import pickle import re import pytest from spacy.attrs import ENT_IOB, ENT_TYPE from spacy.lang.en import English from spacy.tokenizer import Tokenizer from spacy.tokens import Doc from spacy.util import compile_infix_regex, compile_prefix_regex from spacy.util import compile_suffix_regex, get_lang_class, load_model from ..util import assert_packed_msg_equal, make_tempdir def load_tokenizer(b): tok = get_lang_class("en")().tokenizer tok.from_bytes(b) return tok @pytest.mark.issue(2833) def test_issue2833(en_vocab): """Test that a custom error is raised if a token or span is pickled.""" doc = Doc(en_vocab, words=["Hello", "world"]) with pytest.raises(NotImplementedError): pickle.dumps(doc[0]) with pytest.raises(NotImplementedError): pickle.dumps(doc[0:2]) @pytest.mark.issue(3012) def test_issue3012(en_vocab): """Test that the is_tagged attribute doesn't get overwritten when we from_array without tag information.""" words = ["This", "is", "10", "%", "."] tags = ["DT", "VBZ", "CD", "NN", "."] pos = ["DET", "VERB", "NUM", "NOUN", "PUNCT"] ents = ["O", "O", "B-PERCENT", "I-PERCENT", "O"] doc = Doc(en_vocab, words=words, tags=tags, pos=pos, ents=ents) assert doc.has_annotation("TAG") expected = ("10", "NUM", "CD", "PERCENT") assert (doc[2].text, doc[2].pos_, doc[2].tag_, doc[2].ent_type_) == expected header = [ENT_IOB, ENT_TYPE] ent_array = doc.to_array(header) doc.from_array(header, ent_array) assert (doc[2].text, doc[2].pos_, doc[2].tag_, doc[2].ent_type_) == expected # Serializing then deserializing doc_bytes = doc.to_bytes() doc2 = Doc(en_vocab).from_bytes(doc_bytes) assert (doc2[2].text, doc2[2].pos_, doc2[2].tag_, doc2[2].ent_type_) == expected @pytest.mark.issue(4190) def test_issue4190(): def customize_tokenizer(nlp): prefix_re = compile_prefix_regex(nlp.Defaults.prefixes) suffix_re = compile_suffix_regex(nlp.Defaults.suffixes) infix_re = compile_infix_regex(nlp.Defaults.infixes) # Remove all exceptions where a single letter is followed by a period (e.g. 'h.') exceptions = { k: v for k, v in dict(nlp.Defaults.tokenizer_exceptions).items() if not (len(k) == 2 and k[1] == ".") } new_tokenizer = Tokenizer( nlp.vocab, exceptions, prefix_search=prefix_re.search, suffix_search=suffix_re.search, infix_finditer=infix_re.finditer, token_match=nlp.tokenizer.token_match, ) nlp.tokenizer = new_tokenizer test_string = "Test c." # Load default language nlp_1 = English() doc_1a = nlp_1(test_string) result_1a = [token.text for token in doc_1a] # noqa: F841 # Modify tokenizer customize_tokenizer(nlp_1) doc_1b = nlp_1(test_string) result_1b = [token.text for token in doc_1b] # Save and Reload with make_tempdir() as model_dir: nlp_1.to_disk(model_dir) nlp_2 = load_model(model_dir) # This should be the modified tokenizer doc_2 = nlp_2(test_string) result_2 = [token.text for token in doc_2] assert result_1b == result_2 def test_serialize_custom_tokenizer(en_vocab, en_tokenizer): """Test that custom tokenizer with not all functions defined or empty properties can be serialized and deserialized correctly (see #2494, #4991).""" tokenizer = Tokenizer(en_vocab, suffix_search=en_tokenizer.suffix_search) tokenizer_bytes = tokenizer.to_bytes() Tokenizer(en_vocab).from_bytes(tokenizer_bytes) # test that empty/unset values are set correctly on deserialization tokenizer = get_lang_class("en")().tokenizer tokenizer.token_match = re.compile("test").match assert tokenizer.rules != {} assert tokenizer.token_match is not None assert tokenizer.url_match is not None assert tokenizer.prefix_search is not None assert tokenizer.infix_finditer is not None tokenizer.from_bytes(tokenizer_bytes) assert tokenizer.rules == {} assert tokenizer.token_match is None assert tokenizer.url_match is None assert tokenizer.prefix_search is None assert tokenizer.infix_finditer is None tokenizer = Tokenizer(en_vocab, rules={"ABC.": [{"ORTH": "ABC"}, {"ORTH": "."}]}) tokenizer.rules = {} tokenizer_bytes = tokenizer.to_bytes() tokenizer_reloaded = Tokenizer(en_vocab).from_bytes(tokenizer_bytes) assert tokenizer_reloaded.rules == {} @pytest.mark.parametrize("text", ["I💜you", "they’re", "“hello”"]) def test_serialize_tokenizer_roundtrip_bytes(en_tokenizer, text): tokenizer = en_tokenizer new_tokenizer = load_tokenizer(tokenizer.to_bytes()) assert_packed_msg_equal(new_tokenizer.to_bytes(), tokenizer.to_bytes()) assert new_tokenizer.to_bytes() == tokenizer.to_bytes() doc1 = tokenizer(text) doc2 = new_tokenizer(text) assert [token.text for token in doc1] == [token.text for token in doc2] def test_serialize_tokenizer_roundtrip_disk(en_tokenizer): tokenizer = en_tokenizer with make_tempdir() as d: file_path = d / "tokenizer" tokenizer.to_disk(file_path) tokenizer_d = en_tokenizer.from_disk(file_path) assert tokenizer.to_bytes() == tokenizer_d.to_bytes()