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OMG / inference /core /models /roboflow.py
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import itertools
import json
import os
from collections import OrderedDict
from concurrent.futures import ThreadPoolExecutor
from functools import partial
from time import perf_counter
from typing import Any, Dict, List, Optional, Tuple, Union
import cv2
import numpy as np
import onnxruntime
from PIL import Image
from inference.core.cache import cache
from inference.core.cache.model_artifacts import (
are_all_files_cached,
clear_cache,
get_cache_dir,
get_cache_file_path,
initialise_cache,
load_json_from_cache,
load_text_file_from_cache,
save_bytes_in_cache,
save_json_in_cache,
save_text_lines_in_cache,
)
from inference.core.devices.utils import GLOBAL_DEVICE_ID
from inference.core.entities.requests.inference import (
InferenceRequest,
InferenceRequestImage,
)
from inference.core.entities.responses.inference import InferenceResponse
from inference.core.env import (
API_KEY,
API_KEY_ENV_NAMES,
AWS_ACCESS_KEY_ID,
AWS_SECRET_ACCESS_KEY,
CORE_MODEL_BUCKET,
DISABLE_PREPROC_AUTO_ORIENT,
INFER_BUCKET,
LAMBDA,
MAX_BATCH_SIZE,
MODEL_CACHE_DIR,
ONNXRUNTIME_EXECUTION_PROVIDERS,
REQUIRED_ONNX_PROVIDERS,
TENSORRT_CACHE_PATH,
)
from inference.core.exceptions import (
MissingApiKeyError,
ModelArtefactError,
OnnxProviderNotAvailable,
)
from inference.core.logger import logger
from inference.core.models.base import Model
from inference.core.models.utils.batching import (
calculate_input_elements,
create_batches,
)
from inference.core.roboflow_api import (
ModelEndpointType,
get_from_url,
get_roboflow_model_data,
)
from inference.core.utils.image_utils import load_image
from inference.core.utils.onnx import get_onnxruntime_execution_providers
from inference.core.utils.preprocess import letterbox_image, prepare
from inference.core.utils.visualisation import draw_detection_predictions
from inference.models.aliases import resolve_roboflow_model_alias
NUM_S3_RETRY = 5
SLEEP_SECONDS_BETWEEN_RETRIES = 3
MODEL_METADATA_CACHE_EXPIRATION_TIMEOUT = 3600 # 1 hour
S3_CLIENT = None
if AWS_ACCESS_KEY_ID and AWS_ACCESS_KEY_ID:
try:
import boto3
from botocore.config import Config
from inference.core.utils.s3 import download_s3_files_to_directory
config = Config(retries={"max_attempts": NUM_S3_RETRY, "mode": "standard"})
S3_CLIENT = boto3.client("s3", config=config)
except:
logger.debug("Error loading boto3")
pass
DEFAULT_COLOR_PALETTE = [
"#4892EA",
"#00EEC3",
"#FE4EF0",
"#F4004E",
"#FA7200",
"#EEEE17",
"#90FF00",
"#78C1D2",
"#8C29FF",
]
class RoboflowInferenceModel(Model):
"""Base Roboflow inference model."""
def __init__(
self,
model_id: str,
cache_dir_root=MODEL_CACHE_DIR,
api_key=None,
load_weights=True,
):
"""
Initialize the RoboflowInferenceModel object.
Args:
model_id (str): The unique identifier for the model.
cache_dir_root (str, optional): The root directory for the cache. Defaults to MODEL_CACHE_DIR.
api_key (str, optional): API key for authentication. Defaults to None.
"""
super().__init__()
self.load_weights = load_weights
self.metrics = {"num_inferences": 0, "avg_inference_time": 0.0}
self.api_key = api_key if api_key else API_KEY
model_id = resolve_roboflow_model_alias(model_id=model_id)
self.dataset_id, self.version_id = model_id.split("/")
self.endpoint = model_id
self.device_id = GLOBAL_DEVICE_ID
self.cache_dir = os.path.join(cache_dir_root, self.endpoint)
self.keypoints_metadata: Optional[dict] = None
initialise_cache(model_id=self.endpoint)
def cache_file(self, f: str) -> str:
"""Get the cache file path for a given file.
Args:
f (str): Filename.
Returns:
str: Full path to the cached file.
"""
return get_cache_file_path(file=f, model_id=self.endpoint)
def clear_cache(self) -> None:
"""Clear the cache directory."""
clear_cache(model_id=self.endpoint)
def draw_predictions(
self,
inference_request: InferenceRequest,
inference_response: InferenceResponse,
) -> bytes:
"""Draw predictions from an inference response onto the original image provided by an inference request
Args:
inference_request (ObjectDetectionInferenceRequest): The inference request containing the image on which to draw predictions
inference_response (ObjectDetectionInferenceResponse): The inference response containing predictions to be drawn
Returns:
str: A base64 encoded image string
"""
return draw_detection_predictions(
inference_request=inference_request,
inference_response=inference_response,
colors=self.colors,
)
@property
def get_class_names(self):
return self.class_names
def get_device_id(self) -> str:
"""
Get the device identifier on which the model is deployed.
Returns:
str: Device identifier.
"""
return self.device_id
def get_infer_bucket_file_list(self) -> List[str]:
"""Get a list of inference bucket files.
Raises:
NotImplementedError: If the method is not implemented.
Returns:
List[str]: A list of inference bucket files.
"""
raise NotImplementedError(
self.__class__.__name__ + ".get_infer_bucket_file_list"
)
@property
def cache_key(self):
return f"metadata:{self.endpoint}"
@staticmethod
def model_metadata_from_memcache_endpoint(endpoint):
model_metadata = cache.get(f"metadata:{endpoint}")
return model_metadata
def model_metadata_from_memcache(self):
model_metadata = cache.get(self.cache_key)
return model_metadata
def write_model_metadata_to_memcache(self, metadata):
cache.set(
self.cache_key, metadata, expire=MODEL_METADATA_CACHE_EXPIRATION_TIMEOUT
)
@property
def has_model_metadata(self):
return self.model_metadata_from_memcache() is not None
def get_model_artifacts(self) -> None:
"""Fetch or load the model artifacts.
Downloads the model artifacts from S3 or the Roboflow API if they are not already cached.
"""
self.cache_model_artefacts()
self.load_model_artifacts_from_cache()
def cache_model_artefacts(self) -> None:
infer_bucket_files = self.get_all_required_infer_bucket_file()
if are_all_files_cached(files=infer_bucket_files, model_id=self.endpoint):
return None
if is_model_artefacts_bucket_available():
self.download_model_artefacts_from_s3()
return None
self.download_model_artifacts_from_roboflow_api()
def get_all_required_infer_bucket_file(self) -> List[str]:
infer_bucket_files = self.get_infer_bucket_file_list()
infer_bucket_files.append(self.weights_file)
logger.debug(f"List of files required to load model: {infer_bucket_files}")
return [f for f in infer_bucket_files if f is not None]
def download_model_artefacts_from_s3(self) -> None:
try:
logger.debug("Downloading model artifacts from S3")
infer_bucket_files = self.get_all_required_infer_bucket_file()
cache_directory = get_cache_dir()
s3_keys = [f"{self.endpoint}/{file}" for file in infer_bucket_files]
download_s3_files_to_directory(
bucket=self.model_artifact_bucket,
keys=s3_keys,
target_dir=cache_directory,
s3_client=S3_CLIENT,
)
except Exception as error:
raise ModelArtefactError(
f"Could not obtain model artefacts from S3 with keys {s3_keys}. Cause: {error}"
) from error
@property
def model_artifact_bucket(self):
return INFER_BUCKET
def download_model_artifacts_from_roboflow_api(self) -> None:
logger.debug("Downloading model artifacts from Roboflow API")
api_data = get_roboflow_model_data(
api_key=self.api_key,
model_id=self.endpoint,
endpoint_type=ModelEndpointType.ORT,
device_id=self.device_id,
)
if "ort" not in api_data.keys():
raise ModelArtefactError(
"Could not find `ort` key in roboflow API model description response."
)
api_data = api_data["ort"]
if "classes" in api_data:
save_text_lines_in_cache(
content=api_data["classes"],
file="class_names.txt",
model_id=self.endpoint,
)
if "model" not in api_data:
raise ModelArtefactError(
"Could not find `model` key in roboflow API model description response."
)
if "environment" not in api_data:
raise ModelArtefactError(
"Could not find `environment` key in roboflow API model description response."
)
environment = get_from_url(api_data["environment"])
model_weights_response = get_from_url(api_data["model"], json_response=False)
save_bytes_in_cache(
content=model_weights_response.content,
file=self.weights_file,
model_id=self.endpoint,
)
if "colors" in api_data:
environment["COLORS"] = api_data["colors"]
save_json_in_cache(
content=environment,
file="environment.json",
model_id=self.endpoint,
)
if "keypoints_metadata" in api_data:
# TODO: make sure backend provides that
save_json_in_cache(
content=api_data["keypoints_metadata"],
file="keypoints_metadata.json",
model_id=self.endpoint,
)
def load_model_artifacts_from_cache(self) -> None:
logger.debug("Model artifacts already downloaded, loading model from cache")
infer_bucket_files = self.get_all_required_infer_bucket_file()
if "environment.json" in infer_bucket_files:
self.environment = load_json_from_cache(
file="environment.json",
model_id=self.endpoint,
object_pairs_hook=OrderedDict,
)
if "class_names.txt" in infer_bucket_files:
self.class_names = load_text_file_from_cache(
file="class_names.txt",
model_id=self.endpoint,
split_lines=True,
strip_white_chars=True,
)
else:
self.class_names = get_class_names_from_environment_file(
environment=self.environment
)
self.colors = get_color_mapping_from_environment(
environment=self.environment,
class_names=self.class_names,
)
if "keypoints_metadata.json" in infer_bucket_files:
self.keypoints_metadata = parse_keypoints_metadata(
load_json_from_cache(
file="keypoints_metadata.json",
model_id=self.endpoint,
object_pairs_hook=OrderedDict,
)
)
self.num_classes = len(self.class_names)
if "PREPROCESSING" not in self.environment:
raise ModelArtefactError(
"Could not find `PREPROCESSING` key in environment file."
)
if issubclass(type(self.environment["PREPROCESSING"]), dict):
self.preproc = self.environment["PREPROCESSING"]
else:
self.preproc = json.loads(self.environment["PREPROCESSING"])
if self.preproc.get("resize"):
self.resize_method = self.preproc["resize"].get("format", "Stretch to")
if self.resize_method not in [
"Stretch to",
"Fit (black edges) in",
"Fit (white edges) in",
]:
self.resize_method = "Stretch to"
else:
self.resize_method = "Stretch to"
logger.debug(f"Resize method is '{self.resize_method}'")
self.multiclass = self.environment.get("MULTICLASS", False)
def initialize_model(self) -> None:
"""Initialize the model.
Raises:
NotImplementedError: If the method is not implemented.
"""
raise NotImplementedError(self.__class__.__name__ + ".initialize_model")
def preproc_image(
self,
image: Union[Any, InferenceRequestImage],
disable_preproc_auto_orient: bool = False,
disable_preproc_contrast: bool = False,
disable_preproc_grayscale: bool = False,
disable_preproc_static_crop: bool = False,
) -> Tuple[np.ndarray, Tuple[int, int]]:
"""
Preprocesses an inference request image by loading it, then applying any pre-processing specified by the Roboflow platform, then scaling it to the inference input dimensions.
Args:
image (Union[Any, InferenceRequestImage]): An object containing information necessary to load the image for inference.
disable_preproc_auto_orient (bool, optional): If true, the auto orient preprocessing step is disabled for this call. Default is False.
disable_preproc_contrast (bool, optional): If true, the contrast preprocessing step is disabled for this call. Default is False.
disable_preproc_grayscale (bool, optional): If true, the grayscale preprocessing step is disabled for this call. Default is False.
disable_preproc_static_crop (bool, optional): If true, the static crop preprocessing step is disabled for this call. Default is False.
Returns:
Tuple[np.ndarray, Tuple[int, int]]: A tuple containing a numpy array of the preprocessed image pixel data and a tuple of the images original size.
"""
np_image, is_bgr = load_image(
image,
disable_preproc_auto_orient=disable_preproc_auto_orient
or "auto-orient" not in self.preproc.keys()
or DISABLE_PREPROC_AUTO_ORIENT,
)
preprocessed_image, img_dims = self.preprocess_image(
np_image,
disable_preproc_contrast=disable_preproc_contrast,
disable_preproc_grayscale=disable_preproc_grayscale,
disable_preproc_static_crop=disable_preproc_static_crop,
)
if self.resize_method == "Stretch to":
resized = cv2.resize(
preprocessed_image, (self.img_size_w, self.img_size_h), cv2.INTER_CUBIC
)
elif self.resize_method == "Fit (black edges) in":
resized = letterbox_image(
preprocessed_image, (self.img_size_w, self.img_size_h)
)
elif self.resize_method == "Fit (white edges) in":
resized = letterbox_image(
preprocessed_image,
(self.img_size_w, self.img_size_h),
color=(255, 255, 255),
)
if is_bgr:
resized = cv2.cvtColor(resized, cv2.COLOR_BGR2RGB)
img_in = np.transpose(resized, (2, 0, 1))
img_in = img_in.astype(np.float32)
img_in = np.expand_dims(img_in, axis=0)
return img_in, img_dims
def preprocess_image(
self,
image: np.ndarray,
disable_preproc_contrast: bool = False,
disable_preproc_grayscale: bool = False,
disable_preproc_static_crop: bool = False,
) -> Tuple[np.ndarray, Tuple[int, int]]:
"""
Preprocesses the given image using specified preprocessing steps.
Args:
image (Image.Image): The PIL image to preprocess.
disable_preproc_contrast (bool, optional): If true, the contrast preprocessing step is disabled for this call. Default is False.
disable_preproc_grayscale (bool, optional): If true, the grayscale preprocessing step is disabled for this call. Default is False.
disable_preproc_static_crop (bool, optional): If true, the static crop preprocessing step is disabled for this call. Default is False.
Returns:
Image.Image: The preprocessed PIL image.
"""
return prepare(
image,
self.preproc,
disable_preproc_contrast=disable_preproc_contrast,
disable_preproc_grayscale=disable_preproc_grayscale,
disable_preproc_static_crop=disable_preproc_static_crop,
)
@property
def weights_file(self) -> str:
"""Abstract property representing the file containing the model weights.
Raises:
NotImplementedError: This property must be implemented in subclasses.
Returns:
str: The file path to the weights file.
"""
raise NotImplementedError(self.__class__.__name__ + ".weights_file")
class RoboflowCoreModel(RoboflowInferenceModel):
"""Base Roboflow inference model (Inherits from CvModel since all Roboflow models are CV models currently)."""
def __init__(
self,
model_id: str,
api_key=None,
):
"""Initializes the RoboflowCoreModel instance.
Args:
model_id (str): The identifier for the specific model.
api_key ([type], optional): The API key for authentication. Defaults to None.
"""
super().__init__(model_id, api_key=api_key)
self.download_weights()
def download_weights(self) -> None:
"""Downloads the model weights from the configured source.
This method includes handling for AWS access keys and error handling.
"""
infer_bucket_files = self.get_infer_bucket_file_list()
if are_all_files_cached(files=infer_bucket_files, model_id=self.endpoint):
logger.debug("Model artifacts already downloaded, loading from cache")
return None
if is_model_artefacts_bucket_available():
self.download_model_artefacts_from_s3()
return None
self.download_model_from_roboflow_api()
def download_model_from_roboflow_api(self) -> None:
api_data = get_roboflow_model_data(
api_key=self.api_key,
model_id=self.endpoint,
endpoint_type=ModelEndpointType.CORE_MODEL,
device_id=self.device_id,
)
if "weights" not in api_data:
raise ModelArtefactError(
f"`weights` key not available in Roboflow API response while downloading model weights."
)
for weights_url_key in api_data["weights"]:
weights_url = api_data["weights"][weights_url_key]
t1 = perf_counter()
model_weights_response = get_from_url(weights_url, json_response=False)
filename = weights_url.split("?")[0].split("/")[-1]
save_bytes_in_cache(
content=model_weights_response.content,
file=filename,
model_id=self.endpoint,
)
if perf_counter() - t1 > 120:
logger.debug(
"Weights download took longer than 120 seconds, refreshing API request"
)
api_data = get_roboflow_model_data(
api_key=self.api_key,
model_id=self.endpoint,
endpoint_type=ModelEndpointType.CORE_MODEL,
device_id=self.device_id,
)
def get_device_id(self) -> str:
"""Returns the device ID associated with this model.
Returns:
str: The device ID.
"""
return self.device_id
def get_infer_bucket_file_list(self) -> List[str]:
"""Abstract method to get the list of files to be downloaded from the inference bucket.
Raises:
NotImplementedError: This method must be implemented in subclasses.
Returns:
List[str]: A list of filenames.
"""
raise NotImplementedError(
"get_infer_bucket_file_list not implemented for OnnxRoboflowCoreModel"
)
def preprocess_image(self, image: Image.Image) -> Image.Image:
"""Abstract method to preprocess an image.
Raises:
NotImplementedError: This method must be implemented in subclasses.
Returns:
Image.Image: The preprocessed PIL image.
"""
raise NotImplementedError(self.__class__.__name__ + ".preprocess_image")
@property
def weights_file(self) -> str:
"""Abstract property representing the file containing the model weights. For core models, all model artifacts are handled through get_infer_bucket_file_list method."""
return None
@property
def model_artifact_bucket(self):
return CORE_MODEL_BUCKET
class OnnxRoboflowInferenceModel(RoboflowInferenceModel):
"""Roboflow Inference Model that operates using an ONNX model file."""
def __init__(
self,
model_id: str,
onnxruntime_execution_providers: List[
str
] = get_onnxruntime_execution_providers(ONNXRUNTIME_EXECUTION_PROVIDERS),
*args,
**kwargs,
):
"""Initializes the OnnxRoboflowInferenceModel instance.
Args:
model_id (str): The identifier for the specific ONNX model.
*args: Variable length argument list.
**kwargs: Arbitrary keyword arguments.
"""
super().__init__(model_id, *args, **kwargs)
if self.load_weights or not self.has_model_metadata:
self.onnxruntime_execution_providers = onnxruntime_execution_providers
for ep in self.onnxruntime_execution_providers:
if ep == "TensorrtExecutionProvider":
ep = (
"TensorrtExecutionProvider",
{
"trt_engine_cache_enable": True,
"trt_engine_cache_path": os.path.join(
TENSORRT_CACHE_PATH, self.endpoint
),
"trt_fp16_enable": True,
},
)
self.initialize_model()
self.image_loader_threadpool = ThreadPoolExecutor(max_workers=None)
try:
self.validate_model()
except ModelArtefactError as e:
logger.error(f"Unable to validate model artifacts, clearing cache: {e}")
self.clear_cache()
raise ModelArtefactError from e
def infer(self, image: Any, **kwargs) -> Any:
input_elements = calculate_input_elements(input_value=image)
max_batch_size = MAX_BATCH_SIZE if self.batching_enabled else self.batch_size
if (input_elements == 1) or (max_batch_size == float("inf")):
return super().infer(image, **kwargs)
logger.debug(
f"Inference will be executed in batches, as there is {input_elements} input elements and "
f"maximum batch size for a model is set to: {max_batch_size}"
)
inference_results = []
for batch_input in create_batches(sequence=image, batch_size=max_batch_size):
batch_inference_results = super().infer(batch_input, **kwargs)
inference_results.append(batch_inference_results)
return self.merge_inference_results(inference_results=inference_results)
def merge_inference_results(self, inference_results: List[Any]) -> Any:
return list(itertools.chain(*inference_results))
def validate_model(self) -> None:
if not self.load_weights:
return
try:
assert self.onnx_session is not None
except AssertionError as e:
raise ModelArtefactError(
"ONNX session not initialized. Check that the model weights are available."
) from e
try:
self.run_test_inference()
except Exception as e:
raise ModelArtefactError(f"Unable to run test inference. Cause: {e}") from e
try:
self.validate_model_classes()
except Exception as e:
raise ModelArtefactError(
f"Unable to validate model classes. Cause: {e}"
) from e
def run_test_inference(self) -> None:
test_image = (np.random.rand(1024, 1024, 3) * 255).astype(np.uint8)
return self.infer(test_image)
def get_model_output_shape(self) -> Tuple[int, int, int]:
test_image = (np.random.rand(1024, 1024, 3) * 255).astype(np.uint8)
test_image, _ = self.preprocess(test_image)
output = self.predict(test_image)[0]
return output.shape
def validate_model_classes(self) -> None:
pass
def get_infer_bucket_file_list(self) -> list:
"""Returns the list of files to be downloaded from the inference bucket for ONNX model.
Returns:
list: A list of filenames specific to ONNX models.
"""
return ["environment.json", "class_names.txt"]
def initialize_model(self) -> None:
"""Initializes the ONNX model, setting up the inference session and other necessary properties."""
self.get_model_artifacts()
logger.debug("Creating inference session")
if self.load_weights or not self.has_model_metadata:
t1_session = perf_counter()
# Create an ONNX Runtime Session with a list of execution providers in priority order. ORT attempts to load providers until one is successful. This keeps the code across devices identical.
providers = self.onnxruntime_execution_providers
if not self.load_weights:
providers = ["CPUExecutionProvider"]
try:
self.onnx_session = onnxruntime.InferenceSession(
self.cache_file(self.weights_file),
providers=providers,
)
except Exception as e:
self.clear_cache()
raise ModelArtefactError(
f"Unable to load ONNX session. Cause: {e}"
) from e
logger.debug(f"Session created in {perf_counter() - t1_session} seconds")
if REQUIRED_ONNX_PROVIDERS:
available_providers = onnxruntime.get_available_providers()
for provider in REQUIRED_ONNX_PROVIDERS:
if provider not in available_providers:
raise OnnxProviderNotAvailable(
f"Required ONNX Execution Provider {provider} is not availble. Check that you are using the correct docker image on a supported device."
)
inputs = self.onnx_session.get_inputs()[0]
input_shape = inputs.shape
self.batch_size = input_shape[0]
self.img_size_h = input_shape[2]
self.img_size_w = input_shape[3]
self.input_name = inputs.name
if isinstance(self.img_size_h, str) or isinstance(self.img_size_w, str):
if "resize" in self.preproc:
self.img_size_h = int(self.preproc["resize"]["height"])
self.img_size_w = int(self.preproc["resize"]["width"])
else:
self.img_size_h = 640
self.img_size_w = 640
if isinstance(self.batch_size, str):
self.batching_enabled = True
logger.debug(
f"Model {self.endpoint} is loaded with dynamic batching enabled"
)
else:
self.batching_enabled = False
logger.debug(
f"Model {self.endpoint} is loaded with dynamic batching disabled"
)
model_metadata = {
"batch_size": self.batch_size,
"img_size_h": self.img_size_h,
"img_size_w": self.img_size_w,
}
logger.debug(f"Writing model metadata to memcache")
self.write_model_metadata_to_memcache(model_metadata)
if not self.load_weights: # had to load weights to get metadata
del self.onnx_session
else:
if not self.has_model_metadata:
raise ValueError(
"This should be unreachable, should get weights if we don't have model metadata"
)
logger.debug(f"Loading model metadata from memcache")
metadata = self.model_metadata_from_memcache()
self.batch_size = metadata["batch_size"]
self.img_size_h = metadata["img_size_h"]
self.img_size_w = metadata["img_size_w"]
if isinstance(self.batch_size, str):
self.batching_enabled = True
logger.debug(
f"Model {self.endpoint} is loaded with dynamic batching enabled"
)
else:
self.batching_enabled = False
logger.debug(
f"Model {self.endpoint} is loaded with dynamic batching disabled"
)
def load_image(
self,
image: Any,
disable_preproc_auto_orient: bool = False,
disable_preproc_contrast: bool = False,
disable_preproc_grayscale: bool = False,
disable_preproc_static_crop: bool = False,
) -> Tuple[np.ndarray, Tuple[int, int]]:
if isinstance(image, list):
preproc_image = partial(
self.preproc_image,
disable_preproc_auto_orient=disable_preproc_auto_orient,
disable_preproc_contrast=disable_preproc_contrast,
disable_preproc_grayscale=disable_preproc_grayscale,
disable_preproc_static_crop=disable_preproc_static_crop,
)
imgs_with_dims = self.image_loader_threadpool.map(preproc_image, image)
imgs, img_dims = zip(*imgs_with_dims)
img_in = np.concatenate(imgs, axis=0)
else:
img_in, img_dims = self.preproc_image(
image,
disable_preproc_auto_orient=disable_preproc_auto_orient,
disable_preproc_contrast=disable_preproc_contrast,
disable_preproc_grayscale=disable_preproc_grayscale,
disable_preproc_static_crop=disable_preproc_static_crop,
)
img_dims = [img_dims]
return img_in, img_dims
@property
def weights_file(self) -> str:
"""Returns the file containing the ONNX model weights.
Returns:
str: The file path to the weights file.
"""
return "weights.onnx"
class OnnxRoboflowCoreModel(RoboflowCoreModel):
"""Roboflow Inference Model that operates using an ONNX model file."""
pass
def get_class_names_from_environment_file(environment: Optional[dict]) -> List[str]:
if environment is None:
raise ModelArtefactError(
f"Missing environment while attempting to get model class names."
)
if class_mapping_not_available_in_environment(environment=environment):
raise ModelArtefactError(
f"Missing `CLASS_MAP` in environment or `CLASS_MAP` is not dict."
)
class_names = []
for i in range(len(environment["CLASS_MAP"].keys())):
class_names.append(environment["CLASS_MAP"][str(i)])
return class_names
def class_mapping_not_available_in_environment(environment: dict) -> bool:
return "CLASS_MAP" not in environment or not issubclass(
type(environment["CLASS_MAP"]), dict
)
def get_color_mapping_from_environment(
environment: Optional[dict], class_names: List[str]
) -> Dict[str, str]:
if color_mapping_available_in_environment(environment=environment):
return environment["COLORS"]
return {
class_name: DEFAULT_COLOR_PALETTE[i % len(DEFAULT_COLOR_PALETTE)]
for i, class_name in enumerate(class_names)
}
def color_mapping_available_in_environment(environment: Optional[dict]) -> bool:
return (
environment is not None
and "COLORS" in environment
and issubclass(type(environment["COLORS"]), dict)
)
def is_model_artefacts_bucket_available() -> bool:
return (
AWS_ACCESS_KEY_ID is not None
and AWS_SECRET_ACCESS_KEY is not None
and LAMBDA
and S3_CLIENT is not None
)
def parse_keypoints_metadata(metadata: list) -> dict:
return {
e["object_class_id"]: {int(key): value for key, value in e["keypoints"].items()}
for e in metadata
}