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import os |
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from datetime import datetime |
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from importlib import import_module |
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from typing import List, Union, Callable, Optional |
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import deepspeed |
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import torch |
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from torch import Tensor, LongTensor, IntTensor |
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from torch.nn import init |
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from transformers import PreTrainedModel, AutoConfig, AutoModel, AutoTokenizer, AutoModelForCausalLM |
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from transformers.integrations.deepspeed import is_deepspeed_zero3_enabled, deepspeed_config |
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from .visual_tokenizer import ClipVisualTokenizer |
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from .configuration_ovis import OvisConfig |
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from .conversation_formatter import ConversationFormatter |
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from .utils import IGNORE_INDEX, IMAGE_TOKEN_INDEX, BEGIN_LINE, END_LINE, rank0_print |
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class VisualEmbedding(torch.nn.Embedding): |
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def forward(self, input: Tensor) -> Tensor: |
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if any((isinstance(input, LongTensor), isinstance(input, IntTensor))): |
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return super().forward(input) |
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return torch.matmul(input, self.weight) |
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def reset_parameters(self, mean=0., std=1.) -> None: |
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init.normal_(self.weight, mean=mean, std=std) |
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self._fill_padding_idx_with_zero() |
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class OvisPreTrainedModel(PreTrainedModel): |
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config_class = OvisConfig |
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base_model_prefix = "ovis" |
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class Ovis(OvisPreTrainedModel): |
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def __init__(self, config: OvisConfig, *inputs, **kwargs): |
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super().__init__(config, *inputs, **kwargs) |
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if kwargs.get('train_from_scratch'): |
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self.llm = AutoModelForCausalLM.from_pretrained(kwargs['llm_name_or_path'], token=None) |
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self.generation_config = self.llm.generation_config |
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self.config.llm_config = self.llm.config |
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self.config.hidden_size = self.llm.config.hidden_size |
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self.text_tokenizer = AutoTokenizer.from_pretrained(kwargs['llm_name_or_path'], token=None) |
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if self.text_tokenizer.pad_token_id is None and kwargs.get('pad_token_id') is not None: |
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self.text_tokenizer.pad_token_id = kwargs['pad_token_id'] |
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if kwargs.get('visual_tokenizer_pretrained_path'): |
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self.visual_tokenizer = AutoModel.from_pretrained(kwargs['visual_tokenizer_pretrained_path'], |
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image_processor_name_or_path=kwargs[ |
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'visual_tokenizer_pretrained_path']) |
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else: |
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self.visual_tokenizer = AutoModel.from_config(self.config.visual_tokenizer_config, |
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train_from_scratch=True) |
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self.config.visual_tokenizer_config = self.visual_tokenizer.config |
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else: |
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self.llm = AutoModelForCausalLM.from_config(self.config.llm_config) |
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assert self.config.hidden_size == self.llm.config.hidden_size, "hidden size mismatch" |
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self.text_tokenizer = AutoTokenizer.from_pretrained(self.config.name_or_path) |
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self.visual_tokenizer = AutoModel.from_config(self.config.visual_tokenizer_config, |
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image_processor_name_or_path=self.config.name_or_path) |
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if is_deepspeed_zero3_enabled(): |
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with deepspeed.zero.Init(config_dict_or_path=deepspeed_config()): |
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self.vte = VisualEmbedding(self.config.visual_tokenizer_config.vocab_size, self.config.hidden_size) |
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else: |
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self.visual_tokenizer.to(device=self.llm.device) |
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self.vte = VisualEmbedding(self.config.visual_tokenizer_config.vocab_size, self.config.hidden_size, |
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device=self.visual_tokenizer.device, dtype=self.visual_tokenizer.dtype) |
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def _merge_modules(modules_list: tuple): |
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merged_modules = [] |
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for modules in modules_list: |
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merged_modules.extend(modules if modules else []) |
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return merged_modules |
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self._no_split_modules = _merge_modules((self.llm._no_split_modules, self.visual_tokenizer._no_split_modules)) |
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self._skip_keys_device_placement = self.llm._skip_keys_device_placement |
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self._keep_in_fp32_modules = _merge_modules( |
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(self.llm._keep_in_fp32_modules, self.visual_tokenizer._keep_in_fp32_modules)) |
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self.is_parallelizable = all((self.llm.is_parallelizable, self.visual_tokenizer.is_parallelizable)) |
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self.supports_gradient_checkpointing = all( |
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(self.llm.supports_gradient_checkpointing, self.visual_tokenizer.supports_gradient_checkpointing)) |
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self._supports_flash_attn_2 = all( |
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(self.llm._supports_flash_attn_2, self.visual_tokenizer._supports_flash_attn_2)) |
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self._supports_sdpa = all((self.llm._supports_sdpa, self.visual_tokenizer._supports_sdpa)) |
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self._supports_cache_class = all((self.llm._supports_cache_class, self.visual_tokenizer._supports_cache_class)) |
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def get_text_tokenizer(self): |
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return self.text_tokenizer |
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def get_visual_tokenizer(self): |
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return self.visual_tokenizer |
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def re_init_vte(self, mean, std): |
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vte = self.get_vte() |
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rank0_print(BEGIN_LINE) |
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rank0_print(f'[{datetime.now()}] Before re-initialization of vte: ') |
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with deepspeed.zero.GatheredParameters([vte.weight]): |
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rank0_print(f'vte.weight: {vte.weight}') |
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with deepspeed.zero.GatheredParameters([vte.weight], modifier_rank=0): |
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if not is_deepspeed_zero3_enabled() or deepspeed.comm.get_rank() == 0: |
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vte.reset_parameters(mean, std) |
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rank0_print(f'[{datetime.now()}] After re-initialization of vte:') |
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with deepspeed.zero.GatheredParameters([vte.weight]): |
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rank0_print(f'vte.weight: {vte.weight}') |
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rank0_print(END_LINE) |
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def get_monitor_tensors(self): |
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monitor_tensors = dict( |
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wte=self.get_wte().weight, |
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lm_head=self.get_lm_head().weight, |
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vte=self.get_vte().weight |
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) |
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monitor_tensors.update( |
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{f'visual_tokenizer_{k}': v for k, v in self.get_visual_tokenizer().get_monitor_tensors().items()}) |
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return monitor_tensors |
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def get_lm_head(self): |
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return self.get_llm().get_output_embeddings() |
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def get_llm(self): |
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return self.llm |
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def get_vte(self): |
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return self.vte |
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def get_wte(self): |
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return self.llm.get_input_embeddings() |
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def get_conversation_formatter(self) -> ConversationFormatter: |
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if getattr(self, 'conversation_formatter', None) is None: |
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self.conversation_formatter = getattr(import_module(".conversation_formatter", __package__), |
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self.config.conversation_formatter_class)(self.text_tokenizer) |
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return self.conversation_formatter |
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def forward(self, input_ids: torch.Tensor, attention_mask: torch.Tensor, pixel_values: List[Optional[torch.Tensor]], |
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labels: Optional[torch.Tensor] = None, **kwargs): |
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_, inputs_embeds, labels, attention_mask = self.merge_multimodal( |
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text_input_ids=input_ids, |
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text_attention_masks=attention_mask, |
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text_labels=labels, |
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pixel_values=pixel_values, |
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with_kv_cache=kwargs.get('past_key_values') is not None) |
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return self.llm(inputs_embeds=inputs_embeds, labels=labels, attention_mask=attention_mask, **kwargs) |
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def merge_multimodal(self, text_input_ids: torch.Tensor, text_attention_masks: torch.Tensor, |
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text_labels: Optional[torch.Tensor], pixel_values: List[Optional[torch.Tensor]], |
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with_kv_cache: bool = False): |
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if with_kv_cache: |
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return None, self.get_wte()(text_input_ids), text_labels, text_attention_masks |
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if self.training: |
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num_images = [x.shape[0] for x in pixel_values] |
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visual_tokens = self.visual_tokenizer(torch.cat([x for x in pixel_values], dim=0)) |
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visual_embeds = torch.split(self.get_vte()(visual_tokens).to(dtype=self.dtype), |
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split_size_or_sections=num_images, dim=0) |
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visual_input_ids = torch.split(torch.argmax(visual_tokens, dim=-1), |
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split_size_or_sections=num_images, dim=0) |
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visual_labels = [torch.full(x.shape, IGNORE_INDEX, dtype=torch.long) for x in visual_input_ids] |
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else: |
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num_images = [x.shape[0] if x is not None else 0 for x in pixel_values] |
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if sum(num_images) > 0: |
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visual_tokens = self.visual_tokenizer(torch.cat([x for x in pixel_values if x is not None], dim=0)) |
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visual_embeds = torch.split(self.get_vte()(visual_tokens).to(dtype=self.dtype), |
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split_size_or_sections=num_images, dim=0) |
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visual_input_ids = torch.split(torch.argmax(visual_tokens, dim=-1), |
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split_size_or_sections=num_images, dim=0) |
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visual_labels = [torch.full(x.shape, IGNORE_INDEX, dtype=torch.long) for x in visual_input_ids] |
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else: |
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visual_embeds = [None] * len(num_images) |
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visual_input_ids = [None] * len(num_images) |
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visual_labels = [None] * len(num_images) |
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text_labels = torch.full(text_input_ids.shape, IGNORE_INDEX, dtype=torch.long, device=text_input_ids.device) |
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input_embeds = [] |
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attention_masks = [] |
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labels = [] |
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for text_input_id, text_label, text_attention_mask, visual_embed, visual_input_id, visual_label in zip( |
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text_input_ids, text_labels, text_attention_masks, visual_embeds, visual_input_ids, visual_labels |
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): |
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image_token_mask = torch.eq(text_input_id, IMAGE_TOKEN_INDEX) |
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text_embed = self.get_wte()(torch.masked_fill(text_input_id, image_token_mask, 0)) |
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image_token_positions = torch.where(image_token_mask)[0].tolist() |
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if len(image_token_positions) > 0: |
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input_embed_parts = [] |
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attention_mask_parts = [] |
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label_parts = [] |
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prev_image_token_position = -1 |
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for index, image_token_position in enumerate(image_token_positions): |
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input_embed_parts.append( |
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text_embed[prev_image_token_position + 1:image_token_position, :]) |
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label_parts.append( |
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text_label[prev_image_token_position + 1:image_token_position]) |
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attention_mask_parts.append( |
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text_attention_mask[prev_image_token_position + 1:image_token_position]) |
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input_embed_parts.append(visual_embed[index]) |
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attention_mask_parts.append( |
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torch.ones_like(visual_label[index], device=text_label.device, dtype=torch.bool)) |
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label_parts.append(visual_label[index].to(device=text_label.device)) |
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prev_image_token_position = image_token_position |
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if prev_image_token_position + 1 < text_input_id.shape[0]: |
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input_embed_parts.append( |
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text_embed[prev_image_token_position + 1:, :]) |
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attention_mask_parts.append( |
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text_attention_mask[prev_image_token_position + 1:]) |
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label_parts.append( |
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text_label[prev_image_token_position + 1:]) |
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input_embed = torch.cat(input_embed_parts, dim=0) |
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attention_mask = torch.cat(attention_mask_parts, dim=0) |
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label = torch.cat(label_parts, dim=0) |
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else: |
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input_embed = text_embed |
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attention_mask = text_attention_mask |
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label = text_label |
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if self.training: |
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input_embed += torch.sum(visual_embed * 0.0) |
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input_embeds.append(input_embed) |
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attention_masks.append(attention_mask) |
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labels.append(label) |
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batch_input_embeds = torch.nn.utils.rnn.pad_sequence(input_embeds, batch_first=True, padding_value=0.0)[:, |
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:self.config.multimodal_max_length, :] |
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batch_attention_mask = torch.nn.utils.rnn.pad_sequence(attention_masks, batch_first=True, padding_value=False)[ |
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:, |
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:self.config.multimodal_max_length] |
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batch_labels = torch.nn.utils.rnn.pad_sequence(labels, batch_first=True, padding_value=IGNORE_INDEX)[:, |
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:self.config.multimodal_max_length] |
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return visual_input_ids, batch_input_embeds, batch_labels, batch_attention_mask |
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def save_pretrained( |
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self, |
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save_directory: Union[str, os.PathLike], |
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is_main_process: bool = True, |
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state_dict: Optional[dict] = None, |
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save_function: Callable = torch.save, |
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push_to_hub: bool = False, |
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max_shard_size: Union[int, str] = "5GB", |
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safe_serialization: bool = True, |
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variant: Optional[str] = None, |
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token: Optional[Union[str, bool]] = None, |
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save_peft_format: bool = True, |
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**kwargs, |
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): |
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super().save_pretrained(save_directory, |
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is_main_process=is_main_process, |
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state_dict=state_dict, |
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save_function=save_function, |
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safe_serialization=safe_serialization) |
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self.get_text_tokenizer().save_pretrained(save_directory) |
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self.get_visual_tokenizer().get_image_processor().save_pretrained(save_directory) |
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def prepare_inputs_for_generation( |
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self, input_ids, pixel_values, attention_mask, past_key_values=None, inputs_embeds=None, **kwargs): |
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if past_key_values is not None: |
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input_ids = input_ids[:, -1:] |
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attention_mask = attention_mask[:, -1:] |
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if inputs_embeds is not None and past_key_values is None: |
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model_inputs = {"inputs_embeds": inputs_embeds} |
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else: |
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model_inputs = {"input_ids": input_ids} |
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model_inputs.update( |
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{ |
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"past_key_values": past_key_values, |
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"use_cache": kwargs.get("use_cache"), |
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"attention_mask": attention_mask, |
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"pixel_values": pixel_values |
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} |
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) |
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return model_inputs |
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