mirror of
https://github.com/blakeblackshear/frigate.git
synced 2024-11-26 19:06:11 +01:00
295 lines
12 KiB
Python
295 lines
12 KiB
Python
import logging
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import os
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import urllib.request
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import numpy as np
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try:
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from hailo_platform import (
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HEF,
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ConfigureParams,
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FormatType,
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HailoRTException,
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HailoStreamInterface,
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InferVStreams,
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InputVStreamParams,
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OutputVStreamParams,
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VDevice,
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)
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except ModuleNotFoundError:
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pass
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from pydantic import BaseModel, Field
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from typing_extensions import Literal
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from frigate.detectors.detection_api import DetectionApi
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from frigate.detectors.detector_config import BaseDetectorConfig
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from frigate.detectors.util import preprocess # Assuming this function is available
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# Set up logging
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logger = logging.getLogger(__name__)
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# Define the detector key for Hailo
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DETECTOR_KEY = "hailo8l"
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# Configuration class for model settings
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class ModelConfig(BaseModel):
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path: str = Field(default=None, title="Model Path") # Path to the HEF file
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# Configuration class for Hailo detector
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class HailoDetectorConfig(BaseDetectorConfig):
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type: Literal[DETECTOR_KEY] # Type of the detector
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device: str = Field(default="PCIe", title="Device Type") # Device type (e.g., PCIe)
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# Hailo detector class implementation
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class HailoDetector(DetectionApi):
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type_key = DETECTOR_KEY # Set the type key to the Hailo detector key
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def __init__(self, detector_config: HailoDetectorConfig):
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# Initialize device type and model path from the configuration
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self.h8l_device_type = detector_config.device
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self.h8l_model_path = detector_config.model.path
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self.h8l_model_height = detector_config.model.height
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self.h8l_model_width = detector_config.model.width
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self.h8l_model_type = detector_config.model.model_type
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self.h8l_tensor_format = detector_config.model.input_tensor
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self.h8l_pixel_format = detector_config.model.input_pixel_format
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self.model_url = "https://hailo-model-zoo.s3.eu-west-2.amazonaws.com/ModelZoo/Compiled/v2.11.0/hailo8l/ssd_mobilenet_v1.hef"
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self.cache_dir = "/config/model_cache/h8l_cache"
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self.expected_model_filename = "ssd_mobilenet_v1.hef"
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output_type = "FLOAT32"
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logger.info(f"Initializing Hailo device as {self.h8l_device_type}")
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self.check_and_prepare_model()
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try:
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# Validate device type
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if self.h8l_device_type not in ["PCIe", "M.2"]:
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raise ValueError(f"Unsupported device type: {self.h8l_device_type}")
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# Initialize the Hailo device
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self.target = VDevice()
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# Load the HEF (Hailo's binary format for neural networks)
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self.hef = HEF(self.h8l_model_path)
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# Create configuration parameters from the HEF
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self.configure_params = ConfigureParams.create_from_hef(
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hef=self.hef, interface=HailoStreamInterface.PCIe
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)
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# Configure the device with the HEF
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self.network_groups = self.target.configure(self.hef, self.configure_params)
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self.network_group = self.network_groups[0]
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self.network_group_params = self.network_group.create_params()
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# Create input and output virtual stream parameters
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self.input_vstreams_params = InputVStreamParams.make(
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self.network_group,
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format_type=self.hef.get_input_vstream_infos()[0].format.type,
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)
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self.output_vstreams_params = OutputVStreamParams.make(
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self.network_group, format_type=getattr(FormatType, output_type)
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)
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# Get input and output stream information from the HEF
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self.input_vstream_info = self.hef.get_input_vstream_infos()
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self.output_vstream_info = self.hef.get_output_vstream_infos()
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logger.info("Hailo device initialized successfully")
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logger.debug(f"[__init__] Model Path: {self.h8l_model_path}")
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logger.debug(f"[__init__] Input Tensor Format: {self.h8l_tensor_format}")
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logger.debug(f"[__init__] Input Pixel Format: {self.h8l_pixel_format}")
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logger.debug(f"[__init__] Input VStream Info: {self.input_vstream_info[0]}")
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logger.debug(
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f"[__init__] Output VStream Info: {self.output_vstream_info[0]}"
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)
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except HailoRTException as e:
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logger.error(f"HailoRTException during initialization: {e}")
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raise
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except Exception as e:
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logger.error(f"Failed to initialize Hailo device: {e}")
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raise
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def check_and_prepare_model(self):
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# Ensure cache directory exists
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if not os.path.exists(self.cache_dir):
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os.makedirs(self.cache_dir)
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# Check for the expected model file
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model_file_path = os.path.join(self.cache_dir, self.expected_model_filename)
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if not os.path.isfile(model_file_path):
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logger.info(
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f"A model file was not found at {model_file_path}, Downloading one from {self.model_url}."
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)
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urllib.request.urlretrieve(self.model_url, model_file_path)
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logger.info(f"A model file was downloaded to {model_file_path}.")
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else:
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logger.info(
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f"A model file already exists at {model_file_path} not downloading one."
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)
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def detect_raw(self, tensor_input):
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logger.debug("[detect_raw] Entering function")
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logger.debug(
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f"[detect_raw] The `tensor_input` = {tensor_input} tensor_input shape = {tensor_input.shape}"
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)
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if tensor_input is None:
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raise ValueError(
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"[detect_raw] The 'tensor_input' argument must be provided"
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)
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# Ensure tensor_input is a numpy array
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if isinstance(tensor_input, list):
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tensor_input = np.array(tensor_input)
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logger.debug(
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f"[detect_raw] Converted tensor_input to numpy array: shape {tensor_input.shape}"
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)
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# Preprocess the tensor input using Frigate's preprocess function
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processed_tensor = preprocess(
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tensor_input, (1, self.h8l_model_height, self.h8l_model_width, 3), np.uint8
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)
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logger.debug(
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f"[detect_raw] Tensor data and shape after preprocessing: {processed_tensor} {processed_tensor.shape}"
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)
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input_data = processed_tensor
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logger.debug(
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f"[detect_raw] Input data for inference shape: {processed_tensor.shape}, dtype: {processed_tensor.dtype}"
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)
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try:
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with InferVStreams(
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self.network_group,
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self.input_vstreams_params,
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self.output_vstreams_params,
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) as infer_pipeline:
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input_dict = {}
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if isinstance(input_data, dict):
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input_dict = input_data
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logger.debug("[detect_raw] it a dictionary.")
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elif isinstance(input_data, (list, tuple)):
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for idx, layer_info in enumerate(self.input_vstream_info):
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input_dict[layer_info.name] = input_data[idx]
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logger.debug("[detect_raw] converted from list/tuple.")
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else:
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if len(input_data.shape) == 3:
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input_data = np.expand_dims(input_data, axis=0)
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logger.debug("[detect_raw] converted from an array.")
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input_dict[self.input_vstream_info[0].name] = input_data
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logger.debug(
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f"[detect_raw] Input dictionary for inference keys: {input_dict.keys()}"
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)
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with self.network_group.activate(self.network_group_params):
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raw_output = infer_pipeline.infer(input_dict)
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logger.debug(f"[detect_raw] Raw inference output: {raw_output}")
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if self.output_vstream_info[0].name not in raw_output:
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logger.error(
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f"[detect_raw] Missing output stream {self.output_vstream_info[0].name} in inference results"
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)
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return np.zeros((20, 6), np.float32)
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raw_output = raw_output[self.output_vstream_info[0].name][0]
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logger.debug(
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f"[detect_raw] Raw output for stream {self.output_vstream_info[0].name}: {raw_output}"
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)
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# Process the raw output
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detections = self.process_detections(raw_output)
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if len(detections) == 0:
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logger.debug(
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"[detect_raw] No detections found after processing. Setting default values."
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)
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return np.zeros((20, 6), np.float32)
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else:
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formatted_detections = detections
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if (
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formatted_detections.shape[1] != 6
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): # Ensure the formatted detections have 6 columns
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logger.error(
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f"[detect_raw] Unexpected shape for formatted detections: {formatted_detections.shape}. Expected (20, 6)."
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)
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return np.zeros((20, 6), np.float32)
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return formatted_detections
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except HailoRTException as e:
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logger.error(f"[detect_raw] HailoRTException during inference: {e}")
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return np.zeros((20, 6), np.float32)
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except Exception as e:
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logger.error(f"[detect_raw] Exception during inference: {e}")
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return np.zeros((20, 6), np.float32)
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finally:
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logger.debug("[detect_raw] Exiting function")
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def process_detections(self, raw_detections, threshold=0.5):
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boxes, scores, classes = [], [], []
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num_detections = 0
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logger.debug(f"[process_detections] Raw detections: {raw_detections}")
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for i, detection_set in enumerate(raw_detections):
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if not isinstance(detection_set, np.ndarray) or detection_set.size == 0:
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logger.debug(
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f"[process_detections] Detection set {i} is empty or not an array, skipping."
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)
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continue
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logger.debug(
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f"[process_detections] Detection set {i} shape: {detection_set.shape}"
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)
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for detection in detection_set:
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if detection.shape[0] == 0:
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logger.debug(
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f"[process_detections] Detection in set {i} is empty, skipping."
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)
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continue
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ymin, xmin, ymax, xmax = detection[:4]
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score = np.clip(detection[4], 0, 1) # Use np.clip for clarity
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if score < threshold:
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logger.debug(
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f"[process_detections] Detection in set {i} has a score {score} below threshold {threshold}. Skipping."
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)
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continue
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logger.debug(
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f"[process_detections] Adding detection with coordinates: ({xmin}, {ymin}), ({xmax}, {ymax}) and score: {score}"
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)
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boxes.append([ymin, xmin, ymax, xmax])
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scores.append(score)
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classes.append(i)
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num_detections += 1
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logger.debug(
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f"[process_detections] Boxes: {boxes}, Scores: {scores}, Classes: {classes}, Num detections: {num_detections}"
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)
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if num_detections == 0:
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logger.debug("[process_detections] No valid detections found.")
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return np.zeros((20, 6), np.float32)
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combined = np.hstack(
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(
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np.array(classes)[:, np.newaxis],
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np.array(scores)[:, np.newaxis],
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np.array(boxes),
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)
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)
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if combined.shape[0] < 20:
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padding = np.zeros(
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(20 - combined.shape[0], combined.shape[1]), dtype=combined.dtype
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)
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combined = np.vstack((combined, padding))
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logger.debug(
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f"[process_detections] Combined detections (padded to 20 if necessary): {np.array_str(combined, precision=4, suppress_small=True)}"
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)
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return combined[:20, :6]
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