286 lines
12 KiB
Python
286 lines
12 KiB
Python
# Copyright (c) Meta Platforms, Inc. and affiliates.
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# All rights reserved.
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# This source code is licensed under the license found in the
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# LICENSE file in the root directory of this source tree.
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import numpy as np
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import torch
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from .modeling import Sam
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from typing import Optional, Tuple
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from .utils.transforms import ResizeLongestSide
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class SamPredictor:
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def __init__(
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self,
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sam_model: Sam,
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) -> None:
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"""
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Uses SAM to calculate the image embedding for an image, and then
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allow repeated, efficient mask prediction given prompts.
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Arguments:
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sam_model (Sam): The model to use for mask prediction.
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"""
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super().__init__()
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self.model = sam_model
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self.transform = ResizeLongestSide(sam_model.image_encoder.img_size)
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self.reset_image()
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def set_image(
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self,
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image: np.ndarray,
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image_format: str = "RGB",
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) -> None:
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"""
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Calculates the image embeddings for the provided image, allowing
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masks to be predicted with the 'predict' method.
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Arguments:
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image (np.ndarray): The image for calculating masks. Expects an
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image in HWC uint8 format, with pixel values in [0, 255].
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image_format (str): The color format of the image, in ['RGB', 'BGR'].
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"""
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assert image_format in [
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"RGB",
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"BGR",
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], f"image_format must be in ['RGB', 'BGR'], is {image_format}."
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if image_format != self.model.image_format:
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image = image[..., ::-1]
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# Transform the image to the form expected by the model
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input_image = self.transform.apply_image(image)
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input_image_torch = torch.as_tensor(input_image, device=self.device)
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input_image_torch = input_image_torch.permute(2, 0, 1).contiguous()[
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None, :, :, :
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]
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self.set_torch_image(input_image_torch, image.shape[:2])
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@torch.no_grad()
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def set_torch_image(
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self,
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transformed_image: torch.Tensor,
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original_image_size: Tuple[int, ...],
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) -> None:
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"""
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Calculates the image embeddings for the provided image, allowing
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masks to be predicted with the 'predict' method. Expects the input
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image to be already transformed to the format expected by the model.
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Arguments:
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transformed_image (torch.Tensor): The input image, with shape
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1x3xHxW, which has been transformed with ResizeLongestSide.
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original_image_size (tuple(int, int)): The size of the image
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before transformation, in (H, W) format.
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"""
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assert (
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len(transformed_image.shape) == 4
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and transformed_image.shape[1] == 3
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and max(*transformed_image.shape[2:]) == self.model.image_encoder.img_size
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), f"set_torch_image input must be BCHW with long side {self.model.image_encoder.img_size}."
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self.reset_image()
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self.original_size = original_image_size
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self.input_size = tuple(transformed_image.shape[-2:])
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input_image = self.model.preprocess(transformed_image)
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self.features = self.model.image_encoder(input_image)
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self.is_image_set = True
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def predict(
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self,
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point_coords: Optional[np.ndarray] = None,
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point_labels: Optional[np.ndarray] = None,
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box: Optional[np.ndarray] = None,
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mask_input: Optional[np.ndarray] = None,
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multimask_output: bool = True,
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return_logits: bool = False,
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) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]:
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"""
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Predict masks for the given input prompts, using the currently set image.
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Arguments:
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point_coords (np.ndarray or None): A Nx2 array of point prompts to the
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model. Each point is in (X,Y) in pixels.
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point_labels (np.ndarray or None): A length N array of labels for the
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point prompts. 1 indicates a foreground point and 0 indicates a
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background point.
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box (np.ndarray or None): A length 4 array given a box prompt to the
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model, in XYXY format.
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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 1xHxW, where
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for SAM, H=W=256.
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multimask_output (bool): If true, the model will return three masks.
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For ambiguous input prompts (such as a single click), this will often
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produce better masks than a single prediction. If only a single
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mask is needed, the model's predicted quality score can be used
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to select the best mask. For non-ambiguous prompts, such as multiple
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input prompts, multimask_output=False can give better results.
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return_logits (bool): If true, returns un-thresholded masks logits
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instead of a binary mask.
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Returns:
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(np.ndarray): The output masks in CxHxW format, where C is the
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number of masks, and (H, W) is the original image size.
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(np.ndarray): An array of length C containing the model's
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predictions for the quality of each mask.
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(np.ndarray): An array of shape CxHxW, where C is the number
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of masks and H=W=256. These low resolution logits can be passed to
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a subsequent iteration as mask input.
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"""
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if not self.is_image_set:
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raise RuntimeError(
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"An image must be set with .set_image(...) before mask prediction."
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)
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# Transform input prompts
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coords_torch, labels_torch, box_torch, mask_input_torch = None, None, None, None
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if point_coords is not None:
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assert (
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point_labels is not None
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), "point_labels must be supplied if point_coords is supplied."
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point_coords = self.transform.apply_coords(point_coords, self.original_size)
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coords_torch = torch.as_tensor(
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point_coords, dtype=torch.float, device=self.device
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)
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labels_torch = torch.as_tensor(
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point_labels, dtype=torch.int, device=self.device
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)
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coords_torch, labels_torch = coords_torch[None, :, :], labels_torch[None, :]
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if box is not None:
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box = self.transform.apply_boxes(box, self.original_size)
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box_torch = torch.as_tensor(box, dtype=torch.float, device=self.device)
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box_torch = box_torch[None, :]
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if mask_input is not None:
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mask_input_torch = torch.as_tensor(
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mask_input, dtype=torch.float, device=self.device
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)
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mask_input_torch = mask_input_torch[None, :, :, :]
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masks, iou_predictions, low_res_masks = self.predict_torch(
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coords_torch,
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labels_torch,
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box_torch,
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mask_input_torch,
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multimask_output,
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return_logits=return_logits,
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)
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masks = masks[0].detach().cpu().numpy()
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iou_predictions = iou_predictions[0].detach().cpu().numpy()
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low_res_masks = low_res_masks[0].detach().cpu().numpy()
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return masks, iou_predictions, low_res_masks
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@torch.no_grad()
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def predict_torch(
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self,
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point_coords: Optional[torch.Tensor],
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point_labels: Optional[torch.Tensor],
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boxes: Optional[torch.Tensor] = None,
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mask_input: Optional[torch.Tensor] = None,
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multimask_output: bool = True,
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return_logits: bool = False,
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) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]:
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"""
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Predict masks for the given input prompts, using the currently set image.
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Input prompts are batched torch tensors and are expected to already be
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transformed to the input frame using ResizeLongestSide.
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Arguments:
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point_coords (torch.Tensor or None): A BxNx2 array of point prompts to the
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model. Each point is in (X,Y) in pixels.
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point_labels (torch.Tensor or None): A BxN array of labels for the
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point prompts. 1 indicates a foreground point and 0 indicates a
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background point.
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box (np.ndarray or None): A Bx4 array given a box prompt to the
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model, in XYXY format.
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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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multimask_output (bool): If true, the model will return three masks.
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For ambiguous input prompts (such as a single click), this will often
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produce better masks than a single prediction. If only a single
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mask is needed, the model's predicted quality score can be used
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to select the best mask. For non-ambiguous prompts, such as multiple
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input prompts, multimask_output=False can give better results.
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return_logits (bool): If true, returns un-thresholded masks logits
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instead of a binary mask.
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Returns:
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(torch.Tensor): The output masks in BxCxHxW format, where C is the
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number of masks, and (H, W) is the original image size.
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(torch.Tensor): An array of shape BxC containing the model's
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predictions for the quality of each mask.
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(torch.Tensor): An array of shape BxCxHxW, where C is the number
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of masks and H=W=256. These low res logits can be passed to
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a subsequent iteration as mask input.
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"""
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if not self.is_image_set:
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raise RuntimeError(
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"An image must be set with .set_image(...) before mask prediction."
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)
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if point_coords is not None:
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points = (point_coords, point_labels)
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else:
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points = None
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# Embed prompts
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sparse_embeddings, dense_embeddings = self.model.prompt_encoder(
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points=points,
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boxes=boxes,
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masks=mask_input,
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)
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# Predict masks
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low_res_masks, iou_predictions = self.model.mask_decoder(
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image_embeddings=self.features,
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image_pe=self.model.prompt_encoder.get_dense_pe(),
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sparse_prompt_embeddings=sparse_embeddings,
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dense_prompt_embeddings=dense_embeddings,
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multimask_output=multimask_output,
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)
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# Upscale the masks to the original image resolution
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masks = self.model.postprocess_masks(
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low_res_masks, self.input_size, self.original_size
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)
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if not return_logits:
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masks = masks > self.model.mask_threshold
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return masks, iou_predictions, low_res_masks
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def get_image_embedding(self) -> torch.Tensor:
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"""
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Returns the image embeddings for the currently set image, with
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shape 1xCxHxW, where C is the embedding dimension and (H,W) are
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the embedding spatial dimension of SAM (typically C=256, H=W=64).
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"""
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if not self.is_image_set:
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raise RuntimeError(
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"An image must be set with .set_image(...) to generate an embedding."
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)
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assert (
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self.features is not None
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), "Features must exist if an image has been set."
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return self.features
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@property
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def device(self) -> torch.device:
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return self.model.device
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def reset_image(self) -> None:
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"""Resets the currently set image."""
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self.is_image_set = False
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self.features = None
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self.orig_h = None
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self.orig_w = None
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self.input_h = None
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self.input_w = None
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