blakeblackshear.frigate/frigate/detectors/plugins/openvino.py
Blake Blackshear b65aa640c9
Remove all AGPL licensed YOLO references from Frigate (#10716)
* Remove yolov8 support from Frigate

* Remove automatic build

* Formatting and remove yolov5

* Formatting

---------

Co-authored-by: Nicolas Mowen <nickmowen213@gmail.com>
2024-03-30 05:44:44 -05:00

134 lines
5.1 KiB
Python

import logging
import numpy as np
import openvino.runtime as ov
from pydantic import Field
from typing_extensions import Literal
from frigate.detectors.detection_api import DetectionApi
from frigate.detectors.detector_config import BaseDetectorConfig, ModelTypeEnum
logger = logging.getLogger(__name__)
DETECTOR_KEY = "openvino"
class OvDetectorConfig(BaseDetectorConfig):
type: Literal[DETECTOR_KEY]
device: str = Field(default=None, title="Device Type")
class OvDetector(DetectionApi):
type_key = DETECTOR_KEY
def __init__(self, detector_config: OvDetectorConfig):
self.ov_core = ov.Core()
self.ov_model = self.ov_core.read_model(detector_config.model.path)
self.ov_model_type = detector_config.model.model_type
self.h = detector_config.model.height
self.w = detector_config.model.width
self.interpreter = self.ov_core.compile_model(
model=self.ov_model, device_name=detector_config.device
)
logger.info(f"Model Input Shape: {self.interpreter.input(0).shape}")
self.output_indexes = 0
while True:
try:
tensor_shape = self.interpreter.output(self.output_indexes).shape
logger.info(f"Model Output-{self.output_indexes} Shape: {tensor_shape}")
self.output_indexes += 1
except Exception:
logger.info(f"Model has {self.output_indexes} Output Tensors")
break
if self.ov_model_type == ModelTypeEnum.yolox:
self.num_classes = tensor_shape[2] - 5
logger.info(f"YOLOX model has {self.num_classes} classes")
self.set_strides_grids()
def set_strides_grids(self):
grids = []
expanded_strides = []
strides = [8, 16, 32]
hsizes = [self.h // stride for stride in strides]
wsizes = [self.w // stride for stride in strides]
for hsize, wsize, stride in zip(hsizes, wsizes, strides):
xv, yv = np.meshgrid(np.arange(wsize), np.arange(hsize))
grid = np.stack((xv, yv), 2).reshape(1, -1, 2)
grids.append(grid)
shape = grid.shape[:2]
expanded_strides.append(np.full((*shape, 1), stride))
self.grids = np.concatenate(grids, 1)
self.expanded_strides = np.concatenate(expanded_strides, 1)
## Takes in class ID, confidence score, and array of [x, y, w, h] that describes detection position,
## returns an array that's easily passable back to Frigate.
def process_yolo(self, class_id, conf, pos):
return [
class_id, # class ID
conf, # confidence score
(pos[1] - (pos[3] / 2)) / self.h, # y_min
(pos[0] - (pos[2] / 2)) / self.w, # x_min
(pos[1] + (pos[3] / 2)) / self.h, # y_max
(pos[0] + (pos[2] / 2)) / self.w, # x_max
]
def detect_raw(self, tensor_input):
infer_request = self.interpreter.create_infer_request()
infer_request.infer([tensor_input])
if self.ov_model_type == ModelTypeEnum.ssd:
results = infer_request.get_output_tensor()
detections = np.zeros((20, 6), np.float32)
i = 0
for object_detected in results.data[0, 0, :]:
if object_detected[0] != -1:
logger.debug(object_detected)
if object_detected[2] < 0.1 or i == 20:
break
detections[i] = [
object_detected[1], # Label ID
float(object_detected[2]), # Confidence
object_detected[4], # y_min
object_detected[3], # x_min
object_detected[6], # y_max
object_detected[5], # x_max
]
i += 1
return detections
elif self.ov_model_type == ModelTypeEnum.yolox:
out_tensor = infer_request.get_output_tensor()
# [x, y, h, w, box_score, class_no_1, ..., class_no_80],
results = out_tensor.data
results[..., :2] = (results[..., :2] + self.grids) * self.expanded_strides
results[..., 2:4] = np.exp(results[..., 2:4]) * self.expanded_strides
image_pred = results[0, ...]
class_conf = np.max(
image_pred[:, 5 : 5 + self.num_classes], axis=1, keepdims=True
)
class_pred = np.argmax(image_pred[:, 5 : 5 + self.num_classes], axis=1)
class_pred = np.expand_dims(class_pred, axis=1)
conf_mask = (image_pred[:, 4] * class_conf.squeeze() >= 0.3).squeeze()
# Detections ordered as (x1, y1, x2, y2, obj_conf, class_conf, class_pred)
dets = np.concatenate((image_pred[:, :5], class_conf, class_pred), axis=1)
dets = dets[conf_mask]
ordered = dets[dets[:, 5].argsort()[::-1]][:20]
detections = np.zeros((20, 6), np.float32)
for i, object_detected in enumerate(ordered):
detections[i] = self.process_yolo(
object_detected[6], object_detected[5], object_detected[:4]
)
return detections