An Open Source Japanese NLP Library, based on Universal Dependencies
Please read the Important changes before you upgrade GiNZA.
GiNZA NLP Library and GiNZA Japanese Universal Dependencies Models are distributed under the MIT License. You must agree and follow the MIT License to use GiNZA NLP Library and GiNZA Japanese Universal Dependencies Models.
spaCy is the key framework of GiNZA.
SudachiPy provides high accuracies for tokenization and pos tagging.
Sudachi LICENSE PAGE, SudachiPy LICENSE PAGE, SudachiDict LEGAL PAGE, chiVe LICENSE PAGE
The GiNZA v5 Transformers model (ja_ginza_electra) is trained by using Hugging Face Transformers as a framework for pretrained models.
The parsing model of GiNZA v5 is trained on a part of UD Japanese BCCWJ r2.8 (Omura and Asahara:2018). This model is developed by National Institute for Japanese Language and Linguistics, and Megagon Labs.
The named entity recognition model of GiNZA v5 is trained on a part of GSK2014-A (2019) BCCWJ edition (Hashimoto, Inui, and Murakami:2008). We use two of the named entity label systems, both Sekine's Extended Named Entity Hierarchy and extended OntoNotes5. This model is developed by National Institute for Japanese Language and Linguistics, and Megagon Labs.
The GiNZA v5 Transformers model (ja_ginza_electra) is trained by using transformers-ud-japanese-electra-base-discriminator which is pretrained on more than 200 million Japanese sentences extracted from mC4.
Contains information from mC4 which is made available under the ODC Attribution License.
@article{2019t5,
author = {Colin Raffel and Noam Shazeer and Adam Roberts and Katherine Lee and Sharan Narang and Michael Matena and Yanqi Zhou and Wei Li and Peter J. Liu},
title = {Exploring the Limits of Transfer Learning with a Unified Text-to-Text Transformer},
journal = {arXiv e-prints},
year = {2019},
archivePrefix = {arXiv},
eprint = {1910.10683},
}
This project is developed with Python>=3.6 and pip for it. We do not recommend to use Anaconda environment because the pip install step may not work properly.
Please also see the Development Environment section below.
Uninstall previous version of ginza and ja_ginza_electra packages:
$ pip uninstall ginza ja_ginza_elecrta
Then, install the latest version of ginza
and ja_ginza_electra
:
$ pip install -U ginza ja_ginza_electra
The package of ja_ginza_electra
does not include pytorch_model.bin
due to PyPI's archive size restrictions.
This large model file will be automatically downloaded at the first run time, and the locally cached file will be used for subsequent runs.
If you need to install ja_ginza_electra
along with pytorch_model.bin
at the install time, you can specify direct link for GitHub release archive as follows:
$ pip install -U ginza https://github.com/megagonlabs/ginza/releases/download/latest/ja_ginza_electra-latest-with-model.tar.gz
If you hope to accelarate the transformers-based models by using GPUs with CUDA support, you can install spacy
by specifying the CUDA version as follows:
pip install -U "spacy[cuda110]"
And you need to install a version of pytorch that is consistent with the CUDA version.
Uninstall previous version:
$ pip uninstall ginza ja_ginza
Then, install the latest version of ginza
and ja_ginza
:
$ pip install -U ginza ja_ginza
Run ginza
command from the console, then input some Japanese text.
After pressing enter key, you will get the parsed results with CoNLL-U Syntactic Annotation format.
$ ginza
銀座でランチをご一緒しましょう。
# text = 銀座でランチをご一緒しましょう。
1 銀座 銀座 PROPN 名詞-固有名詞-地名-一般 _ 6 obl _ SpaceAfter=No|BunsetuBILabel=B|BunsetuPositionType=SEM_HEAD|NP_B|Reading=ギンザ|NE=B-GPE|ENE=B-City
2 で で ADP 助詞-格助詞 _ 1 case _ SpaceAfter=No|BunsetuBILabel=I|BunsetuPositionType=SYN_HEAD|Reading=デ
3 ランチ ランチ NOUN 名詞-普通名詞-一般 _ 6 obj _ SpaceAfter=No|BunsetuBILabel=B|BunsetuPositionType=SEM_HEAD|NP_B|Reading=ランチ
4 を を ADP 助詞-格助詞 _ 3 case _ SpaceAfter=No|BunsetuBILabel=I|BunsetuPositionType=SYN_HEAD|Reading=ヲ
5 ご ご NOUN 接頭辞 _ 6 compound _ SpaceAfter=No|BunsetuBILabel=B|BunsetuPositionType=CONT|Reading=ゴ
6 一緒 一緒 VERB 名詞-普通名詞-サ変可能 _ 0 root _ SpaceAfter=No|BunsetuBILabel=I|BunsetuPositionType=ROOT|Reading=イッショ
7 し する AUX 動詞-非自立可能 _ 6 aux _ SpaceAfter=No|BunsetuBILabel=I|BunsetuPositionType=SYN_HEAD|Inf=サ行変格,連用形-一般|Reading=シ
8 ましょう ます AUX 助動詞 _ 6 aux _ SpaceAfter=No|BunsetuBILabel=I|BunsetuPositionType=SYN_HEAD|Inf=助動詞-マス,意志推量形|Reading=マショウ
9 。 。 PUNCT 補助記号-句点 _ 6 punct _ SpaceAfter=No|BunsetuBILabel=I|BunsetuPositionType=CONT|Reading=。
ginzame
command provides tokenization function like MeCab.
The output format of ginzame
is almost same as mecab
, but the last pronunciation
field is always '*'.
$ ginzame
銀座でランチをご一緒しましょう。
銀座 名詞,固有名詞,地名,一般,*,*,銀座,ギンザ,*
で 助詞,格助詞,*,*,*,*,で,デ,*
ランチ 名詞,普通名詞,一般,*,*,*,ランチ,ランチ,*
を 助詞,格助詞,*,*,*,*,を,ヲ,*
ご 接頭辞,*,*,*,*,*,御,ゴ,*
一緒 名詞,普通名詞,サ変可能,*,*,*,一緒,イッショ,*
し 動詞,非自立可能,*,*,サ行変格,連用形-一般,為る,シ,*
ましょう 助動詞,*,*,*,助動詞-マス,意志推量形,ます,マショウ,*
。 補助記号,句点,*,*,*,*,。,。,*
EOS
The format of spaCy's JSON is available by specifying -f 3
or -f json
for ginza
command.
$ ginza -f json
銀座でランチをご一緒しましょう。
[
{
"paragraphs": [
{
"raw": "銀座でランチをご一緒しましょう。",
"sentences": [
{
"tokens": [
{"id": 1, "orth": "銀座", "tag": "名詞-固有名詞-地名-一般", "pos": "PROPN", "lemma": "銀座", "head": 5, "dep": "obl", "ner": "B-City"},
{"id": 2, "orth": "で", "tag": "助詞-格助詞", "pos": "ADP", "lemma": "で", "head": -1, "dep": "case", "ner": "O"},
{"id": 3, "orth": "ランチ", "tag": "名詞-普通名詞-一般", "pos": "NOUN", "lemma": "ランチ", "head": 3, "dep": "obj", "ner": "O"},
{"id": 4, "orth": "を", "tag": "助詞-格助詞", "pos": "ADP", "lemma": "を", "head": -1, "dep": "case", "ner": "O"},
{"id": 5, "orth": "ご", "tag": "接頭辞", "pos": "NOUN", "lemma": "ご", "head": 1, "dep": "compound", "ner": "O"},
{"id": 6, "orth": "一緒", "tag": "名詞-普通名詞-サ変可能", "pos": "VERB", "lemma": "一緒", "head": 0, "dep": "ROOT", "ner": "O"},
{"id": 7, "orth": "し", "tag": "動詞-非自立可能", "pos": "AUX", "lemma": "する", "head": -1, "dep": "advcl", "ner": "O"},
{"id": 8, "orth": "ましょう", "tag": "助動詞", "pos": "AUX", "lemma": "ます", "head": -2, "dep": "aux", "ner": "O"},
{"id": 9, "orth": "。", "tag": "補助記号-句点", "pos": "PUNCT", "lemma": "。", "head": -3, "dep": "punct", "ner": "O"}
]
}
]
}
]
}
]
If you want to use cabocha -f1
(lattice style) like output, add -f 1
or -f cabocha
option to ginza
command.
This option's format is almost same as cabocha -f1
but the func_index
field (after the slash) is slightly different.
Our func_index
field indicates the boundary where the 自立語
ends in each 文節
(and the 機能語
might start from there).
And the functional token filter is also slightly different between cabocha -f1
and ' ginza -f cabocha
.
$ ginza -f cabocha
銀座でランチをご一緒しましょう。
* 0 2D 0/1 0.000000
銀座 名詞,固有名詞,地名,一般,,銀座,ギンザ,* B-City
で 助詞,格助詞,*,*,,で,デ,* O
* 1 2D 0/1 0.000000
ランチ 名詞,普通名詞,一般,*,,ランチ,ランチ,* O
を 助詞,格助詞,*,*,,を,ヲ,* O
* 2 -1D 0/2 0.000000
ご 接頭辞,*,*,*,,ご,ゴ,* O
一緒 名詞,普通名詞,サ変可能,*,,一緒,イッショ,* O
し 動詞,非自立可能,*,*,サ行変格,連用形-一般,する,シ,* O
ましょう 助動詞,*,*,*,助動詞-マス,意志推量形,ます,マショウ,* O
。 補助記号,句点,*,*,,。,。,* O
EOS
We added -p NUM_PROCESS
option from GiNZA v3.0.
Please specify the number of analyzing processes to NUM_PROCESS
.
You might want to use all the cpu cores for GiNZA, then execute ginza -p 0
.
The memory requirement is about 130MB/process (to be improved).
Following steps shows dependency parsing results with sentence boundary 'EOS'.
import spacy
nlp = spacy.load('ja_ginza_electra')
doc = nlp('銀座でランチをご一緒しましょう。')
for sent in doc.sents:
for token in sent:
print(
token.i,
token.orth_,
token.lemma_,
token.norm_
token.morph.get(“Reading”),
token.pos_,
token.morph.get(“Inflection”),
token.tag_,
token.dep_,
token.head.i,
)
print('EOS')
The user dictionary files should be set to userDict
field of sudachi.json
in the installed package directory ofja_ginza_dict
package.
Please read the official documents to compile user dictionaries with sudachipy
command.
SudachiPy - User defined Dictionary
Sudachi User Dictionary Construction (Japanese Only)
- 2021-12-10, Euclase
- Important changes
- Upgrade: spaCy v3.2 and Sudachi.rs(SudachiPy v0.6.2)
- Change token information fields #208 #209
doc.user_data[“reading_forms”][token.i]
->token.morph.get(“Reading”)
doc.user_data[“inflections”][token.i]
->token.morph.get(“Inflection”)
force_using_normalized_form_as_lemma(True)
->token.norm_
- All spaCy models, including non-Japanese, are now available with the ginza command #217
- Download and analyze the model at once by specifying the model name in the following form #219
ginza -m en_core_web_md
- Change
ginza --require_gpu
andginza -g
to take agpu_id
argument- The default
gpu_id
value is-1
which uses only CPUs
- The default
ginza -f json
option always analyze the line which starts with#
regardless the option value of-c
. #215
- Improvements
- Batch analysis processing speeds up by 50-60% in GPU environment and 10-40% in CPU environment
- Improved processing efficiency of parallel execution options (
ginza -p {n_process}
andginzame
) of ginza command #204 - add tests #198 #210 #214
- add benchmark #207 #220
- 2021-10-15
- Bug fix
Bunsetu span should not cross the sentence boundary
#195
- 2021-09-06
- Bug fix
Command Line -s option and set_split_mode() not working in v5.0.x
#185
- 2021-08-26
- Bug fix
ginzame not woriking in ginza ver. 5
#179Command Line -d option not working in v5.0.0
#178
- Improvement
- accept
ja-ginza
andja-ginza-electra
for-m
option ofginza
command
- accept
- 2021-08-26, Demantoid
- Important changes
- Upgrade spaCy to v3
- Release transformer-based
ja-ginza-electra
model - Improve UPOS accuracy of the standard
ja-ginza
model by addingmorphologizer
to the tail of spaCy pipleline
- Release transformer-based
- Need to insrtall analysis model along with
ginza
package- High accuracy model (>=16GB memory needed)
pip install -U ginza ja-ginza-electra
- Speed oriented model
pip install -U ginza ja-ginza
- High accuracy model (>=16GB memory needed)
- Change component names of
CompoundSplitter
andBunsetuRecognizer
tocompound_splitter
andbunsetu_recognizer
respectively - Also see spaCy v3 Backwards Incompatibilities
- Upgrade spaCy to v3
- Improvements
- Add command line options
-n
- Force using SudachiPy's
normalized_form
asToken.lemma_
- Force using SudachiPy's
-m (ja_ginza|ja_ginza_electra)
- Select model package
- Revise ENE category name
Degital_Game
toDigital_Game
- Add command line options
- 2021-06-01
- Bug fix
- Issue #160: IndexError: list assignment index out of range for empty string
- 2020-10-01
- Improvements
- Add
-d
option, which disables spaCy's sentence separator, toginza
command line tool
- Add
- 2020-09-11
- Improvements
ginza
command line tool works correctly without BunsetuRecognizer in the pipeline
- 2020-09-10
- Improve bunsetu head identification accuracy over inconsistent deps in ent spans
- 2020-09-04
- Improvements
- Serialization of
CompoundSplitter
fornlp.to_disk()
- Bunsetu span detection accuracy
- Serialization of
- 2020-08-30
- Debug
- Add type arguments for singledispatch register annotations (for Python 3.6)
- 2020-08-16, Chrysoberyl
- Important changes
- Replace Japanese model with
spacy.lang.ja
of spaCy v2.3- Replace values of
Token.lemma_
with the output of SudachiPy'sMorpheme.dictionary_form()
- Replace values of
- Replace ja_ginza_dict with official SudachiDict-core package
- You can delete
ja_ginza_dict
package safety
- You can delete
- Change options and misc field contents of output of command line tool
- delete use_sentence_separator(-s)
- NE(OntoNotes) BI labels as
B-GPE
- Add subfields: Reading, Inf(inflection) and ENE(Extended NE)
- Obsolete
Token._.*
and add some entries forDoc.user_data[]
and accessors- inflections (
ginza.inflection(Token)
) - reading_forms (
ginza.reading_form(Token)
) - bunsetu_bi_labels (
ginza.bunsetu_bi_label(Token)
) - bunsetu_position_types (
ginza.bunsetu_position_type(Token)
) - bunsetu_heads (
ginza.is_bunsetu_head(Token)
)
- inflections (
- Change pipeline architecture
- JapaneseCorrector was obsoleted
- Add CompoundSplitter and BunsetuRecognizer
- Upgrade UD_JAPANESE-BCCWJ to v2.6
- Change word2vec to chiVe mc90
- Replace Japanese model with
- API Changes
- Add bunsetu-unit APIs (
from ginza import *
)- bunsetu(Token)
- phrase(Token)
- sub_phrases(Token)
- phrases(Span)
- bunsetu_spans(Span)
- bunsetu_phrase_spans(Span)
- bunsetu_head_list(Span)
- bunsetu_head_tokens(Span)
- bunsetu_bi_labels(Span)
- bunsetu_position_types(Span)
- Add bunsetu-unit APIs (
- 2020-02-12
- Debug
- Fix: degrade of cabocha mode
- 2020-01-19
- API Changes
- Extension fields
- The values of
Token._.sudachi
field would be set after callingSudachipyTokenizer.set_enable_ex_sudachi(True)
, to avoid serializtion errors
- The values of
- Extension fields
import spacy
import pickle
nlp = spacy.load('ja_ginza')
doc1 = nlp('This example will be serialized correctly.')
doc1.to_bytes()
with open('sample1.pickle', 'wb') as f:
pickle.dump(doc1, f)
nlp.tokenizer.set_enable_ex_sudachi(True)
doc2 = nlp('This example will cause a serialization error.')
doc2.to_bytes()
with open('sample2.pickle', 'wb') as f:
pickle.dump(doc2, f)
- 2020-01-16
- Important changes
- Distribute
ja_ginza_dict
from PyPI
- Distribute
- API Changes
- commands
ginza
andginzame
- add
-i
option to initialize the files ofja_ginza_dict
- add
- commands
- 2020-01-15, Benitoite
- Important changes
- Distribute
ginza
andja_ginza
from PyPI- Simple installation;
pip install ginza
, and runginza
- The model package,
ja_ginza
, is also available from PyPI.
- Simple installation;
- Model improvements
- Change NER training data-set to GSK2014-A (2019) BCCWJ edition
- Improved accuracy of NER
token.ent_type_
value is changed to Sekine's Extended Named Entity Hierarchy- Add
ENE7
attribute to the last field of the output ofginza
- Add
- Move OntoNotes5 -based label to
token._.ne
- We extended the OntoNotes5 named entity labels with
PHONE
,EMAIL
,URL
, andPET_NAME
- We extended the OntoNotes5 named entity labels with
- Overall accuracy is improved by executing
spacy pretrain
over 100 epochs- Multi-task learning of
spacy train
effectively working on UD Japanese BCCWJ
- Multi-task learning of
- The newest
SudachiDict_core-20191224
- Change NER training data-set to GSK2014-A (2019) BCCWJ edition
ginzame
- Execute
sudachipy
bymultiprocessing.Pool
and output results withmecab
like format - Now
sudachipy
command requires additional SudachiDict package installation
- Execute
- Distribute
- Breaking API Changes
- commands
ginza
(ginza.command_line.main_ginza
)- change option
mode
tosudachipy_mode
- drop options:
disable_pipes
andrecreate_corrector
- add options:
hash_comment
,parallel
,files
- add
mecab
to the choices for the argument of-f
option - add
parallel NUM_PROCESS
option (EXPERIMENTAL) - add
ENE7
attribute to conllu miscellaneous fieldginza.ent_type_mapping.ENE_NE_MAPPING
is used to convertENE7
label toNE
- change option
- add
ginzame
(ginza.command_line.main_ginzame
)- a multi-process tokenizer providing
mecab
like output format
- a multi-process tokenizer providing
- spaCy field extensions
- add
token._.ne
for ner label
- add
ginza/sudachipy_tokenizer.py
- change
SudachiTokenizer
toSudachipyTokenizer
- use
SUDACHI_DEFAULT_SPLIT_MODE
instead ofSUDACHI_DEFAULT_SPLITMODE
orSUDACHI_DEFAULT_MODE
- change
- commands
- Dependencies
- upgrade
spacy
to v2.2.3 - upgrade
sudachipy
to v0.4.2
- upgrade
- 2019-10-28
- Improvements
- JapaneseCorrector can merge the
as_*
type dependencies completely
- JapaneseCorrector can merge the
- Bug fixes
- command line tool failed at the specific situations
- 2019-10-04, Ametrine
- Important changes
split_mode
has been set incorrectly to sudachipy.tokenizer from v2.0.0 (#43)- This bug caused
split_mode
incompatibility between the training phase and theginza
command. split_mode
was set to 'B' for training phase and python APIs, but 'C' forginza
command.- We fixed this bug by setting the default
split_mode
to 'C' entirely. - This fix may cause the word segmentation incompatibilities during upgrading GiNZA from v2.0.0 to v2.2.0.
- This bug caused
- New features
- Add
-f
and--output-format
option toginza
command:-f 0
or-f conllu
: CoNLL-U Syntactic Annotation format-f 1
or-f cabocha
: cabocha -f1 compatible format
- Add custom token fields:
bunsetu_index
: bunsetu index starting from 0reading
: reading of token (not a pronunciation)sudachi
: SudachiPy's morpheme instance (or its list when then tokens are gathered by JapaneseCorrector)
- Add
- Performance improvements
- Tokenizer
- Use latest SudachiDict (SudachiDict_core-20190927.tar.gz)
- Use Cythonized SudachiPy (v0.4.0)
- Dependency parser
- Apply
spacy pretrain
command to capture the language model from UD-Japanese BCCWJ, UD_Japanese-PUD and KWDLC. - Apply multitask objectives by using
-pt 'tag,dep'
option ofspacy train
- Apply
- New model file
- ja_ginza-2.2.0.tar.gz
- Tokenizer
- 2019-07-08
- Add
ginza
command- run
ginza
from the console
- run
- Change package structure
- module package as
ginza
- language model package as
ja_ginza
spacy.lang.ja
is overridden byginza
- module package as
- Remove
sudachipy
related directories- SudachiPy and its dictionary are installed via
pip
duringginza
installation
- SudachiPy and its dictionary are installed via
- User dictionary available
- Token extension fields
- Added
token._.bunsetu_bi_label
,token._.bunsetu_position_type
- Remained
token._.inf
- Removed
pos_detail
(same value is set totoken.tag_
)
- Added
- 2019-04-07
- Set depending token index of root as 0 to meet with conllu format definitions
- 2019-04-02
- Add new Japanese era 'reiwa' to system_core.dic.
- 2019-04-01
- First release version
$ git clone 'https://github.com/megagonlabs/ginza.git'
For normal environment:
$ python setup.py develop
Copy system.dic
from installed package directory of ja_ginza_dict
to ./ja_ginza_dict/sudachidict/
.
The analysis model of GiNZA is trained by spacy train
command.
$ python -m spacy train ja ja_ginza-4.0.0 corpus/ja_ginza-ud-train.json corpus/ja_ginza-ud-dev.json -b ja_vectors_chive_mc90_35k/ -ovl 0.3 -n 100 -m meta.json.ginza -V 4.0.0
Ginza uses the pytest framework for testing, and you can run the tests via setup.py
without install test requirements explicitly.
Some tests depends on the ginza default models (ja-ginza
, ja-ginza-electra
), so install them before the tests is needed.
pip install ja-ginza ja-ginza-electra
pip install -e .
# full test
python setup.py test
# test single file
python setup.py test --addopts ginza/tests/test_analyzer.py