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https://github.com/finegrain-ai/refiners.git
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SegmentAnything: add dense mask prompt support
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hugojarkoff
hugojarkoff
parent
20c229903f
commit
00f494efe2
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@ -37,13 +37,36 @@ class Args(argparse.Namespace):
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def convert_mask_encoder(prompt_encoder: nn.Module) -> dict[str, Tensor]:
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manual_seed(seed=0)
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refiners_mask_encoder = MaskEncoder()
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converter = ModelConverter(
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source_model=prompt_encoder.mask_downscaling,
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target_model=refiners_mask_encoder,
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custom_layer_mapping=custom_layers, # type: ignore
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)
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x = torch.randn(1, 256, 256)
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mapping = converter.map_state_dicts(source_args=(x,))
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assert mapping
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source_state_dict = prompt_encoder.mask_downscaling.state_dict()
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target_state_dict = refiners_mask_encoder.state_dict()
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# Mapping handled manually (see below) because nn.Parameter is a special case
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del target_state_dict["no_mask_embedding"]
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converted_source = converter._convert_state_dict( # pyright: ignore[reportPrivateUsage]
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source_state_dict=source_state_dict, target_state_dict=target_state_dict, state_dict_mapping=mapping
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)
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state_dict: dict[str, Tensor] = {
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"no_mask_embedding": nn.Parameter(data=prompt_encoder.no_mask_embed.weight.clone()), # type: ignore
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}
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refiners_mask_encoder = MaskEncoder()
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# TODO: handle other weights
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refiners_mask_encoder.load_state_dict(state_dict=state_dict, strict=False)
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state_dict.update(converted_source)
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refiners_mask_encoder.load_state_dict(state_dict=state_dict)
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return state_dict
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@ -3,11 +3,12 @@ from typing import Sequence
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import numpy as np
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import torch
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from jaxtyping import Float
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from PIL import Image
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from torch import Tensor, device as Device, dtype as DType
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import refiners.fluxion.layers as fl
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from refiners.fluxion.utils import image_to_tensor, interpolate, no_grad, normalize, pad
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from refiners.fluxion.utils import interpolate, no_grad, normalize, pad
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from refiners.foundationals.segment_anything.image_encoder import SAMViT, SAMViTH
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from refiners.foundationals.segment_anything.mask_decoder import MaskDecoder
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from refiners.foundationals.segment_anything.prompt_encoder import MaskEncoder, PointEncoder
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@ -55,7 +56,7 @@ class SegmentAnything(fl.Module):
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foreground_points: Sequence[tuple[float, float]] | None = None,
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background_points: Sequence[tuple[float, float]] | None = None,
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box_points: Sequence[Sequence[tuple[float, float]]] | None = None,
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masks: Sequence[Image.Image] | None = None,
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low_res_mask: Float[Tensor, "1 1 256 256"] | None = None,
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binarize: bool = True,
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) -> tuple[Tensor, Tensor, Tensor]:
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if isinstance(input, ImageEmbedding):
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@ -74,15 +75,13 @@ class SegmentAnything(fl.Module):
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)
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self.point_encoder.set_type_mask(type_mask=type_mask)
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if masks is not None:
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mask_tensor = torch.stack(
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tensors=[image_to_tensor(image=mask, device=self.device, dtype=self.dtype) for mask in masks]
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)
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mask_embedding = self.mask_encoder(mask_tensor)
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if low_res_mask is not None:
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mask_embedding = self.mask_encoder(low_res_mask)
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else:
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mask_embedding = self.mask_encoder.get_no_mask_dense_embedding(
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image_embedding_size=self.image_encoder.image_embedding_size
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)
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point_embedding = self.point_encoder(
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self.normalize(coordinates, target_size=target_size, original_size=original_size)
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)
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@ -23,7 +23,7 @@ from refiners.foundationals.segment_anything.image_encoder import FusedSelfAtten
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from refiners.foundationals.segment_anything.model import SegmentAnythingH
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from refiners.foundationals.segment_anything.transformer import TwoWayTranformerLayer
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# See predictor_example.ipynb official notebook (note: mask_input is not yet properly supported)
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# See predictor_example.ipynb official notebook
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PROMPTS: list[SAMPrompt] = [
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SAMPrompt(foreground_points=((500, 375),)),
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SAMPrompt(background_points=((500, 375),)),
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@ -41,7 +41,9 @@ def prompt(request: pytest.FixtureRequest) -> SAMPrompt:
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@pytest.fixture
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def one_prompt() -> SAMPrompt:
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return PROMPTS[0]
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# Using the third prompt of the PROMPTS list in order to strictly do the same test as the official notebook in the
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# test_predictor_dense_mask test.
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return PROMPTS[2]
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@pytest.fixture(scope="module")
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@ -83,8 +85,7 @@ def facebook_sam_h_predictor(facebook_sam_h: FacebookSAM) -> FacebookSAMPredicto
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@pytest.fixture(scope="module")
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def sam_h(sam_h_weights: Path, test_device: torch.device) -> SegmentAnythingH:
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sam_h = SegmentAnythingH(device=test_device)
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# TODO: make strict=True when the MasKEncoder conversion is done
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sam_h.load_from_safetensors(tensors_path=sam_h_weights, strict=False)
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sam_h.load_from_safetensors(tensors_path=sam_h_weights)
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return sam_h
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@ -164,7 +165,14 @@ def test_point_encoder(facebook_sam_h: FacebookSAM, sam_h: SegmentAnythingH, pro
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**prompt.facebook_prompt_encoder_kwargs(device=facebook_sam_h.device)
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)
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coordinates, type_mask = refiners_prompt_encoder.points_to_tensor(**prompt.__dict__)
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prompt_dict = prompt.__dict__
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# Skip mask prompt, if any, since the point encoder only consumes points and boxes
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# TODO: split `SAMPrompt` and introduce a dedicated one for dense prompts
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prompt_dict.pop("low_res_mask", None)
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assert prompt_dict is not None, "`test_point_encoder` cannot be called with just a `low_res_mask`"
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coordinates, type_mask = refiners_prompt_encoder.points_to_tensor(**prompt_dict)
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# Shift to center of pixel + normalize in [0, 1] (see `_embed_points` in segment-anything official repo)
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coordinates[:, :, 0] = (coordinates[:, :, 0] + 0.5) / 1024.0
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coordinates[:, :, 1] = (coordinates[:, :, 1] + 0.5) / 1024.0
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@ -319,3 +327,91 @@ def test_predictor_image_embedding(sam_h: SegmentAnythingH, truck: Image.Image,
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assert torch.equal(masks, masks_ref)
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assert torch.equal(scores_ref, scores)
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def test_predictor_dense_mask(
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facebook_sam_h_predictor: FacebookSAMPredictor, sam_h: SegmentAnythingH, truck: Image.Image, one_prompt: SAMPrompt
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) -> None:
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"""
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NOTE : Binarizing intermediate masks isn't necessary, as per SamPredictor.predict_torch docstring:
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> mask_input (np.ndarray): A low resolution mask input to the model, typically
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> coming from a previous prediction iteration. Has form Bx1xHxW, where
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> for SAM, H=W=256. Masks returned by a previous iteration of the
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> predict method do not need further transformation.
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"""
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predictor = facebook_sam_h_predictor
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predictor.set_image(np.array(truck))
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facebook_masks, facebook_scores, facebook_logits = predictor.predict(
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**one_prompt.facebook_predict_kwargs(), # type: ignore
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multimask_output=True,
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)
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assert len(facebook_masks) == 3
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facebook_mask_input = facebook_logits[np.argmax(facebook_scores)] # shape: HxW
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# Using the same mask coordinates inputs as the official notebook
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facebook_prompt = SAMPrompt(
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foreground_points=((500, 375),), background_points=((1125, 625),), low_res_mask=facebook_mask_input[None, ...]
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)
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facebook_dense_masks, _, _ = predictor.predict(**facebook_prompt.facebook_predict_kwargs(), multimask_output=True) # type: ignore
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assert len(facebook_dense_masks) == 3
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masks, scores, logits = sam_h.predict(truck, **one_prompt.__dict__)
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masks = masks.squeeze(0)
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scores = scores.squeeze(0)
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assert len(masks) == 3
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mask_input = logits[:, scores.max(dim=0).indices, ...] # shape: 1xHxW
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assert np.allclose(
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mask_input.cpu().numpy(), facebook_mask_input, atol=1e-1
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) # Lower doesn't pass, but it's close enough for logits
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refiners_prompt = SAMPrompt(
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foreground_points=((500, 375),), background_points=((1125, 625),), low_res_mask=mask_input.unsqueeze(0)
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)
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dense_masks, _, _ = sam_h.predict(truck, **refiners_prompt.__dict__)
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dense_masks = dense_masks.squeeze(0)
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assert len(dense_masks) == 3
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for i in range(3):
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dense_mask_prediction = dense_masks[i].cpu()
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facebook_dense_mask = torch.as_tensor(facebook_dense_masks[i])
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assert dense_mask_prediction.shape == facebook_dense_mask.shape
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assert isclose(intersection_over_union(dense_mask_prediction, facebook_dense_mask), 1.0, rel_tol=5e-05)
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def test_mask_encoder(
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facebook_sam_h_predictor: FacebookSAMPredictor, sam_h: SegmentAnythingH, truck: Image.Image, one_prompt: SAMPrompt
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) -> None:
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predictor = facebook_sam_h_predictor
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predictor.set_image(np.array(truck))
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_, facebook_scores, facebook_logits = predictor.predict(
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**one_prompt.facebook_predict_kwargs(), # type: ignore
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multimask_output=True,
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)
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facebook_mask_input = facebook_logits[np.argmax(facebook_scores)]
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facebook_mask_input = (
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torch.from_numpy(facebook_mask_input) # type: ignore
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.to(device=predictor.model.device)
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.unsqueeze(0)
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.unsqueeze(0) # shape: 1x1xHxW
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)
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_, fb_dense_embeddings = predictor.model.prompt_encoder(
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points=None,
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boxes=None,
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masks=facebook_mask_input,
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)
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_, scores, logits = sam_h.predict(truck, **one_prompt.__dict__)
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scores = scores.squeeze(0)
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mask_input = logits[:, scores.max(dim=0).indices, ...].unsqueeze(0) # shape: 1x1xHxW
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dense_embeddings = sam_h.mask_encoder(mask_input)
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assert facebook_mask_input.shape == mask_input.shape
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assert torch.allclose(dense_embeddings, fb_dense_embeddings, atol=1e-4, rtol=1e-4)
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@ -63,8 +63,7 @@ class SAMPrompt:
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foreground_points: Sequence[tuple[float, float]] | None = None
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background_points: Sequence[tuple[float, float]] | None = None
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box_points: Sequence[Sequence[tuple[float, float]]] | None = None
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# TODO: support masks
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# masks: Sequence[Image.Image] | None = None
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low_res_mask: Tensor | None = None
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def facebook_predict_kwargs(self) -> dict[str, NDArray]:
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prompt: dict[str, NDArray] = {}
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@ -85,13 +84,18 @@ class SAMPrompt:
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prompt["box"] = np.array([coord for batch in self.box_points for xy in batch for coord in xy]).reshape(
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len(self.box_points), 4
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)
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if self.low_res_mask is not None:
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prompt["mask_input"] = np.array(self.low_res_mask)
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return prompt
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def facebook_prompt_encoder_kwargs(self, device: torch.device | None = None):
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def facebook_prompt_encoder_kwargs(
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self, device: torch.device | None = None
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) -> dict[str, Tensor | tuple[Tensor, Tensor | None] | None]:
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prompt = self.facebook_predict_kwargs()
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coords: Tensor | None = None
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labels: Tensor | None = None
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boxes: Tensor | None = None
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masks: Tensor | None = None
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if "point_coords" in prompt:
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coords = torch.as_tensor(prompt["point_coords"], dtype=torch.float, device=device).unsqueeze(0)
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if "point_labels" in prompt:
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@ -99,8 +103,9 @@ class SAMPrompt:
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if "box" in prompt:
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boxes = torch.as_tensor(prompt["box"], dtype=torch.float, device=device).unsqueeze(0)
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points = (coords, labels) if coords is not None else None
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# TODO: support masks
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return {"points": points, "boxes": boxes, "masks": None}
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if "mask_input" in prompt:
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masks = torch.as_tensor(prompt["mask_input"], dtype=torch.float, device=device).unsqueeze(0)
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return {"points": points, "boxes": boxes, "masks": masks}
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def intersection_over_union(
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