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import os
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import re
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from typing import Dict, List
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import json
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import torch
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import numpy as np
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import random
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from PIL import Image
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from torchvision import transforms
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from transformers import AutoTokenizer
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from huggingface_hub import snapshot_download
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from OmniGen.utils import (
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create_logger,
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update_ema,
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requires_grad,
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center_crop_arr,
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crop_arr,
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)
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class OmniGenProcessor:
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def __init__(self,
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text_tokenizer,
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max_image_size: int=1024):
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self.text_tokenizer = text_tokenizer
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self.max_image_size = max_image_size
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self.image_transform = transforms.Compose([
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transforms.Lambda(lambda pil_image: crop_arr(pil_image, max_image_size)),
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transforms.ToTensor(),
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transforms.Normalize(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5], inplace=True)
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])
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self.collator = OmniGenCollator()
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self.separate_collator = OmniGenSeparateCollator()
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@classmethod
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def from_pretrained(cls, model_name):
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if not os.path.exists(model_name):
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cache_folder = os.getenv('HF_HUB_CACHE')
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model_name = snapshot_download(repo_id=model_name,
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cache_dir=cache_folder,
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allow_patterns="*.json")
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text_tokenizer = AutoTokenizer.from_pretrained(model_name)
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return cls(text_tokenizer)
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def process_image(self, image):
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image = Image.open(image).convert('RGB')
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return self.image_transform(image)
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def process_multi_modal_prompt(self, text, input_images):
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text = self.add_prefix_instruction(text)
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if input_images is None or len(input_images) == 0:
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model_inputs = self.text_tokenizer(text)
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return {"input_ids": model_inputs.input_ids, "pixel_values": None, "image_sizes": None}
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pattern = r"<\|image_\d+\|>"
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prompt_chunks = [self.text_tokenizer(chunk).input_ids for chunk in re.split(pattern, text)]
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for i in range(1, len(prompt_chunks)):
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if prompt_chunks[i][0] == 1:
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prompt_chunks[i] = prompt_chunks[i][1:]
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image_tags = re.findall(pattern, text)
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image_ids = [int(s.split("|")[1].split("_")[-1]) for s in image_tags]
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unique_image_ids = sorted(list(set(image_ids)))
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assert unique_image_ids == list(range(1, len(unique_image_ids)+1)), f"image_ids must start from 1, and must be continuous int, e.g. [1, 2, 3], cannot be {unique_image_ids}"
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assert len(unique_image_ids) == len(input_images), f"total images must be the same as the number of image tags, got {len(unique_image_ids)} image tags and {len(input_images)} images"
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input_images = [input_images[x-1] for x in image_ids]
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all_input_ids = []
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img_inx = []
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idx = 0
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for i in range(len(prompt_chunks)):
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all_input_ids.extend(prompt_chunks[i])
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if i != len(prompt_chunks) -1:
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start_inx = len(all_input_ids)
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size = input_images[i].size(-2) * input_images[i].size(-1) // 16 // 16
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img_inx.append([start_inx, start_inx+size])
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all_input_ids.extend([0]*size)
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return {"input_ids": all_input_ids, "pixel_values": input_images, "image_sizes": img_inx}
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def add_prefix_instruction(self, prompt):
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user_prompt = '<|user|>\n'
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generation_prompt = 'Generate an image according to the following instructions\n'
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assistant_prompt = '<|assistant|>\n<|diffusion|>'
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prompt_suffix = "<|end|>\n"
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prompt = f"{user_prompt}{generation_prompt}{prompt}{prompt_suffix}{assistant_prompt}"
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return prompt
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def __call__(self,
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instructions: List[str],
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input_images: List[List[str]] = None,
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height: int = 1024,
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width: int = 1024,
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negative_prompt: str = "low quality, jpeg artifacts, ugly, duplicate, morbid, mutilated, extra fingers, mutated hands, poorly drawn hands, poorly drawn face, mutation, deformed, blurry, dehydrated, bad anatomy, bad proportions, extra limbs, cloned face, disfigured, gross proportions, malformed limbs, missing arms, missing legs, extra arms, extra legs, fused fingers, too many fingers.",
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use_img_cfg: bool = True,
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separate_cfg_input: bool = False,
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) -> Dict:
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if input_images is None:
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use_img_cfg = False
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if isinstance(instructions, str):
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instructions = [instructions]
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input_images = [input_images]
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input_data = []
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for i in range(len(instructions)):
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cur_instruction = instructions[i]
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cur_input_images = None if input_images is None else input_images[i]
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if cur_input_images is not None and len(cur_input_images) > 0:
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cur_input_images = [self.process_image(x) for x in cur_input_images]
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else:
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cur_input_images = None
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assert "<img><|image_1|></img>" not in cur_instruction
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mllm_input = self.process_multi_modal_prompt(cur_instruction, cur_input_images)
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neg_mllm_input, img_cfg_mllm_input = None, None
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neg_mllm_input = self.process_multi_modal_prompt(negative_prompt, None)
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if use_img_cfg:
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if cur_input_images is not None and len(cur_input_images) >= 1:
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img_cfg_prompt = [f"<img><|image_{i+1}|></img>" for i in range(len(cur_input_images))]
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img_cfg_mllm_input = self.process_multi_modal_prompt(" ".join(img_cfg_prompt), cur_input_images)
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else:
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img_cfg_mllm_input = neg_mllm_input
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input_data.append((mllm_input, neg_mllm_input, img_cfg_mllm_input, [height, width]))
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if separate_cfg_input:
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return self.separate_collator(input_data)
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return self.collator(input_data)
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class OmniGenCollator:
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def __init__(self, pad_token_id=2, hidden_size=3072):
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self.pad_token_id = pad_token_id
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self.hidden_size = hidden_size
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def create_position(self, attention_mask, num_tokens_for_output_images):
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position_ids = []
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text_length = attention_mask.size(-1)
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img_length = max(num_tokens_for_output_images)
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for mask in attention_mask:
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temp_l = torch.sum(mask)
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temp_position = [0]*(text_length-temp_l) + [i for i in range(temp_l+img_length+1)]
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position_ids.append(temp_position)
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return torch.LongTensor(position_ids)
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def create_mask(self, attention_mask, num_tokens_for_output_images):
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extended_mask = []
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padding_images = []
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text_length = attention_mask.size(-1)
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img_length = max(num_tokens_for_output_images)
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seq_len = text_length + img_length + 1
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inx = 0
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for mask in attention_mask:
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temp_l = torch.sum(mask)
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pad_l = text_length - temp_l
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temp_mask = torch.tril(torch.ones(size=(temp_l+1, temp_l+1)))
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image_mask = torch.zeros(size=(temp_l+1, img_length))
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temp_mask = torch.cat([temp_mask, image_mask], dim=-1)
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image_mask = torch.ones(size=(img_length, temp_l+img_length+1))
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temp_mask = torch.cat([temp_mask, image_mask], dim=0)
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if pad_l > 0:
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pad_mask = torch.zeros(size=(temp_l+1+img_length, pad_l))
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temp_mask = torch.cat([pad_mask, temp_mask], dim=-1)
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pad_mask = torch.ones(size=(pad_l, seq_len))
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temp_mask = torch.cat([pad_mask, temp_mask], dim=0)
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true_img_length = num_tokens_for_output_images[inx]
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pad_img_length = img_length - true_img_length
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if pad_img_length > 0:
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temp_mask[:, -pad_img_length:] = 0
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temp_padding_imgs = torch.zeros(size=(1, pad_img_length, self.hidden_size))
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else:
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temp_padding_imgs = None
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extended_mask.append(temp_mask.unsqueeze(0))
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padding_images.append(temp_padding_imgs)
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inx += 1
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return torch.cat(extended_mask, dim=0), padding_images
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def adjust_attention_for_input_images(self, attention_mask, image_sizes):
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for b_inx in image_sizes.keys():
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for start_inx, end_inx in image_sizes[b_inx]:
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attention_mask[b_inx][start_inx:end_inx, start_inx:end_inx] = 1
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return attention_mask
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def pad_input_ids(self, input_ids, image_sizes):
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max_l = max([len(x) for x in input_ids])
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padded_ids = []
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attention_mask = []
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new_image_sizes = []
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for i in range(len(input_ids)):
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temp_ids = input_ids[i]
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temp_l = len(temp_ids)
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pad_l = max_l - temp_l
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if pad_l == 0:
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attention_mask.append([1]*max_l)
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padded_ids.append(temp_ids)
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else:
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attention_mask.append([0]*pad_l+[1]*temp_l)
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padded_ids.append([self.pad_token_id]*pad_l+temp_ids)
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if i in image_sizes:
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new_inx = []
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for old_inx in image_sizes[i]:
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new_inx.append([x+pad_l for x in old_inx])
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image_sizes[i] = new_inx
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return torch.LongTensor(padded_ids), torch.LongTensor(attention_mask), image_sizes
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def process_mllm_input(self, mllm_inputs, target_img_size):
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num_tokens_for_output_images = []
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for img_size in target_img_size:
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num_tokens_for_output_images.append(img_size[0]*img_size[1]//16//16)
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pixel_values, image_sizes = [], {}
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b_inx = 0
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for x in mllm_inputs:
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if x['pixel_values'] is not None:
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pixel_values.extend(x['pixel_values'])
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for size in x['image_sizes']:
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if b_inx not in image_sizes:
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image_sizes[b_inx] = [size]
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else:
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image_sizes[b_inx].append(size)
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b_inx += 1
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pixel_values = [x.unsqueeze(0) for x in pixel_values]
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input_ids = [x['input_ids'] for x in mllm_inputs]
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padded_input_ids, attention_mask, image_sizes = self.pad_input_ids(input_ids, image_sizes)
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position_ids = self.create_position(attention_mask, num_tokens_for_output_images)
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attention_mask, padding_images = self.create_mask(attention_mask, num_tokens_for_output_images)
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attention_mask = self.adjust_attention_for_input_images(attention_mask, image_sizes)
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return padded_input_ids, position_ids, attention_mask, padding_images, pixel_values, image_sizes
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def __call__(self, features):
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mllm_inputs = [f[0] for f in features]
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cfg_mllm_inputs = [f[1] for f in features]
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img_cfg_mllm_input = [f[2] for f in features]
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target_img_size = [f[3] for f in features]
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if img_cfg_mllm_input[0] is not None:
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mllm_inputs = mllm_inputs + cfg_mllm_inputs + img_cfg_mllm_input
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target_img_size = target_img_size + target_img_size + target_img_size
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else:
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mllm_inputs = mllm_inputs + cfg_mllm_inputs
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target_img_size = target_img_size + target_img_size
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all_padded_input_ids, all_position_ids, all_attention_mask, all_padding_images, all_pixel_values, all_image_sizes = self.process_mllm_input(mllm_inputs, target_img_size)
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data = {"input_ids": all_padded_input_ids,
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"attention_mask": all_attention_mask,
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"position_ids": all_position_ids,
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"input_pixel_values": all_pixel_values,
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"input_image_sizes": all_image_sizes,
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"padding_images": all_padding_images,
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}
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return data
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class OmniGenSeparateCollator(OmniGenCollator):
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def __call__(self, features):
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mllm_inputs = [f[0] for f in features]
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cfg_mllm_inputs = [f[1] for f in features]
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img_cfg_mllm_input = [f[2] for f in features]
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target_img_size = [f[3] for f in features]
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all_padded_input_ids, all_attention_mask, all_position_ids, all_pixel_values, all_image_sizes, all_padding_images = [], [], [], [], [], []
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padded_input_ids, position_ids, attention_mask, padding_images, pixel_values, image_sizes = self.process_mllm_input(mllm_inputs, target_img_size)
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all_padded_input_ids.append(padded_input_ids)
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all_attention_mask.append(attention_mask)
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all_position_ids.append(position_ids)
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all_pixel_values.append(pixel_values)
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all_image_sizes.append(image_sizes)
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all_padding_images.append(padding_images)
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if cfg_mllm_inputs[0] is not None:
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padded_input_ids, position_ids, attention_mask, padding_images, pixel_values, image_sizes = self.process_mllm_input(cfg_mllm_inputs, target_img_size)
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all_padded_input_ids.append(padded_input_ids)
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all_attention_mask.append(attention_mask)
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all_position_ids.append(position_ids)
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all_pixel_values.append(pixel_values)
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all_image_sizes.append(image_sizes)
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all_padding_images.append(padding_images)
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if img_cfg_mllm_input[0] is not None:
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padded_input_ids, position_ids, attention_mask, padding_images, pixel_values, image_sizes = self.process_mllm_input(img_cfg_mllm_input, target_img_size)
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all_padded_input_ids.append(padded_input_ids)
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all_attention_mask.append(attention_mask)
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all_position_ids.append(position_ids)
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all_pixel_values.append(pixel_values)
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all_image_sizes.append(image_sizes)
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all_padding_images.append(padding_images)
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data = {"input_ids": all_padded_input_ids,
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"attention_mask": all_attention_mask,
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"position_ids": all_position_ids,
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"input_pixel_values": all_pixel_values,
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"input_image_sizes": all_image_sizes,
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"padding_images": all_padding_images,
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}
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return data
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