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Update cantemist based on git version 3276470

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  1. README.md +58 -0
  2. bigbiohub.py +592 -0
  3. cantemist.py +381 -0
README.md ADDED
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1
+
2
+ ---
3
+ language:
4
+ - es
5
+ bigbio_language:
6
+ - Spanish
7
+ license: cc-by-4.0
8
+ multilinguality: monolingual
9
+ bigbio_license_shortname: CC_BY_4p0
10
+ pretty_name: CANTEMIST
11
+ homepage: https://temu.bsc.es/cantemist/?p=4338
12
+ bigbio_pubmed: False
13
+ bigbio_public: True
14
+ bigbio_tasks:
15
+ - NAMED_ENTITY_RECOGNITION
16
+ - NAMED_ENTITY_DISAMBIGUATION
17
+ - TEXT_CLASSIFICATION
18
+ ---
19
+
20
+
21
+ # Dataset Card for CANTEMIST
22
+
23
+ ## Dataset Description
24
+
25
+ - **Homepage:** https://temu.bsc.es/cantemist/?p=4338
26
+ - **Pubmed:** False
27
+ - **Public:** True
28
+ - **Tasks:** NER,NED,TXTCLASS
29
+
30
+
31
+ Collection of 1301 oncological clinical case reports written in Spanish, with tumor morphology mentions manually annotated and mapped by clinical experts to a controlled terminology. Every tumor morphology mention is linked to an eCIE-O code (the Spanish equivalent of ICD-O).
32
+
33
+ The original dataset is distributed in Brat format, and was randomly sampled into 3 subsets. The training, development and test sets contain 501, 500 and 300 documents each, respectively.
34
+
35
+ This dataset was designed for the CANcer TExt Mining Shared Task, sponsored by Plan-TL. The task is divided in 3 subtasks: CANTEMIST-NER, CANTEMIST_NORM and CANTEMIST-CODING.
36
+
37
+ CANTEMIST-NER track: requires finding automatically tumor morphology mentions. All tumor morphology mentions are defined by their corresponding character offsets in UTF-8 plain text medical documents.
38
+
39
+ CANTEMIST-NORM track: clinical concept normalization or named entity normalization task that requires to return all tumor morphology entity mentions together with their corresponding eCIE-O-3.1 codes i.e. finding and normalizing tumor morphology mentions.
40
+
41
+ CANTEMIST-CODING track: requires returning for each of document a ranked list of its corresponding ICD-O-3 codes. This it is essentially a sort of indexing or multi-label classification task or oncology clinical coding.
42
+
43
+ For further information, please visit https://temu.bsc.es/cantemist or send an email to [email protected]
44
+
45
+
46
+
47
+ ## Citation Information
48
+
49
+ ```
50
+ @article{miranda2020named,
51
+ title={Named Entity Recognition, Concept Normalization and Clinical Coding: Overview of the Cantemist Track for Cancer Text Mining in Spanish, Corpus, Guidelines, Methods and Results.},
52
+ author={Miranda-Escalada, Antonio and Farr{'e}, Eul{\`a}lia and Krallinger, Martin},
53
+ journal={IberLEF@ SEPLN},
54
+ pages={303--323},
55
+ year={2020}
56
+ }
57
+
58
+ ```
bigbiohub.py ADDED
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1
+ from collections import defaultdict
2
+ from dataclasses import dataclass
3
+ from enum import Enum
4
+ import logging
5
+ from pathlib import Path
6
+ from types import SimpleNamespace
7
+ from typing import TYPE_CHECKING, Dict, Iterable, List, Tuple
8
+
9
+ import datasets
10
+
11
+ if TYPE_CHECKING:
12
+ import bioc
13
+
14
+ logger = logging.getLogger(__name__)
15
+
16
+
17
+ BigBioValues = SimpleNamespace(NULL="<BB_NULL_STR>")
18
+
19
+
20
+ @dataclass
21
+ class BigBioConfig(datasets.BuilderConfig):
22
+ """BuilderConfig for BigBio."""
23
+
24
+ name: str = None
25
+ version: datasets.Version = None
26
+ description: str = None
27
+ schema: str = None
28
+ subset_id: str = None
29
+
30
+
31
+ class Tasks(Enum):
32
+ NAMED_ENTITY_RECOGNITION = "NER"
33
+ NAMED_ENTITY_DISAMBIGUATION = "NED"
34
+ EVENT_EXTRACTION = "EE"
35
+ RELATION_EXTRACTION = "RE"
36
+ COREFERENCE_RESOLUTION = "COREF"
37
+ QUESTION_ANSWERING = "QA"
38
+ TEXTUAL_ENTAILMENT = "TE"
39
+ SEMANTIC_SIMILARITY = "STS"
40
+ TEXT_PAIRS_CLASSIFICATION = "TXT2CLASS"
41
+ PARAPHRASING = "PARA"
42
+ TRANSLATION = "TRANSL"
43
+ SUMMARIZATION = "SUM"
44
+ TEXT_CLASSIFICATION = "TXTCLASS"
45
+
46
+
47
+ entailment_features = datasets.Features(
48
+ {
49
+ "id": datasets.Value("string"),
50
+ "premise": datasets.Value("string"),
51
+ "hypothesis": datasets.Value("string"),
52
+ "label": datasets.Value("string"),
53
+ }
54
+ )
55
+
56
+ pairs_features = datasets.Features(
57
+ {
58
+ "id": datasets.Value("string"),
59
+ "document_id": datasets.Value("string"),
60
+ "text_1": datasets.Value("string"),
61
+ "text_2": datasets.Value("string"),
62
+ "label": datasets.Value("string"),
63
+ }
64
+ )
65
+
66
+ qa_features = datasets.Features(
67
+ {
68
+ "id": datasets.Value("string"),
69
+ "question_id": datasets.Value("string"),
70
+ "document_id": datasets.Value("string"),
71
+ "question": datasets.Value("string"),
72
+ "type": datasets.Value("string"),
73
+ "choices": [datasets.Value("string")],
74
+ "context": datasets.Value("string"),
75
+ "answer": datasets.Sequence(datasets.Value("string")),
76
+ }
77
+ )
78
+
79
+ text_features = datasets.Features(
80
+ {
81
+ "id": datasets.Value("string"),
82
+ "document_id": datasets.Value("string"),
83
+ "text": datasets.Value("string"),
84
+ "labels": [datasets.Value("string")],
85
+ }
86
+ )
87
+
88
+ text2text_features = datasets.Features(
89
+ {
90
+ "id": datasets.Value("string"),
91
+ "document_id": datasets.Value("string"),
92
+ "text_1": datasets.Value("string"),
93
+ "text_2": datasets.Value("string"),
94
+ "text_1_name": datasets.Value("string"),
95
+ "text_2_name": datasets.Value("string"),
96
+ }
97
+ )
98
+
99
+ kb_features = datasets.Features(
100
+ {
101
+ "id": datasets.Value("string"),
102
+ "document_id": datasets.Value("string"),
103
+ "passages": [
104
+ {
105
+ "id": datasets.Value("string"),
106
+ "type": datasets.Value("string"),
107
+ "text": datasets.Sequence(datasets.Value("string")),
108
+ "offsets": datasets.Sequence([datasets.Value("int32")]),
109
+ }
110
+ ],
111
+ "entities": [
112
+ {
113
+ "id": datasets.Value("string"),
114
+ "type": datasets.Value("string"),
115
+ "text": datasets.Sequence(datasets.Value("string")),
116
+ "offsets": datasets.Sequence([datasets.Value("int32")]),
117
+ "normalized": [
118
+ {
119
+ "db_name": datasets.Value("string"),
120
+ "db_id": datasets.Value("string"),
121
+ }
122
+ ],
123
+ }
124
+ ],
125
+ "events": [
126
+ {
127
+ "id": datasets.Value("string"),
128
+ "type": datasets.Value("string"),
129
+ # refers to the text_bound_annotation of the trigger
130
+ "trigger": {
131
+ "text": datasets.Sequence(datasets.Value("string")),
132
+ "offsets": datasets.Sequence([datasets.Value("int32")]),
133
+ },
134
+ "arguments": [
135
+ {
136
+ "role": datasets.Value("string"),
137
+ "ref_id": datasets.Value("string"),
138
+ }
139
+ ],
140
+ }
141
+ ],
142
+ "coreferences": [
143
+ {
144
+ "id": datasets.Value("string"),
145
+ "entity_ids": datasets.Sequence(datasets.Value("string")),
146
+ }
147
+ ],
148
+ "relations": [
149
+ {
150
+ "id": datasets.Value("string"),
151
+ "type": datasets.Value("string"),
152
+ "arg1_id": datasets.Value("string"),
153
+ "arg2_id": datasets.Value("string"),
154
+ "normalized": [
155
+ {
156
+ "db_name": datasets.Value("string"),
157
+ "db_id": datasets.Value("string"),
158
+ }
159
+ ],
160
+ }
161
+ ],
162
+ }
163
+ )
164
+
165
+
166
+ TASK_TO_SCHEMA = {
167
+ Tasks.NAMED_ENTITY_RECOGNITION.name: "KB",
168
+ Tasks.NAMED_ENTITY_DISAMBIGUATION.name: "KB",
169
+ Tasks.EVENT_EXTRACTION.name: "KB",
170
+ Tasks.RELATION_EXTRACTION.name: "KB",
171
+ Tasks.COREFERENCE_RESOLUTION.name: "KB",
172
+ Tasks.QUESTION_ANSWERING.name: "QA",
173
+ Tasks.TEXTUAL_ENTAILMENT.name: "TE",
174
+ Tasks.SEMANTIC_SIMILARITY.name: "PAIRS",
175
+ Tasks.TEXT_PAIRS_CLASSIFICATION.name: "PAIRS",
176
+ Tasks.PARAPHRASING.name: "T2T",
177
+ Tasks.TRANSLATION.name: "T2T",
178
+ Tasks.SUMMARIZATION.name: "T2T",
179
+ Tasks.TEXT_CLASSIFICATION.name: "TEXT",
180
+ }
181
+
182
+ SCHEMA_TO_TASKS = defaultdict(set)
183
+ for task, schema in TASK_TO_SCHEMA.items():
184
+ SCHEMA_TO_TASKS[schema].add(task)
185
+ SCHEMA_TO_TASKS = dict(SCHEMA_TO_TASKS)
186
+
187
+ VALID_TASKS = set(TASK_TO_SCHEMA.keys())
188
+ VALID_SCHEMAS = set(TASK_TO_SCHEMA.values())
189
+
190
+ SCHEMA_TO_FEATURES = {
191
+ "KB": kb_features,
192
+ "QA": qa_features,
193
+ "TE": entailment_features,
194
+ "T2T": text2text_features,
195
+ "TEXT": text_features,
196
+ "PAIRS": pairs_features,
197
+ }
198
+
199
+
200
+ def get_texts_and_offsets_from_bioc_ann(ann: "bioc.BioCAnnotation") -> Tuple:
201
+
202
+ offsets = [(loc.offset, loc.offset + loc.length) for loc in ann.locations]
203
+
204
+ text = ann.text
205
+
206
+ if len(offsets) > 1:
207
+ i = 0
208
+ texts = []
209
+ for start, end in offsets:
210
+ chunk_len = end - start
211
+ texts.append(text[i : chunk_len + i])
212
+ i += chunk_len
213
+ while i < len(text) and text[i] == " ":
214
+ i += 1
215
+ else:
216
+ texts = [text]
217
+
218
+ return offsets, texts
219
+
220
+
221
+ def remove_prefix(a: str, prefix: str) -> str:
222
+ if a.startswith(prefix):
223
+ a = a[len(prefix) :]
224
+ return a
225
+
226
+
227
+ def parse_brat_file(
228
+ txt_file: Path,
229
+ annotation_file_suffixes: List[str] = None,
230
+ parse_notes: bool = False,
231
+ ) -> Dict:
232
+ """
233
+ Parse a brat file into the schema defined below.
234
+ `txt_file` should be the path to the brat '.txt' file you want to parse, e.g. 'data/1234.txt'
235
+ Assumes that the annotations are contained in one or more of the corresponding '.a1', '.a2' or '.ann' files,
236
+ e.g. 'data/1234.ann' or 'data/1234.a1' and 'data/1234.a2'.
237
+ Will include annotator notes, when `parse_notes == True`.
238
+ brat_features = datasets.Features(
239
+ {
240
+ "id": datasets.Value("string"),
241
+ "document_id": datasets.Value("string"),
242
+ "text": datasets.Value("string"),
243
+ "text_bound_annotations": [ # T line in brat, e.g. type or event trigger
244
+ {
245
+ "offsets": datasets.Sequence([datasets.Value("int32")]),
246
+ "text": datasets.Sequence(datasets.Value("string")),
247
+ "type": datasets.Value("string"),
248
+ "id": datasets.Value("string"),
249
+ }
250
+ ],
251
+ "events": [ # E line in brat
252
+ {
253
+ "trigger": datasets.Value(
254
+ "string"
255
+ ), # refers to the text_bound_annotation of the trigger,
256
+ "id": datasets.Value("string"),
257
+ "type": datasets.Value("string"),
258
+ "arguments": datasets.Sequence(
259
+ {
260
+ "role": datasets.Value("string"),
261
+ "ref_id": datasets.Value("string"),
262
+ }
263
+ ),
264
+ }
265
+ ],
266
+ "relations": [ # R line in brat
267
+ {
268
+ "id": datasets.Value("string"),
269
+ "head": {
270
+ "ref_id": datasets.Value("string"),
271
+ "role": datasets.Value("string"),
272
+ },
273
+ "tail": {
274
+ "ref_id": datasets.Value("string"),
275
+ "role": datasets.Value("string"),
276
+ },
277
+ "type": datasets.Value("string"),
278
+ }
279
+ ],
280
+ "equivalences": [ # Equiv line in brat
281
+ {
282
+ "id": datasets.Value("string"),
283
+ "ref_ids": datasets.Sequence(datasets.Value("string")),
284
+ }
285
+ ],
286
+ "attributes": [ # M or A lines in brat
287
+ {
288
+ "id": datasets.Value("string"),
289
+ "type": datasets.Value("string"),
290
+ "ref_id": datasets.Value("string"),
291
+ "value": datasets.Value("string"),
292
+ }
293
+ ],
294
+ "normalizations": [ # N lines in brat
295
+ {
296
+ "id": datasets.Value("string"),
297
+ "type": datasets.Value("string"),
298
+ "ref_id": datasets.Value("string"),
299
+ "resource_name": datasets.Value(
300
+ "string"
301
+ ), # Name of the resource, e.g. "Wikipedia"
302
+ "cuid": datasets.Value(
303
+ "string"
304
+ ), # ID in the resource, e.g. 534366
305
+ "text": datasets.Value(
306
+ "string"
307
+ ), # Human readable description/name of the entity, e.g. "Barack Obama"
308
+ }
309
+ ],
310
+ ### OPTIONAL: Only included when `parse_notes == True`
311
+ "notes": [ # # lines in brat
312
+ {
313
+ "id": datasets.Value("string"),
314
+ "type": datasets.Value("string"),
315
+ "ref_id": datasets.Value("string"),
316
+ "text": datasets.Value("string"),
317
+ }
318
+ ],
319
+ },
320
+ )
321
+ """
322
+
323
+ example = {}
324
+ example["document_id"] = txt_file.with_suffix("").name
325
+ with txt_file.open() as f:
326
+ example["text"] = f.read()
327
+
328
+ # If no specific suffixes of the to-be-read annotation files are given - take standard suffixes
329
+ # for event extraction
330
+ if annotation_file_suffixes is None:
331
+ annotation_file_suffixes = [".a1", ".a2", ".ann"]
332
+
333
+ if len(annotation_file_suffixes) == 0:
334
+ raise AssertionError(
335
+ "At least one suffix for the to-be-read annotation files should be given!"
336
+ )
337
+
338
+ ann_lines = []
339
+ for suffix in annotation_file_suffixes:
340
+ annotation_file = txt_file.with_suffix(suffix)
341
+ try:
342
+ with annotation_file.open() as f:
343
+ ann_lines.extend(f.readlines())
344
+ except Exception:
345
+ continue
346
+
347
+ example["text_bound_annotations"] = []
348
+ example["events"] = []
349
+ example["relations"] = []
350
+ example["equivalences"] = []
351
+ example["attributes"] = []
352
+ example["normalizations"] = []
353
+
354
+ if parse_notes:
355
+ example["notes"] = []
356
+
357
+ for line in ann_lines:
358
+ line = line.strip()
359
+ if not line:
360
+ continue
361
+
362
+ if line.startswith("T"): # Text bound
363
+ ann = {}
364
+ fields = line.split("\t")
365
+
366
+ ann["id"] = fields[0]
367
+ ann["type"] = fields[1].split()[0]
368
+ ann["offsets"] = []
369
+ span_str = remove_prefix(fields[1], (ann["type"] + " "))
370
+ text = fields[2]
371
+ for span in span_str.split(";"):
372
+ start, end = span.split()
373
+ ann["offsets"].append([int(start), int(end)])
374
+
375
+ # Heuristically split text of discontiguous entities into chunks
376
+ ann["text"] = []
377
+ if len(ann["offsets"]) > 1:
378
+ i = 0
379
+ for start, end in ann["offsets"]:
380
+ chunk_len = end - start
381
+ ann["text"].append(text[i : chunk_len + i])
382
+ i += chunk_len
383
+ while i < len(text) and text[i] == " ":
384
+ i += 1
385
+ else:
386
+ ann["text"] = [text]
387
+
388
+ example["text_bound_annotations"].append(ann)
389
+
390
+ elif line.startswith("E"):
391
+ ann = {}
392
+ fields = line.split("\t")
393
+
394
+ ann["id"] = fields[0]
395
+
396
+ ann["type"], ann["trigger"] = fields[1].split()[0].split(":")
397
+
398
+ ann["arguments"] = []
399
+ for role_ref_id in fields[1].split()[1:]:
400
+ argument = {
401
+ "role": (role_ref_id.split(":"))[0],
402
+ "ref_id": (role_ref_id.split(":"))[1],
403
+ }
404
+ ann["arguments"].append(argument)
405
+
406
+ example["events"].append(ann)
407
+
408
+ elif line.startswith("R"):
409
+ ann = {}
410
+ fields = line.split("\t")
411
+
412
+ ann["id"] = fields[0]
413
+ ann["type"] = fields[1].split()[0]
414
+
415
+ ann["head"] = {
416
+ "role": fields[1].split()[1].split(":")[0],
417
+ "ref_id": fields[1].split()[1].split(":")[1],
418
+ }
419
+ ann["tail"] = {
420
+ "role": fields[1].split()[2].split(":")[0],
421
+ "ref_id": fields[1].split()[2].split(":")[1],
422
+ }
423
+
424
+ example["relations"].append(ann)
425
+
426
+ # '*' seems to be the legacy way to mark equivalences,
427
+ # but I couldn't find any info on the current way
428
+ # this might have to be adapted dependent on the brat version
429
+ # of the annotation
430
+ elif line.startswith("*"):
431
+ ann = {}
432
+ fields = line.split("\t")
433
+
434
+ ann["id"] = fields[0]
435
+ ann["ref_ids"] = fields[1].split()[1:]
436
+
437
+ example["equivalences"].append(ann)
438
+
439
+ elif line.startswith("A") or line.startswith("M"):
440
+ ann = {}
441
+ fields = line.split("\t")
442
+
443
+ ann["id"] = fields[0]
444
+
445
+ info = fields[1].split()
446
+ ann["type"] = info[0]
447
+ ann["ref_id"] = info[1]
448
+
449
+ if len(info) > 2:
450
+ ann["value"] = info[2]
451
+ else:
452
+ ann["value"] = ""
453
+
454
+ example["attributes"].append(ann)
455
+
456
+ elif line.startswith("N"):
457
+ ann = {}
458
+ fields = line.split("\t")
459
+
460
+ ann["id"] = fields[0]
461
+ ann["text"] = fields[2]
462
+
463
+ info = fields[1].split()
464
+
465
+ ann["type"] = info[0]
466
+ ann["ref_id"] = info[1]
467
+ ann["resource_name"] = info[2].split(":")[0]
468
+ ann["cuid"] = info[2].split(":")[1]
469
+ example["normalizations"].append(ann)
470
+
471
+ elif parse_notes and line.startswith("#"):
472
+ ann = {}
473
+ fields = line.split("\t")
474
+
475
+ ann["id"] = fields[0]
476
+ ann["text"] = fields[2] if len(fields) == 3 else BigBioValues.NULL
477
+
478
+ info = fields[1].split()
479
+
480
+ ann["type"] = info[0]
481
+ ann["ref_id"] = info[1]
482
+ example["notes"].append(ann)
483
+
484
+ return example
485
+
486
+
487
+ def brat_parse_to_bigbio_kb(brat_parse: Dict) -> Dict:
488
+ """
489
+ Transform a brat parse (conforming to the standard brat schema) obtained with
490
+ `parse_brat_file` into a dictionary conforming to the `bigbio-kb` schema (as defined in ../schemas/kb.py)
491
+ :param brat_parse:
492
+ """
493
+
494
+ unified_example = {}
495
+
496
+ # Prefix all ids with document id to ensure global uniqueness,
497
+ # because brat ids are only unique within their document
498
+ id_prefix = brat_parse["document_id"] + "_"
499
+
500
+ # identical
501
+ unified_example["document_id"] = brat_parse["document_id"]
502
+ unified_example["passages"] = [
503
+ {
504
+ "id": id_prefix + "_text",
505
+ "type": "abstract",
506
+ "text": [brat_parse["text"]],
507
+ "offsets": [[0, len(brat_parse["text"])]],
508
+ }
509
+ ]
510
+
511
+ # get normalizations
512
+ ref_id_to_normalizations = defaultdict(list)
513
+ for normalization in brat_parse["normalizations"]:
514
+ ref_id_to_normalizations[normalization["ref_id"]].append(
515
+ {
516
+ "db_name": normalization["resource_name"],
517
+ "db_id": normalization["cuid"],
518
+ }
519
+ )
520
+
521
+ # separate entities and event triggers
522
+ unified_example["events"] = []
523
+ non_event_ann = brat_parse["text_bound_annotations"].copy()
524
+ for event in brat_parse["events"]:
525
+ event = event.copy()
526
+ event["id"] = id_prefix + event["id"]
527
+ trigger = next(
528
+ tr
529
+ for tr in brat_parse["text_bound_annotations"]
530
+ if tr["id"] == event["trigger"]
531
+ )
532
+ if trigger in non_event_ann:
533
+ non_event_ann.remove(trigger)
534
+ event["trigger"] = {
535
+ "text": trigger["text"].copy(),
536
+ "offsets": trigger["offsets"].copy(),
537
+ }
538
+ for argument in event["arguments"]:
539
+ argument["ref_id"] = id_prefix + argument["ref_id"]
540
+
541
+ unified_example["events"].append(event)
542
+
543
+ unified_example["entities"] = []
544
+ anno_ids = [ref_id["id"] for ref_id in non_event_ann]
545
+ for ann in non_event_ann:
546
+ entity_ann = ann.copy()
547
+ entity_ann["id"] = id_prefix + entity_ann["id"]
548
+ entity_ann["normalized"] = ref_id_to_normalizations[ann["id"]]
549
+ unified_example["entities"].append(entity_ann)
550
+
551
+ # massage relations
552
+ unified_example["relations"] = []
553
+ skipped_relations = set()
554
+ for ann in brat_parse["relations"]:
555
+ if (
556
+ ann["head"]["ref_id"] not in anno_ids
557
+ or ann["tail"]["ref_id"] not in anno_ids
558
+ ):
559
+ skipped_relations.add(ann["id"])
560
+ continue
561
+ unified_example["relations"].append(
562
+ {
563
+ "arg1_id": id_prefix + ann["head"]["ref_id"],
564
+ "arg2_id": id_prefix + ann["tail"]["ref_id"],
565
+ "id": id_prefix + ann["id"],
566
+ "type": ann["type"],
567
+ "normalized": [],
568
+ }
569
+ )
570
+ if len(skipped_relations) > 0:
571
+ example_id = brat_parse["document_id"]
572
+ logger.info(
573
+ f"Example:{example_id}: The `bigbio_kb` schema allows `relations` only between entities."
574
+ f" Skip (for now): "
575
+ f"{list(skipped_relations)}"
576
+ )
577
+
578
+ # get coreferences
579
+ unified_example["coreferences"] = []
580
+ for i, ann in enumerate(brat_parse["equivalences"], start=1):
581
+ is_entity_cluster = True
582
+ for ref_id in ann["ref_ids"]:
583
+ if not ref_id.startswith("T"): # not textbound -> no entity
584
+ is_entity_cluster = False
585
+ elif ref_id not in anno_ids: # event trigger -> no entity
586
+ is_entity_cluster = False
587
+ if is_entity_cluster:
588
+ entity_ids = [id_prefix + i for i in ann["ref_ids"]]
589
+ unified_example["coreferences"].append(
590
+ {"id": id_prefix + str(i), "entity_ids": entity_ids}
591
+ )
592
+ return unified_example
cantemist.py ADDED
@@ -0,0 +1,381 @@
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
1
+ # coding=utf-8
2
+ # Copyright 2022 The HuggingFace Datasets Authors and the current dataset script contributor.
3
+ #
4
+ # Licensed under the Apache License, Version 2.0 (the "License");
5
+ # you may not use this file except in compliance with the License.
6
+ # You may obtain a copy of the License at
7
+ #
8
+ # http://www.apache.org/licenses/LICENSE-2.0
9
+ #
10
+ # Unless required by applicable law or agreed to in writing, software
11
+ # distributed under the License is distributed on an "AS IS" BASIS,
12
+ # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13
+ # See the License for the specific language governing permissions and
14
+ # limitations under the License.
15
+
16
+ """
17
+ A dataset loading script for the CANTEMIST corpus.
18
+
19
+ The CANTEMIST datset is collection of 1301 oncological clinical case reports
20
+ written in Spanish, with tumor morphology mentions manually annotated and
21
+ mapped by clinical experts to a controlled terminology. Every tumor morphology
22
+ mention is linked to an eCIE-O code (the Spanish equivalent of ICD-O).
23
+ """
24
+
25
+ import csv
26
+ import os.path
27
+ from collections import defaultdict
28
+ from itertools import chain
29
+ from pathlib import Path
30
+ from typing import Dict, List, Tuple
31
+
32
+ import datasets
33
+
34
+ from .bigbiohub import kb_features
35
+ from .bigbiohub import text_features
36
+ from .bigbiohub import BigBioConfig
37
+ from .bigbiohub import Tasks
38
+ from .bigbiohub import parse_brat_file
39
+ from .bigbiohub import brat_parse_to_bigbio_kb
40
+
41
+
42
+ _LANGUAGES = ["Spanish"]
43
+ _PUBMED = False
44
+ _LOCAL = False
45
+ _CITATION = """\
46
+ @article{miranda2020named,
47
+ title={Named Entity Recognition, Concept Normalization and Clinical Coding: Overview of the Cantemist Track for Cancer Text Mining in Spanish, Corpus, Guidelines, Methods and Results.},
48
+ author={Miranda-Escalada, Antonio and Farr{\'e}, Eul{\`a}lia and Krallinger, Martin},
49
+ journal={IberLEF@ SEPLN},
50
+ pages={303--323},
51
+ year={2020}
52
+ }
53
+ """
54
+
55
+ _DATASETNAME = "cantemist"
56
+ _DISPLAYNAME = "CANTEMIST"
57
+
58
+ _DESCRIPTION = """\
59
+ Collection of 1301 oncological clinical case reports written in Spanish, with tumor morphology mentions \
60
+ manually annotated and mapped by clinical experts to a controlled terminology. Every tumor morphology \
61
+ mention is linked to an eCIE-O code (the Spanish equivalent of ICD-O).
62
+
63
+ The original dataset is distributed in Brat format, and was randomly sampled into 3 subsets. \
64
+ The training, development and test sets contain 501, 500 and 300 documents each, respectively.
65
+
66
+ This dataset was designed for the CANcer TExt Mining Shared Task, sponsored by Plan-TL. \
67
+ The task is divided in 3 subtasks: CANTEMIST-NER, CANTEMIST_NORM and CANTEMIST-CODING.
68
+
69
+ CANTEMIST-NER track: requires finding automatically tumor morphology mentions. All tumor morphology \
70
+ mentions are defined by their corresponding character offsets in UTF-8 plain text medical documents.
71
+
72
+ CANTEMIST-NORM track: clinical concept normalization or named entity normalization task that requires \
73
+ to return all tumor morphology entity mentions together with their corresponding eCIE-O-3.1 codes \
74
+ i.e. finding and normalizing tumor morphology mentions.
75
+
76
+ CANTEMIST-CODING track: requires returning for each of document a ranked list of its corresponding ICD-O-3 \
77
+ codes. This it is essentially a sort of indexing or multi-label classification task or oncology clinical coding.
78
+
79
+ For further information, please visit https://temu.bsc.es/cantemist or send an email to [email protected]
80
+ """
81
+
82
+ _HOMEPAGE = "https://temu.bsc.es/cantemist/?p=4338"
83
+
84
+ _LICENSE = "CC_BY_4p0"
85
+
86
+ _URLS = {
87
+ _DATASETNAME: "https://zenodo.org/records/3978041/files/cantemist.zip?download=1",
88
+ }
89
+
90
+ _SUPPORTED_TASKS = [
91
+ Tasks.NAMED_ENTITY_RECOGNITION,
92
+ Tasks.NAMED_ENTITY_DISAMBIGUATION,
93
+ Tasks.TEXT_CLASSIFICATION,
94
+ ]
95
+
96
+ _SOURCE_VERSION = "1.6.0"
97
+
98
+ _BIGBIO_VERSION = "1.0.0"
99
+
100
+
101
+ class CantemistDataset(datasets.GeneratorBasedBuilder):
102
+ """Manually annotated collection of oncological clinical case reports written in Spanish."""
103
+
104
+ SOURCE_VERSION = datasets.Version(_SOURCE_VERSION)
105
+ BIGBIO_VERSION = datasets.Version(_BIGBIO_VERSION)
106
+
107
+ BUILDER_CONFIGS = [
108
+ BigBioConfig(
109
+ name="cantemist_source",
110
+ version=SOURCE_VERSION,
111
+ description="CANTEMIST source schema",
112
+ schema="source",
113
+ subset_id="cantemist",
114
+ ),
115
+ BigBioConfig(
116
+ name="cantemist_bigbio_kb",
117
+ version=BIGBIO_VERSION,
118
+ description="CANTEMIST BigBio schema for the NER and NED tasks",
119
+ schema="bigbio_kb",
120
+ subset_id="subtracks_1_2",
121
+ ),
122
+ BigBioConfig(
123
+ name="cantemist_bigbio_text",
124
+ version=BIGBIO_VERSION,
125
+ description="CANTEMIST BigBio schema for the CODING task",
126
+ schema="bigbio_text",
127
+ subset_id="subtrack_3",
128
+ ),
129
+ ]
130
+
131
+ DEFAULT_CONFIG_NAME = "cantemist_source"
132
+
133
+ def _info(self) -> datasets.DatasetInfo:
134
+
135
+ if self.config.schema == "source":
136
+ features = datasets.Features(
137
+ {
138
+ "id": datasets.Value("string"),
139
+ "document_id": datasets.Value("string"),
140
+ "text": datasets.Value("string"),
141
+ "labels": [datasets.Value("string")], # subtrack 3 codes
142
+ "text_bound_annotations": [ # T line in brat
143
+ {
144
+ "offsets": datasets.Sequence([datasets.Value("int32")]),
145
+ "text": datasets.Sequence(datasets.Value("string")),
146
+ "type": datasets.Value("string"),
147
+ "id": datasets.Value("string"),
148
+ }
149
+ ],
150
+ "events": [ # E line in brat
151
+ {
152
+ "trigger": datasets.Value("string"),
153
+ "id": datasets.Value("string"),
154
+ "type": datasets.Value("string"),
155
+ "arguments": datasets.Sequence(
156
+ {
157
+ "role": datasets.Value("string"),
158
+ "ref_id": datasets.Value("string"),
159
+ }
160
+ ),
161
+ }
162
+ ],
163
+ "relations": [ # R line in brat
164
+ {
165
+ "id": datasets.Value("string"),
166
+ "head": {
167
+ "ref_id": datasets.Value("string"),
168
+ "role": datasets.Value("string"),
169
+ },
170
+ "tail": {
171
+ "ref_id": datasets.Value("string"),
172
+ "role": datasets.Value("string"),
173
+ },
174
+ "type": datasets.Value("string"),
175
+ }
176
+ ],
177
+ "equivalences": [ # Equiv line in brat
178
+ {
179
+ "id": datasets.Value("string"),
180
+ "ref_ids": datasets.Sequence(datasets.Value("string")),
181
+ }
182
+ ],
183
+ "attributes": [ # M or A lines in brat
184
+ {
185
+ "id": datasets.Value("string"),
186
+ "type": datasets.Value("string"),
187
+ "ref_id": datasets.Value("string"),
188
+ "value": datasets.Value("string"),
189
+ }
190
+ ],
191
+ "normalizations": [ # N lines in brat
192
+ {
193
+ "id": datasets.Value("string"),
194
+ "type": datasets.Value("string"),
195
+ "ref_id": datasets.Value("string"),
196
+ "resource_name": datasets.Value("string"),
197
+ "cuid": datasets.Value("string"),
198
+ "text": datasets.Value("string"),
199
+ }
200
+ ],
201
+ "notes": [ # # lines in brat
202
+ {
203
+ "id": datasets.Value("string"),
204
+ "type": datasets.Value("string"),
205
+ "ref_id": datasets.Value("string"),
206
+ "text": datasets.Value("string"),
207
+ }
208
+ ],
209
+ },
210
+ )
211
+
212
+ elif self.config.schema == "bigbio_kb":
213
+ features = kb_features
214
+
215
+ elif self.config.schema == "bigbio_text":
216
+ features = text_features
217
+
218
+ return datasets.DatasetInfo(
219
+ description=_DESCRIPTION,
220
+ features=features,
221
+ homepage=_HOMEPAGE,
222
+ license=str(_LICENSE),
223
+ citation=_CITATION,
224
+ )
225
+
226
+ def _split_generators(self, dl_manager) -> List[datasets.SplitGenerator]:
227
+ """
228
+ Downloads/extracts the data to generate the train, validation and test splits.
229
+
230
+ Each split is created by instantiating a `datasets.SplitGenerator`, which will
231
+ call `this._generate_examples` with the keyword arguments in `gen_kwargs`.
232
+ """
233
+
234
+ data_dir = dl_manager.download_and_extract(_URLS[_DATASETNAME])
235
+
236
+ return [
237
+ datasets.SplitGenerator(
238
+ name=datasets.Split.TRAIN,
239
+ gen_kwargs={
240
+ "filepaths": {
241
+ "task1": dl_manager.iter_files(
242
+ os.path.join(data_dir, "train-set", "cantemist-ner")
243
+ ),
244
+ "task2": dl_manager.iter_files(
245
+ os.path.join(data_dir, "train-set", "cantemist-norm")
246
+ ),
247
+ "task3": [
248
+ os.path.join(
249
+ data_dir,
250
+ "train-set",
251
+ "cantemist-coding",
252
+ "train-coding.tsv",
253
+ )
254
+ ],
255
+ },
256
+ },
257
+ ),
258
+ datasets.SplitGenerator(
259
+ name=datasets.Split.TEST,
260
+ gen_kwargs={
261
+ "filepaths": {
262
+ "task1": dl_manager.iter_files(
263
+ os.path.join(data_dir, "test-set", "cantemist-ner")
264
+ ),
265
+ "task2": dl_manager.iter_files(
266
+ os.path.join(data_dir, "test-set", "cantemist-norm")
267
+ ),
268
+ "task3": [
269
+ os.path.join(
270
+ data_dir,
271
+ "test-set",
272
+ "cantemist-coding",
273
+ "test-coding.tsv",
274
+ )
275
+ ],
276
+ },
277
+ },
278
+ ),
279
+ datasets.SplitGenerator(
280
+ name=datasets.Split.VALIDATION,
281
+ gen_kwargs={
282
+ "filepaths": {
283
+ "task1": chain(
284
+ dl_manager.iter_files(
285
+ os.path.join(data_dir, "dev-set1", "cantemist-ner")
286
+ ),
287
+ dl_manager.iter_files(
288
+ os.path.join(data_dir, "dev-set2", "cantemist-ner")
289
+ ),
290
+ ),
291
+ "task2": chain(
292
+ dl_manager.iter_files(
293
+ os.path.join(data_dir, "dev-set1", "cantemist-norm")
294
+ ),
295
+ dl_manager.iter_files(
296
+ os.path.join(data_dir, "dev-set2", "cantemist-norm")
297
+ ),
298
+ ),
299
+ "task3": [
300
+ os.path.join(
301
+ data_dir,
302
+ "dev-set1",
303
+ "cantemist-coding",
304
+ "dev1-coding.tsv",
305
+ ),
306
+ os.path.join(
307
+ data_dir,
308
+ "dev-set2",
309
+ "cantemist-coding",
310
+ "dev2-coding.tsv",
311
+ ),
312
+ ],
313
+ },
314
+ },
315
+ ),
316
+ ]
317
+
318
+ def _generate_examples(self, filepaths) -> Tuple[int, Dict]:
319
+ """
320
+ This method handles input defined in _split_generators to yield (key, example) tuples from the dataset.
321
+ Method parameters are unpacked from `gen_kwargs` as given in `_split_generators`.
322
+ """
323
+
324
+ if self.config.schema == "source" or self.config.schema == "bigbio_text":
325
+ task3_dict = defaultdict(list)
326
+ for file_path in filepaths["task3"]:
327
+ with open(file_path, newline="", encoding="utf-8") as f:
328
+ reader = csv.DictReader(f, delimiter="\t")
329
+ for row in reader:
330
+ task3_dict[row["file"]].append(row["code"])
331
+
332
+ if self.config.schema == "source":
333
+ for guid, file_path in enumerate(filepaths["task2"]):
334
+ if os.path.splitext(file_path)[-1] != ".txt":
335
+ continue
336
+ example = parse_brat_file(
337
+ Path(file_path), annotation_file_suffixes=[".ann"], parse_notes=True
338
+ )
339
+ # consider few cases where subtrack 3 has no codes for the current document
340
+ example["labels"] = task3_dict.get(example["document_id"], [])
341
+ example["id"] = str(guid)
342
+ yield guid, example
343
+
344
+ elif self.config.schema == "bigbio_kb":
345
+ for guid, file_path in enumerate(filepaths["task2"]):
346
+ if os.path.splitext(file_path)[-1] != ".txt":
347
+ continue
348
+ parsed_brat = parse_brat_file(
349
+ Path(file_path), annotation_file_suffixes=[".ann"], parse_notes=True
350
+ )
351
+ example = brat_parse_to_bigbio_kb(parsed_brat)
352
+ example["id"] = str(guid)
353
+ for i in range(0, len(example["entities"])):
354
+ normalized_dict = {
355
+ "db_id": parsed_brat["notes"][i]["text"],
356
+ "db_name": "eCIE-O-3.1",
357
+ }
358
+ example["entities"][i]["normalized"].append(normalized_dict)
359
+ yield guid, example
360
+
361
+ elif self.config.schema == "bigbio_text":
362
+ for guid, file_path in enumerate(filepaths["task1"]):
363
+ if os.path.splitext(file_path)[-1] != ".txt":
364
+ continue
365
+ parsed_brat = parse_brat_file(
366
+ Path(file_path),
367
+ annotation_file_suffixes=[".ann"],
368
+ parse_notes=False,
369
+ )
370
+ # consider few cases where subtrack 3 has no codes for the current document
371
+ labels = task3_dict.get(parsed_brat["document_id"], [])
372
+ example = {
373
+ "id": str(guid),
374
+ "document_id": parsed_brat["document_id"],
375
+ "text": parsed_brat["text"],
376
+ "labels": labels,
377
+ }
378
+ yield guid, example
379
+
380
+ else:
381
+ raise ValueError(f"Invalid config: {self.config.name}")