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Running
on
Zero
from typing import List | |
import torch | |
import torch.nn as nn | |
import torch.nn.functional as F | |
from transformers import PreTrainedModel, AutoConfig, AutoModelForCausalLM | |
from .segment_anything import build_sam_vit_h | |
from .unilm.beit3.modeling_utils import BEiT3Wrapper, _get_base_config, _get_large_config | |
from .configuration_evf import EvfConfig | |
def dice_loss( | |
inputs: torch.Tensor, | |
targets: torch.Tensor, | |
num_masks: float, | |
scale=1000, # 100000.0, | |
eps=1e-6, | |
): | |
""" | |
Compute the DICE loss, similar to generalized IOU for masks | |
Args: | |
inputs: A float tensor of arbitrary shape. | |
The predictions for each example. | |
targets: A float tensor with the same shape as inputs. Stores the binary | |
classification label for each element in inputs | |
(0 for the negative class and 1 for the positive class). | |
""" | |
inputs = inputs.sigmoid() | |
inputs = inputs.flatten(1, 2) | |
targets = targets.flatten(1, 2) | |
numerator = 2 * (inputs / scale * targets).sum(-1) | |
denominator = (inputs / scale).sum(-1) + (targets / scale).sum(-1) | |
loss = 1 - (numerator + eps) / (denominator + eps) | |
loss = loss.sum() / (num_masks + 1e-8) | |
return loss | |
def sigmoid_ce_loss( | |
inputs: torch.Tensor, | |
targets: torch.Tensor, | |
num_masks: float, | |
): | |
""" | |
Args: | |
inputs: A float tensor of arbitrary shape. | |
The predictions for each example. | |
targets: A float tensor with the same shape as inputs. Stores the binary | |
classification label for each element in inputs | |
(0 for the negative class and 1 for the positive class). | |
Returns: | |
Loss tensor | |
""" | |
loss = F.binary_cross_entropy_with_logits(inputs, targets, reduction="none") | |
loss = loss.flatten(1, 2).mean(1).sum() / (num_masks + 1e-8) | |
return loss | |
class EvfSamModel(PreTrainedModel): | |
config_class = EvfConfig | |
def __init__( | |
self, | |
config, | |
**kwargs | |
): | |
super(EvfSamModel, self).__init__(config) | |
self.config = config | |
self.vision_pretrained = kwargs.get("vision_pretrained", None) | |
self.encoder_pretrained = kwargs.get("encoder_pretrained", None) | |
self.dice_loss_weight = kwargs.get("dice_loss_weight", None) | |
self.bce_loss_weight = kwargs.get("bce_loss_weight", None) | |
self.train_mask_decoder = kwargs.get("train_mask_decoder", False) | |
self.train_prompt_encoder = kwargs.get("train_prompt_encoder", False) | |
self.initialize_evf_modules(config) | |
def initialize_evf_modules(self, config): | |
# SAM | |
if config.sam_scale=="huge": | |
self.visual_model = build_sam_vit_h(self.vision_pretrained) | |
else: | |
raise NotImplementedError | |
for param in self.visual_model.parameters(): | |
param.requires_grad = False | |
if self.train_mask_decoder: | |
self.visual_model.mask_decoder.train() | |
for param in self.visual_model.mask_decoder.parameters(): | |
param.requires_grad = True | |
if self.train_prompt_encoder: | |
self.visual_model.prompt_encoder.no_mask_embed.requires_grad_(True) | |
# beit-3 | |
if self.config.mm_extractor_scale == "base": | |
beit_config = _get_base_config() | |
elif self.config.mm_extractor_scale == "large": | |
beit_config = _get_large_config() | |
else: | |
raise AttributeError(f"model config should contain key 'mm_extractor_scale', with value 'base' or 'large'.") | |
self.mm_extractor = BEiT3Wrapper(beit_config) | |
if self.encoder_pretrained is not None: | |
beit_state_dict = torch.load(self.encoder_pretrained)["model"] | |
self.mm_extractor.load_state_dict( | |
beit_state_dict, | |
strict=False | |
) | |
for param in self.mm_extractor.parameters(): | |
param.requires_grad = True | |
# Projection layer | |
in_dim = config.hidden_size | |
assert in_dim==beit_config.encoder_embed_dim, \ | |
f"projection layer dim {in_dim} mismatch with mm_extractor dim {beit_config.encoder_embed_dim}" | |
out_dim = config.out_dim | |
text_fc = [ | |
nn.Linear(in_dim, in_dim), | |
nn.ReLU(), | |
nn.Linear(in_dim, out_dim) | |
] | |
self.text_hidden_fcs = nn.ModuleList([nn.Sequential(*text_fc)]) | |
self.text_hidden_fcs.train() | |
for param in self.text_hidden_fcs.parameters(): | |
param.requires_grad = True | |
def get_visual_embs(self, pixel_values: torch.FloatTensor): | |
with torch.no_grad(): | |
image_embeddings_list = [] | |
for i in range(pixel_values.shape[0]): | |
torch.cuda.empty_cache() | |
image_embeddings = self.visual_model.image_encoder( | |
pixel_values[i].unsqueeze(0) | |
) | |
image_embeddings_list.append(image_embeddings) | |
torch.cuda.empty_cache() | |
image_embeddings = torch.cat(image_embeddings_list, 0) | |
return image_embeddings | |
def forward( | |
self, | |
images: torch.FloatTensor, | |
images_evf: torch.FloatTensor, | |
input_ids: torch.LongTensor, | |
attention_masks: torch.LongTensor, | |
offset: torch.LongTensor, | |
masks_list: List[torch.FloatTensor], | |
label_list: List[torch.Tensor], | |
resize_list: List[tuple], | |
inference: bool = False, | |
**kwargs, | |
): | |
image_embeddings = self.get_visual_embs(images) | |
batch_size = image_embeddings.shape[0] | |
assert batch_size == len(offset) - 1 | |
images_evf_list = [] | |
for i in range(len(offset) - 1): | |
start_i, end_i = offset[i], offset[i + 1] | |
images_evf_i = ( | |
images_evf[i] | |
.unsqueeze(0) | |
.expand(end_i - start_i, -1, -1, -1) | |
.contiguous() | |
) | |
images_evf_list.append(images_evf_i) | |
images_evf = torch.cat(images_evf_list, dim=0) | |
multimask_output = False | |
output = self.mm_extractor.beit3( | |
visual_tokens=images_evf, | |
textual_tokens=input_ids, | |
text_padding_position=~attention_masks | |
) | |
feat = output["encoder_out"][:, :1, ...] | |
feat = self.text_hidden_fcs[0](feat) | |
feat = torch.split(feat, [offset[i+1] - offset[i] for i in range(len(offset)-1)]) | |
pred_masks = [] | |
for i in range(len(feat)): | |
( | |
sparse_embeddings, | |
dense_embeddings, | |
) = self.visual_model.prompt_encoder( | |
points=None, | |
boxes=None, | |
masks=None, | |
text_embeds=feat[i], | |
) | |
sparse_embeddings = sparse_embeddings.to(feat[i].dtype) | |
low_res_masks, iou_predictions = self.visual_model.mask_decoder( | |
image_embeddings=image_embeddings[i].unsqueeze(0), | |
image_pe=self.visual_model.prompt_encoder.get_dense_pe(), | |
sparse_prompt_embeddings=sparse_embeddings, | |
dense_prompt_embeddings=dense_embeddings, | |
multimask_output=multimask_output, | |
) | |
if multimask_output: | |
sorted_ids = torch.argsort(iou_predictions, dim=-1, descending=True) | |
low_res_masks = torch.take_along_dim(low_res_masks, sorted_ids[..., None, None], dim=1)[:, :1] | |
pred_mask = self.visual_model.postprocess_masks( | |
low_res_masks, | |
input_size=resize_list[i], | |
original_size=label_list[i].shape, | |
) | |
pred_masks.append(pred_mask[:, 0]) | |
gt_masks = masks_list | |
if inference: | |
return { | |
"pred_masks": pred_masks, | |
"gt_masks": gt_masks, | |
} | |
mask_bce_loss = 0 | |
mask_dice_loss = 0 | |
num_masks = 0 | |
for batch_idx in range(len(pred_masks)): | |
gt_mask = gt_masks[batch_idx] | |
pred_mask = pred_masks[batch_idx] | |
assert ( | |
gt_mask.shape[0] == pred_mask.shape[0] | |
), "gt_mask.shape: {}, pred_mask.shape: {}".format( | |
gt_mask.shape, pred_mask.shape | |
) | |
mask_bce_loss += ( | |
sigmoid_ce_loss(pred_mask, gt_mask, num_masks=gt_mask.shape[0]) | |
* gt_mask.shape[0] | |
) | |
mask_dice_loss += ( | |
dice_loss(pred_mask, gt_mask, num_masks=gt_mask.shape[0]) | |
* gt_mask.shape[0] | |
) | |
num_masks += gt_mask.shape[0] | |
mask_bce_loss = self.bce_loss_weight * mask_bce_loss / (num_masks + 1e-8) | |
mask_dice_loss = self.dice_loss_weight * mask_dice_loss / (num_masks + 1e-8) | |
mask_loss = mask_bce_loss + mask_dice_loss | |
loss = mask_loss | |
return { | |
"loss": loss, | |
"mask_bce_loss": mask_bce_loss, | |
"mask_dice_loss": mask_dice_loss, | |
"mask_loss": mask_loss, | |
} | |
def inference( | |
self, | |
images, | |
images_evf, | |
input_ids, | |
resize_list, | |
original_size_list, | |
multimask_output=False, | |
): | |
with torch.no_grad(): | |
image_embeddings = self.visual_model.image_encoder(images) | |
multimask_output = multimask_output | |
output = self.mm_extractor.beit3(visual_tokens=images_evf, textual_tokens=input_ids, text_padding_position=torch.zeros_like(input_ids)) | |
feat = output["encoder_out"][:, :1, ...] | |
feat = self.text_hidden_fcs[0](feat) | |
( | |
sparse_embeddings, | |
dense_embeddings, | |
) = self.visual_model.prompt_encoder( | |
points=None, | |
boxes=None, | |
masks=None, | |
text_embeds=feat, | |
) | |
sparse_embeddings = sparse_embeddings.to(feat.dtype) | |
low_res_masks, iou_predictions = self.visual_model.mask_decoder( | |
image_embeddings=image_embeddings, | |
image_pe=self.visual_model.prompt_encoder.get_dense_pe(), | |
sparse_prompt_embeddings=sparse_embeddings, | |
dense_prompt_embeddings=dense_embeddings, | |
multimask_output=multimask_output, | |
) | |
if multimask_output: | |
sorted_ids = torch.argsort(iou_predictions, dim=-1, descending=True) | |
low_res_masks = torch.take_along_dim(low_res_masks, sorted_ids[..., None, None], dim=1)[:, :1] | |
pred_mask = self.visual_model.postprocess_masks( | |
low_res_masks, | |
input_size=resize_list[0], | |
original_size=original_size_list[0], | |
) | |
return pred_mask[:, 0] | |
AutoConfig.register("evf", EvfConfig) | |
AutoModelForCausalLM.register(EvfConfig, EvfSamModel) |