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segment-anything / sam_predictor.py

hogepodge

Initial commit of the Label Studio Segment Anything space

6307f85 8 months ago

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	import os
	import logging
	import torch
	import cv2
	import numpy as np

	from typing import List, Dict, Optional
	from label_studio_ml.utils import get_image_local_path, InMemoryLRUDictCache

	logger = logging.getLogger(__name__)

	VITH_CHECKPOINT = os.environ.get("VITH_CHECKPOINT")
	ONNX_CHECKPOINT = os.environ.get("ONNX_CHECKPOINT")
	MOBILESAM_CHECKPOINT = os.environ.get("MOBILESAM_CHECKPOINT", "mobile_sam.pt")
	LABEL_STUDIO_ACCESS_TOKEN = os.environ.get("LABEL_STUDIO_ACCESS_TOKEN")
	LABEL_STUDIO_HOST = os.environ.get("LABEL_STUDIO_HOST")


	class SAMPredictor(object):

	def __init__(self, model_choice):
	self.model_choice = model_choice

	# cache for embeddings
	# TODO: currently it supports only one image in cache,
	# since predictor.set_image() should be called each time the new image comes
	# before making predictions
	# to extend it to >1 image, we need to store the "active image" state in the cache
	self.cache = InMemoryLRUDictCache(1)

	# if you're not using CUDA, use "cpu" instead .... good luck not burning your computer lol
	self.device = "cuda" if torch.cuda.is_available() else "cpu"
	logger.debug(f"Using device {self.device}")

	if model_choice == 'ONNX':
	import onnxruntime
	from segment_anything import sam_model_registry, SamPredictor

	self.model_checkpoint = VITH_CHECKPOINT
	if self.model_checkpoint is None:
	raise FileNotFoundError("VITH_CHECKPOINT is not set: please set it to the path to the SAM checkpoint")
	if ONNX_CHECKPOINT is None:
	raise FileNotFoundError("ONNX_CHECKPOINT is not set: please set it to the path to the ONNX checkpoint")
	logger.info(f"Using ONNX checkpoint {ONNX_CHECKPOINT} and SAM checkpoint {self.model_checkpoint}")

	self.ort = onnxruntime.InferenceSession(ONNX_CHECKPOINT)
	reg_key = "vit_h"

	elif model_choice == 'SAM':
	from segment_anything import SamPredictor, sam_model_registry

	self.model_checkpoint = VITH_CHECKPOINT
	if self.model_checkpoint is None:
	raise FileNotFoundError("VITH_CHECKPOINT is not set: please set it to the path to the SAM checkpoint")

	logger.info(f"Using SAM checkpoint {self.model_checkpoint}")
	reg_key = "vit_h"

	elif model_choice == 'MobileSAM':
	from mobile_sam import SamPredictor, sam_model_registry

	self.model_checkpoint = MOBILESAM_CHECKPOINT
	if not self.model_checkpoint:
	raise FileNotFoundError("MOBILE_CHECKPOINT is not set: please set it to the path to the MobileSAM checkpoint")
	logger.info(f"Using MobileSAM checkpoint {self.model_checkpoint}")
	reg_key = 'vit_t'
	else:
	raise ValueError(f"Invalid model choice {model_choice}")

	sam = sam_model_registry[reg_key](checkpoint=self.model_checkpoint)
	sam.to(device=self.device)
	self.predictor = SamPredictor(sam)

	@property
	def model_name(self):
	return f'{self.model_choice}:{self.model_checkpoint}:{self.device}'

	def set_image(self, img_path, calculate_embeddings=True):
	payload = self.cache.get(img_path)
	if payload is None:
	# Get image and embeddings
	logger.debug(f'Payload not found for {img_path} in `IN_MEM_CACHE`: calculating from scratch')
	image_path = get_image_local_path(
	img_path,
	label_studio_access_token=LABEL_STUDIO_ACCESS_TOKEN,
	label_studio_host=LABEL_STUDIO_HOST
	)
	image = cv2.imread(image_path)
	image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB)
	self.predictor.set_image(image)
	payload = {'image_shape': image.shape[:2]}
	logger.debug(f'Finished set_image({img_path}) in `IN_MEM_CACHE`: image shape {image.shape[:2]}')
	if calculate_embeddings:
	image_embedding = self.predictor.get_image_embedding().cpu().numpy()
	payload['image_embedding'] = image_embedding
	logger.debug(f'Finished storing embeddings for {img_path} in `IN_MEM_CACHE`: '
	f'embedding shape {image_embedding.shape}')
	self.cache.put(img_path, payload)
	else:
	logger.debug(f"Using embeddings for {img_path} from `IN_MEM_CACHE`")
	return payload

	def predict_onnx(
	self,
	img_path,
	point_coords: Optional[List[List]] = None,
	point_labels: Optional[List] = None,
	input_box: Optional[List] = None
	):
	# calculate embeddings
	payload = self.set_image(img_path, calculate_embeddings=True)
	image_shape = payload['image_shape']
	image_embedding = payload['image_embedding']

	onnx_point_coords = np.array(point_coords, dtype=np.float32) if point_coords else None
	onnx_point_labels = np.array(point_labels, dtype=np.float32) if point_labels else None
	onnx_box_coords = np.array(input_box, dtype=np.float32).reshape(2, 2) if input_box else None

	onnx_coords, onnx_labels = None, None
	if onnx_point_coords is not None and onnx_box_coords is not None:
	# both keypoints and boxes are present
	onnx_coords = np.concatenate([onnx_point_coords, onnx_box_coords], axis=0)[None, :, :]
	onnx_labels = np.concatenate([onnx_point_labels, np.array([2, 3])], axis=0)[None, :].astype(np.float32)

	elif onnx_point_coords is not None:
	# only keypoints are present
	onnx_coords = np.concatenate([onnx_point_coords, np.array([[0.0, 0.0]])], axis=0)[None, :, :]
	onnx_labels = np.concatenate([onnx_point_labels, np.array([-1])], axis=0)[None, :].astype(np.float32)

	elif onnx_box_coords is not None:
	# only boxes are present
	raise NotImplementedError("Boxes without keypoints are not supported yet")

	onnx_coords = self.predictor.transform.apply_coords(onnx_coords, image_shape).astype(np.float32)

	# TODO: support mask inputs
	onnx_mask_input = np.zeros((1, 1, 256, 256), dtype=np.float32)

	onnx_has_mask_input = np.zeros(1, dtype=np.float32)

	ort_inputs = {
	"image_embeddings": image_embedding,
	"point_coords": onnx_coords,
	"point_labels": onnx_labels,
	"mask_input": onnx_mask_input,
	"has_mask_input": onnx_has_mask_input,
	"orig_im_size": np.array(image_shape, dtype=np.float32)
	}

	masks, prob, low_res_logits = self.ort.run(None, ort_inputs)
	masks = masks > self.predictor.model.mask_threshold
	mask = masks[0, 0, :, :].astype(np.uint8) # each mask has shape [H, W]
	prob = float(prob[0][0])
	# TODO: support the real multimask output as in https://github.com/facebookresearch/segment-anything/blob/main/notebooks/predictor_example.ipynb
	return {
	'masks': [mask],
	'probs': [prob]
	}

	def predict_sam(
	self,
	img_path,
	point_coords: Optional[List[List]] = None,
	point_labels: Optional[List] = None,
	input_box: Optional[List] = None
	):
	self.set_image(img_path, calculate_embeddings=False)
	point_coords = np.array(point_coords, dtype=np.float32) if point_coords else None
	point_labels = np.array(point_labels, dtype=np.float32) if point_labels else None
	input_box = np.array(input_box, dtype=np.float32) if input_box else None

	masks, probs, logits = self.predictor.predict(
	point_coords=point_coords,
	point_labels=point_labels,
	box=input_box,
	# TODO: support multimask output
	multimask_output=False
	)
	mask = masks[0, :, :].astype(np.uint8) # each mask has shape [H, W]
	prob = float(probs[0])
	return {
	'masks': [mask],
	'probs': [prob]
	}

	def predict(
	self, img_path: str,
	point_coords: Optional[List[List]] = None,
	point_labels: Optional[List] = None,
	input_box: Optional[List] = None
	):
	if self.model_choice == 'ONNX':
	return self.predict_onnx(img_path, point_coords, point_labels, input_box)
	elif self.model_choice in ('SAM', 'MobileSAM'):
	return self.predict_sam(img_path, point_coords, point_labels, input_box)
	else:
	raise NotImplementedError(f"Model choice {self.model_choice} is not supported yet")