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85778dfcf4
* Add edit tree lemmatizer Co-authored-by: Daniël de Kok <me@danieldk.eu> * Hide edit tree lemmatizer labels * Use relative imports * Switch to single quotes in error message * Type annotation fixes Co-authored-by: Sofie Van Landeghem <svlandeg@users.noreply.github.com> * Reformat edit_tree_lemmatizer with black * EditTreeLemmatizer.predict: take Iterable Co-authored-by: Sofie Van Landeghem <svlandeg@users.noreply.github.com> * Validate edit trees during deserialization This change also changes the serialized representation. Rather than mirroring the deep C structure, we use a simple flat union of the match and substitution node types. * Move edit_trees to _edit_tree_internals * Fix invalid edit tree format error message * edit_tree_lemmatizer: remove outdated TODO comment * Rename factory name to trainable_lemmatizer * Ignore type instead of casting truths to List[Union[Ints1d, Floats2d, List[int], List[str]]] for thinc v8.0.14 * Switch to Tagger.v2 * Add documentation for EditTreeLemmatizer * docs: Fix 3.2 -> 3.3 somewhere * trainable_lemmatizer documentation fixes * docs: EditTreeLemmatizer is in edit_tree_lemmatizer.py Co-authored-by: Daniël de Kok <me@danieldk.eu> Co-authored-by: Daniël de Kok <me@github.danieldk.eu> Co-authored-by: Sofie Van Landeghem <svlandeg@users.noreply.github.com>
281 lines
8.4 KiB
Python
281 lines
8.4 KiB
Python
import pickle
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import pytest
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from hypothesis import given
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import hypothesis.strategies as st
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from spacy import util
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from spacy.lang.en import English
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from spacy.language import Language
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from spacy.pipeline._edit_tree_internals.edit_trees import EditTrees
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from spacy.training import Example
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from spacy.strings import StringStore
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from spacy.util import make_tempdir
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TRAIN_DATA = [
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("She likes green eggs", {"lemmas": ["she", "like", "green", "egg"]}),
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("Eat blue ham", {"lemmas": ["eat", "blue", "ham"]}),
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]
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PARTIAL_DATA = [
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# partial annotation
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("She likes green eggs", {"lemmas": ["", "like", "green", ""]}),
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# misaligned partial annotation
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(
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"He hates green eggs",
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{
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"words": ["He", "hat", "es", "green", "eggs"],
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"lemmas": ["", "hat", "e", "green", ""],
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},
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),
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]
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def test_initialize_examples():
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nlp = Language()
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lemmatizer = nlp.add_pipe("trainable_lemmatizer")
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train_examples = []
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for t in TRAIN_DATA:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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# you shouldn't really call this more than once, but for testing it should be fine
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nlp.initialize(get_examples=lambda: train_examples)
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with pytest.raises(TypeError):
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nlp.initialize(get_examples=lambda: None)
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with pytest.raises(TypeError):
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nlp.initialize(get_examples=lambda: train_examples[0])
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with pytest.raises(TypeError):
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nlp.initialize(get_examples=lambda: [])
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with pytest.raises(TypeError):
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nlp.initialize(get_examples=train_examples)
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def test_initialize_from_labels():
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nlp = Language()
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lemmatizer = nlp.add_pipe("trainable_lemmatizer")
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lemmatizer.min_tree_freq = 1
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train_examples = []
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for t in TRAIN_DATA:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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nlp.initialize(get_examples=lambda: train_examples)
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nlp2 = Language()
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lemmatizer2 = nlp2.add_pipe("trainable_lemmatizer")
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lemmatizer2.initialize(
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get_examples=lambda: train_examples,
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labels=lemmatizer.label_data,
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)
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assert lemmatizer2.tree2label == {1: 0, 3: 1, 4: 2, 6: 3}
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def test_no_data():
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# Test that the lemmatizer provides a nice error when there's no tagging data / labels
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TEXTCAT_DATA = [
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("I'm so happy.", {"cats": {"POSITIVE": 1.0, "NEGATIVE": 0.0}}),
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("I'm so angry", {"cats": {"POSITIVE": 0.0, "NEGATIVE": 1.0}}),
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]
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nlp = English()
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nlp.add_pipe("trainable_lemmatizer")
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nlp.add_pipe("textcat")
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train_examples = []
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for t in TEXTCAT_DATA:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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with pytest.raises(ValueError):
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nlp.initialize(get_examples=lambda: train_examples)
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def test_incomplete_data():
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# Test that the lemmatizer works with incomplete information
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nlp = English()
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lemmatizer = nlp.add_pipe("trainable_lemmatizer")
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lemmatizer.min_tree_freq = 1
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train_examples = []
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for t in PARTIAL_DATA:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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optimizer = nlp.initialize(get_examples=lambda: train_examples)
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for i in range(50):
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losses = {}
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nlp.update(train_examples, sgd=optimizer, losses=losses)
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assert losses["trainable_lemmatizer"] < 0.00001
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# test the trained model
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test_text = "She likes blue eggs"
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doc = nlp(test_text)
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assert doc[1].lemma_ == "like"
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assert doc[2].lemma_ == "blue"
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def test_overfitting_IO():
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nlp = English()
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lemmatizer = nlp.add_pipe("trainable_lemmatizer")
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lemmatizer.min_tree_freq = 1
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train_examples = []
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for t in TRAIN_DATA:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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optimizer = nlp.initialize(get_examples=lambda: train_examples)
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for i in range(50):
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losses = {}
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nlp.update(train_examples, sgd=optimizer, losses=losses)
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assert losses["trainable_lemmatizer"] < 0.00001
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test_text = "She likes blue eggs"
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doc = nlp(test_text)
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assert doc[0].lemma_ == "she"
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assert doc[1].lemma_ == "like"
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assert doc[2].lemma_ == "blue"
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assert doc[3].lemma_ == "egg"
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# Check model after a {to,from}_disk roundtrip
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with util.make_tempdir() as tmp_dir:
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nlp.to_disk(tmp_dir)
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nlp2 = util.load_model_from_path(tmp_dir)
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doc2 = nlp2(test_text)
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assert doc2[0].lemma_ == "she"
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assert doc2[1].lemma_ == "like"
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assert doc2[2].lemma_ == "blue"
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assert doc2[3].lemma_ == "egg"
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# Check model after a {to,from}_bytes roundtrip
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nlp_bytes = nlp.to_bytes()
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nlp3 = English()
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nlp3.add_pipe("trainable_lemmatizer")
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nlp3.from_bytes(nlp_bytes)
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doc3 = nlp3(test_text)
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assert doc3[0].lemma_ == "she"
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assert doc3[1].lemma_ == "like"
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assert doc3[2].lemma_ == "blue"
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assert doc3[3].lemma_ == "egg"
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# Check model after a pickle roundtrip.
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nlp_bytes = pickle.dumps(nlp)
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nlp4 = pickle.loads(nlp_bytes)
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doc4 = nlp4(test_text)
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assert doc4[0].lemma_ == "she"
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assert doc4[1].lemma_ == "like"
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assert doc4[2].lemma_ == "blue"
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assert doc4[3].lemma_ == "egg"
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def test_lemmatizer_requires_labels():
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nlp = English()
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nlp.add_pipe("trainable_lemmatizer")
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with pytest.raises(ValueError):
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nlp.initialize()
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def test_lemmatizer_label_data():
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nlp = English()
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lemmatizer = nlp.add_pipe("trainable_lemmatizer")
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lemmatizer.min_tree_freq = 1
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train_examples = []
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for t in TRAIN_DATA:
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train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1]))
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nlp.initialize(get_examples=lambda: train_examples)
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nlp2 = English()
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lemmatizer2 = nlp2.add_pipe("trainable_lemmatizer")
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lemmatizer2.initialize(
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get_examples=lambda: train_examples, labels=lemmatizer.label_data
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)
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# Verify that the labels and trees are the same.
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assert lemmatizer.labels == lemmatizer2.labels
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assert lemmatizer.trees.to_bytes() == lemmatizer2.trees.to_bytes()
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def test_dutch():
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strings = StringStore()
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trees = EditTrees(strings)
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tree = trees.add("deelt", "delen")
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assert trees.tree_to_str(tree) == "(m 0 3 () (m 0 2 (s '' 'l') (s 'lt' 'n')))"
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tree = trees.add("gedeeld", "delen")
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assert (
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trees.tree_to_str(tree) == "(m 2 3 (s 'ge' '') (m 0 2 (s '' 'l') (s 'ld' 'n')))"
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)
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def test_from_to_bytes():
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strings = StringStore()
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trees = EditTrees(strings)
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trees.add("deelt", "delen")
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trees.add("gedeeld", "delen")
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b = trees.to_bytes()
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trees2 = EditTrees(strings)
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trees2.from_bytes(b)
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# Verify that the nodes did not change.
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assert len(trees) == len(trees2)
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for i in range(len(trees)):
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assert trees.tree_to_str(i) == trees2.tree_to_str(i)
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# Reinserting the same trees should not add new nodes.
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trees2.add("deelt", "delen")
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trees2.add("gedeeld", "delen")
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assert len(trees) == len(trees2)
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def test_from_to_disk():
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strings = StringStore()
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trees = EditTrees(strings)
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trees.add("deelt", "delen")
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trees.add("gedeeld", "delen")
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trees2 = EditTrees(strings)
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with make_tempdir() as temp_dir:
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trees_file = temp_dir / "edit_trees.bin"
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trees.to_disk(trees_file)
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trees2 = trees2.from_disk(trees_file)
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# Verify that the nodes did not change.
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assert len(trees) == len(trees2)
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for i in range(len(trees)):
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assert trees.tree_to_str(i) == trees2.tree_to_str(i)
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# Reinserting the same trees should not add new nodes.
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trees2.add("deelt", "delen")
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trees2.add("gedeeld", "delen")
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assert len(trees) == len(trees2)
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@given(st.text(), st.text())
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def test_roundtrip(form, lemma):
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strings = StringStore()
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trees = EditTrees(strings)
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tree = trees.add(form, lemma)
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assert trees.apply(tree, form) == lemma
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@given(st.text(alphabet="ab"), st.text(alphabet="ab"))
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def test_roundtrip_small_alphabet(form, lemma):
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# Test with small alphabets to have more overlap.
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strings = StringStore()
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trees = EditTrees(strings)
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tree = trees.add(form, lemma)
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assert trees.apply(tree, form) == lemma
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def test_unapplicable_trees():
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strings = StringStore()
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trees = EditTrees(strings)
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tree3 = trees.add("deelt", "delen")
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# Replacement fails.
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assert trees.apply(tree3, "deeld") == None
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# Suffix + prefix are too large.
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assert trees.apply(tree3, "de") == None
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def test_empty_strings():
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strings = StringStore()
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trees = EditTrees(strings)
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no_change = trees.add("xyz", "xyz")
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empty = trees.add("", "")
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assert no_change == empty
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