def main():
os.makedirs(DOWNSTREAM_DIR, exist_ok=True)
os.makedirs(MODEL_DIR, exist_ok=True)
params = get_params()
x_train = np.load(X_TRAIN_NPY)
y_train = np.load(Y_TRAIN_NPY)
if params['ml_model'] == 'svc':
pipeline = define_svc_pipeline()
elif params['ml_model'] == 'tree':
pipeline = define_tree_pipeline()
else:
pass
train_model(pipeline, x_train, y_train)
modelname = params['save_model_name']
if params['save_format'] == 'sklearn':
model_filename = f'{modelname}.pkl'
sklearn_interface_filename = f'{modelname}_sklearn.yaml'
save_helper.dump_sklearn(
pipeline, os.path.join(
MODEL_DIR, model_filename))
save_helper.save_interface(modelname,
os.path.join(MODEL_DIR, sklearn_interface_filename),
[1, 4],
str(x_train.dtype).split('.')[-1],
[1, 3],
'float32',
DATA_TYPE.ARRAY,
[{model_filename: MODEL_RUNTIME.SKLEARN}],
PREDICTION_TYPE.CLASSIFICATION,
'src.app.ml.iris.iris_predictor_sklearn',
label_filepath=os.path.join(MODEL_DIR, LABEL_FILENAME))
elif params['save_format'] == 'onnx':
onnx_filename = f'{modelname}.onnx'
onnx_interface_filename = f'{modelname}_onnx_runtime.yaml'
save_helper.save_onnx(pipeline, os.path.join(MODEL_DIR, onnx_filename))
save_helper.save_interface(modelname,
os.path.join(MODEL_DIR, onnx_interface_filename),
[1, 4],
str(x_train.dtype).split('.')[-1],
[1, 3],
'float32',
DATA_TYPE.ARRAY,
[{onnx_filename: MODEL_RUNTIME.ONNX_RUNTIME}],
PREDICTION_TYPE.CLASSIFICATION,
'src.app.ml.iris.iris_predictor_onnx',
label_filepath=os.path.join(MODEL_DIR, LABEL_FILENAME))
else:
pass
shutil.copy2(LABEL_FILEPATH, os.path.join(MODEL_DIR, LABEL_FILENAME))
def main():
os.makedirs(MODEL_DIR, exist_ok=True)
labels = save_helper.load_labels(LABEL_FILEPATH)
_full_data = save_helper.load_data(DATA_FILEPATH)
_data = [d[:4] for d in _full_data]
_target = [d[4] for d in _full_data]
data = split_dataset(_data, _target)
svc_pipeline = define_svc_pipeline()
svc_modelname = "iris_svc"
svc_model_filename = f"{svc_modelname}.pkl"
svc_sklearn_interface_filename = f"{svc_modelname}_sklearn.yaml"
train_model(svc_pipeline, data["x_train"], data["y_train"])
evaluate_model(svc_pipeline, data["x_test"], data["y_test"])
save_helper.dump_sklearn(svc_pipeline,
os.path.join(MODEL_DIR, svc_model_filename))
save_helper.save_interface(
svc_modelname,
os.path.join(MODEL_DIR, svc_sklearn_interface_filename),
[1, 4],
str(data["x_train"].dtype).split(".")[-1],
[1, 3],
"float32",
DATA_TYPE.ARRAY,
[{
svc_model_filename: MODEL_RUNTIME.SKLEARN
}],
PREDICTION_TYPE.CLASSIFICATION,
"src.app.ml.iris.iris_predictor_sklearn",
label_filepath=LABEL_FILEPATH,
)
svc_onnx_filename = f"{svc_modelname}.onnx"
svc_onnx_interface_filename = f"{svc_modelname}_onnx_runtime.yaml"
save_helper.save_onnx(svc_pipeline,
os.path.join(MODEL_DIR, svc_onnx_filename))
save_helper.save_interface(
svc_modelname,
os.path.join(MODEL_DIR, svc_onnx_interface_filename),
[1, 4],
str(data["x_train"].dtype).split(".")[-1],
[1, 3],
"float32",
DATA_TYPE.ARRAY,
[{
svc_onnx_filename: MODEL_RUNTIME.ONNX_RUNTIME
}],
PREDICTION_TYPE.CLASSIFICATION,
"src.app.ml.iris.iris_predictor_onnx",
label_filepath=LABEL_FILEPATH,
)
tree_pipeline = define_tree_pipeline()
tree_modelname = "iris_tree"
tree_model_filename = f"{tree_modelname}.pkl"
tree_sklearn_interface_filename = f"{tree_modelname}_sklearn.yaml"
train_model(tree_pipeline, data["x_train"], data["y_train"])
evaluate_model(tree_pipeline, data["x_test"], data["y_test"])
save_helper.dump_sklearn(tree_pipeline,
os.path.join(MODEL_DIR, tree_model_filename))
save_helper.save_interface(
tree_modelname,
os.path.join(MODEL_DIR, tree_sklearn_interface_filename),
[1, 4],
str(data["x_train"].dtype).split(".")[-1],
[1, 3],
"float32",
DATA_TYPE.ARRAY,
[{
tree_model_filename: MODEL_RUNTIME.SKLEARN
}],
PREDICTION_TYPE.CLASSIFICATION,
"src.app.ml.iris.iris_predictor_sklearn",
label_filepath=LABEL_FILEPATH,
)
tree_onnx_filename = f"{tree_modelname}.onnx"
tree_onnx_interface_filename = f"{tree_modelname}_onnx_runtime.yaml"
save_helper.save_onnx(tree_pipeline,
os.path.join(MODEL_DIR, tree_onnx_filename))
save_helper.save_interface(
tree_modelname,
os.path.join(MODEL_DIR, tree_onnx_interface_filename),
[1, 4],
str(data["x_train"].dtype).split(".")[-1],
[1, 3],
"float32",
DATA_TYPE.ARRAY,
[{
tree_onnx_filename: MODEL_RUNTIME.ONNX_RUNTIME
}],
PREDICTION_TYPE.CLASSIFICATION,
"src.app.ml.iris.iris_predictor_onnx",
label_filepath=LABEL_FILEPATH,
)
def main():
os.makedirs(DOWNSTREAM_DIR, exist_ok=True)
params = get_params()
x_train = np.load(X_TRAIN_NPY)
y_train = np.load(Y_TRAIN_NPY)
if params["ml_model"] == "svc":
pipeline = define_svc_pipeline()
elif params["ml_model"] == "tree":
pipeline = define_tree_pipeline()
else:
pass
train_model(pipeline, x_train, y_train)
modelname = params["save_model_name"]
if params["save_format"] == "sklearn":
sklearn_filename = f"{modelname}.pkl"
sklearn_filepath = os.path.join(DOWNSTREAM_DIR, sklearn_filename)
sklearn_modelpath = os.path.join(MODEL_DIR, sklearn_filename)
save_helper.dump_sklearn(pipeline, sklearn_filepath)
save_helper.dump_sklearn(pipeline, sklearn_modelpath)
sklearn_interface_filename = f"{modelname}_sklearn.yaml"
save_helper.save_interface(
modelname,
os.path.join(MODEL_DIR, sklearn_interface_filename),
[1, 4],
str(x_train.dtype).split(".")[-1],
[1, 3],
"float32",
DATA_TYPE.ARRAY,
[{
sklearn_filepath: MODEL_RUNTIME.SKLEARN
}],
PREDICTION_TYPE.CLASSIFICATION,
"src.app.ml.iris.iris_predictor_sklearn",
label_filepath=os.path.join(DOWNSTREAM_DIR, LABEL_FILENAME),
)
elif params["save_format"] == "onnx":
onnx_filename = f"{modelname}.onnx"
onnx_filepath = os.path.join(DOWNSTREAM_DIR, onnx_filename)
onnx_modelpath = os.path.join(MODEL_DIR, onnx_filename)
save_helper.save_onnx(pipeline, onnx_filepath)
save_helper.save_onnx(pipeline, onnx_modelpath)
onnx_interface_filename = f"{modelname}_onnx_runtime.yaml"
save_helper.save_interface(
modelname,
os.path.join(MODEL_DIR, onnx_interface_filename),
[1, 4],
str(x_train.dtype).split(".")[-1],
[1, 3],
"float32",
DATA_TYPE.ARRAY,
[{
onnx_filepath: MODEL_RUNTIME.ONNX_RUNTIME
}],
PREDICTION_TYPE.CLASSIFICATION,
"src.app.ml.iris.iris_predictor_onnx",
label_filepath=os.path.join(DOWNSTREAM_DIR, LABEL_FILENAME),
)
else:
pass
shutil.copy2(LABEL_FILEPATH, os.path.join(DOWNSTREAM_DIR, LABEL_FILENAME))