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import argparse |
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import json |
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import math |
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import os |
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import os.path as osp |
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import re |
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import string |
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import time |
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|
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import numpy as np |
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import pandas as pd |
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import torch |
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import tqdm |
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from huggingface_hub import snapshot_download |
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from mmengine import mkdir_or_exist |
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from mmengine.dist import (collect_results, get_dist_info, get_rank, init_dist, |
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master_only) |
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from mmengine.utils.dl_utils import set_multi_processing |
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from peft import PeftModel |
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from rich.console import Console |
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from rich.table import Table |
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from torch.utils.data import Dataset |
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from transformers import (AutoModel, AutoModelForCausalLM, AutoTokenizer, |
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BitsAndBytesConfig, SiglipImageProcessor, |
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SiglipVisionModel, GenerationConfig) |
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|
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from xtuner.dataset.utils import decode_base64_to_image, expand2square |
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from xtuner.model.utils import LoadWoInit, prepare_inputs_labels_for_multimodal |
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from xtuner.tools.utils import get_stop_criteria, is_cn_string |
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from xtuner.utils import (DEFAULT_IMAGE_TOKEN, IMAGE_TOKEN_INDEX, |
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PROMPT_TEMPLATE) |
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TORCH_DTYPE_MAP = dict( |
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fp16=torch.float16, bf16=torch.bfloat16, fp32=torch.float32, auto='auto') |
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|
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def parse_args(): |
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parser = argparse.ArgumentParser(description='MMBench') |
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parser.add_argument( |
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'model_name_or_path', help='Hugging Face model name or path') |
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parser.add_argument('--data-path', default=None, help='data path') |
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parser.add_argument('--work-dir', help='the dir to save results') |
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parser.add_argument('--llava', default=None, help='llava name or path') |
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parser.add_argument( |
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'--visual-encoder', default=None, help='visual encoder name or path') |
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parser.add_argument( |
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'--visual-select-layer', default=-2, help='visual select layer') |
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parser.add_argument( |
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'--prompt-template', |
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choices=PROMPT_TEMPLATE.keys(), |
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default=None, |
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help='Specify a prompt template') |
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parser.add_argument( |
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'--stop-words', nargs='+', type=str, default=[], help='Stop words') |
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parser.add_argument( |
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'--torch-dtype', |
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default='fp16', |
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choices=TORCH_DTYPE_MAP.keys(), |
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help='Override the default `torch.dtype` and load the model under ' |
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'a specific `dtype`.') |
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parser.add_argument( |
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'--bits', |
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type=int, |
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choices=[4, 8, None], |
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default=None, |
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help='LLM bits') |
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parser.add_argument( |
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'--bot-name', type=str, default='BOT', help='Name for Bot') |
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parser.add_argument( |
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'--offload-folder', |
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default=None, |
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help='The folder in which to offload the model weights (or where the ' |
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'model weights are already offloaded).') |
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parser.add_argument( |
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'--max-new-tokens', |
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type=int, |
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default=100, |
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help='Maximum number of new tokens allowed in generated text') |
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parser.add_argument( |
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'--seed', |
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type=int, |
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default=0, |
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help='Random seed for reproducible text generation') |
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parser.add_argument( |
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'--launcher', |
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choices=['none', 'pytorch', 'slurm', 'mpi'], |
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default='none', |
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help='job launcher') |
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args = parser.parse_args() |
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return args |
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@master_only |
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def master_print(msg): |
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print(msg) |
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class MMBenchDataset(Dataset): |
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ABBRS = { |
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'coarse_perception': 'CP', |
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'finegrained_perception (instance-level)': 'FP-S', |
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'finegrained_perception (cross-instance)': 'FP-C', |
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'logic_reasoning': 'LR', |
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'relation_reasoning': 'RR', |
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'attribute_reasoning': 'AR', |
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'sketch_reasoning': 'Sketch Reasoning', |
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'scenery_building': 'Scenery & Building', |
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'food_clothes': 'Food & Clothes', |
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'historical_figure': 'Historical Figure', |
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'traditional_show': 'Traditional Show', |
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'calligraphy_painting': 'Calligraphy Painting', |
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'cultural_relic': 'Cultural Relic' |
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} |
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def __init__(self, data_file): |
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self.data_file = data_file |
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self.df = pd.read_csv(data_file, sep='\t') |
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self.split = 'dev' if 'answer' in self.df.iloc[0].keys() else 'test' |
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self.has_l2_category = 'l2-category' in self.df.columns.to_list() |
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|
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def get_image(self, image): |
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while len(image) < 16: |
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image = self.df[self.df['index'] == int(image)]['image'].values |
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assert len(image) == 1 |
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image = image[0] |
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image = decode_base64_to_image(image) |
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return image |
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def __len__(self): |
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return len(self.df) |
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def __getitem__(self, idx): |
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index = self.df.iloc[idx]['index'] |
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image = self.df.iloc[idx]['image'] |
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image = self.get_image(image) |
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question = self.df.iloc[idx]['question'] |
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answer = self.df.iloc[idx]['answer'] if 'answer' in self.df.iloc[ |
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0].keys() else None |
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category = self.df.iloc[idx]['category'] |
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|
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options = { |
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cand: self.load_from_df(idx, cand) |
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for cand in string.ascii_uppercase |
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if self.load_from_df(idx, cand) is not None |
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} |
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options_prompt = '' |
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for key, item in options.items(): |
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options_prompt += f'{key}. {item}\n' |
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hint = self.load_from_df(idx, 'hint') |
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data = { |
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'img': image, |
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'question': question, |
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'answer': answer, |
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'options': options_prompt, |
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'category': category, |
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'options_dict': options, |
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'index': index, |
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'context': hint, |
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} |
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if self.has_l2_category: |
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data.update({'l2-category': self.df.iloc[idx]['l2-category']}) |
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return data |
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def load_from_df(self, idx, key): |
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if key in self.df.iloc[idx] and not pd.isna(self.df.iloc[idx][key]): |
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return self.df.iloc[idx][key] |
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else: |
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return None |
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@master_only |
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def eval_result(self, result_df, show=True): |
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|
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def calc_acc(df, group='category'): |
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assert group in ['overall', 'category', 'l2-category'] |
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if group == 'overall': |
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res = {'Average': np.mean(df['hit'])} |
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else: |
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res = {} |
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abilities = list(set(df[group])) |
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abilities.sort() |
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for ab in abilities: |
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sub_df = df[df[group] == ab] |
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ab = self.ABBRS[ab] if ab in self.ABBRS else ab |
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res[ab] = np.mean(sub_df['hit']) |
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return res |
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def eval_sub_data(sub_data, answer_map): |
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lt = len(sub_data) |
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for i in range(lt): |
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item = sub_data.iloc[i] |
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match = re.search(r'([A-D]+)', item['prediction']) |
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pred = match.group(1) if match else '' |
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gt = answer_map[item['index']] |
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if gt != pred: |
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return 0 |
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return 1 |
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def show_result(ret_json): |
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show_dict = ret_json.copy() |
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table = Table(title=f' MMBench ({self.data_file}) ') |
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console = Console() |
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table.add_column('Category', justify='left') |
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table.add_column('Accuracy (%)', justify='right') |
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average = show_dict.pop('Average') * 100 |
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table.add_row('Average', f'{average:.1f}') |
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table.add_section() |
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for cat_name, cat_acc in show_dict.items(): |
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table.add_row(cat_name, f'{cat_acc * 100:.1f}') |
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with console.capture() as capture: |
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console.print(table, end='') |
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print('\n' + capture.get()) |
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print('Note: Please be cautious if you use the results in papers, ' |
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"since we don't use ChatGPT as a helper for choice " |
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'extraction') |
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data = result_df.sort_values(by='index') |
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data['prediction'] = [str(x) for x in data['prediction']] |
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for k in data.keys(): |
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data[k.lower() if k not in 'ABCD' else k] = data.pop(k) |
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data_main = data[data['index'] < int(1e6)] |
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cate_map = { |
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i: c |
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for i, c in zip(self.df['index'], self.df['category']) |
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} |
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if self.has_l2_category: |
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l2_cate_map = { |
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i: c |
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for i, c in zip(self.df['index'], self.df['l2-category']) |
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} |
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answer_map = { |
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i: c |
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for i, c in zip(self.df['index'], self.df['answer']) |
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} |
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lt = len(data_main) |
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hit, tot = 0, 0 |
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result = {} |
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for i in range(lt): |
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item_main = data_main.iloc[i] |
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idx = item_main['index'] |
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assert idx not in result |
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sub_data = data[data['index'] % int(1e6) == idx] |
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ret = eval_sub_data(sub_data, answer_map) |
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result[idx] = ret |
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hit += ret |
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tot += 1 |
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indices = data_main['index'] |
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data_main = data_main.copy() |
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data_main['hit'] = [result[i] for i in indices] |
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main_idx = data_main['index'] |
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data_main['category'] = [cate_map[i] for i in main_idx] |
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ret_json = calc_acc(data_main, 'overall') |
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if self.has_l2_category: |
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data_main['l2-category'] = [l2_cate_map[i] for i in main_idx] |
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l2 = calc_acc(data_main, 'l2-category') |
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ret_json.update(l2) |
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else: |
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leaf = calc_acc(data_main, 'category') |
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ret_json.update(leaf) |
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if show: |
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show_result(ret_json) |
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return ret_json |
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|
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def main(): |
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args = parse_args() |
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|
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torch.manual_seed(args.seed) |
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|
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if args.launcher != 'none': |
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set_multi_processing(distributed=True) |
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init_dist(args.launcher) |
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rank, world_size = get_dist_info() |
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torch.cuda.set_device(rank) |
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else: |
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rank = 0 |
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world_size = 1 |
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quantization_config = None |
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load_in_8bit = False |
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if args.bits == 4: |
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quantization_config = BitsAndBytesConfig( |
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load_in_4bit=True, |
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load_in_8bit=False, |
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llm_int8_threshold=6.0, |
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llm_int8_has_fp16_weight=False, |
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bnb_4bit_compute_dtype=torch.float16, |
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bnb_4bit_use_double_quant=True, |
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bnb_4bit_quant_type='nf4') |
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elif args.bits == 8: |
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load_in_8bit = True |
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model_kwargs = { |
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'quantization_config': quantization_config, |
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'load_in_8bit': load_in_8bit, |
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'device_map': rank if world_size > 1 else 'auto', |
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'offload_folder': args.offload_folder, |
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'trust_remote_code': True, |
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'torch_dtype': TORCH_DTYPE_MAP[args.torch_dtype] |
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} |
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with LoadWoInit(): |
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llm = AutoModelForCausalLM.from_pretrained(args.model_name_or_path, |
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**model_kwargs) |
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tokenizer = AutoTokenizer.from_pretrained( |
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args.model_name_or_path, |
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trust_remote_code=True, |
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encode_special_tokens=True) |
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master_print(f'Load LLM from {args.model_name_or_path}') |
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|
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llava_path = snapshot_download( |
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repo_id=args.llava) if not osp.isdir(args.llava) else args.llava |
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|
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if 'visual_encoder' in os.listdir(llava_path): |
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assert args.visual_encoder is None, ( |
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"Please don't specify the `--visual-encoder` since passed " |
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'`--llava` contains a visual encoder!') |
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visual_encoder_path = osp.join(llava_path, 'visual_encoder') |
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else: |
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assert args.visual_encoder is not None, ( |
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'Please specify the `--visual-encoder`!') |
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visual_encoder_path = args.visual_encoder |
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with LoadWoInit(): |
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visual_encoder = SiglipVisionModel.from_pretrained( |
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visual_encoder_path, torch_dtype=TORCH_DTYPE_MAP[args.torch_dtype]) |
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image_processor = SiglipImageProcessor.from_pretrained( |
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visual_encoder_path) |
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master_print(f'Load visual_encoder from {visual_encoder_path}') |
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if 'llm_adapter' in os.listdir(llava_path): |
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adapter_path = osp.join(llava_path, 'llm_adapter') |
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|
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with LoadWoInit(): |
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llm = PeftModel.from_pretrained( |
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llm, adapter_path, offload_folder=args.offload_folder) |
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|
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master_print(f'Load LLM adapter from {args.llava}') |
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|
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if 'visual_encoder_adapter' in os.listdir(llava_path): |
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adapter_path = osp.join(llava_path, 'visual_encoder_adapter') |
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visual_encoder = PeftModel.from_pretrained( |
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visual_encoder, adapter_path, offload_folder=args.offload_folder) |
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master_print(f'Load visual_encoder adapter from {args.llava}') |
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projector_path = osp.join(llava_path, 'projector') |
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with LoadWoInit(): |
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projector = AutoModel.from_pretrained( |
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projector_path, torch_dtype=TORCH_DTYPE_MAP[args.torch_dtype]) |
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master_print(f'Load projector from {args.llava}') |
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projector.cuda() |
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projector.eval() |
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|
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visual_encoder.cuda() |
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visual_encoder.eval() |
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|
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llm.eval() |
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|
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stop_words = args.stop_words |
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if args.prompt_template: |
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template = PROMPT_TEMPLATE[args.prompt_template] |
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stop_words += template.get('STOP_WORDS', []) |
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stop_criteria = get_stop_criteria( |
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tokenizer=tokenizer, stop_words=stop_words) |
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|
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gen_config = GenerationConfig( |
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max_new_tokens=args.max_new_tokens, |
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do_sample=False, |
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eos_token_id=tokenizer.eos_token_id, |
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pad_token_id=tokenizer.pad_token_id |
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if tokenizer.pad_token_id is not None else tokenizer.eos_token_id, |
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) |
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if args.work_dir is not None: |
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|
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save_dir = args.work_dir |
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else: |
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|
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save_dir = osp.join('./work_dirs', |
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osp.splitext(osp.basename(args.data_path))[0]) |
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timestamp = time.strftime('%Y%m%d_%H%M%S', time.localtime(time.time())) |
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save_dir = osp.join(save_dir, timestamp) |
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|
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if rank == 0: |
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mkdir_or_exist(osp.abspath(save_dir)) |
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print('=======================================================') |
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print(f'Dataset path: {osp.abspath(args.data_path)}\n' |
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f'Results will be saved to {osp.abspath(save_dir)}') |
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print('=======================================================') |
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|
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args_path = osp.join(save_dir, 'args.json') |
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with open(args_path, 'w') as f: |
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json.dump(args.__dict__, f, indent=2) |
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|
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results_xlsx_path = osp.join(save_dir, 'mmbench_result.xlsx') |
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results_json_path = osp.join(save_dir, 'mmbench_result.json') |
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|
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dataset = MMBenchDataset(args.data_path) |
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|
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results = [] |
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n_samples = len(dataset) |
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per_rank_samples = math.ceil(n_samples / world_size) |
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|
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per_rank_ids = range(per_rank_samples * rank, |
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min(n_samples, per_rank_samples * (rank + 1))) |
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for i in tqdm.tqdm(per_rank_ids, desc=f'Rank {rank}'): |
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data_sample = dataset[i] |
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if data_sample['context'] is not None: |
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text = data_sample['context'] + '\n' + data_sample[ |
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'question'] + '\n' + data_sample['options'] |
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else: |
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text = data_sample['question'] + '\n' + data_sample['options'] |
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|
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text = DEFAULT_IMAGE_TOKEN + '\n' + text |
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|
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if is_cn_string(text): |
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text = text + '请直接回答选项字母。' |
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else: |
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text = text + ("Answer with the option's letter from the " |
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'given choices directly.') |
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|
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if args.prompt_template: |
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prompt_text = '' |
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template = PROMPT_TEMPLATE[args.prompt_template] |
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prompt_text += template['INSTRUCTION'].format( |
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input=text, round=1, bot_name=args.bot_name) |
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else: |
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prompt_text = text |
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inputs = prompt_text |
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|
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image = data_sample['img'].convert('RGB') |
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image = expand2square( |
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image, tuple(int(x * 255) for x in image_processor.image_mean)) |
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image = image_processor.preprocess( |
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image, return_tensors='pt')['pixel_values'][0] |
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image = image.cuda().unsqueeze(0) |
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visual_outputs = visual_encoder(image, output_hidden_states=True) |
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pixel_values = projector( |
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visual_outputs.hidden_states[args.visual_select_layer][:, 1:]) |
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|
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chunk_encode = [] |
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for idx, chunk in enumerate(inputs.split(DEFAULT_IMAGE_TOKEN)): |
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if idx == 0: |
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cur_encode = tokenizer.encode(chunk) |
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else: |
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cur_encode = tokenizer.encode(chunk, add_special_tokens=False) |
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chunk_encode.append(cur_encode) |
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assert len(chunk_encode) == 2 |
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ids = [] |
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for idx, cur_chunk_encode in enumerate(chunk_encode): |
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ids.extend(cur_chunk_encode) |
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if idx != len(chunk_encode) - 1: |
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ids.append(IMAGE_TOKEN_INDEX) |
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ids = torch.tensor(ids).cuda().unsqueeze(0) |
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mm_inputs = prepare_inputs_labels_for_multimodal( |
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llm=llm, input_ids=ids, pixel_values=pixel_values) |
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|
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generate_output = llm.generate( |
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**mm_inputs, |
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generation_config=gen_config, |
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streamer=None, |
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bos_token_id=tokenizer.bos_token_id, |
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stopping_criteria=stop_criteria) |
|
|
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predict = tokenizer.decode( |
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generate_output[0], skip_special_tokens=True).strip() |
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cur_result = {} |
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cur_result['question'] = data_sample.get('question') |
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cur_result.update(data_sample.get('options_dict')) |
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cur_result['prediction'] = predict |
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if data_sample.get('category') is not None: |
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cur_result['category'] = data_sample.get('category') |
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if data_sample.get('l2-category') is not None: |
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cur_result['l2-category'] = data_sample.get('l2-category') |
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cur_result['index'] = data_sample.get('index') |
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cur_result['split'] = data_sample.get('split') |
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cur_result['answer'] = data_sample.get('answer') |
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results.append(cur_result) |
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|
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results = collect_results(results, n_samples) |
|
|
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if get_rank() == 0: |
|
|
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results_df = pd.DataFrame(results) |
|
with pd.ExcelWriter(results_xlsx_path, engine='openpyxl') as writer: |
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results_df.to_excel(writer, index=False) |
|
|
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if dataset.split == 'dev': |
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results_dict = dataset.eval_result(results_df, show=True) |
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with open(results_json_path, 'w') as f: |
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json.dump(results_dict, f, indent=2) |
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else: |
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print('All done!') |
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|
|
|
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if __name__ == '__main__': |
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|
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main() |
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