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"""Metaphor corpus KOMET 1.0""" |
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import os |
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import re |
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import xml.etree.ElementTree as ET |
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from typing import List, Tuple |
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import datasets |
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_CITATION = """\ |
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@InProceedings{antloga2020komet, |
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title = {Korpus metafor KOMET 1.0}, |
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author={Antloga, \v{S}pela}, |
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booktitle={Proceedings of the Conference on Language Technologies and Digital Humanities (Student abstracts)}, |
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year={2020}, |
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pages={167-170} |
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} |
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""" |
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_DESCRIPTION = """\ |
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KOMET 1.0 is a hand-annotated corpus for metaphorical expressions which contains about 200,000 words from |
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Slovene journalistic, fiction and on-line texts. |
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To annotate metaphors in the corpus an adapted and modified procedure of the MIPVU protocol |
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(Steen et al., 2010: A method for linguistic metaphor identification: From MIP to MIPVU, https://www.benjamins.com/catalog/celcr.14) |
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was used. The lexical units (words) whose contextual meanings are opposed to their basic meanings are considered |
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metaphor-related words. The basic and contextual meaning for each word in the corpus was identified using the |
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Dictionary of the standard Slovene Language. The corpus was annotated for the metaphoric following relations: |
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indirect metaphor (MRWi), direct metaphor (MRWd), borderline case (WIDLI) and metaphor signal (MFlag). |
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In addition, the corpus introduces a new 'frame' tag, which gives information about the concept to which it refers. |
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""" |
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_HOMEPAGE = "http://hdl.handle.net/11356/1293" |
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_LICENSE = "Creative Commons - Attribution-ShareAlike 4.0 International (CC BY-SA 4.0)" |
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_URLS = { |
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"komet": "https://www.clarin.si/repository/xmlui/bitstream/handle/11356/1293/komet.tei.zip" |
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} |
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XML_NAMESPACE = "{http://www.w3.org/XML/1998/namespace}" |
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EL_LEAF, EL_TYPE, EL_FRAME = range(3) |
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def namespace(element): |
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m = re.match(r'\{.*\}', element.tag) |
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return m.group(0) if m else '' |
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def word_info(sent_el): |
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def _resolve_recursively(element) -> List: |
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""" Knowingly ignored tags: name (anonymized, without IDs), gap, vocal, pause, del, |
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linkGrp (syntactic dependencies) """ |
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if element.tag.endswith(("w", "pc")): |
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id_curr = element.attrib[f"{XML_NAMESPACE}id"] |
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return [(id_curr, element.text)] |
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elif element.tag.endswith("seg"): |
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parsed_data = [] |
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for child in element: |
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if child.tag.endswith("c") and not child.tag.endswith("pc"): |
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continue |
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res = _resolve_recursively(child) |
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if isinstance(res, list): |
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parsed_data.extend(res) |
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else: |
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parsed_data.append(res) |
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return parsed_data |
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id_words, words = [], [] |
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for child_el in sent_el: |
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curr_annotations = _resolve_recursively(child_el) |
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if curr_annotations is not None: |
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for ann in curr_annotations: |
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id_words.append(ann[0]) |
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words.append(ann[1]) |
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return id_words, words |
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def seg_info(sent_el): |
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def _resolve_recursively(element) -> Tuple: |
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""" Returns (type[, subtype], deeper_elements, latest_element)""" |
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if element.tag.endswith(("w", "pc")): |
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id_curr = element.attrib[f"{XML_NAMESPACE}id"] |
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return EL_LEAF, [], [id_curr] |
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elif element.tag.endswith("seg"): |
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if element.attrib["subtype"] == "frame": |
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ann_type, subtype = EL_FRAME, element.attrib["ana"] |
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if subtype.startswith("#met."): |
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subtype = subtype[5:] |
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elif element.attrib["type"] == "metaphor": |
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ann_type = EL_TYPE |
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subtype = element.attrib["subtype"] |
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else: |
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raise ValueError(f"Unrecognized seg type: {element.attrib['type']}") |
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deeper_elements = [] |
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latest_element = [] |
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for child in element: |
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if child.tag.endswith("c") and not child.tag.endswith("pc"): |
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continue |
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res = _resolve_recursively(child) |
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if res[0] == EL_LEAF: |
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latest_element.extend(res[2]) |
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else: |
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deeper_elements.extend(res[2]) |
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deeper_elements.append((res[0], res[1], res[3])) |
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latest_element.extend(res[3]) |
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return ann_type, subtype, deeper_elements, latest_element |
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annotations = [] |
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for child_el in sent_el: |
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if not child_el.tag.endswith("seg"): |
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continue |
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ann_type, subtype, deeper_elements, latest_element = _resolve_recursively(child_el) |
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annotations.extend(deeper_elements) |
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annotations.append((ann_type, subtype, latest_element)) |
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return annotations |
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class Komet(datasets.GeneratorBasedBuilder): |
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"""KOMET is a hand-annotated Slovenian corpus of metaphorical expressions.""" |
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VERSION = datasets.Version("1.0.0") |
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def _info(self): |
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features = datasets.Features( |
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{ |
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"document_name": datasets.Value("string"), |
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"idx": datasets.Value("uint32"), |
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"idx_paragraph": datasets.Value("uint32"), |
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"idx_sentence": datasets.Value("uint32"), |
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"sentence_words": datasets.Sequence(datasets.Value("string")), |
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"met_type": [{ |
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"type": datasets.Value("string"), |
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"word_indices": datasets.Sequence(datasets.Value("uint32")) |
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}], |
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"met_frame": [{ |
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"type": datasets.Value("string"), |
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"word_indices": datasets.Sequence(datasets.Value("uint32")) |
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}] |
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} |
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) |
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return datasets.DatasetInfo( |
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description=_DESCRIPTION, |
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features=features, |
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homepage=_HOMEPAGE, |
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license=_LICENSE, |
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citation=_CITATION, |
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) |
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def _split_generators(self, dl_manager): |
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data_dir = dl_manager.download_and_extract(_URLS["komet"]) |
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return [ |
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datasets.SplitGenerator( |
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name=datasets.Split.TRAIN, |
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gen_kwargs={"data_dir": os.path.join(data_dir, "komet.tei")}, |
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) |
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] |
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def _generate_examples(self, data_dir): |
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data_files = [] |
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for fname in os.listdir(data_dir): |
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curr_path = os.path.join(data_dir, fname) |
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if os.path.isfile(curr_path) and fname.endswith(".xml") and fname != "komet.xml": |
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data_files.append(fname) |
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data_files = sorted(data_files) |
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idx_example = 0 |
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for fname in data_files: |
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fpath = os.path.join(data_dir, fname) |
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curr_doc = ET.parse(fpath) |
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root = curr_doc.getroot() |
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NAMESPACE = namespace(root) |
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idx_sent_glob = 0 |
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for idx_par, curr_par in enumerate(root.iterfind(f".//{NAMESPACE}p")): |
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id2position = {} |
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all_words = [] |
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for idx_sent, curr_sent in enumerate(curr_par.iterfind(f"{NAMESPACE}s")): |
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id_words, words = word_info(curr_sent) |
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id2position[idx_sent] = dict(zip(id_words, range(len(words)))) |
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all_words.append(words) |
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all_types, all_frames = [], [] |
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for idx_sent, curr_sent in enumerate(curr_par.iterfind(f"{NAMESPACE}s")): |
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annotated_segs = seg_info(curr_sent) |
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all_types.append([]) |
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all_frames.append([]) |
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for curr_ann in annotated_segs: |
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ann_type, ann_subtype, words_involved = curr_ann |
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if ann_type == EL_TYPE: |
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all_types[idx_sent].append({ |
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"type": ann_subtype, |
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"word_indices": [id2position[idx_sent][_id_word] for _id_word in words_involved |
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if _id_word in id2position[idx_sent]] |
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}) |
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elif ann_type == EL_FRAME: |
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all_frames[idx_sent].append({ |
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"type": ann_subtype, |
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"word_indices": [id2position[idx_sent][_id_word] for _id_word in words_involved |
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if _id_word in id2position[idx_sent]] |
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}) |
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idx_sent = 0 |
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for curr_words, curr_types, curr_frames in zip(all_words, all_types, all_frames): |
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if len(curr_words) == 0: |
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continue |
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yield idx_example, { |
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"document_name": fname, |
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"idx": idx_sent_glob, |
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"idx_paragraph": idx_par, |
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"idx_sentence": idx_sent, |
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"sentence_words": curr_words, |
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"met_type": curr_types, |
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"met_frame": curr_frames |
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} |
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idx_example += 1 |
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idx_sent += 1 |
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idx_sent_glob += 1 |
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