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import json | |
import numpy as np | |
import torch | |
from tqdm import tqdm | |
def load_data(file_name: str = "./lib/name_params.json") -> dict: | |
with open(file_name, "r") as f: | |
data = json.load(f) | |
return data | |
def make_padding(width, cropsize, offset): | |
left = offset | |
roi_size = cropsize - left * 2 | |
if roi_size == 0: | |
roi_size = cropsize | |
right = roi_size - (width % roi_size) + left | |
return left, right, roi_size | |
def inference(X_spec, device, model, aggressiveness, data): | |
""" | |
data : dic configs | |
""" | |
def _execute( | |
X_mag_pad, roi_size, n_window, device, model, aggressiveness, is_half=True | |
): | |
model.eval() | |
with torch.no_grad(): | |
preds = [] | |
iterations = [n_window] | |
total_iterations = sum(iterations) | |
for i in tqdm(range(n_window)): | |
start = i * roi_size | |
X_mag_window = X_mag_pad[ | |
None, :, :, start : start + data["window_size"] | |
] | |
X_mag_window = torch.from_numpy(X_mag_window) | |
if is_half: | |
X_mag_window = X_mag_window.half() | |
X_mag_window = X_mag_window.to(device) | |
pred = model.predict(X_mag_window, aggressiveness) | |
pred = pred.detach().cpu().numpy() | |
preds.append(pred[0]) | |
pred = np.concatenate(preds, axis=2) | |
return pred | |
def preprocess(X_spec): | |
X_mag = np.abs(X_spec) | |
X_phase = np.angle(X_spec) | |
return X_mag, X_phase | |
X_mag, X_phase = preprocess(X_spec) | |
coef = X_mag.max() | |
X_mag_pre = X_mag / coef | |
n_frame = X_mag_pre.shape[2] | |
pad_l, pad_r, roi_size = make_padding(n_frame, data["window_size"], model.offset) | |
n_window = int(np.ceil(n_frame / roi_size)) | |
X_mag_pad = np.pad(X_mag_pre, ((0, 0), (0, 0), (pad_l, pad_r)), mode="constant") | |
if list(model.state_dict().values())[0].dtype == torch.float16: | |
is_half = True | |
else: | |
is_half = False | |
pred = _execute( | |
X_mag_pad, roi_size, n_window, device, model, aggressiveness, is_half | |
) | |
pred = pred[:, :, :n_frame] | |
if data["tta"]: | |
pad_l += roi_size // 2 | |
pad_r += roi_size // 2 | |
n_window += 1 | |
X_mag_pad = np.pad(X_mag_pre, ((0, 0), (0, 0), (pad_l, pad_r)), mode="constant") | |
pred_tta = _execute( | |
X_mag_pad, roi_size, n_window, device, model, aggressiveness, is_half | |
) | |
pred_tta = pred_tta[:, :, roi_size // 2 :] | |
pred_tta = pred_tta[:, :, :n_frame] | |
return (pred + pred_tta) * 0.5 * coef, X_mag, np.exp(1.0j * X_phase) | |
else: | |
return pred * coef, X_mag, np.exp(1.0j * X_phase) | |
def _get_name_params(model_path, model_hash): | |
data = load_data() | |
flag = False | |
ModelName = model_path | |
for type in list(data): | |
for model in list(data[type][0]): | |
for i in range(len(data[type][0][model])): | |
if str(data[type][0][model][i]["hash_name"]) == model_hash: | |
flag = True | |
elif str(data[type][0][model][i]["hash_name"]) in ModelName: | |
flag = True | |
if flag: | |
model_params_auto = data[type][0][model][i]["model_params"] | |
param_name_auto = data[type][0][model][i]["param_name"] | |
if type == "equivalent": | |
return param_name_auto, model_params_auto | |
else: | |
flag = False | |
return param_name_auto, model_params_auto | |