InvokeAI/tests/test_node_graph.py

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import pytest
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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from pydantic import TypeAdapter
from pydantic.json_schema import models_json_schema
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from invokeai.app.invocations.baseinvocation import (
BaseInvocation,
BaseInvocationOutput,
InvalidVersionError,
invocation,
invocation_output,
)
from invokeai.app.invocations.primitives import (
FloatCollectionInvocation,
FloatInvocation,
IntegerInvocation,
StringInvocation,
)
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from invokeai.app.invocations.upscale import ESRGANInvocation
feat: refactor services folder/module structure Refactor services folder/module structure. **Motivation** While working on our services I've repeatedly encountered circular imports and a general lack of clarity regarding where to put things. The structure introduced goes a long way towards resolving those issues, setting us up for a clean structure going forward. **Services** Services are now in their own folder with a few files: - `services/{service_name}/__init__.py`: init as needed, mostly empty now - `services/{service_name}/{service_name}_base.py`: the base class for the service - `services/{service_name}/{service_name}_{impl_type}.py`: the default concrete implementation of the service - typically one of `sqlite`, `default`, or `memory` - `services/{service_name}/{service_name}_common.py`: any common items - models, exceptions, utilities, etc Though it's a bit verbose to have the service name both as the folder name and the prefix for files, I found it is _extremely_ confusing to have all of the base classes just be named `base.py`. So, at the cost of some verbosity when importing things, I've included the service name in the filename. There are some minor logic changes. For example, in `InvocationProcessor`, instead of assigning the model manager service to a variable to be used later in the file, the service is used directly via the `Invoker`. **Shared** Things that are used across disparate services are in `services/shared/`: - `default_graphs.py`: previously in `services/` - `graphs.py`: previously in `services/` - `paginatation`: generic pagination models used in a few services - `sqlite`: the `SqliteDatabase` class, other sqlite-specific things
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from invokeai.app.services.shared.graph import (
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CollectInvocation,
Edge,
EdgeConnection,
Graph,
InvalidEdgeError,
IterateInvocation,
NodeAlreadyInGraphError,
NodeNotFoundError,
are_connections_compatible,
)
from tests.test_nodes import (
AnyTypeTestInvocation,
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ImageToImageTestInvocation,
ListPassThroughInvocation,
PolymorphicStringTestInvocation,
PromptCollectionTestInvocation,
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PromptTestInvocation,
TextToImageTestInvocation,
)
# Helpers
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def create_edge(from_id: str, from_field: str, to_id: str, to_field: str) -> Edge:
return Edge(
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source=EdgeConnection(node_id=from_id, field=from_field),
destination=EdgeConnection(node_id=to_id, field=to_field),
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)
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# Tests
def test_connections_are_compatible():
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from_node = TextToImageTestInvocation(id="1", prompt="Banana sushi")
from_field = "image"
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to_node = ESRGANInvocation(id="2")
to_field = "image"
result = are_connections_compatible(from_node, from_field, to_node, to_field)
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assert result is True
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def test_connections_are_incompatible():
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from_node = TextToImageTestInvocation(id="1", prompt="Banana sushi")
from_field = "image"
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to_node = ESRGANInvocation(id="2")
to_field = "strength"
result = are_connections_compatible(from_node, from_field, to_node, to_field)
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assert result is False
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def test_connections_incompatible_with_invalid_fields():
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from_node = TextToImageTestInvocation(id="1", prompt="Banana sushi")
from_field = "invalid_field"
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to_node = ESRGANInvocation(id="2")
to_field = "image"
# From field is invalid
result = are_connections_compatible(from_node, from_field, to_node, to_field)
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assert result is False
# To field is invalid
from_field = "image"
to_field = "invalid_field"
result = are_connections_compatible(from_node, from_field, to_node, to_field)
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assert result is False
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def test_graph_can_add_node():
g = Graph()
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n = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.add_node(n)
assert n.id in g.nodes
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def test_graph_fails_to_add_node_with_duplicate_id():
g = Graph()
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n = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.add_node(n)
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n2 = TextToImageTestInvocation(id="1", prompt="Banana sushi the second")
with pytest.raises(NodeAlreadyInGraphError):
g.add_node(n2)
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def test_graph_updates_node():
g = Graph()
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n = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.add_node(n)
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n2 = TextToImageTestInvocation(id="2", prompt="Banana sushi the second")
g.add_node(n2)
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nu = TextToImageTestInvocation(id="1", prompt="Banana sushi updated")
g.update_node("1", nu)
assert g.nodes["1"].prompt == "Banana sushi updated"
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def test_graph_fails_to_update_node_if_type_changes():
g = Graph()
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n = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.add_node(n)
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n2 = ESRGANInvocation(id="2")
g.add_node(n2)
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nu = ESRGANInvocation(id="1")
with pytest.raises(TypeError):
g.update_node("1", nu)
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def test_graph_allows_non_conflicting_id_change():
g = Graph()
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n = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.add_node(n)
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n2 = ESRGANInvocation(id="2")
g.add_node(n2)
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e1 = create_edge(n.id, "image", n2.id, "image")
g.add_edge(e1)
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nu = TextToImageTestInvocation(id="3", prompt="Banana sushi")
g.update_node("1", nu)
with pytest.raises(NodeNotFoundError):
g.get_node("1")
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assert g.get_node("3").prompt == "Banana sushi"
assert len(g.edges) == 1
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assert (
Edge(source=EdgeConnection(node_id="3", field="image"), destination=EdgeConnection(node_id="2", field="image"))
in g.edges
)
def test_graph_fails_to_update_node_id_if_conflict():
g = Graph()
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n = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.add_node(n)
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n2 = TextToImageTestInvocation(id="2", prompt="Banana sushi the second")
g.add_node(n2)
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nu = TextToImageTestInvocation(id="2", prompt="Banana sushi")
with pytest.raises(NodeAlreadyInGraphError):
g.update_node("1", nu)
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def test_graph_adds_edge():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e = create_edge(n1.id, "image", n2.id, "image")
g.add_edge(e)
assert e in g.edges
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def test_graph_fails_to_add_edge_with_cycle():
g = Graph()
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n1 = ESRGANInvocation(id="1")
g.add_node(n1)
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e = create_edge(n1.id, "image", n1.id, "image")
with pytest.raises(InvalidEdgeError):
g.add_edge(e)
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def test_graph_fails_to_add_edge_with_long_cycle():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
n3 = ESRGANInvocation(id="3")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
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e1 = create_edge(n1.id, "image", n2.id, "image")
e2 = create_edge(n2.id, "image", n3.id, "image")
e3 = create_edge(n3.id, "image", n2.id, "image")
g.add_edge(e1)
g.add_edge(e2)
with pytest.raises(InvalidEdgeError):
g.add_edge(e3)
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def test_graph_fails_to_add_edge_with_missing_node_id():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e1 = create_edge("1", "image", "3", "image")
e2 = create_edge("3", "image", "1", "image")
with pytest.raises(InvalidEdgeError):
g.add_edge(e1)
with pytest.raises(InvalidEdgeError):
g.add_edge(e2)
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def test_graph_fails_to_add_edge_when_destination_exists():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
n3 = ESRGANInvocation(id="3")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
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e1 = create_edge(n1.id, "image", n2.id, "image")
e2 = create_edge(n1.id, "image", n3.id, "image")
e3 = create_edge(n2.id, "image", n3.id, "image")
g.add_edge(e1)
g.add_edge(e2)
with pytest.raises(InvalidEdgeError):
g.add_edge(e3)
def test_graph_fails_to_add_edge_with_mismatched_types():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e1 = create_edge("1", "image", "2", "strength")
with pytest.raises(InvalidEdgeError):
g.add_edge(e1)
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def test_graph_connects_collector():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = TextToImageTestInvocation(id="2", prompt="Banana sushi 2")
n3 = CollectInvocation(id="3")
n4 = ListPassThroughInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
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e1 = create_edge("1", "image", "3", "item")
e2 = create_edge("2", "image", "3", "item")
e3 = create_edge("3", "collection", "4", "collection")
g.add_edge(e1)
g.add_edge(e2)
g.add_edge(e3)
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# TODO: test that derived types mixed with base types are compatible
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def test_graph_collector_invalid_with_varying_input_types():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = PromptTestInvocation(id="2", prompt="banana sushi 2")
n3 = CollectInvocation(id="3")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
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e1 = create_edge("1", "image", "3", "item")
e2 = create_edge("2", "prompt", "3", "item")
g.add_edge(e1)
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with pytest.raises(InvalidEdgeError):
g.add_edge(e2)
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def test_graph_collector_invalid_with_varying_input_output():
g = Graph()
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n1 = PromptTestInvocation(id="1", prompt="Banana sushi")
n2 = PromptTestInvocation(id="2", prompt="Banana sushi 2")
n3 = CollectInvocation(id="3")
n4 = ListPassThroughInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
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e1 = create_edge("1", "prompt", "3", "item")
e2 = create_edge("2", "prompt", "3", "item")
e3 = create_edge("3", "collection", "4", "collection")
g.add_edge(e1)
g.add_edge(e2)
with pytest.raises(InvalidEdgeError):
g.add_edge(e3)
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def test_graph_collector_invalid_with_non_list_output():
g = Graph()
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n1 = PromptTestInvocation(id="1", prompt="Banana sushi")
n2 = PromptTestInvocation(id="2", prompt="Banana sushi 2")
n3 = CollectInvocation(id="3")
n4 = PromptTestInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
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e1 = create_edge("1", "prompt", "3", "item")
e2 = create_edge("2", "prompt", "3", "item")
e3 = create_edge("3", "collection", "4", "prompt")
g.add_edge(e1)
g.add_edge(e2)
with pytest.raises(InvalidEdgeError):
g.add_edge(e3)
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def test_graph_connects_iterator():
g = Graph()
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n1 = ListPassThroughInvocation(id="1")
n2 = IterateInvocation(id="2")
n3 = ImageToImageTestInvocation(id="3", prompt="Banana sushi")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
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e1 = create_edge("1", "collection", "2", "collection")
e2 = create_edge("2", "item", "3", "image")
g.add_edge(e1)
g.add_edge(e2)
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# TODO: TEST INVALID ITERATOR SCENARIOS
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def test_graph_iterator_invalid_if_multiple_inputs():
g = Graph()
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n1 = ListPassThroughInvocation(id="1")
n2 = IterateInvocation(id="2")
n3 = ImageToImageTestInvocation(id="3", prompt="Banana sushi")
n4 = ListPassThroughInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
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e1 = create_edge("1", "collection", "2", "collection")
e2 = create_edge("2", "item", "3", "image")
e3 = create_edge("4", "collection", "2", "collection")
g.add_edge(e1)
g.add_edge(e2)
with pytest.raises(InvalidEdgeError):
g.add_edge(e3)
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def test_graph_iterator_invalid_if_input_not_list():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = IterateInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e1 = create_edge("1", "collection", "2", "collection")
with pytest.raises(InvalidEdgeError):
g.add_edge(e1)
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def test_graph_iterator_invalid_if_output_and_input_types_different():
g = Graph()
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n1 = ListPassThroughInvocation(id="1")
n2 = IterateInvocation(id="2")
n3 = PromptTestInvocation(id="3", prompt="Banana sushi")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
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e1 = create_edge("1", "collection", "2", "collection")
e2 = create_edge("2", "item", "3", "prompt")
g.add_edge(e1)
with pytest.raises(InvalidEdgeError):
g.add_edge(e2)
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def test_graph_validates():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e1 = create_edge("1", "image", "2", "image")
g.add_edge(e1)
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assert g.is_valid() is True
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def test_graph_invalid_if_edges_reference_missing_nodes():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
g.nodes[n1.id] = n1
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e1 = create_edge("1", "image", "2", "image")
g.edges.append(e1)
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assert g.is_valid() is False
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def test_graph_invalid_if_has_cycle():
g = Graph()
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n1 = ESRGANInvocation(id="1")
n2 = ESRGANInvocation(id="2")
g.nodes[n1.id] = n1
g.nodes[n2.id] = n2
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e1 = create_edge("1", "image", "2", "image")
e2 = create_edge("2", "image", "1", "image")
g.edges.append(e1)
g.edges.append(e2)
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assert g.is_valid() is False
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def test_graph_invalid_with_invalid_connection():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.nodes[n1.id] = n1
g.nodes[n2.id] = n2
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e1 = create_edge("1", "image", "2", "strength")
g.edges.append(e1)
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assert g.is_valid() is False
def test_graph_gets_networkx_graph():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e = create_edge(n1.id, "image", n2.id, "image")
g.add_edge(e)
nxg = g.nx_graph()
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assert "1" in nxg.nodes
assert "2" in nxg.nodes
assert ("1", "2") in nxg.edges
# TODO: Graph serializes and deserializes
def test_graph_can_serialize():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
n2 = ESRGANInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e = create_edge(n1.id, "image", n2.id, "image")
g.add_edge(e)
# Not throwing on this line is sufficient
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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_ = g.model_dump_json()
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def test_graph_can_deserialize():
g = Graph()
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n1 = TextToImageTestInvocation(id="1", prompt="Banana sushi")
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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n2 = ImageToImageTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
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e = create_edge(n1.id, "image", n2.id, "image")
g.add_edge(e)
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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json = g.model_dump_json()
GraphValidator = TypeAdapter(Graph)
g2 = GraphValidator.validate_json(json)
assert g2 is not None
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assert g2.nodes["1"] is not None
assert g2.nodes["2"] is not None
assert len(g2.edges) == 1
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assert g2.edges[0].source.node_id == "1"
assert g2.edges[0].source.field == "image"
assert g2.edges[0].destination.node_id == "2"
assert g2.edges[0].destination.field == "image"
def test_invocation_decorator():
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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invocation_type = "test_invocation_decorator"
title = "Test Invocation"
tags = ["first", "second", "third"]
category = "category"
version = "1.2.3"
@invocation(invocation_type, title=title, tags=tags, category=category, version=version)
class TestInvocation(BaseInvocation):
def invoke(self):
pass
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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schema = TestInvocation.model_json_schema()
assert schema.get("title") == title
assert schema.get("tags") == tags
assert schema.get("category") == category
assert schema.get("version") == version
assert TestInvocation(id="1").type == invocation_type # type: ignore (type is dynamically added)
def test_invocation_version_must_be_semver():
valid_version = "1.0.0"
invalid_version = "not_semver"
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
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@invocation("test_invocation_version_valid", version=valid_version)
class ValidVersionInvocation(BaseInvocation):
def invoke(self):
pass
with pytest.raises(InvalidVersionError):
feat(api): chore: pydantic & fastapi upgrade Upgrade pydantic and fastapi to latest. - pydantic~=2.4.2 - fastapi~=103.2 - fastapi-events~=0.9.1 **Big Changes** There are a number of logic changes needed to support pydantic v2. Most changes are very simple, like using the new methods to serialized and deserialize models, but there are a few more complex changes. **Invocations** The biggest change relates to invocation creation, instantiation and validation. Because pydantic v2 moves all validation logic into the rust pydantic-core, we may no longer directly stick our fingers into the validation pie. Previously, we (ab)used models and fields to allow invocation fields to be optional at instantiation, but required when `invoke()` is called. We directly manipulated the fields and invocation models when calling `invoke()`. With pydantic v2, this is much more involved. Changes to the python wrapper do not propagate down to the rust validation logic - you have to rebuild the model. This causes problem with concurrent access to the invocation classes and is not a free operation. This logic has been totally refactored and we do not need to change the model any more. The details are in `baseinvocation.py`, in the `InputField` function and `BaseInvocation.invoke_internal()` method. In the end, this implementation is cleaner. **Invocation Fields** In pydantic v2, you can no longer directly add or remove fields from a model. Previously, we did this to add the `type` field to invocations. **Invocation Decorators** With pydantic v2, we instead use the imperative `create_model()` API to create a new model with the additional field. This is done in `baseinvocation.py` in the `invocation()` wrapper. A similar technique is used for `invocation_output()`. **Minor Changes** There are a number of minor changes around the pydantic v2 models API. **Protected `model_` Namespace** All models' pydantic-provided methods and attributes are prefixed with `model_` and this is considered a protected namespace. This causes some conflict, because "model" means something to us, and we have a ton of pydantic models with attributes starting with "model_". Forunately, there are no direct conflicts. However, in any pydantic model where we define an attribute or method that starts with "model_", we must tell set the protected namespaces to an empty tuple. ```py class IPAdapterModelField(BaseModel): model_name: str = Field(description="Name of the IP-Adapter model") base_model: BaseModelType = Field(description="Base model") model_config = ConfigDict(protected_namespaces=()) ``` **Model Serialization** Pydantic models no longer have `Model.dict()` or `Model.json()`. Instead, we use `Model.model_dump()` or `Model.model_dump_json()`. **Model Deserialization** Pydantic models no longer have `Model.parse_obj()` or `Model.parse_raw()`, and there are no `parse_raw_as()` or `parse_obj_as()` functions. Instead, you need to create a `TypeAdapter` object to parse python objects or JSON into a model. ```py adapter_graph = TypeAdapter(Graph) deserialized_graph_from_json = adapter_graph.validate_json(graph_json) deserialized_graph_from_dict = adapter_graph.validate_python(graph_dict) ``` **Field Customisation** Pydantic `Field`s no longer accept arbitrary args. Now, you must put all additional arbitrary args in a `json_schema_extra` arg on the field. **Schema Customisation** FastAPI and pydantic schema generation now follows the OpenAPI version 3.1 spec. This necessitates two changes: - Our schema customization logic has been revised - Schema parsing to build node templates has been revised The specific aren't important, but this does present additional surface area for bugs. **Performance Improvements** Pydantic v2 is a full rewrite with a rust backend. This offers a substantial performance improvement (pydantic claims 5x to 50x depending on the task). We'll notice this the most during serialization and deserialization of sessions/graphs, which happens very very often - a couple times per node. I haven't done any benchmarks, but anecdotally, graph execution is much faster. Also, very larges graphs - like with massive iterators - are much, much faster.
2023-09-24 08:11:07 +00:00
@invocation("test_invocation_version_invalid", version=invalid_version)
class InvalidVersionInvocation(BaseInvocation):
def invoke(self):
pass
def test_invocation_output_decorator():
output_type = "test_output"
@invocation_output(output_type)
class TestOutput(BaseInvocationOutput):
pass
assert TestOutput().type == output_type # type: ignore (type is dynamically added)
def test_floats_accept_ints():
g = Graph()
n1 = IntegerInvocation(id="1", value=1)
n2 = FloatInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e = create_edge(n1.id, "value", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e)
def test_ints_do_not_accept_floats():
g = Graph()
n1 = FloatInvocation(id="1", value=1.0)
n2 = IntegerInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e = create_edge(n1.id, "value", n2.id, "value")
with pytest.raises(InvalidEdgeError):
g.add_edge(e)
def test_polymorphic_accepts_single():
g = Graph()
n1 = StringInvocation(id="1", value="banana")
n2 = PolymorphicStringTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e1 = create_edge(n1.id, "value", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e1)
def test_polymorphic_accepts_collection_of_same_base_type():
g = Graph()
n1 = PromptCollectionTestInvocation(id="1", collection=["banana", "sundae"])
n2 = PolymorphicStringTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e1 = create_edge(n1.id, "collection", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e1)
def test_polymorphic_does_not_accept_collection_of_different_base_type():
g = Graph()
n1 = FloatCollectionInvocation(id="1", collection=[1.0, 2.0, 3.0])
n2 = PolymorphicStringTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e1 = create_edge(n1.id, "collection", n2.id, "value")
with pytest.raises(InvalidEdgeError):
g.add_edge(e1)
def test_polymorphic_does_not_accept_generic_collection():
g = Graph()
n1 = IntegerInvocation(id="1", value=1)
n2 = IntegerInvocation(id="2", value=2)
n3 = CollectInvocation(id="3")
n4 = PolymorphicStringTestInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
e1 = create_edge(n1.id, "value", n3.id, "item")
e2 = create_edge(n2.id, "value", n3.id, "item")
e3 = create_edge(n3.id, "collection", n4.id, "value")
g.add_edge(e1)
g.add_edge(e2)
with pytest.raises(InvalidEdgeError):
g.add_edge(e3)
def test_any_accepts_integer():
g = Graph()
n1 = IntegerInvocation(id="1", value=1)
n2 = AnyTypeTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e = create_edge(n1.id, "value", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e)
def test_any_accepts_string():
g = Graph()
n1 = StringInvocation(id="1", value="banana sundae")
n2 = AnyTypeTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e = create_edge(n1.id, "value", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e)
def test_any_accepts_generic_collection():
g = Graph()
n1 = IntegerInvocation(id="1", value=1)
n2 = IntegerInvocation(id="2", value=2)
n3 = CollectInvocation(id="3")
n4 = AnyTypeTestInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
e1 = create_edge(n1.id, "value", n3.id, "item")
e2 = create_edge(n2.id, "value", n3.id, "item")
e3 = create_edge(n3.id, "collection", n4.id, "value")
g.add_edge(e1)
g.add_edge(e2)
# Not throwing on this line is sufficient
g.add_edge(e3)
def test_any_accepts_prompt_collection():
g = Graph()
n1 = PromptCollectionTestInvocation(id="1", collection=["banana", "sundae"])
n2 = AnyTypeTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e = create_edge(n1.id, "collection", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e)
def test_any_accepts_any():
g = Graph()
n1 = AnyTypeTestInvocation(id="1")
n2 = AnyTypeTestInvocation(id="2")
g.add_node(n1)
g.add_node(n2)
e = create_edge(n1.id, "value", n2.id, "value")
# Not throwing on this line is sufficient
g.add_edge(e)
def test_iterate_accepts_collection():
"""We need to update the validation for Collect -> Iterate to traverse to the Iterate
node's output and compare that against the item type of the Collect node's collection. Until
then, Collect nodes may not output into Iterate nodes."""
g = Graph()
n1 = IntegerInvocation(id="1", value=1)
n2 = IntegerInvocation(id="2", value=2)
n3 = CollectInvocation(id="3")
n4 = IterateInvocation(id="4")
g.add_node(n1)
g.add_node(n2)
g.add_node(n3)
g.add_node(n4)
e1 = create_edge(n1.id, "value", n3.id, "item")
e2 = create_edge(n2.id, "value", n3.id, "item")
e3 = create_edge(n3.id, "collection", n4.id, "collection")
g.add_edge(e1)
g.add_edge(e2)
# Once we fix the validation logic as described, this should should not raise an error
with pytest.raises(InvalidEdgeError, match="Cannot connect collector to iterator"):
g.add_edge(e3)
def test_graph_can_generate_schema():
# Not throwing on this line is sufficient
# NOTE: if this test fails, it's PROBABLY because a new invocation type is breaking schema generation
models_json_schema([(Graph, "serialization")])