| from typing import Dict, List, Any |
| from measures.VocabularyAnalyser import VocabularyAnalyser |
| from scipy.special import softmax |
| from collections import Counter, defaultdict |
| import numpy as np |
| import weakref |
| import re |
| import nltk |
| from nltk.corpus import stopwords |
| nltk.download('stopwords') |
|
|
| from utils import clean_str, clean_str_nopunct |
| import torch |
| from utils import MultiHeadModel, BertInputBuilder, get_num_words, MATH_PREFIXES, MATH_WORDS, plural_to_singular |
|
|
| import transformers |
| from transformers import BertTokenizer, BertForSequenceClassification |
| from transformers.utils import logging |
| from pathlib import Path |
|
|
| transformers.logging.set_verbosity_debug() |
|
|
| UPTAKE_MODEL = 'ddemszky/uptake-model' |
| REASONING_MODEL = 'ddemszky/student-reasoning' |
| QUESTION_MODEL = 'ddemszky/question-detection' |
| FOCUSING_QUESTION_MODEL = 'ddemszky/focusing-questions' |
|
|
|
|
| class Utterance: |
| def __init__(self, speaker, text, uid=None, |
| transcript=None, starttime=None, endtime=None, **kwargs): |
| self.speaker = speaker |
| self.text = text |
| self.uid = uid |
| self.starttime = starttime |
| self.endtime = endtime |
| self.transcript = weakref.ref(transcript) if transcript else None |
| self.props = kwargs |
| self.role = None |
| self.word_count = self.get_num_words() |
| self.timestamp = [starttime, endtime] |
| if starttime is not None and endtime is not None: |
| self.unit_measure = endtime - starttime |
| else: |
| self.unit_measure = None |
| self.aggregate_unit_measure = endtime |
| self.num_math_terms = None |
| self.math_terms = None |
| self.vocabulary_terms = None |
|
|
| |
| self.uptake = None |
| self.reasoning = None |
| self.question = None |
| self.focusing_question = None |
|
|
| def get_clean_text(self, remove_punct=False): |
| if remove_punct: |
| return clean_str_nopunct(self.text) |
| return clean_str(self.text) |
|
|
| def get_num_words(self): |
| return get_num_words(self.text) |
|
|
| def to_dict(self): |
| return { |
| 'speaker': self.speaker, |
| 'text': self.text, |
| 'uid': self.uid, |
| 'starttime': self.starttime, |
| 'endtime': self.endtime, |
| 'uptake': self.uptake, |
| 'reasoning': self.reasoning, |
| 'question': self.question, |
| 'focusingQuestion': self.focusing_question, |
| 'numMathTerms': self.num_math_terms, |
| 'mathTerms': self.math_terms, |
| 'vocabularyTerms': self.vocabulary_terms, |
| 'vocabularyMatches': self.vocabulary_matches, |
| **self.props |
| } |
|
|
| def to_talk_timeline_dict(self): |
| return{ |
| 'speaker': self.speaker, |
| 'text': self.text, |
| 'uid': self.uid, |
| 'role': self.role, |
| 'timestamp': self.timestamp, |
| 'moments': { |
| 'reasoning': True if self.reasoning else False, |
| 'questioning': True if self.question else False, |
| 'uptake': True if self.uptake else False, |
| 'focusingQuestion': True if self.focusing_question else False, |
| 'mathWord': bool(self.vocabulary_terms) |
| }, |
| 'unitMeasure': self.unit_measure, |
| 'aggregateUnitMeasure': self.aggregate_unit_measure, |
| 'wordCount': self.word_count, |
| 'numMathTerms': self.num_math_terms, |
| 'mathTerms': self.math_terms, |
| 'vocabularyTerms': self.vocabulary_terms, |
| 'vocabularyMatches': self.vocabulary_matches |
| } |
|
|
| def __repr__(self): |
| return f"Utterance(speaker='{self.speaker}'," \ |
| f"text='{self.text}', uid={self.uid}," \ |
| f"starttime={self.starttime}, endtime={self.endtime}, props={self.props})" |
|
|
| class Transcript: |
| def __init__(self, **kwargs): |
| self.utterances = [] |
| self.params = kwargs |
|
|
| def add_utterance(self, utterance): |
| utterance.transcript = weakref.ref(self) |
| self.utterances.append(utterance) |
|
|
| def get_idx(self, idx): |
| if idx >= len(self.utterances): |
| return None |
| return self.utterances[idx] |
|
|
| def get_uid(self, uid): |
| for utt in self.utterances: |
| if utt.uid == uid: |
| return utt |
| return None |
|
|
| def length(self): |
| return len(self.utterances) |
|
|
| def update_utterance_roles(self, uptake_speaker): |
| for utt in self.utterances: |
| if (utt.speaker == uptake_speaker): |
| utt.role = 'teacher' |
| else: |
| utt.role = 'student' |
|
|
| def get_talk_distribution_and_length(self, uptake_speaker): |
| if ((uptake_speaker is None)): |
| return None |
| teacher_words = 0 |
| teacher_utt_count = 0 |
| student_words = 0 |
| student_utt_count = 0 |
| for utt in self.utterances: |
| if (utt.speaker == uptake_speaker): |
| utt.role = 'teacher' |
| teacher_words += utt.get_num_words() |
| teacher_utt_count += 1 |
| else: |
| utt.role = 'student' |
| student_words += utt.get_num_words() |
| student_utt_count += 1 |
| if teacher_words + student_words > 0: |
| teacher_percentage = round( |
| (teacher_words / (teacher_words + student_words)) * 100) |
| student_percentage = 100 - teacher_percentage |
| else: |
| teacher_percentage = student_percentage = 0 |
| avg_teacher_length = teacher_words / teacher_utt_count if teacher_utt_count > 0 else 0 |
| avg_student_length = student_words / student_utt_count if student_utt_count > 0 else 0 |
| return {'teacher': teacher_percentage, 'student': student_percentage}, {'teacher': avg_teacher_length, 'student': avg_student_length} |
|
|
| def get_vocabulary_table(self): |
| """ |
| Build a summary of matched vocabulary terms by utterance role. |
| Returns a dict of the form: |
| { |
| 'add': { |
| 'teacher': {'count': 2, 'utterances': [1,5]}, |
| 'student': {'count': 1, 'utterances': [2]} |
| }, |
| 'divide': { |
| 'teacher': {...}, |
| 'student': {...} |
| } |
| } |
| """ |
| vocab_summary = defaultdict(lambda: {"teacher": {"count": 0, "utterances": []}, |
| "student": {"count": 0, "utterances": []}}) |
|
|
| for utt in self.utterances: |
| role = utt.role if utt.role in ("teacher", "student") else "student" |
| if utt.vocabulary_terms: |
| for term in utt.vocabulary_terms: |
| vocab_summary[term][role]["count"] += 1 |
| vocab_summary[term][role]["utterances"].append(utt.uid) |
|
|
| return vocab_summary |
|
|
|
|
| def get_word_clouds(self): |
| |
| teacher_dict = Counter() |
| student_dict = Counter() |
| uptake_teacher_dict = Counter() |
| stop_words = stopwords.words('english') |
|
|
| |
| for utt in self.utterances: |
| |
| clean_text = utt.get_clean_text(remove_punct=True) |
| words = clean_text.split() |
| words = [word for word in words if word not in stop_words and word not in ['inaudible', 'crosstalk']] |
|
|
| |
| if utt.role == 'teacher' and utt.uptake == 1: |
| uptake_teacher_dict.update(words) |
|
|
| general_text = ' '.join(words) |
| |
| for math_term in utt.math_terms: |
| general_text = general_text.replace(math_term, '') |
| general_text = general_text.replace(' ', ' ') |
|
|
| general_words = general_text.split() |
| |
| if utt.role == 'teacher': |
| teacher_dict.update(general_words) |
| else: |
| student_dict.update(general_words) |
|
|
| |
| dict_list = dict_to_list(teacher_dict, 'general') + dict_to_list(student_dict, 'general') |
| uptake_dict_list = dict_to_list(uptake_teacher_dict, 'teacher') |
| teacher_dict_list = dict_to_list(teacher_dict, 'general') |
| student_dict_list = dict_to_list(student_dict, 'general') |
|
|
| sorted_dict_list = sorted(dict_list, key=lambda x: x['value'], reverse=True) |
| sorted_uptake_dict_list = sorted(uptake_dict_list, key=lambda x: x['value'], reverse=True) |
| sorted_teacher_dict_list = sorted(teacher_dict_list, key=lambda x: x['value'], reverse=True) |
| sorted_student_dict_list = sorted(student_dict_list, key=lambda x: x['value'], reverse=True) |
| return sorted_dict_list[:50], sorted_uptake_dict_list[:50], sorted_teacher_dict_list[:50], sorted_student_dict_list[:50] |
|
|
| def get_talk_timeline(self): |
| return [utterance.to_talk_timeline_dict() for utterance in self.utterances] |
| |
| def calculate_aggregate_word_count(self): |
| unit_measures = [utt.unit_measure for utt in self.utterances] |
| if None in unit_measures: |
| aggregate_word_count = 0 |
| for utt in self.utterances: |
| aggregate_word_count += utt.get_num_words() |
| utt.unit_measure = utt.get_num_words() |
| utt.aggregate_unit_measure = aggregate_word_count |
|
|
|
|
| def to_dict(self): |
| return { |
| 'utterances': [utterance.to_dict() for utterance in self.utterances], |
| **self.params |
| } |
|
|
| def __repr__(self): |
| return f"Transcript(utterances={self.utterances}, custom_params={self.params})" |
|
|
| class QuestionModel: |
| def __init__(self, device, tokenizer, input_builder, max_length=300, path=QUESTION_MODEL): |
| print("Loading models...") |
| self.device = device |
| self.tokenizer = tokenizer |
| self.input_builder = input_builder |
| self.max_length = max_length |
| self.model = MultiHeadModel.from_pretrained( |
| path, head2size={"is_question": 2}) |
| self.model.to(self.device) |
|
|
| def run_inference(self, transcript): |
| self.model.eval() |
| with torch.no_grad(): |
| for i, utt in enumerate(transcript.utterances): |
| if "?" in utt.text: |
| utt.question = 1 |
| else: |
| text = utt.get_clean_text(remove_punct=True) |
| instance = self.input_builder.build_inputs([], text, |
| max_length=self.max_length, |
| input_str=True) |
| output = self.get_prediction(instance) |
| |
| utt.question = np.argmax( |
| output["is_question_logits"][0].tolist()) |
|
|
| def get_prediction(self, instance): |
| instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
| for key in ["input_ids", "token_type_ids", "attention_mask"]: |
| instance[key] = torch.tensor( |
| instance[key]).unsqueeze(0) |
| instance[key].to(self.device) |
|
|
| output = self.model(input_ids=instance["input_ids"], |
| attention_mask=instance["attention_mask"], |
| token_type_ids=instance["token_type_ids"], |
| return_pooler_output=False) |
| return output |
|
|
| class ReasoningModel: |
| def __init__(self, device, tokenizer, input_builder, max_length=128, path=REASONING_MODEL): |
| print("Loading models...") |
| self.device = device |
| self.tokenizer = tokenizer |
| self.input_builder = input_builder |
| self.max_length = max_length |
| self.model = BertForSequenceClassification.from_pretrained(path) |
| self.model.to(self.device) |
|
|
| def run_inference(self, transcript, min_num_words=8, uptake_speaker=None): |
| self.model.eval() |
| with torch.no_grad(): |
| for i, utt in enumerate(transcript.utterances): |
| if utt.get_num_words() >= min_num_words and utt.speaker != uptake_speaker: |
| instance = self.input_builder.build_inputs([], utt.text, |
| max_length=self.max_length, |
| input_str=True) |
| output = self.get_prediction(instance) |
| utt.reasoning = np.argmax(output["logits"][0].tolist()) |
|
|
| def get_prediction(self, instance): |
| instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
| for key in ["input_ids", "token_type_ids", "attention_mask"]: |
| instance[key] = torch.tensor( |
| instance[key]).unsqueeze(0) |
| instance[key].to(self.device) |
|
|
| output = self.model(input_ids=instance["input_ids"], |
| attention_mask=instance["attention_mask"], |
| token_type_ids=instance["token_type_ids"]) |
| return output |
|
|
| class UptakeModel: |
| def __init__(self, device, tokenizer, input_builder, max_length=120, path=UPTAKE_MODEL): |
| print("Loading models...") |
| self.device = device |
| self.tokenizer = tokenizer |
| self.input_builder = input_builder |
| self.max_length = max_length |
| self.model = MultiHeadModel.from_pretrained(path, head2size={"nsp": 2}) |
| self.model.to(self.device) |
|
|
| def run_inference(self, transcript, min_prev_words, uptake_speaker=None): |
| self.model.eval() |
| prev_num_words = 0 |
| prev_utt = None |
| with torch.no_grad(): |
| for i, utt in enumerate(transcript.utterances): |
| if ((uptake_speaker is None) or (utt.speaker == uptake_speaker)) and (prev_num_words >= min_prev_words): |
| textA = prev_utt.get_clean_text(remove_punct=False) |
| textB = utt.get_clean_text(remove_punct=False) |
| instance = self.input_builder.build_inputs([textA], textB, |
| max_length=self.max_length, |
| input_str=True) |
| output = self.get_prediction(instance) |
|
|
| utt.uptake = int( |
| softmax(output["nsp_logits"][0].tolist())[1] > .8) |
| prev_num_words = utt.get_num_words() |
| prev_utt = utt |
|
|
| def get_prediction(self, instance): |
| instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
| for key in ["input_ids", "token_type_ids", "attention_mask"]: |
| instance[key] = torch.tensor( |
| instance[key]).unsqueeze(0) |
| instance[key].to(self.device) |
|
|
| output = self.model(input_ids=instance["input_ids"], |
| attention_mask=instance["attention_mask"], |
| token_type_ids=instance["token_type_ids"], |
| return_pooler_output=False) |
| return output |
|
|
| class FocusingQuestionModel: |
| def __init__(self, device, tokenizer, input_builder, max_length=128, path=FOCUSING_QUESTION_MODEL): |
| print("Loading models...") |
| self.device = device |
| self.tokenizer = tokenizer |
| self.input_builder = input_builder |
| self.model = BertForSequenceClassification.from_pretrained(path) |
| self.model.to(self.device) |
| self.max_length = max_length |
|
|
| def run_inference(self, transcript, min_focusing_words=0, uptake_speaker=None): |
| self.model.eval() |
| with torch.no_grad(): |
| for i, utt in enumerate(transcript.utterances): |
| if utt.speaker != uptake_speaker or uptake_speaker is None: |
| utt.focusing_question = None |
| continue |
| if utt.get_num_words() < min_focusing_words: |
| utt.focusing_question = None |
| continue |
| instance = self.input_builder.build_inputs([], utt.text, max_length=self.max_length, input_str=True) |
| output = self.get_prediction(instance) |
| utt.focusing_question = np.argmax(output["logits"][0].tolist()) |
|
|
| def get_prediction(self, instance): |
| instance["attention_mask"] = [[1] * len(instance["input_ids"])] |
| for key in ["input_ids", "token_type_ids", "attention_mask"]: |
| instance[key] = torch.tensor( |
| instance[key]).unsqueeze(0) |
| instance[key].to(self.device) |
|
|
| output = self.model(input_ids=instance["input_ids"], |
| attention_mask=instance["attention_mask"], |
| token_type_ids=instance["token_type_ids"]) |
| return output |
|
|
| def dict_to_list(d, category): |
| combined_dict = Counter() |
| for word, count in d.items(): |
| singular_word = plural_to_singular(word) |
| combined_dict[singular_word] += count |
| return [{'text': word, 'value': count, 'category': category} for word, count in combined_dict.items()] |
|
|
| def load_math_terms(): |
| math_regexes = [] |
| math_terms_dict = {} |
| for term in MATH_PREFIXES: |
| math_terms_dict[rf"\b{term}(s|es|d|ed)?\b"] = term |
| math_regexes.append(rf"\b{term}(s|es|d|ed)?\b") |
|
|
| for term in MATH_WORDS: |
| if not term in MATH_PREFIXES: |
| math_terms_dict[rf"\b{term}\b"] = term |
| math_regexes.append(rf"\b{term}\b") |
| return math_regexes, math_terms_dict |
|
|
| def run_math_density(transcript): |
| math_regexes, math_terms_dict = load_math_terms() |
| sorted_regexes = sorted(math_regexes, key=len, reverse=True) |
| teacher_math_word_cloud = {} |
| student_math_word_cloud = {} |
|
|
| for i, utt in enumerate(transcript.utterances): |
| text = utt.get_clean_text(remove_punct=True) |
| num_matches = 0 |
| matched_positions = set() |
| match_list = set() |
| for regex in sorted_regexes: |
| matches = list(re.finditer(regex, text, re.IGNORECASE)) |
| |
| matches = [match for match in matches if not any(match.start() in range(existing[0], existing[1]) for existing in matched_positions)] |
| if len(matches) > 0: |
| if utt.role == "teacher": |
| if math_terms_dict[regex] not in teacher_math_word_cloud: |
| teacher_math_word_cloud[math_terms_dict[regex]] = 0 |
| teacher_math_word_cloud[math_terms_dict[regex]] += len(matches) |
| else: |
| if math_terms_dict[regex] not in student_math_word_cloud: |
| student_math_word_cloud[math_terms_dict[regex]] = 0 |
| student_math_word_cloud[math_terms_dict[regex]] += len(matches) |
| for match in matches: |
| match_list.add(match.group()) |
| matched_positions.add((match.start(), match.end())) |
| num_matches += len(matches) |
| utt.num_math_terms = num_matches |
| utt.math_terms = list(match_list) |
|
|
| |
| teacher_dict_list = [] |
| student_dict_list = [] |
| dict_list = [] |
|
|
| |
| teacher_dict_list = dict_to_list(teacher_math_word_cloud, 'math') |
| dict_list.extend(teacher_dict_list) |
|
|
| |
| student_dict_list = dict_to_list(student_math_word_cloud, 'math') |
| dict_list.extend(student_dict_list) |
|
|
| |
| sorted_dict_list = sorted(dict_list, key=lambda x: x['value'], reverse=True) |
| sorted_teacher_dict_list = sorted(teacher_dict_list, key=lambda x: x['value'], reverse=True) |
| sorted_student_dict_list = sorted(student_dict_list, key=lambda x: x['value'], reverse=True) |
|
|
| |
| return sorted_dict_list[:50], sorted_teacher_dict_list[:50], sorted_student_dict_list[:50] |
|
|
| class EndpointHandler(): |
| def __init__(self, path="."): |
| print("Loading models...") |
| self.device = "cuda" if torch.cuda.is_available() else "cpu" |
| self.tokenizer = BertTokenizer.from_pretrained("bert-base-uncased") |
| self.input_builder = BertInputBuilder(tokenizer=self.tokenizer) |
|
|
| def __call__(self, data: Dict[str, Any]) -> List[Dict[str, Any]]: |
| """ |
| data args: |
| inputs (:obj: `list`): |
| List of dicts, where each dict represents an utterance; each utterance object must have a `speaker`, |
| `text` and `uid`and can include list of custom properties |
| parameters (:obj: `dict`) |
| Return: |
| A :obj:`list` | `dict`: will be serialized and returned |
| """ |
| |
| utterances = data.pop("inputs", data) |
| params = data.pop("parameters", None) |
|
|
| transcript = Transcript(filename=params.pop("filename", None)) |
| for utt in utterances: |
| transcript.add_utterance(Utterance(**utt)) |
|
|
| print("Running inference on %d examples..." % transcript.length()) |
| logging.set_verbosity_info() |
| |
| uptake_model = UptakeModel( |
| self.device, self.tokenizer, self.input_builder) |
| uptake_speaker = params.pop("uptake_speaker", None) |
| uptake_model.run_inference(transcript, min_prev_words=params['uptake_min_num_words'], |
| uptake_speaker=uptake_speaker) |
| del uptake_model |
| |
| |
| reasoning_model = ReasoningModel( |
| self.device, self.tokenizer, self.input_builder) |
| reasoning_model.run_inference(transcript, uptake_speaker=uptake_speaker) |
| del reasoning_model |
| |
| |
| question_model = QuestionModel( |
| self.device, self.tokenizer, self.input_builder) |
| question_model.run_inference(transcript) |
| del question_model |
| |
| |
| focusing_question_model = FocusingQuestionModel( |
| self.device, self.tokenizer, self.input_builder) |
| focusing_question_model.run_inference(transcript, uptake_speaker=uptake_speaker) |
| del focusing_question_model |
|
|
| glossary_path = Path(__file__).resolve().parent / "glossary.csv" |
| vocabulary_analyser = VocabularyAnalyser(str(glossary_path)) |
| vocabulary_analyser.run_analysis(transcript) |
| del vocabulary_analyser |
| |
| transcript.update_utterance_roles(uptake_speaker) |
| sorted_math_cloud, teacher_math_cloud, student_math_cloud = run_math_density(transcript) |
| transcript.calculate_aggregate_word_count() |
| return_dict = {'talkDistribution': None, 'talkLength': None, 'talkMoments': None, 'studentTopWords': None, 'teacherTopWords': None} |
| talk_dist, talk_len = transcript.get_talk_distribution_and_length(uptake_speaker) |
| return_dict['talkDistribution'] = talk_dist |
| return_dict['talkLength'] = talk_len |
| talk_moments = transcript.get_talk_timeline() |
| return_dict['talkMoments'] = talk_moments |
| word_cloud, uptake_word_cloud, teacher_general_cloud, student_general_cloud = transcript.get_word_clouds() |
| teacher_cloud = teacher_math_cloud + teacher_general_cloud |
| student_cloud = student_math_cloud + student_general_cloud |
| return_dict['teacherTopWords'] = teacher_cloud |
| return_dict['studentTopWords'] = student_cloud |
| return_dict['vocabularyTable'] = transcript.get_vocabulary_table() |
|
|
| return return_dict |
