2")}}) assert load._output == basic_generator._sorted_loads()[0]._output assert isinstance(query, BaseQuery) query.outputs.append("test") assert basic_generator.extract == query assert isinstance(transform, PyBlock) import_to_add = Import(lib="numpy", lib_alias="np") transform.env.imports.append(import_to_add) assert basic_generator.transforms[0] == transform assert basic_generator.transforms[0].env.imports == [import_to_add] def test_sorted_loads(): """Shuffle around the loads and make sure sorted_loads still works.""" val = Const("test") gp_load = entities.GrandParent.load(label=val, type=val) u_load = entities.Parent.load(label=val, type=Const("uncle"), grand_parent_id=gp_load) p_load = entities.Parent.load(label=val, type=val, grand_parent_id=gp_load) c_load = entities.Child.load(label=val, type=val, parent_id=p_load, uncle_id=u_load) loads = [gp_load, c_load, p_load, u_load] for _ in range(10): shuffle(loads) gen = Generator(name="test", loads=loads) assert gen._sorted_loads() == [ gp_load, *sorted((u_load, p_load), key=lambda x: x.hash), c_load, ] @pytest.mark.skip def test_no_extractor(sql_engine: Engine, raw_connection): """Shuffle around the loads and make sure sorted_loads still works.""" entities.Parent.metadata.create_all(sql_engine) pyblock = PyBlock(function=transform_func, inputs=[Const("test")], outputs=["newnames"]) p_load = entities.GrandParent.load(insert=True, label=pyblock["newnames"], type=Const("gp_type")) gen = Generator(name="test", transforms=[pyblock], loads=[p_load]) gen.run(sql_engine) with Session(sql_engine) as session: session = cast(Session, session) statement = select(entities.GrandParent).where(entities.GrandParent.label == "test-child") result = session.exec(statement) assert result.one() @pytest.mark.database def test_dumb_extractor(connection, sql_engine, recreate_meta): class User(Entity, table=True): __identifying__ = {"label"} label: Optional[str] new_label: Optional[str] = None User.metadata.create_all(connection) num_users = 100 sess = Session(connection) users = [User(label=f"user_{i}") for i in range(num_users)] user_le = User._get_load_entity() for user in users: user.id = user_le._get_hash(user.dict()) sess.add(user) count = sess.exec(select(
func.count(User.id)
sqlmodel.func.count
from fastapi import APIRouter, Depends, HTTPException, Query, Path from sqlmodel import Session, select from sqlalchemy.exc import IntegrityError from typing import List import datetime as dt from app.src.common.security import get_current_user from app.src.common.utils import profiling_api from app.src.models.app_user import AppUser from app.src.models.product_type import ( ProductType, ProductTypeRead, ProductTypeCreate, ProductTypeUpdate, ) from app.src.db.engine import get_session router = APIRouter() # A scopo didattico inserita la validazione di producttype_id con Path: # - non potrà essere < 1 async def get_producttype_or_404( *, session: Session = Depends(get_session), producttype_id: int = Path(..., ge=1), current_user: AppUser = Depends(get_current_user), ): start_time = dt.datetime.now() try: db_pt = session.get(ProductType, producttype_id) if db_pt: return { "db_pt": db_pt, "username": current_user.username, "start_time": start_time, } else: raise HTTPException(status_code=404, detail="Product type not found") except KeyError: raise HTTPException(status_code=400, detail="Product type not found") @router.get("/", response_model=List[ProductTypeRead]) # lte -> less than or equal async def read_product_types( *, session: Session = Depends(get_session), offset: int = 0, limit: int = Query(default=100, lte=100), current_user: AppUser = Depends(get_current_user), ): """ Get all the existing product types """ start_time = dt.datetime.now() product_types = session.exec(
select(ProductType)
sqlmodel.select
from datetime import datetime from typing import Optional from fastapi import APIRouter, Depends from sqlmodel import Field, SQLModel from ...db import get_session from sqlalchemy import select from sqlalchemy.ext.asyncio import AsyncSession router = APIRouter() class HistorySummaryTreatmsummaryConference(SQLModel, table=True): id: Optional[int] =
Field(default=None, primary_key=True)
sqlmodel.Field
from datetime import datetime from typing import Optional from fastapi import APIRouter, Depends from sqlmodel import Field, SQLModel from ...db import get_session from sqlalchemy import select from sqlalchemy.ext.asyncio import AsyncSession router = APIRouter() class HistorySummaryTreatmsummaryConference(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) history_id_order: int history_id_conference: int summary_treatmsummary_conference_id: int state: str created_at: datetime updated_at: datetime created_by: int updated_by: Optional[int] = None class SummaryTreatmsummaryConference(SQLModel, table=True): id: Optional[int] =
Field(default=None, primary_key=True)
sqlmodel.Field
from datetime import datetime from typing import Optional from fastapi import APIRouter, Depends from sqlmodel import Field, SQLModel from ...db import get_session from sqlalchemy import select from sqlalchemy.ext.asyncio import AsyncSession router = APIRouter() class HistorySummaryTreatmsummaryConference(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) history_id_order: int history_id_conference: int summary_treatmsummary_conference_id: int state: str created_at: datetime updated_at: datetime created_by: int updated_by: Optional[int] = None class SummaryTreatmsummaryConference(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) problem: str question: str summary_plan: str surgeon_summary: str pre_operation_abg: bool post_operation_abg: bool pre_operation_redo_abg: bool pre_operation_jaw_surgery: bool pre_operation_computing_design: bool pre_operation_3d_print: bool created_at: datetime updated_at: datetime created_by: int updated_by: Optional[int] = None class SummaryTreatmsummaryConferenceDoctorMap(SQLModel, table=True): id: Optional[int] =
Field(default=None, primary_key=True)
sqlmodel.Field
from sqlalchemy import inspect from sqlalchemy.engine.reflection import Inspector from sqlmodel import create_engine def test_create_db_and_table(clear_sqlmodel): from docs_src.tutorial.create_db_and_table import tutorial003 as mod mod.sqlite_url = "sqlite://" mod.engine =
create_engine(mod.sqlite_url)
sqlmodel.create_engine
from sqlmodel import SQLModel, Field import uuid as uuid_pkg from typing import Optional class FilesBase(SQLModel): name: str class Files(FilesBase, table=True): id: int =
Field(default=None, primary_key=True)
sqlmodel.Field
from sqlmodel import SQLModel, Field import uuid as uuid_pkg from typing import Optional class FilesBase(SQLModel): name: str class Files(FilesBase, table=True): id: int = Field(default=None, primary_key=True) uuid: uuid_pkg.UUID = Field( default_factory=uuid_pkg.uuid4, index=True, nullable=False, ) count_download: int =
Field(default=0)
sqlmodel.Field
from sqlmodel import Session, select from database import UserRead, PostCreate, UserCreate, User, Post from typing import Union from datetime import datetime def create_object( session: Session, model: Union[User, Post], request_data: Union[UserCreate, PostCreate], user: UserRead = None, isPost: bool = False, ) -> dict: if isPost: setattr(request_data, "author_name", user.name) db_object = model.from_orm(request_data) if isPost: setattr(db_object, "updated_at", datetime.utcnow()) setattr(db_object, "created_at", datetime.utcnow()) session.add(db_object) session.commit() session.refresh(db_object) return db_object def get_objects( session: Session, model: Union[User, Post], offset: int, limit: int ) -> list: objects = session.exec(select(model).offset(offset).limit(limit)).all() return objects def get_object( session: Session, model: Union[User, Post], criteria: Union[int, str], isUser: bool = False, ) -> Union[User, Post]: if isUser: statement =
select(model)
sqlmodel.select
from sqlmodel import Session, select from database import UserRead, PostCreate, UserCreate, User, Post from typing import Union from datetime import datetime def create_object( session: Session, model: Union[User, Post], request_data: Union[UserCreate, PostCreate], user: UserRead = None, isPost: bool = False, ) -> dict: if isPost: setattr(request_data, "author_name", user.name) db_object = model.from_orm(request_data) if isPost: setattr(db_object, "updated_at", datetime.utcnow()) setattr(db_object, "created_at", datetime.utcnow()) session.add(db_object) session.commit() session.refresh(db_object) return db_object def get_objects( session: Session, model: Union[User, Post], offset: int, limit: int ) -> list: objects = session.exec(
select(model)
sqlmodel.select
from typing import Optional from sqlmodel import Field, SQLModel, Relationship, Column from sqlalchemy_utils.types import TSVectorType from .db import stand_by_models, stand_by_db stand_by_models() class Hero(SQLModel, table=True): id: Optional[int] =
Field(default=None, primary_key=True)
sqlmodel.Field
from typing import Optional from sqlmodel import Field, SQLModel, Relationship, Column from sqlalchemy_utils.types import TSVectorType from .db import stand_by_models, stand_by_db stand_by_models() class Hero(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) name: str content: str age: Optional[int] = None search_vector: Optional[str] = Field( sa_column=Column( TSVectorType( "name", "content", # weights={"name": "A", "secret_name": "B", "age": "D"}, ) ) ) class Parents(SQLModel, table=True): id: Optional[int] =
Field(default=None, primary_key=True)
sqlmodel.Field
from typing import Optional from sqlmodel import Field, SQLModel, Relationship, Column from sqlalchemy_utils.types import TSVectorType from .db import stand_by_models, stand_by_db stand_by_models() class Hero(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) name: str content: str age: Optional[int] = None search_vector: Optional[str] = Field( sa_column=Column( TSVectorType( "name", "content", # weights={"name": "A", "secret_name": "B", "age": "D"}, ) ) ) class Parents(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) name: str # children = orm.relationship("Children") class Children(SQLModel, table=True): id: Optional[int] =
Field(default=None, primary_key=True)
sqlmodel.Field
from typing import Optional from sqlmodel import Field, SQLModel, Relationship, Column from sqlalchemy_utils.types import TSVectorType from .db import stand_by_models, stand_by_db stand_by_models() class Hero(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) name: str content: str age: Optional[int] = None search_vector: Optional[str] = Field( sa_column=Column( TSVectorType( "name", "content", # weights={"name": "A", "secret_name": "B", "age": "D"}, ) ) ) class Parents(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) name: str # children = orm.relationship("Children") class Children(SQLModel, table=True): id: Optional[int] = Field(default=None, primary_key=True) name: str parent_id: Optional[int] =
Field(default=None, foreign_key="parents.id")
sqlmodel.Field
from sqlmodel import SQLModel, Relationship from typing import List from app.models.base_uuid_model import BaseUUIDModel class RoleBase(SQLModel): name: str description: str class Role(BaseUUIDModel, RoleBase, table=True): users: List["User"] =
Relationship(back_populates="role", sa_relationship_kwargs={"lazy": "selectin"})
sqlmodel.Relationship
from typing import TYPE_CHECKING, Optional from uuid import UUID from sqlalchemy.orm import joinedload from sqlalchemy.schema import Column, ForeignKey from sqlmodel import Field, Relationship from sqlmodel.sql.sqltypes import GUID from joj.horse.models.base import ORMUtils from joj.horse.utils.base import is_uuid if TYPE_CHECKING: from joj.horse.models import Problem, ProblemSet class ProblemProblemSetLink(ORMUtils, table=True): # type: ignore[call-arg] __tablename__ = "problem_problem_set_links" problem_id: UUID = Field( sa_column=Column( GUID, ForeignKey("problems.id", ondelete="CASCADE"), primary_key=True ), ) problem_set_id: UUID = Field( sa_column=Column( GUID, ForeignKey("problem_sets.id", ondelete="CASCADE"), primary_key=True ), ) position: int = Field( index=True, nullable=False, sa_column_kwargs={"server_default": "0"} ) problem: "Problem" =
Relationship(back_populates="problem_problem_set_links")
sqlmodel.Relationship
from typing import TYPE_CHECKING, Optional from uuid import UUID from sqlalchemy.orm import joinedload from sqlalchemy.schema import Column, ForeignKey from sqlmodel import Field, Relationship from sqlmodel.sql.sqltypes import GUID from joj.horse.models.base import ORMUtils from joj.horse.utils.base import is_uuid if TYPE_CHECKING: from joj.horse.models import Problem, ProblemSet class ProblemProblemSetLink(ORMUtils, table=True): # type: ignore[call-arg] __tablename__ = "problem_problem_set_links" problem_id: UUID = Field( sa_column=Column( GUID, ForeignKey("problems.id", ondelete="CASCADE"), primary_key=True ), ) problem_set_id: UUID = Field( sa_column=Column( GUID, ForeignKey("problem_sets.id", ondelete="CASCADE"), primary_key=True ), ) position: int = Field( index=True, nullable=False, sa_column_kwargs={"server_default": "0"} ) problem: "Problem" = Relationship(back_populates="problem_problem_set_links") problem_set: "ProblemSet" =
Relationship(back_populates="problem_problem_set_links")
sqlmodel.Relationship
from sqlmodel import SQLModel, Field from typing import Optional, List from pydantic import validator # --- model --- class User(SQLModel, table=True): id: Optional[int] =
Field(None, primary_key=True)
sqlmodel.Field
from datetime import datetime try: from humps.main import depascalize from sqlalchemy import Column, DateTime from sqlalchemy.orm.decl_api import declared_attr from sqlmodel import Field, SQLModel except ImportError: raise RuntimeError( "SQLModel is not installed. Please install it with `pip install sqlmodel pyhumps`" ) class Model(SQLModel): """ Abstract model providing `id`, `date_created` and `date_updated` fields. And also automatic table naming to `snake_case`. """ id: int =
Field(primary_key=True)
sqlmodel.Field
import logging import os import secrets import aioredis import boto3 import pytest import redis as pyredis from fastapi.testclient import TestClient from sqlalchemy import text from sqlalchemy_utils import create_database, database_exists, drop_database from sqlmodel import Session, create_engine from iris.agent.settings import AgentSettings from iris.api.authentication import ( current_active_user, current_superuser, current_verified_user, ) from iris.api.main import app from iris.api.settings import APISettings from iris.commons.clickhouse import ClickHouse from iris.commons.dependencies import get_settings from iris.commons.models.base import Base from iris.commons.redis import Redis from iris.commons.settings import CommonSettings from iris.commons.storage import Storage from iris.commons.utils import json_serializer from iris.worker import WorkerSettings pytest.register_assert_rewrite("tests.assertions") pytest_plugins = ["tests.fixtures.models", "tests.fixtures.storage"] def should_cleanup(): return os.environ.get("IRIS_TEST_CLEANUP", "") != "0" @pytest.fixture def logger(): return logging.getLogger(__name__) @pytest.fixture def settings(): namespace = secrets.token_hex(nbytes=4) print(f"@{namespace}", end=" ") # Redis has 16 databases by default, we use the last one for testing. return CommonSettings( CLICKHOUSE_PUBLIC_USER="public", CLICKHOUSE_DATABASE="iris_test", DATABASE_URL=f"postgresql://iris:[email protected]/iris-test-{namespace}", S3_PREFIX=f"iris-test-{namespace}", S3_PUBLIC_RESOURCES=["arn:aws:s3:::test-public-exports/*"], REDIS_NAMESPACE=f"iris-test-{namespace}", REDIS_URL="redis://default:[email protected]?db=15", RETRY_TIMEOUT=-1, ) @pytest.fixture def api_settings(settings): return APISettings( API_CORS_ALLOW_ORIGIN="https://example.org,http://localhost:8000", **settings.dict(), ) @pytest.fixture def agent_settings(settings, tmp_path): return AgentSettings( **settings.dict(), AGENT_CARACAL_SNIFFER_WAIT_TIME=1, AGENT_MIN_TTL=0, AGENT_RESULTS_DIR_PATH=tmp_path / "agent_results", AGENT_TARGETS_DIR_PATH=tmp_path / "agent_targets", ) @pytest.fixture def worker_settings(settings, tmp_path): return WorkerSettings( **settings.dict(), WORKER_RESULTS_DIR_PATH=tmp_path / "worker_results", WORKER_MAX_OPEN_FILES=128, ) @pytest.fixture def clickhouse(settings, logger): return ClickHouse(settings, logger) @pytest.fixture def engine(settings): engine =
create_engine(settings.DATABASE_URL, json_serializer=json_serializer)
sqlmodel.create_engine
import logging import os import secrets import aioredis import boto3 import pytest import redis as pyredis from fastapi.testclient import TestClient from sqlalchemy import text from sqlalchemy_utils import create_database, database_exists, drop_database from sqlmodel import Session, create_engine from iris.agent.settings import AgentSettings from iris.api.authentication import ( current_active_user, current_superuser, current_verified_user, ) from iris.api.main import app from iris.api.settings import APISettings from iris.commons.clickhouse import ClickHouse from iris.commons.dependencies import get_settings from iris.commons.models.base import Base from iris.commons.redis import Redis from iris.commons.settings import CommonSettings from iris.commons.storage import Storage from iris.commons.utils import json_serializer from iris.worker import WorkerSettings pytest.register_assert_rewrite("tests.assertions") pytest_plugins = ["tests.fixtures.models", "tests.fixtures.storage"] def should_cleanup(): return os.environ.get("IRIS_TEST_CLEANUP", "") != "0" @pytest.fixture def logger(): return logging.getLogger(__name__) @pytest.fixture def settings(): namespace = secrets.token_hex(nbytes=4) print(f"@{namespace}", end=" ") # Redis has 16 databases by default, we use the last one for testing. return CommonSettings( CLICKHOUSE_PUBLIC_USER="public", CLICKHOUSE_DATABASE="iris_test", DATABASE_URL=f"postgresql://iris:[email protected]/iris-test-{namespace}", S3_PREFIX=f"iris-test-{namespace}", S3_PUBLIC_RESOURCES=["arn:aws:s3:::test-public-exports/*"], REDIS_NAMESPACE=f"iris-test-{namespace}", REDIS_URL="redis://default:[email protected]?db=15", RETRY_TIMEOUT=-1, ) @pytest.fixture def api_settings(settings): return APISettings( API_CORS_ALLOW_ORIGIN="https://example.org,http://localhost:8000", **settings.dict(), ) @pytest.fixture def agent_settings(settings, tmp_path): return AgentSettings( **settings.dict(), AGENT_CARACAL_SNIFFER_WAIT_TIME=1, AGENT_MIN_TTL=0, AGENT_RESULTS_DIR_PATH=tmp_path / "agent_results", AGENT_TARGETS_DIR_PATH=tmp_path / "agent_targets", ) @pytest.fixture def worker_settings(settings, tmp_path): return WorkerSettings( **settings.dict(), WORKER_RESULTS_DIR_PATH=tmp_path / "worker_results", WORKER_MAX_OPEN_FILES=128, ) @pytest.fixture def clickhouse(settings, logger): return ClickHouse(settings, logger) @pytest.fixture def engine(settings): engine = create_engine(settings.DATABASE_URL, json_serializer=json_serializer) if not database_exists(engine.url): create_database(engine.url) Base.metadata.create_all(engine) return engine @pytest.fixture async def redis(settings, logger): client = aioredis.from_url(settings.REDIS_URL, decode_responses=True) yield Redis(client, settings, logger) await client.close() @pytest.fixture def session(engine): with
Session(engine)
sqlmodel.Session
import logging import os import secrets import aioredis import boto3 import pytest import redis as pyredis from fastapi.testclient import TestClient from sqlalchemy import text from sqlalchemy_utils import create_database, database_exists, drop_database from sqlmodel import Session, create_engine from iris.agent.settings import AgentSettings from iris.api.authentication import ( current_active_user, current_superuser, current_verified_user, ) from iris.api.main import app from iris.api.settings import APISettings from iris.commons.clickhouse import ClickHouse from iris.commons.dependencies import get_settings from iris.commons.models.base import Base from iris.commons.redis import Redis from iris.commons.settings import CommonSettings from iris.commons.storage import Storage from iris.commons.utils import json_serializer from iris.worker import WorkerSettings pytest.register_assert_rewrite("tests.assertions") pytest_plugins = ["tests.fixtures.models", "tests.fixtures.storage"] def should_cleanup(): return os.environ.get("IRIS_TEST_CLEANUP", "") != "0" @pytest.fixture def logger(): return logging.getLogger(__name__) @pytest.fixture def settings(): namespace = secrets.token_hex(nbytes=4) print(f"@{namespace}", end=" ") # Redis has 16 databases by default, we use the last one for testing. return CommonSettings( CLICKHOUSE_PUBLIC_USER="public", CLICKHOUSE_DATABASE="iris_test", DATABASE_URL=f"postgresql://iris:[email protected]/iris-test-{namespace}", S3_PREFIX=f"iris-test-{namespace}", S3_PUBLIC_RESOURCES=["arn:aws:s3:::test-public-exports/*"], REDIS_NAMESPACE=f"iris-test-{namespace}", REDIS_URL="redis://default:[email protected]?db=15", RETRY_TIMEOUT=-1, ) @pytest.fixture def api_settings(settings): return APISettings( API_CORS_ALLOW_ORIGIN="https://example.org,http://localhost:8000", **settings.dict(), ) @pytest.fixture def agent_settings(settings, tmp_path): return AgentSettings( **settings.dict(), AGENT_CARACAL_SNIFFER_WAIT_TIME=1, AGENT_MIN_TTL=0, AGENT_RESULTS_DIR_PATH=tmp_path / "agent_results", AGENT_TARGETS_DIR_PATH=tmp_path / "agent_targets", ) @pytest.fixture def worker_settings(settings, tmp_path): return WorkerSettings( **settings.dict(), WORKER_RESULTS_DIR_PATH=tmp_path / "worker_results", WORKER_MAX_OPEN_FILES=128, ) @pytest.fixture def clickhouse(settings, logger): return ClickHouse(settings, logger) @pytest.fixture def engine(settings): engine = create_engine(settings.DATABASE_URL, json_serializer=json_serializer) if not database_exists(engine.url): create_database(engine.url) Base.metadata.create_all(engine) return engine @pytest.fixture async def redis(settings, logger): client = aioredis.from_url(settings.REDIS_URL, decode_responses=True) yield Redis(client, settings, logger) await client.close() @pytest.fixture def session(engine): with Session(engine) as session: yield session @pytest.fixture def storage(settings, logger): return Storage(settings, logger) @pytest.fixture def make_client(engine, api_settings): def _make_client(user=None): if user and user.is_active: app.dependency_overrides[current_active_user] = lambda: user if user and user.is_active and user.is_verified: app.dependency_overrides[current_verified_user] = lambda: user if user and user.is_active and user.is_verified and user.is_superuser: app.dependency_overrides[current_superuser] = lambda: user app.dependency_overrides[get_settings] = lambda: api_settings return TestClient(app) yield _make_client app.dependency_overrides.clear() @pytest.fixture(autouse=True, scope="session") def cleanup_redis(): yield if should_cleanup(): redis_ = pyredis.from_url("redis://default:[email protected]?db=15") redis_.flushdb() redis_.close() @pytest.fixture(autouse=True, scope="session") def cleanup_database(): yield if should_cleanup(): # TODO: Cleanup/simplify this code. engine =
create_engine("postgresql://iris:[email protected]")
sqlmodel.create_engine
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with
Session(engine)
sqlmodel.Session
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with
Session(engine)
sqlmodel.Session
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with
Session(engine)
sqlmodel.Session
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with Session(engine) as session: try: query_timer = session.exec( select(Timer).where(Timer.end == None)).one() query_timer.end = datetime.utcnow() query_timer.duration = query_timer.end - query_timer.start session.add(query_timer) query = session.get(ToDo, query_timer.id_todo) check = typer.confirm('Is the task done?') if not check and not remarks: pass else: if check: query.status = 'done' query.date_end = query_timer.end.date() if remarks: query.remarks = remarks session.add(query) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStop task ({query.id}). Timer id: {new_id}\n', fg=typer.colors.GREEN) except NoResultFound: typer.secho(f'\nNo task running\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def view(due_date: datetime = typer.Option(datetime.today() + timedelta(weeks=1), formats=['%Y-%m-%d'])): """Print to-do list view.""" overdue =
select(ToDo)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with Session(engine) as session: try: query_timer = session.exec( select(Timer).where(Timer.end == None)).one() query_timer.end = datetime.utcnow() query_timer.duration = query_timer.end - query_timer.start session.add(query_timer) query = session.get(ToDo, query_timer.id_todo) check = typer.confirm('Is the task done?') if not check and not remarks: pass else: if check: query.status = 'done' query.date_end = query_timer.end.date() if remarks: query.remarks = remarks session.add(query) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStop task ({query.id}). Timer id: {new_id}\n', fg=typer.colors.GREEN) except NoResultFound: typer.secho(f'\nNo task running\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def view(due_date: datetime = typer.Option(datetime.today() + timedelta(weeks=1), formats=['%Y-%m-%d'])): """Print to-do list view.""" overdue = select(ToDo).where(ToDo.due_date < date.today(), ToDo.status != 'done').order_by(ToDo.due_date) reminders =
select(ToDo)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with Session(engine) as session: try: query_timer = session.exec( select(Timer).where(Timer.end == None)).one() query_timer.end = datetime.utcnow() query_timer.duration = query_timer.end - query_timer.start session.add(query_timer) query = session.get(ToDo, query_timer.id_todo) check = typer.confirm('Is the task done?') if not check and not remarks: pass else: if check: query.status = 'done' query.date_end = query_timer.end.date() if remarks: query.remarks = remarks session.add(query) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStop task ({query.id}). Timer id: {new_id}\n', fg=typer.colors.GREEN) except NoResultFound: typer.secho(f'\nNo task running\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def view(due_date: datetime = typer.Option(datetime.today() + timedelta(weeks=1), formats=['%Y-%m-%d'])): """Print to-do list view.""" overdue = select(ToDo).where(ToDo.due_date < date.today(), ToDo.status != 'done').order_by(ToDo.due_date) reminders = select(ToDo).where(ToDo.reminder <= date.today(), ToDo.status != 'done').order_by( ToDo.due_date) due_in =
select(ToDo)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with Session(engine) as session: try: query_timer = session.exec( select(Timer).where(Timer.end == None)).one() query_timer.end = datetime.utcnow() query_timer.duration = query_timer.end - query_timer.start session.add(query_timer) query = session.get(ToDo, query_timer.id_todo) check = typer.confirm('Is the task done?') if not check and not remarks: pass else: if check: query.status = 'done' query.date_end = query_timer.end.date() if remarks: query.remarks = remarks session.add(query) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStop task ({query.id}). Timer id: {new_id}\n', fg=typer.colors.GREEN) except NoResultFound: typer.secho(f'\nNo task running\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def view(due_date: datetime = typer.Option(datetime.today() + timedelta(weeks=1), formats=['%Y-%m-%d'])): """Print to-do list view.""" overdue = select(ToDo).where(ToDo.due_date < date.today(), ToDo.status != 'done').order_by(ToDo.due_date) reminders = select(ToDo).where(ToDo.reminder <= date.today(), ToDo.status != 'done').order_by( ToDo.due_date) due_in = select(ToDo).where( ToDo.due_date < due_date, ToDo.due_date >= date.today(), ToDo.status != 'done').order_by(ToDo.due_date) no_due =
select(ToDo)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(
func.max(ToDo.id)
sqlmodel.func.max
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with Session(engine) as session: try: query_timer = session.exec( select(Timer).where(Timer.end == None)).one() query_timer.end = datetime.utcnow() query_timer.duration = query_timer.end - query_timer.start session.add(query_timer) query = session.get(ToDo, query_timer.id_todo) check = typer.confirm('Is the task done?') if not check and not remarks: pass else: if check: query.status = 'done' query.date_end = query_timer.end.date() if remarks: query.remarks = remarks session.add(query) session.commit() new_id = session.exec(select(
func.max(Timer.id)
sqlmodel.func.max
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(
select(Timer)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nStart task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) else: typer.secho(f'\nTask already done\n', fg=typer.colors.RED) raise typer.Exit(code=1) except AttributeError: typer.secho(f'\nInvalid task id\n', fg=typer.colors.RED) raise typer.Exit(code=1) @app.command() def stop(remarks: str = typer.Option(None, '--remarks', '-r')): """Stop Timer.""" with Session(engine) as session: try: query_timer = session.exec(
select(Timer)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(
select(ToDo)
sqlmodel.select
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(
func.max(Timer.id)
sqlmodel.func.max
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(select(ToDo).where( ToDo.project == project, ToDo.status != 'done')).first() if ongoing_project is None: typer.secho(f'\nTasks already done in the project\n', fg=typer.colors.RED) raise typer.Exit(code=1) new_entry = ToDo(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) session.add(new_entry) session.commit() new_id = session.exec(select(func.max(ToDo.id))).one() typer.secho(f'Add {task}. Task id: {new_id}\n', fg=typer.colors.GREEN) except OperationalError: create_db_and_tables() add(task=task, project=project, due_date=due_date, reminder=reminder, status=status, tag=tag) @app.command() def start(task_id: int, duration: int = typer.Option(None, '--duration', '-d', help='Duration in minutes')): """Start Timer for a given open task.""" with Session(engine) as session: try: session.exec(select(Timer).where(Timer.end == None)).one() typer.secho('\nThe Timer must be stopped first\n', fg=typer.colors.RED) raise typer.Exit(code=1) except NoResultFound: pass try: query = session.get(ToDo, task_id) if not query.status == 'done': if query.status == 'to do': query.status = 'doing' session.add(query) if duration is not None: duration = timedelta(minutes=duration) if duration <= timedelta(minutes=0): typer.secho( f'\nDuration must be grater than 0\n', fg=typer.colors.RED) raise typer.Exit(code=1) total_seconds = int(duration.total_seconds()) session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(func.max(Timer.id))).one() typer.secho( f'\nTask Start task {task_id}. Timer id: {new_id}\n', fg=typer.colors.GREEN) with typer.progressbar(length=total_seconds) as progress: end = datetime.utcnow() + duration while datetime.utcnow() < end: time.sleep(1) progress.update(1) else: typer.secho('\n\nYour Time is over! Well done!\n', blink=True, fg=typer.colors.BRIGHT_GREEN) pop_up_msg() remark = typer.confirm("Any remark?") if remark: remark = typer.prompt('Enter your remarks.') else: remark = None stop(remarks=remark) typer.Exit() else: session.add(Timer(id_todo=task_id)) session.commit() new_id = session.exec(select(
func.max(Timer.id)
sqlmodel.func.max
import time from datetime import datetime, timedelta, date import typer from sqlalchemy.exc import NoResultFound, OperationalError from sqlmodel import Session, select, func from tabulate import tabulate from . import edit from . import reports from .database import create_db_and_tables, engine from .functions_aux import Status, make_table_view, pop_up_msg from .tables import ToDo, Timer app = typer.Typer() app.add_typer(reports.app, name='report', help='Print customized reports.') app.add_typer(edit.app, name='edit', help='Edit records.') @app.command() def add(task: str, project: str = typer.Option(None, '--project', '-p'), due_date: datetime = typer.Option(None, '--due-date', '-d', formats=['%Y-%m-%d']), reminder: datetime = typer.Option(None, '--reminder', '-r', formats=['%Y-%m-%d']), status: Status = typer.Option(Status.to_do, '--status', '-s'), tag: str = typer.Option(None, '--tag', '-t')): """Add task to the to-do list.""" try: today = datetime.today() if due_date is not None and due_date <= today: typer.secho(f'\ndue date must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if reminder is not None and reminder <= today: typer.secho(f'\nreminder must be grater than {today.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) if due_date is not None and reminder is not None and \ reminder >= due_date: typer.secho(f'\nreminder must be smaller than {due_date.date()}\n', fg=typer.colors.RED) raise typer.Exit(code=1) with Session(engine) as session: if project is not None: new_project = session.exec(select(ToDo).where( ToDo.project == project)).first() if new_project is not None: ongoing_project = session.exec(
select(ToDo)
sqlmodel.select
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id",
sqlmodel.sql.sqltypes.GUID()
sqlmodel.sql.sqltypes.GUID
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id",
sqlmodel.sql.sqltypes.GUID()
sqlmodel.sql.sqltypes.GUID
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id",
sqlmodel.sql.sqltypes.GUID()
sqlmodel.sql.sqltypes.GUID
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("alias",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("alias", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.ForeignKeyConstraint( ["sandbox_id"], ["sandbox.id"], ), sa.PrimaryKeyConstraint("id"), sa.UniqueConstraint("name", "sandbox_id"), ) op.create_index( op.f("ix_job_applicant_name"), "job_applicant", ["name"], unique=False ) op.create_table( "line_of_business", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("alias", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.ForeignKeyConstraint( ["sandbox_id"], ["sandbox.id"], ), sa.PrimaryKeyConstraint("id"), sa.UniqueConstraint("name", "sandbox_id"), ) op.create_index( op.f("ix_job_applicant_name"), "job_applicant", ["name"], unique=False ) op.create_table( "line_of_business", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("webhook_url",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("alias", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.ForeignKeyConstraint( ["sandbox_id"], ["sandbox.id"], ), sa.PrimaryKeyConstraint("id"), sa.UniqueConstraint("name", "sandbox_id"), ) op.create_index( op.f("ix_job_applicant_name"), "job_applicant", ["name"], unique=False ) op.create_table( "line_of_business", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("webhook_url", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("sandbox_id",
sqlmodel.sql.sqltypes.GUID()
sqlmodel.sql.sqltypes.GUID
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("alias", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.ForeignKeyConstraint( ["sandbox_id"], ["sandbox.id"], ), sa.PrimaryKeyConstraint("id"), sa.UniqueConstraint("name", "sandbox_id"), ) op.create_index( op.f("ix_job_applicant_name"), "job_applicant", ["name"], unique=False ) op.create_table( "line_of_business", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("webhook_url", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("traction_issue_enabled", sa.Boolean(), nullable=False), sa.Column("public_did",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
"""initial Revision ID: ef<PASSWORD> Revises: Create Date: 2022-03-03 15:21:30.974400 """ from alembic import op import sqlalchemy as sa import sqlmodel from sqlalchemy.dialects import postgresql # revision identifiers, used by Alembic. revision = "ef<PASSWORD>" down_revision = None branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.create_table( "sandbox", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("tag", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.PrimaryKeyConstraint("id"), ) op.create_table( "job_applicant", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("degree", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("date", sa.DateTime(), nullable=True), sa.Column( "invitation_state", sqlmodel.sql.sqltypes.AutoString(), nullable=True ), sa.Column("connection_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("wallet_id", sqlmodel.sql.sqltypes.GUID(), nullable=True), sa.Column("alias", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.ForeignKeyConstraint( ["sandbox_id"], ["sandbox.id"], ), sa.PrimaryKeyConstraint("id"), sa.UniqueConstraint("name", "sandbox_id"), ) op.create_index( op.f("ix_job_applicant_name"), "job_applicant", ["name"], unique=False ) op.create_table( "line_of_business", sa.Column( "id", postgresql.UUID(as_uuid=True), server_default=sa.text("gen_random_uuid()"), nullable=False, ), sa.Column( "created_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column( "updated_at", postgresql.TIMESTAMP(), server_default=sa.text("now()"), nullable=False, ), sa.Column("name", sqlmodel.sql.sqltypes.AutoString(), nullable=False), sa.Column("webhook_url", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("sandbox_id", sqlmodel.sql.sqltypes.GUID(), nullable=False), sa.Column("traction_issue_enabled", sa.Boolean(), nullable=False), sa.Column("public_did", sqlmodel.sql.sqltypes.AutoString(), nullable=True), sa.Column("cred_def_id",
sqlmodel.sql.sqltypes.AutoString()
sqlmodel.sql.sqltypes.AutoString
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