Datasets:
annotations_creators:
- expert-generated
language_creators:
- other
language:
- pl
license:
- gpl-3.0
multilinguality:
- monolingual
size_categories:
- unknown
source_datasets:
- original
task_categories:
- other
task_ids:
- part-of-speech
pretty_name: nkjp-pos
tags:
- structure-prediction
nkjp-pos
Description
NKJP-POS is a part the National Corpus of Polish (Narodowy Korpus Języka Polskiego). Its objective is part-of-speech tagging, e.g. nouns, verbs, adjectives, adverbs, etc. During the creation of corpus, texts of were annotated by humans from various sources, covering many domains and genres.
Tasks (input, output and metrics)
Part-of-speech tagging (POS tagging) - tagging words in text with their corresponding part of speech.
Input ('tokens' column): sequence of tokens
Output ('pos_tags' column): sequence of predicted tokens’ classes (35 possible classes, described in detail in the annotation guidelines)
Measurements: F1-score (seqeval)
Example:
Input: ['Zarejestruj', 'się', 'jako', 'bezrobotny', '.']
Input (translated by DeepL): Register as unemployed.
Output: ['impt', 'qub', 'conj', 'subst', 'interp']
Data splits
Subset | Cardinality (sentences) |
---|---|
train | 78219 |
dev | 0 |
test | 7444 |
Class distribution
Class | train | dev | test |
---|---|---|---|
subst | 0.27345 | - | 0.27656 |
interp | 0.18101 | - | 0.17944 |
adj | 0.10611 | - | 0.10919 |
prep | 0.09567 | - | 0.09547 |
qub | 0.05670 | - | 0.05491 |
fin | 0.04939 | - | 0.04648 |
praet | 0.04409 | - | 0.04348 |
conj | 0.03711 | - | 0.03724 |
adv | 0.03512 | - | 0.03333 |
inf | 0.01591 | - | 0.01547 |
comp | 0.01476 | - | 0.01439 |
num | 0.01322 | - | 0.01436 |
ppron3 | 0.01111 | - | 0.01018 |
ppas | 0.01086 | - | 0.01085 |
ger | 0.00961 | - | 0.01050 |
brev | 0.00856 | - | 0.01181 |
ppron12 | 0.00670 | - | 0.00665 |
aglt | 0.00629 | - | 0.00602 |
pred | 0.00539 | - | 0.00540 |
pact | 0.00454 | - | 0.00452 |
bedzie | 0.00229 | - | 0.00243 |
pcon | 0.00218 | - | 0.00189 |
impt | 0.00203 | - | 0.00226 |
siebie | 0.00177 | - | 0.00158 |
imps | 0.00174 | - | 0.00177 |
interj | 0.00131 | - | 0.00102 |
xxx | 0.00070 | - | 0.00048 |
adjp | 0.00069 | - | 0.00065 |
winien | 0.00068 | - | 0.00057 |
adja | 0.00048 | - | 0.00058 |
pant | 0.00012 | - | 0.00018 |
burk | 0.00011 | - | 0.00006 |
numcol | 0.00011 | - | 0.00013 |
depr | 0.00010 | - | 0.00004 |
adjc | 0.00007 | - | 0.00008 |
Citation
@book{przepiorkowski_narodowy_2012,
title = {Narodowy korpus języka polskiego},
isbn = {978-83-01-16700-4},
language = {pl},
publisher = {Wydawnictwo Naukowe PWN},
editor = {Przepiórkowski, Adam and Bańko, Mirosław and Górski, Rafał L. and Lewandowska-Tomaszczyk, Barbara},
year = {2012}
}
License
GNU GPL v.3
Links
Examples
Loading
from pprint import pprint
from datasets import load_dataset
dataset = load_dataset("clarin-pl/nkjp-pos")
pprint(dataset['train'][5000])
# {'id': '130-2-900005_morph_49.49-s',
# 'pos_tags': [16, 4, 3, 30, 12, 18, 3, 16, 14, 6, 14, 26, 1, 30, 12],
# 'tokens': ['Najwyraźniej',
# 'źle',
# 'ocenił',
# 'odległość',
# ',',
# 'bo',
# 'zderzył',
# 'się',
# 'z',
# 'jadącą',
# 'z',
# 'naprzeciwka',
# 'ciężarową',
# 'scanią',
# '.']}
Evaluation
import random
from pprint import pprint
from datasets import load_dataset, load_metric
dataset = load_dataset("clarin-pl/nkjp-pos")
references = dataset["test"]["pos_tags"]
# generate random predictions
predictions = [
[
random.randrange(dataset["train"].features["pos_tags"].feature.num_classes)
for _ in range(len(labels))
]
for labels in references
]
# transform to original names of labels
references_named = [
[dataset["train"].features["pos_tags"].feature.names[label] for label in labels]
for labels in references
]
predictions_named = [
[dataset["train"].features["pos_tags"].feature.names[label] for label in labels]
for labels in predictions
]
# transform to BILOU scheme
references_named = [
[f"U-{label}" if label != "O" else label for label in labels]
for labels in references_named
]
predictions_named = [
[f"U-{label}" if label != "O" else label for label in labels]
for labels in predictions_named
]
# utilise seqeval to evaluate
seqeval = load_metric("seqeval")
seqeval_score = seqeval.compute(
predictions=predictions_named,
references=references_named,
scheme="BILOU",
mode="strict",
)
pprint(seqeval_score, depth=1)
# {'adj': {...},
# 'adja': {...},
# 'adjc': {...},
# 'adjp': {...},
# 'adv': {...},
# 'aglt': {...},
# 'bedzie': {...},
# 'brev': {...},
# 'burk': {...},
# 'comp': {...},
# 'conj': {...},
# 'depr': {...},
# 'fin': {...},
# 'ger': {...},
# 'imps': {...},
# 'impt': {...},
# 'inf': {...},
# 'interj': {...},
# 'interp': {...},
# 'num': {...},
# 'numcol': {...},
# 'overall_accuracy': 0.027855061488566583,
# 'overall_f1': 0.027855061488566583,
# 'overall_precision': 0.027855061488566583,
# 'overall_recall': 0.027855061488566583,
# 'pact': {...},
# 'pant': {...},
# 'pcon': {...},
# 'ppas': {...},
# 'ppron12': {...},
# 'ppron3': {...},
# 'praet': {...},
# 'pred': {...},
# 'prep': {...},
# 'qub': {...},
# 'siebie': {...},
# 'subst': {...},
# 'winien': {...},
# 'xxx': {...}}