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import os |
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import re |
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from typing import Dict, Iterable, List, Optional, Tuple |
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import json |
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import random |
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import argparse |
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from allennlp.data.fields.field import Field |
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from allennlp.data.fields.sequence_field import SequenceField |
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from allennlp.models.model import Model |
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from allennlp.nn.util import get_text_field_mask |
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from allennlp.predictors.predictor import Predictor |
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import pandas as pd |
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import spacy |
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import torch |
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from sklearn.preprocessing import MultiLabelBinarizer |
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from allennlp.common.util import pad_sequence_to_length |
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from allennlp.data import TextFieldTensors |
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from allennlp.data.vocabulary import Vocabulary |
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from allennlp.data import DatasetReader, TokenIndexer, Instance, Token |
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from allennlp.data.fields import TextField, LabelField |
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from allennlp.data.token_indexers.pretrained_transformer_indexer import ( |
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PretrainedTransformerIndexer, |
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) |
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from allennlp.data.tokenizers.pretrained_transformer_tokenizer import ( |
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PretrainedTransformerTokenizer, |
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) |
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from allennlp.models import BasicClassifier |
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from allennlp.modules.text_field_embedders.basic_text_field_embedder import ( |
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BasicTextFieldEmbedder, |
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) |
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from allennlp.modules.token_embedders.pretrained_transformer_embedder import ( |
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PretrainedTransformerEmbedder, |
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) |
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from allennlp.modules.seq2vec_encoders.bert_pooler import BertPooler |
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from allennlp.modules.seq2vec_encoders.cls_pooler import ClsPooler |
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from allennlp.training.checkpointer import Checkpointer |
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from allennlp.training.gradient_descent_trainer import GradientDescentTrainer |
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from allennlp.data.data_loaders.simple_data_loader import SimpleDataLoader |
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from allennlp.training.optimizers import AdamOptimizer |
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from allennlp.predictors.text_classifier import TextClassifierPredictor |
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from allennlp.training.callbacks.tensorboard import TensorBoardCallback |
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from torch import nn |
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from torch.nn.functional import binary_cross_entropy_with_logits |
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random.seed(1986) |
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SEQ_LABELS = ["humansMentioned", "vehiclesMentioned", "eventVerb", "activeEventVerb"] |
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class SequenceMultiLabelField(Field): |
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def __init__(self, |
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labels: List[List[str]], |
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sequence_field: SequenceField, |
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binarizer: MultiLabelBinarizer, |
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label_namespace: str |
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): |
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self.labels = labels |
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self._indexed_labels = None |
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self._label_namespace = label_namespace |
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self.sequence_field = sequence_field |
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self.binarizer = binarizer |
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@staticmethod |
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def retokenize_tags(tags: List[List[str]], |
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offsets: List[Tuple[int, int]], |
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wp_primary_token: str = "last", |
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wp_secondary_tokens: str = "empty", |
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empty_value=lambda: [] |
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) -> List[List[str]]: |
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tags_per_wordpiece = [ |
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empty_value() |
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] |
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for i, (off_start, off_end) in enumerate(offsets): |
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tag = tags[i] |
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num_extra_tokens = off_end - off_start |
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if wp_primary_token == "first": |
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tags_per_wordpiece.append(tag) |
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if wp_secondary_tokens == "repeat": |
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tags_per_wordpiece.extend(num_extra_tokens * [tag]) |
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else: |
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tags_per_wordpiece.extend(num_extra_tokens * [empty_value()]) |
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if wp_primary_token == "last": |
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tags_per_wordpiece.append(tag) |
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tags_per_wordpiece.append(empty_value()) |
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return tags_per_wordpiece |
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def count_vocab_items(self, counter: Dict[str, Dict[str, int]]): |
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for label_list in self.labels: |
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for label in label_list: |
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counter[self._label_namespace][label] += 1 |
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def get_padding_lengths(self) -> Dict[str, int]: |
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return {"num_tokens": self.sequence_field.sequence_length()} |
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def index(self, vocab: Vocabulary): |
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indexed_labels: List[List[int]] = [] |
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for sentence_labels in self.labels: |
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sentence_indexed_labels = [] |
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for label in sentence_labels: |
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try: |
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sentence_indexed_labels.append( |
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vocab.get_token_index(label, self._label_namespace)) |
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except KeyError: |
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print(f"[WARNING] Ignore unknown label {label}") |
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indexed_labels.append(sentence_indexed_labels) |
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self._indexed_labels = indexed_labels |
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def as_tensor(self, padding_lengths: Dict[str, int]) -> torch.Tensor: |
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binarized_seq = self.binarizer.transform(self._indexed_labels).tolist() |
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desired_num_tokens = padding_lengths["num_tokens"] |
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padded_tags = pad_sequence_to_length(binarized_seq, desired_num_tokens, |
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default_value=lambda: list(self.binarizer.transform([[]])[0])) |
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tensor = torch.tensor(padded_tags, dtype=torch.float) |
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return tensor |
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def empty_field(self) -> 'Field': |
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field = SequenceMultiLabelField( |
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[], self.sequence_field.empty_field(), self.binarizer, self._label_namespace) |
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field._indexed_labels = [] |
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return field |
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class MultiSequenceLabelModel(Model): |
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def __init__(self, embedder: PretrainedTransformerEmbedder, decoder_output_size: int, hidden_size: int, vocab: Vocabulary, embedding_size: int = 768): |
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super().__init__(vocab) |
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self.embedder = embedder |
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self.out_features = decoder_output_size |
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self.hidden_size = hidden_size |
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self.layers = nn.Sequential( |
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nn.Linear(in_features=embedding_size, |
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out_features=self.hidden_size), |
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nn.ReLU(), |
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nn.Linear(in_features=self.hidden_size, |
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out_features=self.out_features) |
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) |
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def forward(self, tokens: TextFieldTensors, label: Optional[torch.FloatTensor] = None): |
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embeddings = self.embedder(tokens["token_ids"]) |
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mask = get_text_field_mask(tokens).float() |
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tag_logits = self.layers(embeddings) |
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mask = mask.reshape(mask.shape[0], mask.shape[1], 1).repeat(1, 1, self.out_features) |
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output = {"tag_logits": tag_logits} |
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if label is not None: |
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loss = binary_cross_entropy_with_logits(tag_logits, label, mask) |
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output["loss"] = loss |
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def get_metrics(self, _) -> Dict[str, float]: |
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return {} |
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def make_human_readable(self, |
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prediction, |
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label_namespace, |
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threshold=0.2, |
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sigmoid=True |
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) -> Tuple[List[str], Optional[List[float]]]: |
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if sigmoid: |
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prediction = torch.sigmoid(prediction) |
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predicted_labels: List[List[str]] = [[] for _ in range(len(prediction))] |
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for coord in torch.nonzero(prediction > threshold): |
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label = self.vocab.get_token_from_index(int(coord[1]), label_namespace) |
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predicted_labels[coord[0]].append(f"{label}:{prediction[coord[0], coord[1]]:.3f}") |
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str_predictions: List[str] = [] |
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for label_list in predicted_labels: |
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str_predictions.append("|".join(label_list) or "_") |
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return str_predictions |
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class TrafficBechdelReader(DatasetReader): |
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def __init__(self, token_indexers, tokenizer, binarizer): |
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self.token_indexers = token_indexers |
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self.tokenizer: PretrainedTransformerTokenizer = tokenizer |
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self.binarizer = binarizer |
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self.orig_data = [] |
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super().__init__() |
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def _read(self, file_path) -> Iterable[Instance]: |
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self.orig_data.clear() |
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with open(file_path, encoding="utf-8") as f: |
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for line in f: |
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if not line.strip(): |
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continue |
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sentence_parts = line.lstrip("[").rstrip("]").split(",") |
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token_txts = [] |
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token_mlabels = [] |
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for sp in sentence_parts: |
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sp_txt, sp_lbl_str = sp.split(":") |
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if sp_lbl_str == "[]": |
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sp_lbls = [] |
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else: |
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sp_lbls = sp_lbl_str.lstrip("[").rstrip("]").split("|") |
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wn_match = re.match(r"^(.+)-n-\d+$", sp_txt) |
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if wn_match: |
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sp_txt = wn_match.group(1) |
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sp_toks = sp_txt.split() |
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for tok in sp_toks: |
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token_txts.append(tok) |
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token_mlabels.append(sp_lbls) |
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self.orig_data.append({ |
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"sentence": token_txts, |
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"labels": token_mlabels, |
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}) |
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yield self.text_to_instance(token_txts, token_mlabels) |
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def text_to_instance(self, sentence: List[str], labels: List[List[str]] = None) -> Instance: |
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tokens, offsets = self.tokenizer.intra_word_tokenize(sentence) |
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text_field = TextField(tokens, self.token_indexers) |
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fields = {"tokens": text_field} |
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if labels is not None: |
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labels_ = SequenceMultiLabelField.retokenize_tags(labels, offsets) |
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label_field = SequenceMultiLabelField(labels_, text_field, self.binarizer, "labels") |
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fields["label"] = label_field |
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return Instance(fields) |
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def count_parties(sentence, lexical_dicts, nlp): |
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num_humans = 0 |
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num_vehicles = 0 |
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def is_in_words(l, category): |
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for subcategory, words in lexical_dicts[category].items(): |
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if subcategory.startswith("WN:"): |
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words = [re.match(r"^(.+)-n-\d+$", w).group(1) for w in words] |
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if l in words: |
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return True |
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return False |
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doc = nlp(sentence.lower()) |
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for token in doc: |
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lemma = token.lemma_ |
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if is_in_words(lemma, "persons"): |
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num_humans += 1 |
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if is_in_words(lemma, "vehicles"): |
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num_vehicles += 1 |
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return num_humans, num_vehicles |
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def predict_rule_based(annotations="data/crashes/bechdel_annotations_dev_first_25.csv"): |
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data_crashes = pd.read_csv(annotations) |
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with open("output/crashes/predict_bechdel/lexical_dicts.json", encoding="utf-8") as f: |
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lexical_dicts = json.load(f) |
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nlp = spacy.load("nl_core_news_md") |
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for _, row in data_crashes.iterrows(): |
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sentence = row["sentence"] |
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num_humans, num_vehicles = count_parties(sentence, lexical_dicts, nlp) |
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print(sentence) |
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print(f"\thumans={num_humans}, vehicles={num_vehicles}") |
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def evaluate_crashes(predictor, attrib, annotations="data/crashes/bechdel_annotations_dev_first_25.csv", out_file="output/crashes/predict_bechdel/predictions_crashes25.csv"): |
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data_crashes = pd.read_csv(annotations) |
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labels_crashes = [ |
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{ |
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"party_mentioned": str(row["mentioned"]), |
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"party_human": str(row["as_human"]), |
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"active": str(True) if str(row["active"]).lower() == "true" else str(False) |
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} |
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for _, row in data_crashes.iterrows() |
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] |
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predictions_crashes = [predictor.predict( |
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row["sentence"]) for i, row in data_crashes.iterrows()] |
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crashes_out = [] |
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correct = 0 |
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partial_2_attrs = 0 |
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partial_1_attr = 0 |
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correct_mentions = 0 |
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correct_humans = 0 |
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correct_active = 0 |
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for sentence, label, prediction in zip(data_crashes["sentence"], labels_crashes, predictions_crashes): |
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predicted = prediction["label"] |
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if attrib == "all": |
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gold = "|".join([f"{k}={v}" for k, v in label.items()]) |
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else: |
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gold = label["attrib"] |
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if gold == predicted: |
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correct += 1 |
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if attrib == "all": |
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partial_2_attrs += 1 |
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partial_1_attr += 1 |
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if attrib == "all": |
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gold_attrs = set(gold.split("|")) |
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pred_attrs = set(predicted.split("|")) |
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if len(gold_attrs & pred_attrs) == 2: |
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partial_2_attrs += 1 |
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partial_1_attr += 1 |
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elif len(gold_attrs & pred_attrs) == 1: |
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partial_1_attr += 1 |
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if gold.split("|")[0] == predicted.split("|")[0]: |
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correct_mentions += 1 |
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if gold.split("|")[1] == predicted.split("|")[1]: |
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correct_humans += 1 |
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if gold.split("|")[2] == predicted.split("|")[2]: |
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correct_active += 1 |
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crashes_out.append( |
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{"sentence": sentence, "gold": gold, "prediction": predicted}) |
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print("ACC_crashes (strict) = ", correct/len(data_crashes)) |
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print("ACC_crashes (partial:2) = ", partial_2_attrs/len(data_crashes)) |
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print("ACC_crashes (partial:1) = ", partial_1_attr/len(data_crashes)) |
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print("ACC_crashes (mentions) = ", correct_mentions/len(data_crashes)) |
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print("ACC_crashes (humans) = ", correct_humans/len(data_crashes)) |
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print("ACC_crashes (active) = ", correct_active/len(data_crashes)) |
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pd.DataFrame(crashes_out).to_csv(out_file) |
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def filter_events_for_bechdel(): |
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with open("data/crashes/thecrashes_data_all_text.json", encoding="utf-8") as f: |
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events = json.load(f) |
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total_articles = 0 |
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data_out = [] |
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for ev in events: |
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total_articles += len(ev["articles"]) |
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num_persons = len(ev["persons"]) |
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num_transport_modes = len({p["transportationmode"] |
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for p in ev["persons"]}) |
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if num_transport_modes <= 2: |
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for art in ev["articles"]: |
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data_out.append({"event_id": ev["id"], "article_id": art["id"], "headline": art["title"], |
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"num_persons": num_persons, "num_transport_modes": num_transport_modes}) |
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print("Total articles = ", total_articles) |
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print("Filtered articles: ", len(data_out)) |
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out_df = pd.DataFrame(data_out) |
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out_df.to_csv("output/crashes/predict_bechdel/filtered_headlines.csv") |
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def train_and_eval(train=True): |
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use_gpu = True |
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cuda_device = None if use_gpu and torch.cuda.is_available() else -1 |
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transformer = "GroNLP/bert-base-dutch-cased" |
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token_indexers = {"tokens": PretrainedTransformerIndexer(transformer)} |
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tokenizer = PretrainedTransformerTokenizer(transformer) |
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binarizer = MultiLabelBinarizer() |
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binarizer.fit([SEQ_LABELS]) |
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reader = TrafficBechdelReader(token_indexers, tokenizer, binarizer) |
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instances = list(reader.read("output/prolog/bechdel_headlines.txt")) |
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orig_data = reader.orig_data |
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zipped = list(zip(instances, orig_data)) |
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random.shuffle(zipped) |
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instances_ = [i[0] for i in zipped] |
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orig_data_ = [i[1] for i in zipped] |
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num_dev = round(0.05 * len(instances_)) |
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num_test = round(0.25 * len(instances_)) |
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num_train = len(instances_) - num_dev - num_test |
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print("LEN(train/dev/test)=", num_train, num_dev, num_test) |
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instances_train = instances_[:num_train] |
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instances_dev = instances_[num_train:num_train + num_dev] |
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orig_dev = orig_data_[num_train:num_train + num_dev] |
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vocab = Vocabulary.from_instances(instances_train + instances_dev) |
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embedder = BasicTextFieldEmbedder( |
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{"tokens": PretrainedTransformerEmbedder(transformer)}) |
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model = MultiSequenceLabelModel(embedder, len(SEQ_LABELS), 1000, vocab) |
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if use_gpu: |
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model = model.cuda(cuda_device) |
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checkpoint_dir = f"/scratch/p289731/predict_bechdel/model_seqlabel/" |
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serialization_dir = f"/scratch/p289731/predict_bechdel/serialization_seqlabel/" |
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if train: |
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os.makedirs(checkpoint_dir) |
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os.makedirs(serialization_dir) |
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tensorboard = TensorBoardCallback( |
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serialization_dir, should_log_learning_rate=True) |
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checkpointer = Checkpointer(serialization_dir=checkpoint_dir) |
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optimizer = AdamOptimizer( |
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[(n, p) for n, p in model.named_parameters() if p.requires_grad], |
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lr=1e-5 |
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) |
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train_loader = SimpleDataLoader( |
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instances_train, batch_size=8, shuffle=True) |
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dev_loader = SimpleDataLoader( |
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instances_dev, batch_size=8, shuffle=False) |
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train_loader.index_with(vocab) |
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dev_loader.index_with(vocab) |
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print("\t\tTraining BERT model") |
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trainer = GradientDescentTrainer( |
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model, |
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optimizer, |
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train_loader, |
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validation_data_loader=dev_loader, |
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patience=2, |
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checkpointer=checkpointer, |
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cuda_device=cuda_device, |
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serialization_dir=serialization_dir, |
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callbacks=[tensorboard] |
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) |
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trainer.train() |
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else: |
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state_dict = torch.load( |
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"/scratch/p289731/predict_bechdel/serialization_all/best.th", map_location=cuda_device) |
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model.load_state_dict(state_dict) |
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print("\t\tProducing predictions...") |
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predictor = Predictor(model, reader) |
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predictions_dev = [predictor.predict_instance(i) for i in instances_dev] |
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data_out = [] |
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for sentence, prediction in zip(orig_dev, predictions_dev): |
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readable = model.make_human_readable(prediction, "labels") |
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text = sentence["sentence"] |
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gold = sentence["labels"] |
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predicted = readable |
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data_out.append( |
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{"sentence": text, "gold": gold, "predicted": predicted}) |
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df_out = pd.DataFrame(data_out) |
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df_out.to_csv("output/crashes/predict_bechdel/predictions_dev.csv") |
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if __name__ == "__main__": |
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ap = argparse.ArgumentParser() |
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ap.add_argument("action", choices=["train", "predict", "rules", "filter"]) |
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args = ap.parse_args() |
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if args.action == "train": |
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train_and_eval(train=True) |
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elif args.action == "predict": |
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train_and_eval(train=False) |
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elif args.action == "rules": |
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predict_rule_based() |
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else: |
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filter_events_for_bechdel() |
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