mirror of
https://github.com/blakeblackshear/frigate.git
synced 2024-11-26 19:06:11 +01:00
84 lines
2.9 KiB
Python
84 lines
2.9 KiB
Python
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import logging
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import cv2
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import numpy as np
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logger = logging.getLogger(__name__)
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def preprocess(tensor_input, model_input_shape, model_input_element_type):
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model_input_shape = tuple(model_input_shape)
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assert tensor_input.dtype == np.uint8, f"tensor_input.dtype: {tensor_input.dtype}"
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if len(tensor_input.shape) == 3:
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tensor_input = tensor_input[np.newaxis, :]
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if model_input_element_type == np.uint8:
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# nothing to do for uint8 model input
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assert (
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model_input_shape == tensor_input.shape
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), f"model_input_shape: {model_input_shape}, tensor_input.shape: {tensor_input.shape}"
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return tensor_input
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assert (
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model_input_element_type == np.float32
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), f"model_input_element_type: {model_input_element_type}"
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# tensor_input must be nhwc
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assert tensor_input.shape[3] == 3, f"tensor_input.shape: {tensor_input.shape}"
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if tensor_input.shape[1:3] != model_input_shape[2:4]:
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logger.warn(
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f"preprocess: tensor_input.shape {tensor_input.shape} and model_input_shape {model_input_shape} do not match!"
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)
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# cv2.dnn.blobFromImage is faster than numpying it
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return cv2.dnn.blobFromImage(
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tensor_input[0],
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1.0 / 255,
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(model_input_shape[3], model_input_shape[2]),
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None,
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swapRB=False,
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)
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def yolov8_postprocess(
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model_input_shape,
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tensor_output,
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box_count=20,
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score_threshold=0.5,
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nms_threshold=0.5,
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):
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model_box_count = tensor_output.shape[2]
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probs = tensor_output[0, 4:, :]
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all_ids = np.argmax(probs, axis=0)
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all_confidences = probs.T[np.arange(model_box_count), all_ids]
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all_boxes = tensor_output[0, 0:4, :].T
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mask = all_confidences > score_threshold
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class_ids = all_ids[mask]
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confidences = all_confidences[mask]
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cx, cy, w, h = all_boxes[mask].T
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if model_input_shape[3] == 3:
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scale_y, scale_x = 1 / model_input_shape[1], 1 / model_input_shape[2]
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else:
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scale_y, scale_x = 1 / model_input_shape[2], 1 / model_input_shape[3]
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detections = np.stack(
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(
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class_ids,
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confidences,
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scale_y * (cy - h / 2),
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scale_x * (cx - w / 2),
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scale_y * (cy + h / 2),
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scale_x * (cx + w / 2),
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),
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axis=1,
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)
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if detections.shape[0] > box_count:
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# if too many detections, do nms filtering to suppress overlapping boxes
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boxes = np.stack((cx - w / 2, cy - h / 2, w, h), axis=1)
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indexes = cv2.dnn.NMSBoxes(boxes, confidences, score_threshold, nms_threshold)
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detections = detections[indexes]
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# if still too many, trim the rest by confidence
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if detections.shape[0] > box_count:
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detections = detections[
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np.argpartition(detections[:, 1], -box_count)[-box_count:]
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]
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detections = detections.copy()
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detections.resize((box_count, 6))
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return detections
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