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1123 lines (953 loc) · 48.4 KB
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import warnings
from .image_base import ImageBaseDataset
from .utils import build_judge, DEBUG_MESSAGE
from ..smp import *
import pandas as pd
MMMB_URLS = {
'MMMB_ar': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmmb/mmmb_ar.tsv',
'MMMB_cn': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmmb/mmmb_cn.tsv',
'MMMB_en': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmmb/mmmb_en.tsv',
'MMMB_pt': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmmb/mmmb_pt.tsv',
'MMMB_ru': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmmb/mmmb_ru.tsv',
'MMMB_tr': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmmb/mmmb_tr.tsv',
}
MTL_MMBench_URLS = {
'MMBench_dev_ar': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmbench/mmbench_dev_ar.tsv',
'MMBench_dev_cn': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmbench/mmbench_dev_cn.tsv',
'MMBench_dev_en': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmbench/mmbench_dev_en.tsv',
'MMBench_dev_pt': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmbench/mmbench_dev_pt.tsv',
'MMBench_dev_tr': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmbench/mmbench_dev_tr.tsv',
'MMBench_dev_ru': 'https://huggingface.co/datasets/AIDC-AI/Parrot-dataset/resolve/main/mmbench/mmbench_dev_ru.tsv',
}
MMMB_MD5 = {
'MMMB_ar': 'f3a18b6385f1d9701840aa42de27aead', 'MMMB_cn': '13ed82fa89730037292fcaa27f08f430',
'MMMB_en': '1cd781a71ec5a2983c090b84105d6a01', 'MMMB_pt': '548ea2b3bb2da991790386f0015d30d1',
'MMMB_ru': 'ce1cc8a0533425ab0d86b326ebfc2984', 'MMMB_tr': '0733739d43090327975294292bc5cd67'
}
MTL_MMBench_MD5 = {
'MMBench_dev_ar': '4271b4a0d0200e1a86380a878e0d64a4', 'MMBench_dev_cn': '2ed5135326fed02c8e51ea50dda8222f',
'MMBench_dev_en': 'd9ab776fc018b3d45785e9a5c23431c2', 'MMBench_dev_pt': '4ddfbcd27ef12444b908c03831cd0295',
'MMBench_dev_tr': '4fab39d501389d3d6cc90264bb708f11', 'MMBench_dev_ru': '5ba1171ff2e68f80637bf78349e402a5'
}
class ImageMCQDataset(ImageBaseDataset):
TYPE = 'MCQ'
DATASET_URL = {
# MMBench v1.0
'MMBench_DEV_EN': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_DEV_EN.tsv',
'MMBench_TEST_EN': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_TEST_EN.tsv',
'MMBench_DEV_CN': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_DEV_CN.tsv',
'MMBench_TEST_CN': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_TEST_CN.tsv',
'MMBench': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench.tsv', # Internal
'MMBench_CN': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_CN.tsv', # Internal
# MMBench v1.1
'MMBench_DEV_EN_V11': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_DEV_EN_V11.tsv',
'MMBench_TEST_EN_V11': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_TEST_EN_V11.tsv',
'MMBench_DEV_CN_V11': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_DEV_CN_V11.tsv',
'MMBench_TEST_CN_V11': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_TEST_CN_V11.tsv',
'MMBench_V11': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_V11.tsv', # Internal
'MMBench_CN_V11': 'https://opencompass.openxlab.space/utils/benchmarks/MMBench/MMBench_CN_V11.tsv', # Internal
# SEEDBench Series
'SEEDBench_IMG': 'https://opencompass.openxlab.space/utils/benchmarks/SEEDBench/SEEDBench_IMG.tsv',
'SEEDBench2': 'https://huggingface.co/datasets/VLMEval/SEEDBench2/resolve/main/SEEDBench2.tsv',
'SEEDBench2_Plus': 'https://opencompass.openxlab.space/utils/benchmarks/SEEDBench/SEEDBench2_Plus.tsv',
# ScienceQA Series
'ScienceQA_VAL': 'https://opencompass.openxlab.space/utils/benchmarks/ScienceQA/ScienceQA_VAL.tsv',
'ScienceQA_TEST': 'https://opencompass.openxlab.space/utils/benchmarks/ScienceQA/ScienceQA_TEST.tsv',
# MMT-Bench
'MMT-Bench_ALL_MI': 'https://opencompass.openxlab.space/utils/benchmarks/MMT-Bench/MMT-Bench_ALL_MI.tsv',
'MMT-Bench_ALL': 'https://opencompass.openxlab.space/utils/benchmarks/MMT-Bench/MMT-Bench_ALL.tsv',
'MMT-Bench_VAL_MI': 'https://opencompass.openxlab.space/utils/benchmarks/MMT-Bench/MMT-Bench_VAL_MI.tsv',
'MMT-Bench_VAL': 'https://opencompass.openxlab.space/utils/benchmarks/MMT-Bench/MMT-Bench_VAL.tsv',
# AesBench
'AesBench_VAL': 'https://huggingface.co/datasets/VLMEval/AesBench/resolve/main/AesBench_VAL.tsv',
'AesBench_TEST': 'https://huggingface.co/datasets/VLMEval/AesBench/resolve/main/AesBench_TEST.tsv',
# Q-Bench1
'Q-Bench1_VAL': 'https://huggingface.co/datasets/zhangzicheng/qbench_tsv/resolve/main/Q-Bench1_VAL.tsv',
'Q-Bench1_TEST': 'https://huggingface.co/datasets/zhangzicheng/qbench_tsv/resolve/main/Q-Bench1_TEST.tsv',
# A-Bench
'A-Bench_VAL': 'https://huggingface.co/datasets/zhangzicheng/abench_tsv/resolve/main/A-bench_VAL.tsv',
'A-Bench_TEST': 'https://huggingface.co/datasets/zhangzicheng/abench_tsv/resolve/main/A-bench_TEST.tsv',
# R-Bench
'R-Bench-Dis': 'https://huggingface.co/datasets/lcysyzxdxc/R-Bench/blob/main/R-bench-dis.tsv',
'R-Bench-Ref': 'https://huggingface.co/datasets/lcysyzxdxc/R-Bench/blob/main/R-bench-ref.tsv',
# Other Benchmarks
'CCBench': 'https://opencompass.openxlab.space/utils/VLMEval/CCBench.tsv',
'AI2D_TEST': 'https://opencompass.openxlab.space/utils/VLMEval/AI2D_TEST.tsv',
'AI2D_TEST_NO_MASK': 'https://opencompass.openxlab.space/utils/VLMEval/AI2D_TEST_NO_MASK.tsv',
'MMStar': 'https://opencompass.openxlab.space/utils/VLMEval/MMStar.tsv',
'RealWorldQA': 'https://opencompass.openxlab.space/utils/VLMEval/RealWorldQA.tsv',
'MLLMGuard_DS': 'https://opencompass.openxlab.space/utils/VLMEval/MLLMGuard_DS.tsv',
'BLINK': 'https://opencompass.openxlab.space/utils/VLMEval/BLINK.tsv',
'TaskMeAnything_v1_imageqa_random': (
'https://huggingface.co/datasets/weikaih/TaskMeAnything-v1-imageqa-random/'
'resolve/main/TaskMeAnything-v1-imageqa-random.tsv'
),
'A-OKVQA': 'https://huggingface.co/datasets/Allen8/A-OKVQA/resolve/main/a-okvqa.tsv',
'WorldMedQA-V': 'https://opencompass.openxlab.space/utils/VLMEval/WorldMedQA-V.tsv',
'VisOnlyQA-VLMEvalKit': (
'https://huggingface.co/datasets/ryokamoi/VisOnlyQA_Eval_Real/'
'resolve/main/visonlyqa_vlmevalkit.tsv'
),
'3DSRBench': (
'https://huggingface.co/datasets/ccvl/3DSRBench/'
'resolve/main/3dsrbench_v1_vlmevalkit_circular.tsv'
),
}
DATASET_MD5 = {
# MMBench v1.0
'MMBench_DEV_EN': 'b6caf1133a01c6bb705cf753bb527ed8',
'MMBench_TEST_EN': '6939fadb0ce626fefc0bdc9c64efc528',
'MMBench_DEV_CN': '08b8fc3324a5ed74155350f57be69fbd',
'MMBench_TEST_CN': '7e1239baf0ee4c8b513e19705a0f317e',
'MMBench': '4115aea3383f3dd0083be6a633e0f820', # Internal Only
'MMBench_CN': '2e053ffc90ea598b1feae13c36dc13ee', # Internal Only
# MMBench v1.1
'MMBench_DEV_EN_V11': '30c05be8f2f347a50be25aa067248184',
'MMBench_TEST_EN_V11': '26f0f15381a21720255091d3e0316ce6',
'MMBench_DEV_CN_V11': '593f9b5f6bea453d870a798b34ae4f37',
'MMBench_TEST_CN_V11': '74bbe4556dac745613c7cbe5ad787050',
'MMBench_V11': 'b9276414f57af1308dcc4d0cd9b42e7c', # Internal Only
'MMBench_CN_V11': '95f6980dd1b4de38e3cbffe0305a3f25', # Internal Only
# SEEDBench
'SEEDBench_IMG': '68017231464752261a2526d6ca3a10c0',
'SEEDBench2': '4ec15cf864c4f16274112284f531813e',
'SEEDBench2_Plus': '7cb2323950d71f049df70e5162062af3',
# ScienceQA
'ScienceQA_VAL': '96320d05e142e585e7204e72affd29f3',
'ScienceQA_TEST': 'e42e9e00f9c59a80d8a5db35bc32b71f',
# MMT-Bench
'MMT-Bench_ALL_MI': '5272157097e19cdd7cb41e412ab3b7c7',
'MMT-Bench_ALL': 'b273a2f4c596fe4f2605de0494cd632f',
'MMT-Bench_VAL_MI': 'c7d7b998eb5cd9aa36c7d4f721472462',
'MMT-Bench_VAL': '8dd4b730f53dbf9c3aed90ca31c928e0',
# AesBench
'AesBench_VAL': '3edb0c319e9187aa0b97fe7a11700a8c',
'AesBench_TEST': '58b1f7ba2cc32e1d68896d6ee716bbf8',
# Q-Bench1
'Q-Bench1_VAL': '837bdb6cd2da571713543462815187b7',
'Q-Bench1_TEST': '15e759bfd58c9d5f30b23a317d347153',
# A-Bench
'A-Bench_VAL': '218563ec50d34bb336c814143a5bb9c1',
'A-Bench_TEST': '567013fb033a20cf23f51d8e865bd16c',
# R-Bench
'R-Bench-Dis': 'd6e961dbfc43350688af2560226830b4',
'R-Bench-Ref': '270c1cb555acb523f3fdb178ed57021d',
# Other Benchmarks
'CCBench': 'f5dde47f24dc5a6fb6e595b409b466ac',
'AI2D_TEST': '0f593e0d1c7df9a3d69bf1f947e71975',
'AI2D_TEST_NO_MASK': 'fd8f463634d4fe9fbd23b876e8eea5be',
'MMStar': 'e1ecd2140806c1b1bbf54b43372efb9e',
'RealWorldQA': '4de008f55dc4fd008ca9e15321dc44b7',
'MLLMGuard_DS': '975fc0dd7119386e198c37d71e274b3f',
'BLINK': '3b6649b6a662184ea046908e5506260e',
'TaskMeAnything_v1_imageqa_random': '023fef69e2ca21827afb77c5ec3bc889',
'WorldMedQA-V': '441e63875e30c87f5750528b57b41285',
"VisOnlyQA-VLMEvalKit": 'cf460a31d2acb8d3a7cecd0e69298bfa',
'3DSRBench': '13a99f33164dc1b9faf0e8b8b01fd6f2',
}
DATASET_URL.update(MMMB_URLS)
DATASET_URL.update(MTL_MMBench_URLS)
DATASET_MD5.update(MMMB_MD5)
DATASET_MD5.update(MTL_MMBench_MD5)
def build_prompt(self, line):
if isinstance(line, int):
line = self.data.iloc[line]
if self.meta_only:
tgt_path = toliststr(line['image_path'])
else:
tgt_path = self.dump_image(line)
question = line['question']
options = {
cand: line[cand]
for cand in string.ascii_uppercase
if cand in line and not pd.isna(line[cand])
}
options_prompt = 'Options:\n'
for key, item in options.items():
options_prompt += f'{key}. {item}\n'
hint = line['hint'] if ('hint' in line and not pd.isna(line['hint'])) else None
prompt = ''
if hint is not None:
prompt += f'Hint: {hint}\n'
prompt += f'Question: {question}\n'
if len(options):
prompt += options_prompt
prompt += 'Please select the correct answer from the options above. \n'
msgs = []
if isinstance(tgt_path, list):
msgs.extend([dict(type='image', value=p) for p in tgt_path])
else:
msgs = [dict(type='image', value=tgt_path)]
msgs.append(dict(type='text', value=prompt))
return msgs
def evaluate(self, eval_file, **judge_kwargs):
from .utils.multiple_choice import report_acc, report_acc_MMT, mcq_circular_eval, mcq_vanilla_eval
# assert dataset is not None
dataset_map = {
'MMBench_TEST_EN': 'MMBench', 'MMBench_TEST_EN_V11': 'MMBench_V11',
'MMBench_TEST_CN': 'MMBench_CN', 'MMBench_TEST_CN_V11': 'MMBench_CN_V11'
}
dataset = self.dataset_name
if dataset in dataset_map:
dataset = dataset_map[dataset]
nproc = judge_kwargs.pop('nproc', 4)
circular = False
if listinstr(['mmbench', 'ccbench', 'circular'], dataset.lower()):
data = load(eval_file)
data['index'] = [int(x) for x in data['index']]
dump(data, eval_file)
circular = True
suffix = eval_file.split('.')[-1]
model = judge_kwargs.get('model', 'exact_matching')
assert model in ['chatgpt-0125', 'exact_matching', 'gpt-4-0125']
name_str_map = {'chatgpt-0125': 'openai', 'gpt-4-0125': 'gpt4'}
name_str = name_str_map[model] if model in name_str_map else model
if model == 'exact_matching':
model = None
elif gpt_key_set():
model = build_judge(**judge_kwargs)
if not model.working():
warnings.warn('OPENAI API is not working properly, will use exact matching for evaluation')
warnings.warn(DEBUG_MESSAGE)
model = None
else:
warnings.warn('OPENAI_API_KEY is not set properly, will use exact matching for evaluation')
model = None
result_file = eval_file.replace(f'.{suffix}', f'_{name_str}_result.pkl')
data = load(eval_file)
data = data.sort_values(by='index')
data['prediction'] = [str(x) for x in data['prediction']]
# If not choice label, then use lower case
for k in data.keys():
data[k.lower() if k not in list(string.ascii_uppercase) else k] = data.pop(k)
meta = self.data
meta_q_map = {x: y for x, y in zip(meta['index'], meta['question'])}
data_map = {x: y for x, y in zip(data['index'], data['question'])}
for k in data_map:
assert k in meta_q_map, (
f'eval_file should be the same as or a subset of dataset {self.dataset_name}'
)
if circular:
data = mcq_circular_eval(model, data, meta, nproc, result_file, self.dataset_name)
else:
data = mcq_vanilla_eval(model, data, meta, nproc, result_file, self.dataset_name)
# load split
dump(data, eval_file.replace(f'.{suffix}', f'_{name_str}_result.{suffix}'))
data = load(eval_file.replace(f'.{suffix}', f'_{name_str}_result.{suffix}'))
# May have different report acc functions for different datasets
if 'MMT' in dataset:
acc = report_acc_MMT(data)
else:
acc = report_acc(data)
score_file = eval_file.replace(f'.{suffix}', '_acc.csv')
dump(acc, score_file)
if dataset == 'AesBench_VAL':
warnings.warn('Note that AesBench VAL is just a toy version of AesBench TEST. For full results, \
please evaluate on AesBench TEST. The AesBench TEST dataset is more than 20 times \
larger than the VAL dataset and the leaderboard results are based on AesBench TEST.')
if dataset == 'VisOnlyQA-VLMEvalKit':
warnings.warn('Note that the results on VisOnlyQA-VLMEvalKit are different from the results on \
the original VisOnlyQA. VisOnlyQA-VLMEvalKit does not include the \
chemistry__shape_multi split and uses a different evaluation prompt. Please \
explicitly specify the version of the dataset when you report results.')
return acc
class MMMUDataset(ImageMCQDataset):
DATASET_URL = {
'MMMU_DEV_VAL': 'https://opencompass.openxlab.space/utils/VLMEval/MMMU_DEV_VAL.tsv',
'MMMU_TEST': 'https://opencompass.openxlab.space/utils/VLMEval/MMMU_TEST.tsv',
}
DATASET_MD5 = {
'MMMU_DEV_VAL': '585e8ad75e73f75dcad265dfd0417d64',
'MMMU_TEST': 'c19875d11a2d348d07e5eb4bdf33166d',
}
@staticmethod
def split_MMMU(msgs):
text, images = None, []
for s in msgs:
if s['type'] == 'image':
images.append(s['value'])
elif s['type'] == 'text':
assert text is None
text = s['value']
text_segs = text.split('<image ')
if len(text_segs) == 1:
return msgs
segs = [dict(type='text', value=text_segs[0])]
for i, seg in enumerate(text_segs):
if i == 0:
continue
assert istype(seg[0], int) and seg[1] == '>'
image_idx = int(seg[0]) - 1
segs.append(dict(type='image', value=images[image_idx]))
segs.append(dict(type='text', value=seg[2:]))
return segs
def build_prompt(self, line):
msgs = super().build_prompt(line)
msgs = self.split_MMMU(msgs)
return msgs
class MMMUProDataset(MMMUDataset):
TYPE = 'MCQ_MMMU_Pro'
def __init__(self, **kwargs):
super().__init__(**kwargs)
if 'MMMU_Pro_V' in self.dataset_name:
self.data['question'] = ['placeholder'] * len(self.data)
DATASET_URL = {
'MMMU_Pro_10c': 'https://opencompass.openxlab.space/utils/VLMEval/MMMU_Pro_10c.tsv',
'MMMU_Pro_10c_COT': 'https://opencompass.openxlab.space/utils/VLMEval/MMMU_Pro_10c.tsv',
'MMMU_Pro_V': 'https://opencompass.openxlab.space/utils/VLMEval/MMMU_Pro_V.tsv',
'MMMU_Pro_V_COT': 'https://opencompass.openxlab.space/utils/VLMEval/MMMU_Pro_V.tsv',
}
DATASET_MD5 = {
'MMMU_Pro_10c': '22cee868fe6b680d14b99bfff6db8172',
'MMMU_Pro_10c_COT': '22cee868fe6b680d14b99bfff6db8172',
'MMMU_Pro_V': 'd01441a87b3dbe721b5a04652ae38009',
'MMMU_Pro_V_COT': 'd01441a87b3dbe721b5a04652ae38009',
}
def build_prompt(self, line):
if isinstance(line, int):
line = self.data.iloc[line]
if self.meta_only:
tgt_path = toliststr(line['image_path'])
else:
tgt_path = self.dump_image(line)
if 'MMMU_Pro_V' in self.dataset_name:
question = 'Answer the following multiple-choice question in the image. '
if 'COT' in self.dataset_name:
question += (
"The last line of your response should be of the following format: 'Answer: $LETTER' "
"(without quotes) where LETTER is one of the options. Think step by step before answering. "
)
else:
question += "Answer directly with the option letter from the given choices. "
if isinstance(tgt_path, list):
assert len(tgt_path) == 1
tgt_path = tgt_path[0]
return [dict(type='image', value=tgt_path), dict(type='text', value=question)]
else:
question = line['question']
options = {
cand: line[cand]
for cand in string.ascii_uppercase
if cand in line and not pd.isna(line[cand])
}
options_prompt = 'Options:\n'
for key, item in options.items():
options_prompt += f'{key}. {item}\n'
prompt = ''
prompt += f'Question: {question}\n'
if len(options):
prompt += options_prompt
if 'COT' in self.dataset_name:
prompt += (
"Answer the following multiple-choice question. The last line of your response should be of "
"the following format: 'Answer: $LETTER' (without quotes) where LETTER is one of the options. "
"Think step by step before answering. "
)
else:
prompt += "Answer directly with the option letter from the given choices. "
msgs = []
if isinstance(tgt_path, list):
msgs.extend([dict(type='image', value=p) for p in tgt_path])
else:
msgs = [dict(type='image', value=tgt_path)]
msgs.append(dict(type='text', value=prompt))
msgs = self.split_MMMU(msgs)
return msgs
def cot_postproc(self, response):
lines = response.strip().split('\n')
lines = [x.strip() for x in lines]
cands = [x for x in lines if x.startswith('Answer:')]
if len(cands) == 1:
counter = defaultdict(lambda: 0)
for ch in cands[0]:
if ch in string.ascii_uppercase:
counter[ch] += 1
if len(counter) == 1:
return list(counter.keys())[0]
else:
return cands[0][7:]
return response
def evaluate(self, eval_file, **judge_kwargs):
if 'COT' in self.dataset_name:
data = load(eval_file)
data['prediction'] = [self.cot_postproc(x) for x in data['prediction']]
tgt = eval_file.replace('.xlsx', '_cotpost.xlsx')
dump(data, tgt)
res = super().evaluate(tgt, **judge_kwargs)
acc_org = eval_file.replace('.xlsx', '_acc.csv')
acc_now = eval_file.replace('.xlsx', '_cotpost_acc.csv')
shutil.copy(acc_now, acc_org)
return res
else:
return super().evaluate(eval_file, **judge_kwargs)
class MUIRDataset(ImageMCQDataset):
DATASET_URL = {
'MUIRBench': 'http://opencompass.openxxlab.com/utils/VLMEval/MUIRBench.tsv'
}
DATASET_MD5 = {
'MUIRBench': '2e5e6fd7699761b08a7cb3ab8c0c2ec8'
}
@staticmethod
def split_MUIR(msgs):
text, images = None, []
# Separate images and text from msgs
for s in msgs:
if s['type'] == 'image':
images.append(s['value'])
elif s['type'] == 'text':
assert text is None # Ensure only one text entry is expected
text = s['value']
# Split text by <image> tags
text_segs = text.split('<image>')
# Initialize the segments list
segs = []
# Iterate through the text segments and images
for i, seg in enumerate(text_segs):
# Append the image if this is not the first segment and there are still images left
if i > 0 and i - 1 < len(images):
segs.append(dict(type='image', value=images[i - 1]))
# Append the text segment (if it's non-empty)
if len(seg) > 0:
segs.append(dict(type='text', value=seg))
return segs
def build_prompt(self, line):
if isinstance(line, int):
line = self.data.iloc[line]
if self.meta_only:
tgt_path = toliststr(line['image_path'])
else:
tgt_path = self.dump_image(line)
question = line['question']
options = {
cand: line[cand]
for cand in string.ascii_uppercase
if cand in line and not pd.isna(line[cand])
}
# options_prompt = ''
options_prompt = '\n'.join([f'{key}. {item}' for key, item in options.items()])
# for key, item in options.items():
# options_prompt += f'{key}. {item}\n'
prompt = ''
prompt += f'{question}\n'
if len(options):
prompt += options_prompt
prompt += "\nAnswer with the option's letter from the given choices directly."
msgs = []
if isinstance(tgt_path, list):
msgs.extend([dict(type='image', value=p) for p in tgt_path])
else:
msgs = [dict(type='image', value=tgt_path)]
msgs.append(dict(type='text', value=prompt))
msgs = self.split_MUIR(msgs)
return msgs
class GMAIMMBenchDataset(ImageMCQDataset):
DATASET_URL = {
'GMAI-MMBench_VAL': 'https://huggingface.co/datasets/VLMEval/GMAI-MMBench/resolve/main/GMAI-MMBench_VAL.tsv',
'GMAI_mm_bench_TEST_part_1': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_1.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_2': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_2.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_3': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_3.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_4': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_4.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_5': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_5.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_6': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_6.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_7': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_7.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_8': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_8.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_9': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_9.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_10': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_10.tsv', # noqa: E501
'GMAI_mm_bench_TEST_part_11': 'https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench/resolve/main/GMAI_mm_bench_TEST_part_11.tsv', # noqa: E501
}
DATASET_MD5 = {
'GMAI-MMBench_VAL': '254bd581627866f1c499d3d6b4422324',
'GMAI_mm_bench_TEST_part_1': '900d735231230a63f4ed45665c078ef4',
'GMAI_mm_bench_TEST_part_2': '1b27ab621386945d7e4a765ad2d22b0e',
'GMAI_mm_bench_TEST_part_3': '44bdc2b6267dd505d529b8cad06f0fb2',
'GMAI_mm_bench_TEST_part_4': '5a04a04fcac9f1466709f242fdb80acb',
'GMAI_mm_bench_TEST_part_5': 'c70baf8909eda9af0ddeab275c721336',
'GMAI_mm_bench_TEST_part_6': '825abc39596b644dead9350d0cfa3b96',
'GMAI_mm_bench_TEST_part_7': 'defb8aed2fb77365a76b6b9abd6a2701',
'GMAI_mm_bench_TEST_part_8': 'ff490d60b85f2bb0abb67a435b298c65',
'GMAI_mm_bench_TEST_part_9': 'ff67c86f40da93b09139ac1d1ba5dc6b',
'GMAI_mm_bench_TEST_part_10': '3dae94627b9ac0fe00180d4780fbf6dc',
'GMAI_mm_bench_TEST_part_11': 'd08dc813f0eb6bbab63cae2a9d113c4b',
}
@classmethod
def supported_datasets(cls):
return ['GMAI-MMBench_VAL', 'GMAI-MMBench_TEST']
def load_data(self, dataset):
if dataset == 'GMAI-MMBench_VAL':
data_path = osp.join(LMUDataRoot(), f'{dataset}.tsv')
if file_size(data_path, 'GB') > 1:
local_path = data_path.replace('.tsv', '_local.tsv')
if not osp.exists(local_path) or os.environ.get('FORCE_LOCAL'):
from ..tools import LOCALIZE
LOCALIZE(data_path, local_path)
data_path = local_path
return load(data_path)
elif dataset == 'GMAI-MMBench_TEST':
dfs = []
for part_num in range(1, 12):
part_name = f'GMAI_mm_bench_TEST_part_{part_num}'
url = self.DATASET_URL[part_name]
file_md5 = self.DATASET_MD5.get(part_name)
tsv_path = osp.join(LMUDataRoot(), f'{part_name}.tsv')
if not osp.exists(tsv_path) or (file_md5 and md5(tsv_path) != file_md5):
download_file(url, filename=tsv_path)
local_path = tsv_path.replace('.tsv', '_local.tsv')
if not osp.exists(local_path) or os.environ.get('FORCE_LOCAL'):
from ..tools import LOCALIZE
LOCALIZE(tsv_path, local_path)
tsv_path = local_path
# 加载数据
df = load(tsv_path)
dfs.append(df)
# 合并所有数据
data = pd.concat(dfs, ignore_index=True)
return data
else:
raise ValueError(f"未知的数据集:{dataset}")
def report_acc_by_groups(self, df, group_column):
res = defaultdict(list)
# Check for the 'split' column
if 'split' in df:
splits = list(set(df['split']))
res['split'] = splits
else:
df['split'] = ['none'] * len(df)
res['split'] = ['none']
res['Overall'] = [np.mean(df[df['split'] == sp]['hit']) for sp in res['split']]
if group_column not in df:
raise ValueError(f"Column '{group_column}' not found in dataframe.") # noqa: E713
abilities = list(set(df[group_column]))
abilities = ['None' if isinstance(ab, float) and pd.isna(ab) else ab for ab in abilities]
abilities.sort()
for ab in abilities:
ab_name = ab
sub_df = df[df[group_column] == ab]
res[ab_name] = [np.mean(sub_df[sub_df['split'] == sp]['hit']) for sp in res['split']]
return pd.DataFrame(res)
def evaluate(self, eval_file, **judge_kwargs):
from .utils.multiple_choice import report_acc, mcq_vanilla_eval
nproc = judge_kwargs.pop('nproc', 4)
suffix = eval_file.split('.')[-1]
model = judge_kwargs.get('model', 'exact_matching')
assert model in ['chatgpt-0125', 'exact_matching', 'gpt-4-0125']
name_str_map = {'chatgpt-0125': 'openai', 'gpt-4-0125': 'gpt4'}
name_str = name_str_map[model] if model in name_str_map else model
if model == 'exact_matching':
model = None
elif gpt_key_set():
model = build_judge(**judge_kwargs)
if not model.working():
warnings.warn('OPENAI API is not working properly, will use exact matching for evaluation')
warnings.warn(DEBUG_MESSAGE)
model = None
else:
warnings.warn('OPENAI_API_KEY is not set properly, will use exact matching for evaluation')
model = None
result_file = eval_file.replace(f'.{suffix}', f'_{name_str}_result.pkl')
data = load(eval_file)
data = data.sort_values(by='index')
data['prediction'] = [str(x) for x in data['prediction']]
# If not choice label, then use lower case
for k in data.keys():
data[k.lower() if k not in list(string.ascii_uppercase) else k] = data.pop(k)
meta = self.data
meta_q_map = {x: y for x, y in zip(meta['index'], meta['question'])}
data_map = {x: y for x, y in zip(data['index'], data['question'])}
for k in data_map:
assert k in meta_q_map, (
f'eval_file should be the same as or a subset of dataset {self.dataset_name}'
)
data = mcq_vanilla_eval(model, data, meta, nproc, result_file, self.dataset_name)
# load split
dump(data, eval_file.replace(f'.{suffix}', f'_{name_str}_result.{suffix}'))
data = load(eval_file.replace(f'.{suffix}', f'_{name_str}_result.{suffix}'))
acc = report_acc(data)
for group_col in ['clinical vqa task', 'department', 'perceptual granularity']:
acc_grouped = self.report_acc_by_groups(data, group_col)
score_file_grouped = eval_file.replace(f'.{suffix}', f'_{group_col}_acc.csv')
dump(acc_grouped, score_file_grouped)
return acc
class MMERealWorld(ImageMCQDataset):
TYPE = 'MMERealWorld'
DATASET_MD5 = {
'MME-RealWorld': '271c33ec814c39533c467ec6fb8a6f36',
'MME-RealWorld-Lite': '4c17057d7d3b6c4a0d4397c3dae0881c',
'MME-RealWorld-CN': 'daaa763d52a760a38606d5dedb3fe444',
}
SYS = {
'MME-RealWorld': (
'Select the best answer to the above multiple-choice question based on the image. '
'Respond with only the letter (A, B, C, D, or E) of the correct option. \n'
'The best answer is:'
),
'MME-RealWorld-Lite': (
'Select the best answer to the above multiple-choice question based on the image. '
'Respond with only the letter (A, B, C, D, or E) of the correct option. \n'
'The best answer is:'
),
'MME-RealWorld-CN': (
'根据图像选择上述多项选择题的最佳答案。只需回答正确选项的字母(A, B, C, D 或 E)。\n'
'最佳答案为:'
),
}
@classmethod
def supported_datasets(cls):
return ['MME-RealWorld', 'MME-RealWorld-CN', 'MME-RealWorld-Lite',]
def load_data(
self, dataset="MME-RealWorld", repo_id="yifanzhang114/MME-RealWorld-Base64"
):
def check_integrity(pth):
data_file = osp.join(pth, f"{dataset}.tsv")
if not os.path.exists(data_file):
return False
if md5(data_file) != self.DATASET_MD5[dataset]:
return False
return True
def generate_tsv(pth):
tsv_file = os.path.join(pth, f"{dataset}.tsv")
if os.path.exists(tsv_file):
print(f"{tsv_file} already exists.")
return
json_dir = os.path.join(pth, dataset)
json_files = [f for f in os.listdir(json_dir) if f.endswith(".json")]
data_list = []
for json_file in json_files:
with open(os.path.join(json_dir, json_file), "r") as f:
data = json.load(f)
for item in tqdm(data):
choice_prompt = (
"The choices are listed below:\n"
if dataset in ["MME-RealWorld", "MME-RealWorld-Lite"]
else "选项如下所示:\n"
)
data_list.append(
{
"index": item["index"],
"image": item["image"],
"question": item["question"],
"multi-choice options": choice_prompt
+ "\n".join(item["multi-choice options"]),
"A": item["multi-choice options"][0][4:],
"B": item["multi-choice options"][1][4:],
"C": item["multi-choice options"][2][4:],
"D": item["multi-choice options"][3][4:],
"E": item["multi-choice options"][4][4:],
"answer": item["answer"],
"category": item["category"],
"l2-category": item["l2-category"],
}
)
df = pd.DataFrame(data_list)
df.to_csv(tsv_file, sep="\t", index=False)
print(f"TSV file saved to {tsv_file}")
# Check if dataset is cached and has integrity
if dataset == "MME-RealWorld-Lite":
url = 'https://huggingface.co/datasets/yifanzhang114/MME-RealWorld-Base64/resolve/main/mme_realworld_lite.tsv' # noqa: E501
file_md5 = (
self.DATASET_MD5[dataset] if dataset in self.DATASET_MD5 else None
)
datas = self.prepare_tsv(url, file_md5)
choice_prompt = "The choices are listed below:\n"
for index, item in datas.iterrows():
options = eval(item["multi-choice options"])
datas.loc[index, "multi-choice options"] = choice_prompt + "\n".join(
options
)
datas.loc[index, "A"] = options[0][4:]
datas.loc[index, "B"] = options[1][4:]
datas.loc[index, "C"] = options[2][4:]
datas.loc[index, "D"] = options[3][4:]
datas.loc[index, "E"] = options[4][4:]
return datas
update_flag = False
cache_path = get_cache_path(repo_id)
if cache_path is not None and check_integrity(cache_path):
dataset_path = cache_path
print(f"Using cached dataset from {cache_path}")
else:
from huggingface_hub import snapshot_download
# Download or find the dataset path
dataset_path = snapshot_download(repo_id=repo_id, repo_type="dataset")
generate_tsv(dataset_path)
update_flag = True
data_path = os.path.join(dataset_path, f"{dataset}.tsv")
if file_size(data_path, "GB") > 1:
local_path = data_path.replace(".tsv", "_local.tsv")
if (
not osp.exists(local_path)
or os.environ.get("FORCE_LOCAL", None)
or update_flag
):
from vlmeval.tools import LOCALIZE
LOCALIZE(data_path, local_path)
data_path = local_path
return load(data_path)
def post_build(self, dataset):
self.TYPE = 'MMERealWorld'
# Given one data record, return the built prompt (a multi-modal message), can override
def build_prompt(self, line):
if isinstance(line, int):
line = self.data.iloc[line]
if self.meta_only:
tgt_path = toliststr(line['image_path'])
else:
tgt_path = self.dump_image(line)
question = line['question']
choice_prompt = line['multi-choice options'] + '\n'
question += ' ' + choice_prompt + self.SYS[self.dataset_name]
msgs = []
if isinstance(tgt_path, list):
msgs.extend([dict(type='image', value=p) for p in tgt_path])
else:
msgs = [dict(type='image', value=tgt_path)]
msgs.append(dict(type='text', value=question))
return msgs
# It returns a dictionary
@classmethod
def evaluate(self, eval_file, **judge_kwargs):
from .utils.multiple_choice import extract_characters_regex, get_dimension_rating
assert eval_file.endswith('.xlsx'), 'data file should be an xlsx file'
FAIL_MSG = 'Failed to obtain answer via API.'
tmp_file = eval_file.replace('.xlsx', '_tmp.pkl')
tgt_file = eval_file.replace('.xlsx', '_rating.json')
score_file = eval_file.replace('.xlsx', '_score.xlsx')
if not osp.exists(score_file):
res = {} if not osp.exists(tmp_file) else load(tmp_file)
res = {k: v for k, v in res.items() if FAIL_MSG not in v}
data = load(eval_file)
cnt_rejected = 0
data_un = data[~pd.isna(data['prediction'])]
for idx in data['index']:
ans = data.loc[data['index'] == idx, 'answer'].values[0]
pred = data.loc[data['index'] == idx, 'prediction'].values[0]
extract_pred = extract_characters_regex(pred)
if extract_pred == '':
cnt_rejected += 1
data.loc[data['index'] == idx, 'score'] = 0
else:
data.loc[data['index'] == idx, 'score'] = int(extract_pred == ans)
print(
f'Among {len(data)} questions, failed to obtain prediction for {len(data) - len(data_un)} questions, '
f'failed to obtain the score for another {cnt_rejected} questions. '
f'Those questions will be counted as 0 score in ALL rating.'
)
dump(data, score_file)
rating = get_dimension_rating(score_file)
dump(rating, tgt_file)
return rating
class HRBenchDataset(ImageMCQDataset):
DATASET_URL = {
'HRBench4K': 'https://huggingface.co/datasets/DreamMr/HR-Bench/resolve/main/hr_bench_4k.tsv',
'HRBench8K': 'https://huggingface.co/datasets/DreamMr/HR-Bench/resolve/main/hr_bench_8k.tsv',
}
DATASET_MD5 = {
'HRBench4K': 'f6b041b03d49543494b8a56d2e35be65',
'HRBench8K': '274c9c7f89329b804a4723178a00219c',
}
def evaluate(self, eval_file, **judge_kwargs):
assert os.path.exists(eval_file), '{} does not exist!'.format(eval_file)
from .utils.multiple_choice import mcq_vanilla_eval
from .utils.hrbench import report_acc_hrbench
nproc = judge_kwargs.pop('nproc', 4)
suffix = eval_file.split('.')[-1]
model = judge_kwargs.get('model', 'extract_matching')
assert model in ['chatgpt-0125', 'exact_matching', 'gpt-4-0125']
name_str_map = {'chatgpt-0125': 'openai', 'gpt-4-0125': 'gpt4'}
name_str = name_str_map[model] if model in name_str_map else model
if model == 'exact_matching':
model = None
elif gpt_key_set():
model = build_judge(**judge_kwargs)
if not model.working():
warnings.warn('OPENAI API is not working properly, will use exact matching for evaluation')
warnings.warn(DEBUG_MESSAGE)
model = None
else:
warnings.warn('OPENAI_API_KEY is not set properly, will use exact matching for evaluation')
model = None
result_file = eval_file.replace(f'.{suffix}', f'_{name_str}_result.pkl')
data = load(eval_file)
data = data.sort_values(by='index')
data['prediction'] = [str(x) for x in data['prediction']]
# If not choice label, then use lower case
for k in data.keys():
data[k.lower() if k not in list(string.ascii_uppercase) else k] = data.pop(k)
meta = self.data
meta_q_map = {x: y for x, y in zip(meta['index'], meta['question'])}
data_map = {x: y for x, y in zip(data['index'], data['question'])}
for k in data_map:
assert k in meta_q_map, (
f'eval_file should be the same as or a subset of dataset {self.dataset_name}'
)
score_file = eval_file.replace(f'.{suffix}', '_acc.csv')
if osp.exists(score_file):
acc = load(score_file)
return acc
data = mcq_vanilla_eval(model, data, meta, nproc, result_file, self.dataset_name)
dump(data, eval_file.replace(f'.{suffix}', f'_{name_str}_result.{suffix}'))
data = load(eval_file.replace(f'.{suffix}', f'_{name_str}_result.{suffix}'))
acc = report_acc_hrbench(data)
score_file = eval_file.replace(f'.{suffix}', '_acc.csv')
dump(acc, score_file)
return acc
class CustomMCQDataset(ImageMCQDataset):
def load_data(self, dataset):
data_path = osp.join(LMUDataRoot(), f'{dataset}.tsv')
if file_size(data_path, 'GB') > 1:
local_path = data_path.replace('.tsv', '_local.tsv')
if not osp.exists(local_path) or os.environ.get('FORCE_LOCAL', None):
from ..tools import LOCALIZE
LOCALIZE(data_path, local_path)
data_path = local_path
return load(data_path)
class NaturalBenchDataset(ImageMCQDataset):
DATASET_URL = {
'NaturalBenchDataset': (
'https://huggingface.co/datasets/BaiqiL/'
'NaturalBench/resolve/main/NaturalBenchDataset.tsv'
),
}
DATASET_MD5 = {
'NaturalBenchDataset':'dbe25b044bc35696426381e9ba4fe930',
}
def build_prompt(self, line):
SUFFIX_FOR_VQA = {
"yes_no": "Please answer Yes or No.",
"multiple_choice": "Please output the letter corresponding to the correct option."
}
if isinstance(line, int):
line = self.data.iloc[line]
if self.meta_only:
tgt_path = toliststr(line['image_path'])
else:
tgt_path = self.dump_image(line)
question = line['question']
prompt = f'{question} {SUFFIX_FOR_VQA[line["type"]]}'
msgs = []
if isinstance(tgt_path, list):
msgs.extend([dict(type='image', value=p) for p in tgt_path])
else:
msgs = [dict(type='image', value=tgt_path)]
msgs.append(dict(type='text', value=prompt))
return msgs
def evaluate(self, eval_file, **judge_kwargs):
from .utils.naturalbench import extract_answer, get_scores
data = load(eval_file)
data = data.sort_values(by='index')
predictions = [str(x) for x in data['prediction']]
answers = [str(x) for x in data['answer']]
indexs = [str(x) for x in data['index']]
meta = self.data
types = [str(x) for x in meta['type']]
results = {}
assert len(predictions) == len(answers) == len(indexs) == len(types) == (1900 * 4)
number_answered_samples = len(predictions) // 4
for i in range(number_answered_samples):
results[i] = {
"q0_i0": extract_answer(predictions[i * 4], types[i * 4]),
"q0_i1": extract_answer(predictions[i * 4 + 1], types[i * 4 + 1]),