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""" |
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Train script for a single file |
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Need to set the TPU address first: |
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export XRT_TPU_CONFIG="localservice;0;localhost:51011" |
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""" |
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import torch.multiprocessing as mp |
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import threading |
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import time |
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import random |
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import sys |
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import argparse |
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import gzip |
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import json |
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import logging |
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import tqdm |
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import torch |
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from torch import nn |
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from torch.utils.data import DataLoader |
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import torch |
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import torch_xla |
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import torch_xla.core |
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import torch_xla.core.functions |
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import torch_xla.core.xla_model as xm |
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import torch_xla.distributed.xla_multiprocessing as xmp |
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import torch_xla.distributed.parallel_loader as pl |
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import os |
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from shutil import copyfile |
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from transformers import ( |
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AdamW, |
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AutoModel, |
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AutoTokenizer, |
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get_linear_schedule_with_warmup, |
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set_seed, |
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) |
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class AutoModelForSentenceEmbedding(nn.Module): |
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def __init__(self, model_name, tokenizer, args): |
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super(AutoModelForSentenceEmbedding, self).__init__() |
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assert args.pooling in ['mean', 'cls'] |
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self.model = AutoModel.from_pretrained(model_name) |
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self.normalize = not args.no_normalize |
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self.tokenizer = tokenizer |
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self.pooling = args.pooling |
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def forward(self, **kwargs): |
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model_output = self.model(**kwargs) |
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if self.pooling == 'mean': |
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embeddings = self.mean_pooling(model_output, kwargs['attention_mask']) |
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elif self.pooling == 'cls': |
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embeddings = self.cls_pooling(model_output, kwargs['attention_mask']) |
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if self.normalize: |
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embeddings = torch.nn.functional.normalize(embeddings, p=2, dim=1) |
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return embeddings |
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def mean_pooling(self, model_output, attention_mask): |
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token_embeddings = model_output[0] |
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input_mask_expanded = attention_mask.unsqueeze(-1).expand(token_embeddings.size()).float() |
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return torch.sum(token_embeddings * input_mask_expanded, 1) / torch.clamp(input_mask_expanded.sum(1), min=1e-9) |
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def cls_pooling(self, model_output, attention_mask): |
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return model_output[0][:,0] |
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def save_pretrained(self, output_path): |
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if xm.is_master_ordinal(): |
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self.tokenizer.save_pretrained(output_path) |
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self.model.config.save_pretrained(output_path) |
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xm.save(self.model.state_dict(), os.path.join(output_path, "pytorch_model.bin")) |
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def train_function(index, args, queue): |
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tokenizer = AutoTokenizer.from_pretrained(args.model) |
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model = AutoModelForSentenceEmbedding(args.model, tokenizer, args) |
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device = xm.xla_device() |
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model = model.to(device) |
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optimizer = AdamW(params=model.parameters(), lr=2e-5, correct_bias=True) |
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lr_scheduler = get_linear_schedule_with_warmup( |
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optimizer=optimizer, |
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num_warmup_steps=500, |
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num_training_steps=args.steps, |
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) |
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cross_entropy_loss = nn.CrossEntropyLoss() |
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max_grad_norm = 1 |
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model.train() |
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for global_step in tqdm.trange(args.steps, disable=not xm.is_master_ordinal()): |
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batch = queue.get() |
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if len(batch[0]) == 2: |
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text1 = tokenizer([b[0] for b in batch], return_tensors="pt", max_length=args.max_length_a, truncation=True, padding="max_length") |
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text2 = tokenizer([b[1] for b in batch], return_tensors="pt", max_length=args.max_length_b, truncation=True, padding="max_length") |
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embeddings_a = model(**text1.to(device)) |
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embeddings_b = model(**text2.to(device)) |
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embeddings_a = torch_xla.core.functions.all_gather(embeddings_a) |
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embeddings_b = torch_xla.core.functions.all_gather(embeddings_b) |
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scores = torch.mm(embeddings_a, embeddings_b.transpose(0, 1)) * args.scale |
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labels = torch.tensor(range(len(scores)), dtype=torch.long, device=embeddings_a.device) |
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loss = (cross_entropy_loss(scores, labels) + cross_entropy_loss(scores.transpose(0, 1), labels)) / 2 |
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else: |
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text1 = tokenizer([b[0] for b in batch], return_tensors="pt", max_length=args.max_length_a, truncation=True, padding="max_length") |
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text2 = tokenizer([b[1] for b in batch], return_tensors="pt", max_length=args.max_length_b, truncation=True, padding="max_length") |
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text3 = tokenizer([b[2] for b in batch], return_tensors="pt", max_length=args.max_length_b, truncation=True, padding="max_length") |
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embeddings_a = model(**text1.to(device)) |
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embeddings_b1 = model(**text2.to(device)) |
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embeddings_b2 = model(**text3.to(device)) |
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embeddings_a = torch_xla.core.functions.all_gather(embeddings_a) |
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embeddings_b1 = torch_xla.core.functions.all_gather(embeddings_b1) |
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embeddings_b2 = torch_xla.core.functions.all_gather(embeddings_b2) |
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embeddings_b = torch.cat([embeddings_b1, embeddings_b2]) |
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scores = torch.mm(embeddings_a, embeddings_b.transpose(0, 1)) * args.scale |
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labels = torch.tensor(range(len(scores)), dtype=torch.long, device=embeddings_a.device) |
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loss = cross_entropy_loss(scores, labels) |
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optimizer.zero_grad() |
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loss.backward() |
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torch.nn.utils.clip_grad_norm_(model.parameters(), max_grad_norm) |
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xm.optimizer_step(optimizer, barrier=True) |
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lr_scheduler.step() |
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if (global_step+1) % args.save_steps == 0: |
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output_path = os.path.join(args.output, str(global_step+1)) |
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xm.master_print("save model: "+output_path) |
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model.save_pretrained(output_path) |
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output_path = os.path.join(args.output, "final") |
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xm.master_print("save model final: "+ output_path) |
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model.save_pretrained(output_path) |
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def produce_data(args, queue, filepaths, dataset_indices): |
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global_batch_size = args.batch_size*args.nprocs |
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size_per_dataset = int(global_batch_size / args.datasets_per_batch) |
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num_same_dataset = int(size_per_dataset / args.batch_size) |
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print("producer", "global_batch_size", global_batch_size) |
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print("producer", "size_per_dataset", size_per_dataset) |
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print("producer", "num_same_dataset", num_same_dataset) |
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datasets = [] |
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for filepath in filepaths: |
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if "reddit_" in filepath: |
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data_obj = RedditDataset(filepath) |
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else: |
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data_obj = Dataset(filepath) |
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datasets.append(iter(data_obj)) |
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num_cols = {idx: len(next(dataset)) for idx, dataset in enumerate(datasets)} |
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while True: |
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texts_in_batch = set() |
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batch_format = None |
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for _ in range(args.datasets_per_batch): |
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valid_dataset = False |
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while not valid_dataset: |
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data_idx = random.choice(dataset_indices) |
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if batch_format is None: |
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batch_format = num_cols[data_idx] |
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valid_dataset = True |
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else: |
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valid_dataset = (batch_format == num_cols[data_idx]) |
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dataset = datasets[data_idx] |
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for _ in range(num_same_dataset): |
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for _ in range(args.nprocs): |
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batch_device = [] |
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while len(batch_device) < args.batch_size: |
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sample = next(dataset) |
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in_batch = False |
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for text in sample: |
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if text in texts_in_batch: |
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in_batch = True |
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break |
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if not in_batch: |
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for text in sample: |
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texts_in_batch.add(text) |
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batch_device.append(sample) |
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queue.put(batch_device) |
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class RedditDataset: |
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""" |
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A class that handles the reddit data files |
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""" |
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def __init__(self, filepath): |
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self.filepath = filepath |
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def __iter__(self): |
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while True: |
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with gzip.open(self.filepath, "rt") as fIn: |
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for line in fIn: |
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data = json.loads(line) |
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if "response" in data and "context" in data: |
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yield [data["response"], data["context"]] |
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class Dataset: |
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""" |
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A class that handles one dataset |
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""" |
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def __init__(self, filepath): |
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self.filepath = filepath |
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def __iter__(self): |
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max_dataset_size = 20*1000*1000 |
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dataset = [] |
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data_format = None |
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while dataset is None or len(dataset) == 0: |
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with gzip.open(self.filepath, "rt") as fIn: |
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for line in fIn: |
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data = json.loads(line) |
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if isinstance(data, dict): |
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data = data['texts'] |
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if data_format is None: |
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data_format = len(data) |
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assert len(data) == data_format |
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if dataset is not None: |
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dataset.append(data) |
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if len(dataset) >= max_dataset_size: |
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dataset = None |
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yield data |
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while True: |
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random.shuffle(dataset) |
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for data in dataset: |
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yield data |
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if __name__ == "__main__": |
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parser = argparse.ArgumentParser() |
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parser.add_argument('--model', default='nreimers/MiniLM-L6-H384-uncased') |
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parser.add_argument('--steps', type=int, default=2000) |
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parser.add_argument('--save_steps', type=int, default=10000) |
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parser.add_argument('--batch_size', type=int, default=64) |
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parser.add_argument('--max_length_a', type=int, default=128) |
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parser.add_argument('--max_length_b', type=int, default=128) |
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parser.add_argument('--nprocs', type=int, default=8) |
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parser.add_argument('--datasets_per_batch', type=int, default=2, help="Number of datasets per batch") |
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parser.add_argument('--scale', type=float, default=20, help="Use 20 for cossim, and 1 when you work with unnormalized embeddings with dot product") |
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parser.add_argument('--no_normalize', action="store_true", default=False, help="If set: Embeddings are not normalized") |
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parser.add_argument('--pooling', default='mean') |
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parser.add_argument('--data_folder', default="/data", help="Folder with your dataset files") |
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parser.add_argument('data_config', help="A data_config.json file") |
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parser.add_argument('output') |
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args = parser.parse_args() |
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assert (args.batch_size*args.nprocs) % args.datasets_per_batch == 0 |
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logging.info("Output: "+args.output) |
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if os.path.exists(args.output): |
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print("Output folder already exists.") |
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input("Continue?") |
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os.makedirs(args.output, exist_ok=True) |
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data_config_path = os.path.join(args.output, 'data_config.json') |
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copyfile(args.data_config, data_config_path) |
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train_script_path = os.path.join(args.output, 'train_script.py') |
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copyfile(__file__, train_script_path) |
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with open(train_script_path, 'a') as fOut: |
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fOut.write("\n\n# Script was called via:\n#python " + " ".join(sys.argv)) |
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with open(args.data_config) as fIn: |
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data_config = json.load(fIn) |
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queue = mp.Queue(maxsize=100*args.nprocs) |
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filepaths = [] |
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dataset_indices = [] |
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for idx, data in enumerate(data_config): |
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filepaths.append(os.path.join(os.path.expanduser(args.data_folder), data['name'])) |
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dataset_indices.extend([idx]*data['weight']) |
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p = mp.Process(target=produce_data, args=(args, queue, filepaths, dataset_indices)) |
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p.start() |
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print("Start processes:", args.nprocs) |
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xmp.spawn(train_function, args=(args, queue), nprocs=args.nprocs, start_method='fork') |
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print("Training done") |
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print("It might be that not all processes exit automatically. In that case you must manually kill this process.") |
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print("With 'pkill python' you can kill all remaining python processes") |
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p.kill() |
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exit() |
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