import pytest import random import numpy.random from numpy.testing import assert_equal from thinc.api import fix_random_seed from spacy import util from spacy.lang.en import English from spacy.language import Language from spacy.pipeline import TextCategorizer from spacy.tokens import Doc from spacy.pipeline.tok2vec import DEFAULT_TOK2VEC_MODEL from spacy.scorer import Scorer from spacy.training import Example from ..util import make_tempdir TRAIN_DATA_SINGLE_LABEL = [ ("I'm so happy.", {"cats": {"POSITIVE": 1.0, "NEGATIVE": 0.0}}), ("I'm so angry", {"cats": {"POSITIVE": 0.0, "NEGATIVE": 1.0}}), ] TRAIN_DATA_MULTI_LABEL = [ ("I'm angry and confused", {"cats": {"ANGRY": 1.0, "CONFUSED": 1.0, "HAPPY": 0.0}}), ("I'm confused but happy", {"cats": {"ANGRY": 0.0, "CONFUSED": 1.0, "HAPPY": 1.0}}), ] def make_get_examples_single_label(nlp): train_examples = [] for t in TRAIN_DATA_SINGLE_LABEL: train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1])) def get_examples(): return train_examples return get_examples def make_get_examples_multi_label(nlp): train_examples = [] for t in TRAIN_DATA_MULTI_LABEL: train_examples.append(Example.from_dict(nlp.make_doc(t[0]), t[1])) def get_examples(): return train_examples return get_examples @pytest.mark.skip(reason="Test is flakey when run with others") def test_simple_train(): nlp = Language() textcat = nlp.add_pipe("textcat") textcat.add_label("answer") nlp.initialize() for i in range(5): for text, answer in [ ("aaaa", 1.0), ("bbbb", 0), ("aa", 1.0), ("bbbbbbbbb", 0.0), ("aaaaaa", 1), ]: nlp.update((text, {"cats": {"answer": answer}})) doc = nlp("aaa") assert "answer" in doc.cats assert doc.cats["answer"] >= 0.5 @pytest.mark.skip(reason="Test is flakey when run with others") def test_textcat_learns_multilabel(): random.seed(5) numpy.random.seed(5) docs = [] nlp = Language() letters = ["a", "b", "c"] for w1 in letters: for w2 in letters: cats = {letter: float(w2 == letter) for letter in letters} docs.append((Doc(nlp.vocab, words=["d"] * 3 + [w1, w2] + ["d"] * 3), cats)) random.shuffle(docs) textcat = TextCategorizer(nlp.vocab, width=8) for letter in letters: textcat.add_label(letter) optimizer = textcat.initialize(lambda: []) for i in range(30): losses = {} examples = [Example.from_dict(doc, {"cats": cats}) for doc, cat in docs] textcat.update(examples, sgd=optimizer, losses=losses) random.shuffle(docs) for w1 in letters: for w2 in letters: doc = Doc(nlp.vocab, words=["d"] * 3 + [w1, w2] + ["d"] * 3) truth = {letter: w2 == letter for letter in letters} textcat(doc) for cat, score in doc.cats.items(): if not truth[cat]: assert score < 0.5 else: assert score > 0.5 @pytest.mark.parametrize("name", ["textcat", "textcat_multilabel"]) def test_label_types(name): nlp = Language() textcat = nlp.add_pipe(name) textcat.add_label("answer") with pytest.raises(ValueError): textcat.add_label(9) @pytest.mark.parametrize("name", ["textcat", "textcat_multilabel"]) def test_no_label(name): nlp = Language() nlp.add_pipe(name) with pytest.raises(ValueError): nlp.initialize() @pytest.mark.parametrize( "name,get_examples", [ ("textcat", make_get_examples_single_label), ("textcat_multilabel", make_get_examples_multi_label), ], ) def test_implicit_label(name, get_examples): nlp = Language() nlp.add_pipe(name) nlp.initialize(get_examples=get_examples(nlp)) @pytest.mark.parametrize("name", ["textcat", "textcat_multilabel"]) def test_no_resize(name): nlp = Language() textcat = nlp.add_pipe(name) textcat.add_label("POSITIVE") textcat.add_label("NEGATIVE") nlp.initialize() assert textcat.model.get_dim("nO") >= 2 # this throws an error because the textcat can't be resized after initialization with pytest.raises(ValueError): textcat.add_label("NEUTRAL") def test_error_with_multi_labels(): nlp = Language() nlp.add_pipe("textcat") train_examples = [] for text, annotations in TRAIN_DATA_MULTI_LABEL: train_examples.append(Example.from_dict(nlp.make_doc(text), annotations)) with pytest.raises(ValueError): nlp.initialize(get_examples=lambda: train_examples) @pytest.mark.parametrize( "name,get_examples, train_data", [ ("textcat", make_get_examples_single_label, TRAIN_DATA_SINGLE_LABEL), ("textcat_multilabel", make_get_examples_multi_label, TRAIN_DATA_MULTI_LABEL), ], ) def test_initialize_examples(name, get_examples, train_data): nlp = Language() textcat = nlp.add_pipe(name) for text, annotations in train_data: for label, value in annotations.get("cats").items(): textcat.add_label(label) # you shouldn't really call this more than once, but for testing it should be fine nlp.initialize() nlp.initialize(get_examples=get_examples(nlp)) with pytest.raises(TypeError): nlp.initialize(get_examples=lambda: None) with pytest.raises(TypeError): nlp.initialize(get_examples=get_examples()) def test_overfitting_IO(): # Simple test to try and quickly overfit the single-label textcat component - ensuring the ML models work correctly fix_random_seed(0) nlp = English() textcat = nlp.add_pipe("textcat") train_examples = [] for text, annotations in TRAIN_DATA_SINGLE_LABEL: train_examples.append(Example.from_dict(nlp.make_doc(text), annotations)) optimizer = nlp.initialize(get_examples=lambda: train_examples) assert textcat.model.get_dim("nO") == 2 for i in range(50): losses = {} nlp.update(train_examples, sgd=optimizer, losses=losses) assert losses["textcat"] < 0.01 # test the trained model test_text = "I am happy." doc = nlp(test_text) cats = doc.cats assert cats["POSITIVE"] > 0.9 assert cats["POSITIVE"] + cats["NEGATIVE"] == pytest.approx(1.0, 0.001) # Also test the results are still the same after IO with make_tempdir() as tmp_dir: nlp.to_disk(tmp_dir) nlp2 = util.load_model_from_path(tmp_dir) doc2 = nlp2(test_text) cats2 = doc2.cats assert cats2["POSITIVE"] > 0.9 assert cats2["POSITIVE"] + cats2["NEGATIVE"] == pytest.approx(1.0, 0.001) # Test scoring scores = nlp.evaluate(train_examples) assert scores["cats_micro_f"] == 1.0 assert scores["cats_macro_f"] == 1.0 assert scores["cats_macro_auc"] == 1.0 assert scores["cats_score"] == 1.0 assert "cats_score_desc" in scores # Make sure that running pipe twice, or comparing to call, always amounts to the same predictions texts = ["Just a sentence.", "I like green eggs.", "I am happy.", "I eat ham."] batch_cats_1 = [doc.cats for doc in nlp.pipe(texts)] batch_cats_2 = [doc.cats for doc in nlp.pipe(texts)] no_batch_cats = [doc.cats for doc in [nlp(text) for text in texts]] assert_equal(batch_cats_1, batch_cats_2) assert_equal(batch_cats_1, no_batch_cats) @pytest.mark.skip(reason="TODO: Can this be removed?") def test_overfitting_IO_multi_old(): # Simple test to try and quickly overfit the multi-label textcat component - ensuring the ML models work correctly fix_random_seed(0) nlp = English() # Set exclusive labels to False config = {"model": {"linear_model": {"exclusive_classes": False}}} textcat = nlp.add_pipe("textcat", config=config) train_examples = [] for text, annotations in TRAIN_DATA_MULTI_LABEL: train_examples.append(Example.from_dict(nlp.make_doc(text), annotations)) optimizer = nlp.initialize(get_examples=lambda: train_examples) assert textcat.model.get_dim("nO") == 2 for i in range(50): losses = {} nlp.update(train_examples, sgd=optimizer, losses=losses) assert losses["textcat"] < 0.01 # test the trained model test_text = "I am happy." doc = nlp(test_text) cats = doc.cats assert cats["POSITIVE"] > 0.9 # Also test the results are still the same after IO with make_tempdir() as tmp_dir: nlp.to_disk(tmp_dir) nlp2 = util.load_model_from_path(tmp_dir) doc2 = nlp2(test_text) cats2 = doc2.cats assert cats2["POSITIVE"] > 0.9 # Test scoring scores = nlp.evaluate(train_examples) assert scores["cats_micro_f"] == 1.0 assert scores["cats_score"] == 1.0 assert "cats_score_desc" in scores # Make sure that running pipe twice, or comparing to call, always amounts to the same predictions texts = ["Just a sentence.", "I like green eggs.", "I am happy.", "I eat ham."] batch_cats_1 = [doc.cats for doc in nlp.pipe(texts)] batch_cats_2 = [doc.cats for doc in nlp.pipe(texts)] no_batch_cats = [doc.cats for doc in [nlp(text) for text in texts]] assert_equal(batch_cats_1, batch_cats_2) assert_equal(batch_cats_1, no_batch_cats) def test_overfitting_IO_multi(): # Simple test to try and quickly overfit the multi-label textcat component - ensuring the ML models work correctly fix_random_seed(0) nlp = English() textcat = nlp.add_pipe("textcat_multilabel") train_examples = [] for text, annotations in TRAIN_DATA_MULTI_LABEL: train_examples.append(Example.from_dict(nlp.make_doc(text), annotations)) optimizer = nlp.initialize(get_examples=lambda: train_examples) assert textcat.model.get_dim("nO") == 3 for i in range(100): losses = {} nlp.update(train_examples, sgd=optimizer, losses=losses) assert losses["textcat_multilabel"] < 0.01 # test the trained model test_text = "I am confused but happy." doc = nlp(test_text) cats = doc.cats assert cats["HAPPY"] > 0.9 assert cats["CONFUSED"] > 0.9 # Also test the results are still the same after IO with make_tempdir() as tmp_dir: nlp.to_disk(tmp_dir) nlp2 = util.load_model_from_path(tmp_dir) doc2 = nlp2(test_text) cats2 = doc2.cats assert cats2["HAPPY"] > 0.9 assert cats2["CONFUSED"] > 0.9 # Test scoring scores = nlp.evaluate(train_examples) assert scores["cats_micro_f"] == 1.0 assert scores["cats_macro_f"] == 1.0 assert "cats_score_desc" in scores # Make sure that running pipe twice, or comparing to call, always amounts to the same predictions texts = ["Just a sentence.", "I like green eggs.", "I am happy.", "I eat ham."] batch_deps_1 = [doc.cats for doc in nlp.pipe(texts)] batch_deps_2 = [doc.cats for doc in nlp.pipe(texts)] no_batch_deps = [doc.cats for doc in [nlp(text) for text in texts]] assert_equal(batch_deps_1, batch_deps_2) assert_equal(batch_deps_1, no_batch_deps) # fmt: off @pytest.mark.parametrize( "name,train_data,textcat_config", [ ("textcat_multilabel", TRAIN_DATA_MULTI_LABEL, {"@architectures": "spacy.TextCatBOW.v1", "exclusive_classes": False, "ngram_size": 1, "no_output_layer": False}), ("textcat", TRAIN_DATA_SINGLE_LABEL, {"@architectures": "spacy.TextCatBOW.v1", "exclusive_classes": True, "ngram_size": 4, "no_output_layer": False}), ("textcat_multilabel", TRAIN_DATA_MULTI_LABEL, {"@architectures": "spacy.TextCatBOW.v1", "exclusive_classes": False, "ngram_size": 3, "no_output_layer": True}), ("textcat", TRAIN_DATA_SINGLE_LABEL, {"@architectures": "spacy.TextCatBOW.v1", "exclusive_classes": True, "ngram_size": 2, "no_output_layer": True}), ("textcat_multilabel", TRAIN_DATA_MULTI_LABEL, {"@architectures": "spacy.TextCatEnsemble.v2", "tok2vec": DEFAULT_TOK2VEC_MODEL, "linear_model": {"@architectures": "spacy.TextCatBOW.v1", "exclusive_classes": False, "ngram_size": 1, "no_output_layer": False}}), ("textcat", TRAIN_DATA_SINGLE_LABEL, {"@architectures": "spacy.TextCatEnsemble.v2", "tok2vec": DEFAULT_TOK2VEC_MODEL, "linear_model": {"@architectures": "spacy.TextCatBOW.v1", "exclusive_classes": True, "ngram_size": 5, "no_output_layer": False}}), ("textcat", TRAIN_DATA_SINGLE_LABEL, {"@architectures": "spacy.TextCatCNN.v1", "tok2vec": DEFAULT_TOK2VEC_MODEL, "exclusive_classes": True}), ("textcat_multilabel", TRAIN_DATA_MULTI_LABEL, {"@architectures": "spacy.TextCatCNN.v1", "tok2vec": DEFAULT_TOK2VEC_MODEL, "exclusive_classes": False}), ], ) # fmt: on def test_textcat_configs(name, train_data, textcat_config): pipe_config = {"model": textcat_config} nlp = English() textcat = nlp.add_pipe(name, config=pipe_config) train_examples = [] for text, annotations in train_data: train_examples.append(Example.from_dict(nlp.make_doc(text), annotations)) for label, value in annotations.get("cats").items(): textcat.add_label(label) optimizer = nlp.initialize() for i in range(5): losses = {} nlp.update(train_examples, sgd=optimizer, losses=losses) def test_positive_class(): nlp = English() textcat = nlp.add_pipe("textcat") get_examples = make_get_examples_single_label(nlp) textcat.initialize(get_examples, labels=["POS", "NEG"], positive_label="POS") assert textcat.labels == ("POS", "NEG") assert textcat.cfg["positive_label"] == "POS" textcat_multilabel = nlp.add_pipe("textcat_multilabel") get_examples = make_get_examples_multi_label(nlp) with pytest.raises(TypeError): textcat_multilabel.initialize( get_examples, labels=["POS", "NEG"], positive_label="POS" ) textcat_multilabel.initialize(get_examples, labels=["FICTION", "DRAMA"]) assert textcat_multilabel.labels == ("FICTION", "DRAMA") assert "positive_label" not in textcat_multilabel.cfg def test_positive_class_not_present(): nlp = English() textcat = nlp.add_pipe("textcat") get_examples = make_get_examples_single_label(nlp) with pytest.raises(ValueError): textcat.initialize(get_examples, labels=["SOME", "THING"], positive_label="POS") def test_positive_class_not_binary(): nlp = English() textcat = nlp.add_pipe("textcat") get_examples = make_get_examples_multi_label(nlp) with pytest.raises(ValueError): textcat.initialize( get_examples, labels=["SOME", "THING", "POS"], positive_label="POS" ) def test_textcat_evaluation(): train_examples = [] nlp = English() ref1 = nlp("one") ref1.cats = {"winter": 1.0, "summer": 1.0, "spring": 1.0, "autumn": 1.0} pred1 = nlp("one") pred1.cats = {"winter": 1.0, "summer": 0.0, "spring": 1.0, "autumn": 1.0} train_examples.append(Example(pred1, ref1)) ref2 = nlp("two") ref2.cats = {"winter": 0.0, "summer": 0.0, "spring": 1.0, "autumn": 1.0} pred2 = nlp("two") pred2.cats = {"winter": 1.0, "summer": 0.0, "spring": 0.0, "autumn": 1.0} train_examples.append(Example(pred2, ref2)) scores = Scorer().score_cats( train_examples, "cats", labels=["winter", "summer", "spring", "autumn"] ) assert scores["cats_f_per_type"]["winter"]["p"] == 1 / 2 assert scores["cats_f_per_type"]["winter"]["r"] == 1 / 1 assert scores["cats_f_per_type"]["summer"]["p"] == 0 assert scores["cats_f_per_type"]["summer"]["r"] == 0 / 1 assert scores["cats_f_per_type"]["spring"]["p"] == 1 / 1 assert scores["cats_f_per_type"]["spring"]["r"] == 1 / 2 assert scores["cats_f_per_type"]["autumn"]["p"] == 2 / 2 assert scores["cats_f_per_type"]["autumn"]["r"] == 2 / 2 assert scores["cats_micro_p"] == 4 / 5 assert scores["cats_micro_r"] == 4 / 6