spaCy/spacy/tests/morphology/test_morph_features.py

import pytest
from spacy.morphology import Morphology
from spacy.strings import StringStore, get_string_id
from spacy.lemmatizer import Lemmatizer
from spacy.lookups import Lookups


@pytest.fixture
def morphology():
    lemmatizer = Lemmatizer(Lookups())
    return Morphology(StringStore(), {}, lemmatizer)


def test_init(morphology):
    pass


def test_add_morphology_with_string_names(morphology):
    morphology.add({"Case": "gen", "Number": "sing"})


def test_add_morphology_with_int_ids(morphology):
    morphology.strings.add("Case")
    morphology.strings.add("gen")
    morphology.strings.add("Number")
    morphology.strings.add("sing")
    morphology.add({get_string_id("Case"): get_string_id("gen"), get_string_id("Number"): get_string_id("sing")})


def test_add_morphology_with_mix_strings_and_ints(morphology):
    morphology.strings.add("PunctSide")
    morphology.strings.add("ini")
    morphology.add({get_string_id("PunctSide"): get_string_id("ini"), "VerbType": "aux"})


def test_morphology_tags_hash_distinctly(morphology):
    tag1 = morphology.add({"PunctSide": "ini", "VerbType": "aux"})
    tag2 = morphology.add({"Case": "gen", "Number": "sing"})
    assert tag1 != tag2


def test_morphology_tags_hash_independent_of_order(morphology):
    tag1 = morphology.add({"Case": "gen", "Number": "sing"})
    tag2 = morphology.add({"Number": "sing", "Case": "gen"})
    assert tag1 == tag2
Start testing morphology class 2018-09-25 21:38:08 +03:00			`import pytest`
Tidy up and auto-format 2019-03-08 15:28:53 +03:00			`from spacy.morphology import Morphology`
			`from spacy.strings import StringStore, get_string_id`
			`from spacy.lemmatizer import Lemmatizer`
Refactor lemmatizer and data table integration (#4353) * Move test * Allow default in Lookups.get_table * Start with blank tables in Lookups.from_bytes * Refactor lemmatizer to hold instance of Lookups * Get lookups table within the lemmatization methods to make sure it references the correct table (even if the table was replaced or modified, e.g. when loading a model from disk) * Deprecate other arguments on Lemmatizer.__init__ and expect Lookups for consistency * Remove old and unsupported Lemmatizer.load classmethod * Refactor language-specific lemmatizers to inherit as much as possible from base class and override only what they need * Update tests and docs * Fix more tests * Fix lemmatizer * Upgrade pytest to try and fix weird CI errors * Try pytest 4.6.5 2019-10-01 22:36:04 +03:00			`from spacy.lookups import Lookups`
Start testing morphology class 2018-09-25 21:38:08 +03:00

			`@pytest.fixture`
			`def morphology():`
Refactor lemmatizer and data table integration (#4353) * Move test * Allow default in Lookups.get_table * Start with blank tables in Lookups.from_bytes * Refactor lemmatizer to hold instance of Lookups * Get lookups table within the lemmatization methods to make sure it references the correct table (even if the table was replaced or modified, e.g. when loading a model from disk) * Deprecate other arguments on Lemmatizer.__init__ and expect Lookups for consistency * Remove old and unsupported Lemmatizer.load classmethod * Refactor language-specific lemmatizers to inherit as much as possible from base class and override only what they need * Update tests and docs * Fix more tests * Fix lemmatizer * Upgrade pytest to try and fix weird CI errors * Try pytest 4.6.5 2019-10-01 22:36:04 +03:00			`lemmatizer = Lemmatizer(Lookups())`
			`return Morphology(StringStore(), {}, lemmatizer)`
Start testing morphology class 2018-09-25 21:38:08 +03:00
Tidy up and auto-format 2019-03-08 15:28:53 +03:00
Start testing morphology class 2018-09-25 21:38:08 +03:00			`def test_init(morphology):`
			`pass`

Tidy up and auto-format 2019-03-08 15:28:53 +03:00
Update morphology tests 2018-09-25 22:07:48 +03:00			`def test_add_morphology_with_string_names(morphology):`
Modify morphology to support arbitrary features (#4932) * Restructure tag maps for MorphAnalysis changes Prepare tag maps for upcoming MorphAnalysis changes that allow arbritrary features. * Use default tag map rather than duplicating for ca / uk / vi * Import tag map into defaults for ga * Modify tag maps so all morphological fields and features are strings * Move features from `"Other"` to the top level * Rewrite tuples as strings separated by `","` * Rewrite morph symbols for fr lemmatizer as strings * Export MorphAnalysis under spacy.tokens * Modify morphology to support arbitrary features Modify `Morphology` and `MorphAnalysis` so that arbitrary features are supported. * Modify `MorphAnalysisC` so that it can support arbitrary features and multiple values per field. `MorphAnalysisC` is redesigned to contain: * key: hash of UD FEATS string of morphological features * array of `MorphFeatureC` structs that each contain a hash of `Field` and `Field=Value` for a given morphological feature, which makes it possible to: * find features by field * represent multiple values for a given field * `get_field()` is renamed to `get_by_field()` and is no longer `nogil`. Instead a new helper function `get_n_by_field()` is `nogil` and returns `n` features by field. * `MorphAnalysis.get()` returns all possible values for a field as a list of individual features such as `["Tense=Pres", "Tense=Past"]`. * `MorphAnalysis`'s `str()` and `repr()` are the UD FEATS string. * `Morphology.feats_to_dict()` converts a UD FEATS string to a dict where: * Each field has one entry in the dict * Multiple values remain separated by a separator in the value string * `Token.morph_` returns the UD FEATS string and you can set `Token.morph_` with a UD FEATS string or with a tag map dict. * Modify get_by_field to use np.ndarray Modify `get_by_field()` to use np.ndarray. Remove `max_results` from `get_n_by_field()` and always iterate over all the fields. * Rewrite without MorphFeatureC * Add shortcut for existing feats strings as keys Add shortcut for existing feats strings as keys in `Morphology.add()`. * Check for '_' as empty analysis when adding morphs * Extend helper converters in Morphology Add and extend helper converters that convert and normalize between: * UD FEATS strings (`"Case=dat,gen\|Number=sing"`) * per-field dict of feats (`{"Case": "dat,gen", "Number": "sing"}`) * list of individual features (`["Case=dat", "Case=gen", "Number=sing"]`) All converters sort fields and values where applicable. 2020-01-24 00:01:54 +03:00			`morphology.add({"Case": "gen", "Number": "sing"})`
Start testing morphology class 2018-09-25 21:38:08 +03:00
Tidy up and auto-format 2019-03-08 15:28:53 +03:00
Update morphology tests 2018-09-25 22:07:48 +03:00			`def test_add_morphology_with_int_ids(morphology):`
Modify morphology to support arbitrary features (#4932) * Restructure tag maps for MorphAnalysis changes Prepare tag maps for upcoming MorphAnalysis changes that allow arbritrary features. * Use default tag map rather than duplicating for ca / uk / vi * Import tag map into defaults for ga * Modify tag maps so all morphological fields and features are strings * Move features from `"Other"` to the top level * Rewrite tuples as strings separated by `","` * Rewrite morph symbols for fr lemmatizer as strings * Export MorphAnalysis under spacy.tokens * Modify morphology to support arbitrary features Modify `Morphology` and `MorphAnalysis` so that arbitrary features are supported. * Modify `MorphAnalysisC` so that it can support arbitrary features and multiple values per field. `MorphAnalysisC` is redesigned to contain: * key: hash of UD FEATS string of morphological features * array of `MorphFeatureC` structs that each contain a hash of `Field` and `Field=Value` for a given morphological feature, which makes it possible to: * find features by field * represent multiple values for a given field * `get_field()` is renamed to `get_by_field()` and is no longer `nogil`. Instead a new helper function `get_n_by_field()` is `nogil` and returns `n` features by field. * `MorphAnalysis.get()` returns all possible values for a field as a list of individual features such as `["Tense=Pres", "Tense=Past"]`. * `MorphAnalysis`'s `str()` and `repr()` are the UD FEATS string. * `Morphology.feats_to_dict()` converts a UD FEATS string to a dict where: * Each field has one entry in the dict * Multiple values remain separated by a separator in the value string * `Token.morph_` returns the UD FEATS string and you can set `Token.morph_` with a UD FEATS string or with a tag map dict. * Modify get_by_field to use np.ndarray Modify `get_by_field()` to use np.ndarray. Remove `max_results` from `get_n_by_field()` and always iterate over all the fields. * Rewrite without MorphFeatureC * Add shortcut for existing feats strings as keys Add shortcut for existing feats strings as keys in `Morphology.add()`. * Check for '_' as empty analysis when adding morphs * Extend helper converters in Morphology Add and extend helper converters that convert and normalize between: * UD FEATS strings (`"Case=dat,gen\|Number=sing"`) * per-field dict of feats (`{"Case": "dat,gen", "Number": "sing"}`) * list of individual features (`["Case=dat", "Case=gen", "Number=sing"]`) All converters sort fields and values where applicable. 2020-01-24 00:01:54 +03:00			`morphology.strings.add("Case")`
			`morphology.strings.add("gen")`
			`morphology.strings.add("Number")`
			`morphology.strings.add("sing")`
			`morphology.add({get_string_id("Case"): get_string_id("gen"), get_string_id("Number"): get_string_id("sing")})`
Start testing morphology class 2018-09-25 21:38:08 +03:00
Tidy up and auto-format 2019-03-08 15:28:53 +03:00
Update morphology tests 2018-09-25 22:07:48 +03:00			`def test_add_morphology_with_mix_strings_and_ints(morphology):`
Modify morphology to support arbitrary features (#4932) * Restructure tag maps for MorphAnalysis changes Prepare tag maps for upcoming MorphAnalysis changes that allow arbritrary features. * Use default tag map rather than duplicating for ca / uk / vi * Import tag map into defaults for ga * Modify tag maps so all morphological fields and features are strings * Move features from `"Other"` to the top level * Rewrite tuples as strings separated by `","` * Rewrite morph symbols for fr lemmatizer as strings * Export MorphAnalysis under spacy.tokens * Modify morphology to support arbitrary features Modify `Morphology` and `MorphAnalysis` so that arbitrary features are supported. * Modify `MorphAnalysisC` so that it can support arbitrary features and multiple values per field. `MorphAnalysisC` is redesigned to contain: * key: hash of UD FEATS string of morphological features * array of `MorphFeatureC` structs that each contain a hash of `Field` and `Field=Value` for a given morphological feature, which makes it possible to: * find features by field * represent multiple values for a given field * `get_field()` is renamed to `get_by_field()` and is no longer `nogil`. Instead a new helper function `get_n_by_field()` is `nogil` and returns `n` features by field. * `MorphAnalysis.get()` returns all possible values for a field as a list of individual features such as `["Tense=Pres", "Tense=Past"]`. * `MorphAnalysis`'s `str()` and `repr()` are the UD FEATS string. * `Morphology.feats_to_dict()` converts a UD FEATS string to a dict where: * Each field has one entry in the dict * Multiple values remain separated by a separator in the value string * `Token.morph_` returns the UD FEATS string and you can set `Token.morph_` with a UD FEATS string or with a tag map dict. * Modify get_by_field to use np.ndarray Modify `get_by_field()` to use np.ndarray. Remove `max_results` from `get_n_by_field()` and always iterate over all the fields. * Rewrite without MorphFeatureC * Add shortcut for existing feats strings as keys Add shortcut for existing feats strings as keys in `Morphology.add()`. * Check for '_' as empty analysis when adding morphs * Extend helper converters in Morphology Add and extend helper converters that convert and normalize between: * UD FEATS strings (`"Case=dat,gen\|Number=sing"`) * per-field dict of feats (`{"Case": "dat,gen", "Number": "sing"}`) * list of individual features (`["Case=dat", "Case=gen", "Number=sing"]`) All converters sort fields and values where applicable. 2020-01-24 00:01:54 +03:00			`morphology.strings.add("PunctSide")`
			`morphology.strings.add("ini")`
			`morphology.add({get_string_id("PunctSide"): get_string_id("ini"), "VerbType": "aux"})`
Start testing morphology class 2018-09-25 21:38:08 +03:00

Update morphology tests 2018-09-25 22:07:48 +03:00			`def test_morphology_tags_hash_distinctly(morphology):`
Modify morphology to support arbitrary features (#4932) * Restructure tag maps for MorphAnalysis changes Prepare tag maps for upcoming MorphAnalysis changes that allow arbritrary features. * Use default tag map rather than duplicating for ca / uk / vi * Import tag map into defaults for ga * Modify tag maps so all morphological fields and features are strings * Move features from `"Other"` to the top level * Rewrite tuples as strings separated by `","` * Rewrite morph symbols for fr lemmatizer as strings * Export MorphAnalysis under spacy.tokens * Modify morphology to support arbitrary features Modify `Morphology` and `MorphAnalysis` so that arbitrary features are supported. * Modify `MorphAnalysisC` so that it can support arbitrary features and multiple values per field. `MorphAnalysisC` is redesigned to contain: * key: hash of UD FEATS string of morphological features * array of `MorphFeatureC` structs that each contain a hash of `Field` and `Field=Value` for a given morphological feature, which makes it possible to: * find features by field * represent multiple values for a given field * `get_field()` is renamed to `get_by_field()` and is no longer `nogil`. Instead a new helper function `get_n_by_field()` is `nogil` and returns `n` features by field. * `MorphAnalysis.get()` returns all possible values for a field as a list of individual features such as `["Tense=Pres", "Tense=Past"]`. * `MorphAnalysis`'s `str()` and `repr()` are the UD FEATS string. * `Morphology.feats_to_dict()` converts a UD FEATS string to a dict where: * Each field has one entry in the dict * Multiple values remain separated by a separator in the value string * `Token.morph_` returns the UD FEATS string and you can set `Token.morph_` with a UD FEATS string or with a tag map dict. * Modify get_by_field to use np.ndarray Modify `get_by_field()` to use np.ndarray. Remove `max_results` from `get_n_by_field()` and always iterate over all the fields. * Rewrite without MorphFeatureC * Add shortcut for existing feats strings as keys Add shortcut for existing feats strings as keys in `Morphology.add()`. * Check for '_' as empty analysis when adding morphs * Extend helper converters in Morphology Add and extend helper converters that convert and normalize between: * UD FEATS strings (`"Case=dat,gen\|Number=sing"`) * per-field dict of feats (`{"Case": "dat,gen", "Number": "sing"}`) * list of individual features (`["Case=dat", "Case=gen", "Number=sing"]`) All converters sort fields and values where applicable. 2020-01-24 00:01:54 +03:00			`tag1 = morphology.add({"PunctSide": "ini", "VerbType": "aux"})`
			`tag2 = morphology.add({"Case": "gen", "Number": "sing"})`
Update morphology tests 2018-09-25 22:07:48 +03:00			`assert tag1 != tag2`

Tidy up and auto-format 2019-03-08 15:28:53 +03:00
Update morphology tests 2018-09-25 22:07:48 +03:00			`def test_morphology_tags_hash_independent_of_order(morphology):`
Modify morphology to support arbitrary features (#4932) * Restructure tag maps for MorphAnalysis changes Prepare tag maps for upcoming MorphAnalysis changes that allow arbritrary features. * Use default tag map rather than duplicating for ca / uk / vi * Import tag map into defaults for ga * Modify tag maps so all morphological fields and features are strings * Move features from `"Other"` to the top level * Rewrite tuples as strings separated by `","` * Rewrite morph symbols for fr lemmatizer as strings * Export MorphAnalysis under spacy.tokens * Modify morphology to support arbitrary features Modify `Morphology` and `MorphAnalysis` so that arbitrary features are supported. * Modify `MorphAnalysisC` so that it can support arbitrary features and multiple values per field. `MorphAnalysisC` is redesigned to contain: * key: hash of UD FEATS string of morphological features * array of `MorphFeatureC` structs that each contain a hash of `Field` and `Field=Value` for a given morphological feature, which makes it possible to: * find features by field * represent multiple values for a given field * `get_field()` is renamed to `get_by_field()` and is no longer `nogil`. Instead a new helper function `get_n_by_field()` is `nogil` and returns `n` features by field. * `MorphAnalysis.get()` returns all possible values for a field as a list of individual features such as `["Tense=Pres", "Tense=Past"]`. * `MorphAnalysis`'s `str()` and `repr()` are the UD FEATS string. * `Morphology.feats_to_dict()` converts a UD FEATS string to a dict where: * Each field has one entry in the dict * Multiple values remain separated by a separator in the value string * `Token.morph_` returns the UD FEATS string and you can set `Token.morph_` with a UD FEATS string or with a tag map dict. * Modify get_by_field to use np.ndarray Modify `get_by_field()` to use np.ndarray. Remove `max_results` from `get_n_by_field()` and always iterate over all the fields. * Rewrite without MorphFeatureC * Add shortcut for existing feats strings as keys Add shortcut for existing feats strings as keys in `Morphology.add()`. * Check for '_' as empty analysis when adding morphs * Extend helper converters in Morphology Add and extend helper converters that convert and normalize between: * UD FEATS strings (`"Case=dat,gen\|Number=sing"`) * per-field dict of feats (`{"Case": "dat,gen", "Number": "sing"}`) * list of individual features (`["Case=dat", "Case=gen", "Number=sing"]`) All converters sort fields and values where applicable. 2020-01-24 00:01:54 +03:00			`tag1 = morphology.add({"Case": "gen", "Number": "sing"})`
			`tag2 = morphology.add({"Number": "sing", "Case": "gen"})`
Update morphology tests 2018-09-25 22:07:48 +03:00			`assert tag1 == tag2`