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"""
Copyright (c) 2023, salesforce.com, inc.
All rights reserved.
SPDX-License-Identifier: BSD-3-Clause
For full license text, see the LICENSE_Lavis file in the repo root or https://opensource.org/licenses/BSD-3-Clause
"""
import contextlib
import logging
import os
import time
import datetime
import torch
import torch.nn as nn
import torch.distributed as dist
import torch.nn.functional as F
import minigpt4.common.dist_utils as dist_utils
from minigpt4.common.dist_utils import download_cached_file
from minigpt4.common.utils import is_url
from minigpt4.common.logger import MetricLogger
from minigpt4.models.base_model import BaseModel
from minigpt4.models.Qformer import BertConfig, BertLMHeadModel
from minigpt4.models.eva_vit import create_eva_vit_g
from transformers import BertTokenizer
class Blip2Base(BaseModel):
@classmethod
def init_tokenizer(cls):
tokenizer = BertTokenizer.from_pretrained("bert-base-uncased")
tokenizer.add_special_tokens({"bos_token": "[DEC]"})
return tokenizer
def maybe_autocast(self, dtype=torch.float16):
# if on cpu, don't use autocast
# if on gpu, use autocast with dtype if provided, otherwise use torch.float16
enable_autocast = self.device != torch.device("cpu")
if enable_autocast:
return torch.cuda.amp.autocast(dtype=dtype)
else:
return contextlib.nullcontext()
@classmethod
def init_Qformer(cls, num_query_token, vision_width, cross_attention_freq=2):
encoder_config = BertConfig.from_pretrained("bert-base-uncased")
encoder_config.encoder_width = vision_width
# insert cross-attention layer every other block
encoder_config.add_cross_attention = True
encoder_config.cross_attention_freq = cross_attention_freq
encoder_config.query_length = num_query_token
Qformer = BertLMHeadModel(config=encoder_config)
query_tokens = nn.Parameter(
torch.zeros(1, num_query_token, encoder_config.hidden_size)
)
query_tokens.data.normal_(mean=0.0, std=encoder_config.initializer_range)
return Qformer, query_tokens
@classmethod
def init_vision_encoder(
cls, model_name, img_size, drop_path_rate, use_grad_checkpoint, precision
):
assert model_name == "eva_clip_g", "vit model must be eva_clip_g for current version of MiniGPT-4"
visual_encoder = create_eva_vit_g(
img_size, drop_path_rate, use_grad_checkpoint, precision
)
ln_vision = LayerNorm(visual_encoder.num_features)
return visual_encoder, ln_vision
def load_from_pretrained(self, url_or_filename):
if is_url(url_or_filename):
cached_file = download_cached_file(
url_or_filename, check_hash=False, progress=True
)
checkpoint = torch.load(cached_file, map_location="cpu")
elif os.path.isfile(url_or_filename):
checkpoint = torch.load(url_or_filename, map_location="cpu")
else:
raise RuntimeError("checkpoint url or path is invalid")
state_dict = checkpoint["model"]
msg = self.load_state_dict(state_dict, strict=False)
# logging.info("Missing keys {}".format(msg.missing_keys))
logging.info("load checkpoint from %s" % url_or_filename)
return msg
def disabled_train(self, mode=True):
"""Overwrite model.train with this function to make sure train/eval mode
does not change anymore."""
return self
class LayerNorm(nn.LayerNorm):
"""Subclass torch's LayerNorm to handle fp16."""
def forward(self, x: torch.Tensor):
orig_type = x.dtype
ret = super().forward(x.type(torch.float32))
return ret.type(orig_type)
def compute_sim_matrix(model, data_loader, **kwargs):
k_test = kwargs.pop("k_test")
metric_logger = MetricLogger(delimiter=" ")
header = "Evaluation:"
logging.info("Computing features for evaluation...")
start_time = time.time()
texts = data_loader.dataset.text
num_text = len(texts)
text_bs = 256
text_ids = []
text_embeds = []
text_atts = []
for i in range(0, num_text, text_bs):
text = texts[i : min(num_text, i + text_bs)]
text_input = model.tokenizer(
text,
padding="max_length",
truncation=True,
max_length=35,
return_tensors="pt",
).to(model.device)
text_feat = model.forward_text(text_input)
text_embed = F.normalize(model.text_proj(text_feat))
text_embeds.append(text_embed)
text_ids.append(text_input.input_ids)
text_atts.append(text_input.attention_mask)
text_embeds = torch.cat(text_embeds, dim=0)
text_ids = torch.cat(text_ids, dim=0)
text_atts = torch.cat(text_atts, dim=0)
vit_feats = []
image_embeds = []
for samples in data_loader:
image = samples["image"]
image = image.to(model.device)
image_feat, vit_feat = model.forward_image(image)
image_embed = model.vision_proj(image_feat)
image_embed = F.normalize(image_embed, dim=-1)
vit_feats.append(vit_feat.cpu())
image_embeds.append(image_embed)
vit_feats = torch.cat(vit_feats, dim=0)
image_embeds = torch.cat(image_embeds, dim=0)
sims_matrix = []
for image_embed in image_embeds:
sim_q2t = image_embed @ text_embeds.t()
sim_i2t, _ = sim_q2t.max(0)
sims_matrix.append(sim_i2t)
sims_matrix = torch.stack(sims_matrix, dim=0)
score_matrix_i2t = torch.full(
(len(data_loader.dataset.image), len(texts)), -100.0
).to(model.device)
num_tasks = dist_utils.get_world_size()
rank = dist_utils.get_rank()
step = sims_matrix.size(0) // num_tasks + 1
start = rank * step
end = min(sims_matrix.size(0), start + step)
for i, sims in enumerate(
metric_logger.log_every(sims_matrix[start:end], 50, header)
):
topk_sim, topk_idx = sims.topk(k=k_test, dim=0)
image_inputs = vit_feats[start + i].repeat(k_test, 1, 1).to(model.device)
score = model.compute_itm(
image_inputs=image_inputs,
text_ids=text_ids[topk_idx],
text_atts=text_atts[topk_idx],
).float()
score_matrix_i2t[start + i, topk_idx] = score + topk_sim
sims_matrix = sims_matrix.t()
score_matrix_t2i = torch.full(
(len(texts), len(data_loader.dataset.image)), -100.0
).to(model.device)
step = sims_matrix.size(0) // num_tasks + 1
start = rank * step
end = min(sims_matrix.size(0), start + step)
for i, sims in enumerate(
metric_logger.log_every(sims_matrix[start:end], 50, header)
):
topk_sim, topk_idx = sims.topk(k=k_test, dim=0)
image_inputs = vit_feats[topk_idx.cpu()].to(model.device)
score = model.compute_itm(
image_inputs=image_inputs,
text_ids=text_ids[start + i].repeat(k_test, 1),
text_atts=text_atts[start + i].repeat(k_test, 1),
).float()
score_matrix_t2i[start + i, topk_idx] = score + topk_sim
if dist_utils.is_dist_avail_and_initialized():
dist.barrier()
torch.distributed.all_reduce(
score_matrix_i2t, op=torch.distributed.ReduceOp.SUM
)
torch.distributed.all_reduce(
score_matrix_t2i, op=torch.distributed.ReduceOp.SUM
)
total_time = time.time() - start_time
total_time_str = str(datetime.timedelta(seconds=int(total_time)))
logging.info("Evaluation time {}".format(total_time_str))
return score_matrix_i2t.cpu().numpy(), score_matrix_t2i.cpu().numpy()