MiniCPM-Llama3-V-2_5 / modeling_minicpmv.py
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Add processor and image processor (#61)
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import math
import json
import torch
from threading import Thread
from copy import deepcopy
from PIL import Image
from torchvision import transforms
from transformers import LlamaPreTrainedModel, LlamaForCausalLM, TextIteratorStreamer
from transformers.models.idefics2.modeling_idefics2 import Idefics2VisionTransformer
from transformers import AutoProcessor
from .configuration_minicpm import MiniCPMVConfig
from .resampler import Resampler
IMAGENET_INCEPTION_MEAN = (0.5, 0.5, 0.5) # timm.data.IMAGENET_INCEPTION_MEAN
IMAGENET_INCEPTION_STD = (0.5, 0.5, 0.5) # timm.data.IMAGENET_INCEPTION_STD
class MiniCPMVPreTrainedModel(LlamaPreTrainedModel):
config_class = MiniCPMVConfig
class MiniCPMV(MiniCPMVPreTrainedModel):
def __init__(self, config):
super().__init__(config)
self.llm = LlamaForCausalLM(config)
self.vpm = self.init_vision_module()
self.vision_dim = self.vpm.embed_dim
self.embed_dim = self.llm.config.hidden_size
self.resampler = self.init_resampler(self.embed_dim, self.vision_dim)
self.transform = self.init_transform()
def init_vision_module(self):
# same as HuggingFaceM4/siglip-so400m-14-980-flash-attn2-navit
model = Idefics2VisionTransformer(self.config.vision_config)
if self.config.drop_vision_last_layer:
model.encoder.layers = model.encoder.layers[:-1]
setattr(model, 'embed_dim', model.embeddings.embed_dim)
setattr(model, 'patch_size', model.embeddings.patch_size)
return model
def init_resampler(self, embed_dim, vision_dim):
return Resampler(
num_queries=self.config.query_num,
embed_dim=embed_dim,
num_heads=embed_dim // 128,
kv_dim=vision_dim,
adaptive=True
)
def init_transform(self):
return transforms.Compose(
[
transforms.ToTensor(),
transforms.Normalize(
mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD
),
]
)
def get_input_embeddings(self):
return self.llm.get_input_embeddings()
def set_input_embeddings(self, value):
self.llm.embed_tokens = value
def get_output_embeddings(self):
return self.llm.lm_head
def set_output_embeddings(self, new_embeddings):
self.llm.lm_head = new_embeddings
def set_decoder(self, decoder):
self.llm = decoder
def get_decoder(self):
return self.llm
def get_vllm_embedding(self, data):
if 'vision_hidden_states' not in data:
dtype = self.llm.model.embed_tokens.weight.dtype
device = self.llm.model.embed_tokens.weight.device
tgt_sizes = data['tgt_sizes']
pixel_values_list = data['pixel_values']
vision_hidden_states = []
all_pixel_values = []
img_cnt = []
for pixel_values in pixel_values_list:
img_cnt.append(len(pixel_values))
all_pixel_values.extend([i.flatten(end_dim=1).permute(1, 0) for i in pixel_values])
# exist image
if all_pixel_values:
tgt_sizes = torch.vstack(tgt_sizes).type(torch.int32)
if self.config.batch_vision_input:
max_patches = torch.max(tgt_sizes[:, 0] * tgt_sizes[:, 1])
all_pixel_values = torch.nn.utils.rnn.pad_sequence(all_pixel_values, batch_first=True,
padding_value=0.0)
B, L, _ = all_pixel_values.shape
all_pixel_values = all_pixel_values.permute(0, 2, 1).reshape(B, 3, -1, L)
patch_attn_mask = torch.zeros((B, 1, max_patches), dtype=torch.bool, device=device)
for i in range(B):
patch_attn_mask[i, :tgt_sizes[i][0] * tgt_sizes[i][1]] = True
vision_embedding = self.vpm(all_pixel_values.type(dtype), patch_attention_mask=patch_attn_mask).last_hidden_state
vision_embedding = self.resampler(vision_embedding, tgt_sizes)
else:
# get vision_embedding foreach
vision_embedding = []
for single_tgt_size, single_pixel_values in zip(tgt_sizes, all_pixel_values):
single_pixel_values = single_pixel_values.unsqueeze(0)
B, L, _ = single_pixel_values.shape
single_pixel_values = single_pixel_values.permute(0, 2, 1).reshape(B, 3, -1, L)
single_vision_embedding = self.vpm(single_pixel_values.type(dtype)).last_hidden_state
single_vision_embedding = self.resampler(single_vision_embedding, single_tgt_size.unsqueeze(0))
vision_embedding.append(single_vision_embedding)
vision_embedding = torch.vstack(vision_embedding)
start = 0
for pixel_values in pixel_values_list:
img_cnt = len(pixel_values)
if img_cnt > 0:
vision_hidden_states.append(vision_embedding[start: start + img_cnt])
start += img_cnt
else:
vision_hidden_states.append([])
else: # no image
if self.training:
dummy_image = torch.zeros(
(1, 3, 224, 224),
device=device, dtype=dtype
)
tgt_sizes = torch.Tensor([[(224 // self.config.patch_size), math.ceil(224 / self.config.patch_size)]]).type(torch.int32)
dummy_feature = self.resampler(self.vpm(dummy_image).last_hidden_state, tgt_sizes)
else:
dummy_feature = []
for _ in range(len(pixel_values_list)):
vision_hidden_states.append(dummy_feature)
else:
vision_hidden_states = data['vision_hidden_states']
if hasattr(self.llm.config, 'scale_emb'):
vllm_embedding = self.llm.model.embed_tokens(data['input_ids']) * self.llm.config.scale_emb
else:
vllm_embedding = self.llm.model.embed_tokens(data['input_ids'])
vision_hidden_states = [i.type(vllm_embedding.dtype) if isinstance(
i, torch.Tensor) else i for i in vision_hidden_states]
bs = len(data['input_ids'])
for i in range(bs):
cur_vs_hs = vision_hidden_states[i]
if len(cur_vs_hs) > 0:
cur_vllm_emb = vllm_embedding[i]
cur_image_bound = data['image_bound'][i]
if len(cur_image_bound) > 0:
image_indices = torch.stack(
[torch.arange(r[0], r[1], dtype=torch.long) for r in cur_image_bound]
).to(vllm_embedding.device)
cur_vllm_emb.scatter_(0, image_indices.view(-1, 1).repeat(1, cur_vllm_emb.shape[-1]),
cur_vs_hs.view(-1, cur_vs_hs.shape[-1]))
elif self.training:
cur_vllm_emb += cur_vs_hs[0].mean() * 0
return vllm_embedding, vision_hidden_states
def forward(self, data, **kwargs):
vllm_embedding, vision_hidden_states = self.get_vllm_embedding(data)
position_ids = data["position_ids"]
if position_ids.dtype != torch.int64:
position_ids = position_ids.long()
return self.llm(
input_ids=None,
position_ids=position_ids,
inputs_embeds=vllm_embedding,
**kwargs
)
def _decode_text(self, result_ids, tokenizer):
result_text = []
for result in result_ids:
result = result[result != 0]
if result[0] == tokenizer.bos_id:
result = result[1:]
if result[-1] == tokenizer.eos_id or result[-1] == tokenizer.eot_id:
result = result[:-1]
result_text.append(tokenizer.decode(result).strip())
return result_text
def _decode(self, inputs_embeds, tokenizer, decode_text=False, **kwargs):
terminators = [
tokenizer.eos_token_id,
tokenizer.convert_tokens_to_ids("<|eot_id|>")
]
output = self.llm.generate(
inputs_embeds=inputs_embeds,
pad_token_id=0,
eos_token_id=terminators,
**kwargs
)
if decode_text:
return self._decode_text(output, tokenizer)
return output
def _decode_stream(self, inputs_embeds, tokenizer, **kwargs):
terminators = [
tokenizer.eos_token_id,
tokenizer.convert_tokens_to_ids("<|eot_id|>")
]
streamer = TextIteratorStreamer(tokenizer=tokenizer)
generation_kwargs = {
'inputs_embeds': inputs_embeds,
'pad_token_id': 0,
'eos_token_id': terminators,
'streamer': streamer
}
generation_kwargs.update(kwargs)
thread = Thread(target=self.llm.generate, kwargs=generation_kwargs)
thread.start()
return streamer
def generate(
self,
model_inputs,
tokenizer=None,
vision_hidden_states=None,
stream=False,
**kwargs
):
bs = len(model_inputs["input_ids"])
img_list = model_inputs["pixel_values"]
tgt_sizes = model_inputs["tgt_sizes"]
if img_list is None:
img_list = [[] for i in range(bs)]
assert bs == len(img_list)
if vision_hidden_states is None:
pixel_values = []
for i in range(bs):
img_inps = []
for img in img_list[i]:
img_inps.append(img.to(self.device))
if img_inps:
pixel_values.append(img_inps)
else:
pixel_values.append([])
model_inputs["pixel_values"] = pixel_values
model_inputs['tgt_sizes'] = tgt_sizes
else:
model_inputs["vision_hidden_states"] = vision_hidden_states
(
input_embeds,
vision_hidden_states,
) = self.get_vllm_embedding(model_inputs)
# output_ids = self._decode(input_embeds, tokenizer, **kwargs)
if stream:
kwargs.pop("decode_text")
result = self._decode_stream(input_embeds, tokenizer, **kwargs)
else:
result = self._decode(input_embeds, tokenizer, **kwargs)
return result
def chat(
self,
image,
msgs,
tokenizer,
processor=None,
vision_hidden_states=None,
max_new_tokens=1024,
sampling=True,
max_inp_length=2048,
system_prompt='',
stream=False,
**kwargs
):
if processor is None:
processor = AutoProcessor.from_pretrained(self.config._name_or_path, trust_remote_code=True)
if isinstance(msgs, str):
msgs = json.loads(msgs)
copy_msgs = deepcopy(msgs)
assert len(msgs) > 0, "msgs is empty"
assert sampling or not stream, "if use stream mode, make sure sampling=True"
if image is not None and isinstance(copy_msgs[0]["content"], str):
# copy_msgs[0]['content'] = '(<image>./</image>)\n' + copy_msgs[0]['content']
copy_msgs[0]["content"] = [image, copy_msgs[0]["content"]]
images = []
for i, msg in enumerate(copy_msgs):
role = msg["role"]
content = msg["content"]
assert role in ["user", "assistant"]
if i == 0:
assert role == "user", "The role of first msg should be user"
if isinstance(content, str):
content = [content]
cur_msgs = []
for c in content:
if isinstance(c, Image.Image):
images.append(c)
cur_msgs.append("(<image>./</image>)")
elif isinstance(c, str):
cur_msgs.append(c)
msg["content"] = "\n".join(cur_msgs)
if system_prompt:
sys_msg = {'role': 'system', 'content': system_prompt}
copy_msgs = [sys_msg] + copy_msgs
prompt = processor.tokenizer.apply_chat_template(copy_msgs, tokenize=False, add_generation_prompt=True)
inputs = processor(prompt, images, return_tensors="pt", max_length=max_inp_length).to(self.device)
if sampling:
generation_config = {
"top_p": 0.8,
"top_k": 100,
"temperature": 0.7,
"do_sample": True,
"repetition_penalty": 1.05
}
else:
generation_config = {
"num_beams": 3,
"repetition_penalty": 1.2,
}
generation_config.update(
(k, kwargs[k]) for k in generation_config.keys() & kwargs.keys()
)
with torch.inference_mode():
res = self.generate(
inputs,
tokenizer=tokenizer,
max_new_tokens=max_new_tokens,
vision_hidden_states=vision_hidden_states,
stream=stream,
decode_text=True,
**generation_config
)
if stream:
def stream_gen():
for text in res:
text = text.replace(tokenizer.eot_token, '').replace(tokenizer.eos_token, '')
yield text
return stream_gen()
else:
answer = res[0]
return answer