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from typing import Dict, List, Any |
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from scipy.special import softmax |
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import numpy as np |
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import weakref |
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from utils import clean_str, clean_str_nopunct |
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import torch |
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from utils import MultiHeadModel, BertInputBuilder, get_num_words |
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import transformers |
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from transformers import BertTokenizer, BertForSequenceClassification |
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import psutil |
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from transformers.utils import logging |
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transformers.logging.set_verbosity_debug() |
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UPTAKE_MODEL = 'ddemszky/uptake-model' |
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REASONING_MODEL = 'ddemszky/student-reasoning' |
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QUESTION_MODEL = 'ddemszky/question-detection' |
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class Utterance: |
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def __init__(self, speaker, text, uid=None, |
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transcript=None, starttime=None, endtime=None, **kwargs): |
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self.speaker = speaker |
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self.text = text |
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self.uid = uid |
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self.starttime = starttime |
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self.endtime = endtime |
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self.transcript = weakref.ref(transcript) if transcript else None |
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self.props = kwargs |
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self.uptake = None |
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self.reasoning = None |
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self.question = None |
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def get_clean_text(self, remove_punct=False): |
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if remove_punct: |
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return clean_str_nopunct(self.text) |
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return clean_str(self.text) |
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def get_num_words(self): |
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return get_num_words(self.text) |
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def to_dict(self): |
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return { |
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'speaker': self.speaker, |
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'text': self.text, |
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'uid': self.uid, |
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'starttime': self.starttime, |
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'endtime': self.endtime, |
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'uptake': self.uptake, |
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'reasoning': self.reasoning, |
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'question': self.question, |
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**self.props |
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} |
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def __repr__(self): |
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return f"Utterance(speaker='{self.speaker}'," \ |
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f"text='{self.text}', uid={self.uid}," \ |
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f"starttime={self.starttime}, endtime={self.endtime}, props={self.props})" |
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class Transcript: |
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def __init__(self, **kwargs): |
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self.utterances = [] |
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self.params = kwargs |
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def add_utterance(self, utterance): |
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utterance.transcript = weakref.ref(self) |
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self.utterances.append(utterance) |
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def get_idx(self, idx): |
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if idx >= len(self.utterances): |
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return None |
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return self.utterances[idx] |
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def get_uid(self, uid): |
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for utt in self.utterances: |
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if utt.uid == uid: |
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return utt |
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return None |
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def length(self): |
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return len(self.utterances) |
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def to_dict(self): |
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return { |
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'utterances': [utterance.to_dict() for utterance in self.utterances], |
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**self.params |
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} |
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def __repr__(self): |
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return f"Transcript(utterances={self.utterances}, custom_params={self.params})" |
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class QuestionModel: |
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def __init__(self, device, tokenizer, input_builder, max_length=300, path=QUESTION_MODEL): |
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print("Loading models...") |
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self.device = device |
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self.tokenizer = tokenizer |
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self.input_builder = input_builder |
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self.max_length = max_length |
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self.model = MultiHeadModel.from_pretrained( |
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path, head2size={"is_question": 2}) |
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self.model.to(self.device) |
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def run_inference(self, transcript): |
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self.model.eval() |
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with torch.no_grad(): |
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for i, utt in enumerate(transcript.utterances): |
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if "?" in utt.text: |
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utt.question = 1 |
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else: |
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text = utt.get_clean_text(remove_punct=True) |
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instance = self.input_builder.build_inputs([], text, |
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max_length=self.max_length, |
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input_str=True) |
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output = self.get_prediction(instance) |
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print(output) |
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utt.question = np.argmax( |
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output["is_question_logits"][0].tolist()) |
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def get_prediction(self, instance): |
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instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
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for key in ["input_ids", "token_type_ids", "attention_mask"]: |
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instance[key] = torch.tensor( |
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instance[key]).unsqueeze(0) |
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instance[key].to(self.device) |
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output = self.model(input_ids=instance["input_ids"], |
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attention_mask=instance["attention_mask"], |
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token_type_ids=instance["token_type_ids"], |
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return_pooler_output=False) |
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return output |
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class ReasoningModel: |
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def __init__(self, device, tokenizer, input_builder, max_length=128, path=REASONING_MODEL): |
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print("Loading models...") |
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self.device = device |
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self.tokenizer = tokenizer |
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self.input_builder = input_builder |
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self.max_length = max_length |
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self.model = BertForSequenceClassification.from_pretrained(path) |
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self.model.to(self.device) |
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def run_inference(self, transcript, min_num_words=8): |
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self.model.eval() |
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with torch.no_grad(): |
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for i, utt in enumerate(transcript.utterances): |
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if utt.get_num_words() >= min_num_words: |
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instance = self.input_builder.build_inputs([], utt.text, |
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max_length=self.max_length, |
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input_str=True) |
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output = self.get_prediction(instance) |
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utt.reasoning = np.argmax(output["logits"][0].tolist()) |
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def get_prediction(self, instance): |
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instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
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for key in ["input_ids", "token_type_ids", "attention_mask"]: |
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instance[key] = torch.tensor( |
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instance[key]).unsqueeze(0) |
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instance[key].to(self.device) |
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output = self.model(input_ids=instance["input_ids"], |
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attention_mask=instance["attention_mask"], |
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token_type_ids=instance["token_type_ids"]) |
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return output |
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class UptakeModel: |
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def __init__(self, device, tokenizer, input_builder, max_length=120, path=UPTAKE_MODEL): |
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print("Loading models...") |
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self.device = device |
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self.tokenizer = tokenizer |
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self.input_builder = input_builder |
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self.max_length = max_length |
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self.model = MultiHeadModel.from_pretrained(path, head2size={"nsp": 2}) |
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self.model.to(self.device) |
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def run_inference(self, transcript, min_prev_words, uptake_speaker=None): |
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self.model.eval() |
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prev_num_words = 0 |
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prev_utt = None |
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with torch.no_grad(): |
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for i, utt in enumerate(transcript.utterances): |
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if ((uptake_speaker is None) or (utt.speaker == uptake_speaker)) and (prev_num_words >= min_prev_words): |
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textA = prev_utt.get_clean_text(remove_punct=False) |
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textB = utt.get_clean_text(remove_punct=False) |
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instance = self.input_builder.build_inputs([textA], textB, |
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max_length=self.max_length, |
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input_str=True) |
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output = self.get_prediction(instance) |
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utt.uptake = int( |
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softmax(output["nsp_logits"][0].tolist())[1] > .8) |
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prev_num_words = utt.get_num_words() |
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prev_utt = utt |
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def get_prediction(self, instance): |
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instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
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for key in ["input_ids", "token_type_ids", "attention_mask"]: |
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instance[key] = torch.tensor( |
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instance[key]).unsqueeze(0) |
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instance[key].to(self.device) |
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output = self.model(input_ids=instance["input_ids"], |
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attention_mask=instance["attention_mask"], |
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token_type_ids=instance["token_type_ids"], |
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return_pooler_output=False) |
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return output |
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class EndpointHandler(): |
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def __init__(self, path="."): |
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print("Loading models...") |
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self.device = "cuda" if torch.cuda.is_available() else "cpu" |
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self.tokenizer = BertTokenizer.from_pretrained("bert-base-uncased") |
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self.input_builder = BertInputBuilder(tokenizer=self.tokenizer) |
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def __call__(self, data: Dict[str, Any]) -> List[Dict[str, Any]]: |
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""" |
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data args: |
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inputs (:obj: `list`): |
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List of dicts, where each dict represents an utterance; each utterance object must have a `speaker`, |
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`text` and `uid`and can include list of custom properties |
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parameters (:obj: `dict`) |
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Return: |
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A :obj:`list` | `dict`: will be serialized and returned |
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""" |
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utterances = data.pop("inputs", data) |
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params = data.pop("parameters", None) |
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print("EXAMPLES") |
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for utt in utterances[:3]: |
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print("speaker %s: %s" % (utt["speaker"], utt["text"])) |
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transcript = Transcript(filename=params.pop("filename", None)) |
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for utt in utterances: |
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transcript.add_utterance(Utterance(**utt)) |
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print("Running inference on %d examples..." % transcript.length()) |
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cpu_percent = psutil.cpu_percent() |
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logging.set_verbosity_info() |
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logger = logging.get_logger("transformers") |
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logger.info(f"CPU Usage before models loaded: {cpu_percent}%") |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory before models loaded: {used_mem:.2f} GB, Total RAM: {total_mem:.2f} GB") |
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uptake_model = UptakeModel( |
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self.device, self.tokenizer, self.input_builder) |
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uptake_model.run_inference(transcript, min_prev_words=params['uptake_min_num_words'], |
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uptake_speaker=params.pop("uptake_speaker", None)) |
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cpu_percent = psutil.cpu_percent() |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory after model 1 loaded: {used_mem:.2f} GB, Total Mem: {total_mem:.2f} GB") |
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logger.info(f"CPU Usage after model 1 loaded: {cpu_percent}%") |
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del uptake_model |
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cpu_percent = psutil.cpu_percent() |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory after model 1 deleted: {used_mem:.2f} GB, Total Mem: {total_mem:.2f} GB") |
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logger.info(f"CPU Usage after model 1 deleted: {cpu_percent}%") |
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reasoning_model = ReasoningModel( |
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self.device, self.tokenizer, self.input_builder) |
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reasoning_model.run_inference(transcript) |
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cpu_percent = psutil.cpu_percent() |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory after model 2 loaded: {used_mem:.2f} GB, Total Mem: {total_mem:.2f} GB") |
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logger.info(f"CPU Usage after model 2 loaded: {cpu_percent}%") |
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del reasoning_model |
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cpu_percent = psutil.cpu_percent() |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory after model 2 deleted: {used_mem:.2f} GB, Total Mem: {total_mem:.2f} GB") |
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logger.info(f"CPU Usage after model 2 deleted: {cpu_percent}%") |
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question_model = QuestionModel( |
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self.device, self.tokenizer, self.input_builder) |
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question_model.run_inference(transcript) |
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cpu_percent = psutil.cpu_percent() |
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logger.info(f"CPU Usage after model 3 loaded: {cpu_percent}%") |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory after model 3 loaded: {used_mem:.2f} GB, Total Mem: {total_mem:.2f} GB") |
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del question_model |
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cpu_percent = psutil.cpu_percent() |
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logger.info(f"CPU Usage after model 3 deleted: {cpu_percent}%") |
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mem_info = psutil.virtual_memory() |
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used_mem = mem_info.used / (1024 ** 3) |
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total_mem = mem_info.total / (1024 ** 3) |
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logger.info(f"Used Memory after model 3 deleted: {used_mem:.2f} GB, Total Mem: {total_mem:.2f} GB") |
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return transcript.to_dict() |
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