mirror of
https://github.com/finegrain-ai/refiners.git
synced 2024-11-14 09:08:14 +00:00
260 lines
6.8 KiB
Python
260 lines
6.8 KiB
Python
import pytest
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import torch
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import refiners.fluxion.layers as fl
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from refiners.fluxion.context import Contexts
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class ContextChain(fl.Chain):
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def init_context(self) -> Contexts:
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return {"foo": {"bar": [42]}}
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def module_keys(chain: fl.Chain) -> list[str]:
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return list(chain._modules.keys()) # type: ignore[reportPrivateUsage]
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def test_chain_find() -> None:
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chain = fl.Chain(fl.Linear(1, 1))
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assert chain.find(fl.Linear) == chain.Linear
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assert chain.find(fl.Conv2d) is None
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def test_chain_find_parent():
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chain = fl.Chain(fl.Chain(fl.Linear(1, 1)))
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assert chain.find_parent(chain.Chain.Linear) == chain.Chain
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assert chain.find_parent(fl.Linear(1, 1)) is None
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def test_chain_slice() -> None:
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chain = fl.Chain(
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fl.Linear(1, 1),
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fl.Linear(1, 1),
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fl.Linear(1, 1),
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fl.Chain(
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fl.Linear(1, 1),
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fl.Linear(1, 1),
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),
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fl.Linear(1, 1),
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)
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x = torch.randn(1, 1)
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sliced_chain = chain[1:4]
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assert len(chain) == 5
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assert len(sliced_chain) == 3
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assert chain[:-1](x).shape == (1, 1)
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def test_chain_walk_stop_iteration() -> None:
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chain = fl.Chain(
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fl.Sum(
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fl.Chain(fl.Linear(1, 1)),
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fl.Linear(1, 1),
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),
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fl.Chain(),
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fl.Linear(1, 1),
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)
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def predicate(m: fl.Module, p: fl.Chain) -> bool:
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if isinstance(m, fl.Sum):
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raise StopIteration
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return isinstance(m, fl.Linear)
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assert len(list(chain.walk(fl.Linear))) == 3
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assert len(list(chain.walk(predicate))) == 1
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def test_chain_layers() -> None:
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chain = fl.Chain(
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fl.Chain(fl.Chain(fl.Chain())),
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fl.Chain(),
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fl.Linear(1, 1),
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)
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assert len(list(chain.layers(fl.Chain))) == 2
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assert len(list(chain.layers(fl.Chain, recurse=True))) == 4
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def test_chain_insert() -> None:
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parent = ContextChain(fl.Linear(1, 1), fl.Linear(1, 1))
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child = fl.Chain()
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parent.insert(1, child)
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assert module_keys(parent) == ["Linear_1", "Chain", "Linear_2"]
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assert child.parent == parent
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assert child.provider.get_context("foo") == {"bar": [42]}
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def test_chain_insert_negative() -> None:
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parent = fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1))
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child = fl.Chain()
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parent.insert(-2, child)
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assert module_keys(parent) == ["Linear_1", "Chain", "Linear_2"]
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def test_chain_insert_after_type() -> None:
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child = fl.Chain()
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parent_1 = fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1))
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parent_1.insert_after_type(fl.Linear, child)
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assert module_keys(parent_1) == ["Linear_1", "Chain", "Linear_2"]
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parent_2 = fl.Chain(fl.Conv2d(1, 1, 1), fl.Linear(1, 1))
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parent_2.insert_after_type(fl.Linear, child)
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assert module_keys(parent_2) == ["Conv2d", "Linear", "Chain"]
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def test_chain_insert_before_type() -> None:
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child = fl.Chain()
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parent_1 = fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1))
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parent_1.insert_before_type(fl.Linear, child)
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assert module_keys(parent_1) == ["Chain", "Linear_1", "Linear_2"]
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parent_2 = fl.Chain(fl.Conv2d(1, 1, 1), fl.Linear(1, 1))
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parent_2.insert_before_type(fl.Linear, child)
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assert module_keys(parent_2) == ["Conv2d", "Chain", "Linear"]
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def test_chain_insert_overflow() -> None:
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# This behaves as insert() in lists in Python.
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child = fl.Chain()
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parent_1 = fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1))
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parent_1.insert(42, child)
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assert module_keys(parent_1) == ["Linear_1", "Linear_2", "Chain"]
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parent_2 = fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1))
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parent_2.insert(-42, child)
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assert module_keys(parent_2) == ["Chain", "Linear_1", "Linear_2"]
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def test_chain_append() -> None:
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child = fl.Chain()
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parent = fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1))
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parent.append(child)
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assert module_keys(parent) == ["Linear_1", "Linear_2", "Chain"]
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def test_chain_pop() -> None:
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chain = fl.Chain(fl.Linear(1, 1), fl.Conv2d(1, 1, 1), fl.Chain())
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with pytest.raises(IndexError):
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chain.pop(3)
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with pytest.raises(IndexError):
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chain.pop(-4)
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assert module_keys(chain) == ["Linear", "Conv2d", "Chain"]
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chain.pop(1)
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assert module_keys(chain) == ["Linear", "Chain"]
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chain.pop(-2)
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assert module_keys(chain) == ["Chain"]
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def test_chain_remove() -> None:
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child = fl.Linear(1, 1)
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parent = fl.Chain(
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fl.Linear(1, 1),
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child,
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fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1)),
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)
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assert child in parent
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assert module_keys(parent) == ["Linear_1", "Linear_2", "Chain"]
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parent.remove(child)
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assert child not in parent
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assert module_keys(parent) == ["Linear", "Chain"]
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def test_chain_replace() -> None:
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chain = fl.Chain(
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fl.Linear(1, 1),
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fl.Linear(1, 1),
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fl.Chain(fl.Linear(1, 1), fl.Linear(1, 1)),
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)
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assert isinstance(chain.Chain[1], fl.Linear)
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chain.Chain.replace(chain.Chain[1], fl.Conv2d(1, 1, 1))
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assert len(chain) == 3
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assert isinstance(chain.Chain[1], fl.Conv2d)
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def test_chain_structural_copy() -> None:
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m = fl.Chain(
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fl.Sum(
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fl.Linear(4, 8),
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fl.Linear(4, 8),
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),
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fl.Linear(8, 12),
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)
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x = torch.randn(7, 4)
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y = m(x)
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assert y.shape == (7, 12)
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m2 = m.structural_copy()
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assert m.Linear == m2.Linear
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assert m.Sum.Linear_1 == m2.Sum.Linear_1
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assert m.Sum.Linear_2 == m2.Sum.Linear_2
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assert m.Sum != m2.Sum
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assert m != m2
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assert m.Sum.parent == m
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assert m2.Sum.parent == m2
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y2 = m2(x)
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assert y2.shape == (7, 12)
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torch.equal(y2, y)
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def test_setattr_dont_register() -> None:
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chain = fl.Chain(fl.Linear(in_features=1, out_features=1), fl.Linear(in_features=1, out_features=1))
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with pytest.raises(expected_exception=ValueError):
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chain.foo = fl.Linear(in_features=1, out_features=1)
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assert module_keys(chain=chain) == ["Linear_1", "Linear_2"]
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EXPECTED_TREE = (
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"(CHAIN)\n ├── Linear(in_features=1, out_features=1, device=cpu, dtype=float32) (x2)\n └── (CHAIN)\n ├── Linear(in_features=1,"
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" out_features=1, device=cpu, dtype=float32) #1\n └── Linear(in_features=2, out_features=1, device=cpu, dtype=float32) #2"
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)
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def test_debug_print() -> None:
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chain = fl.Chain(
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fl.Linear(1, 1),
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fl.Linear(1, 1),
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fl.Chain(fl.Linear(1, 1), fl.Linear(2, 1)),
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)
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assert chain._show_error_in_tree("Chain.Linear_2") == EXPECTED_TREE # type: ignore[reportPrivateUsage]
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def test_module_get_path() -> None:
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chain = fl.Chain(
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fl.Sum(
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fl.Linear(1, 1),
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fl.Linear(1, 1),
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),
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fl.Sum(),
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)
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assert chain.Sum_1.Linear_2.get_path(parent=chain.Sum_1) == "Chain.Sum_1.Linear_2"
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assert chain.Sum_1.Linear_2.get_path(parent=chain.Sum_1, top=chain.Sum_1) == "Sum.Linear_2"
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assert chain.Sum_1.get_path() == "Chain.Sum_1"
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