import os import clip import torch import logging import json import pickle from PIL import Image import gradio as gr from scipy.special import softmax logger = logging.getLogger("basebody") CLIP_MODEL_NAME = "ViT-B/16" TEXT_PROMPTS_FILE_NAME = "text_prompts.json" LOGISTIC_REGRESSION_MODEL_FILE_NAME = "logistic_regression_l1_oct_2.pkl" clip_model, preprocess = clip.load(CLIP_MODEL_NAME, device="cpu") with open( os.path.join(os.path.dirname(__file__), TEXT_PROMPTS_FILE_NAME), "r" ) as f: text_prompts = json.load(f) with open( os.path.join( os.path.dirname(__file__), LOGISTIC_REGRESSION_MODEL_FILE_NAME ), "rb", ) as f: lr_model = pickle.load(f) logger.info("Logistic regression model loaded, coefficients: ") all_text_features = [] with torch.no_grad(): for k, prompts in text_prompts.items(): assert len(prompts) == 2 inputs = clip.tokenize(prompts) outputs = clip_model.encode_text(inputs) all_text_features.append(outputs) all_text_features = torch.cat(all_text_features, dim=0) all_text_features = all_text_features.cpu().numpy() def predict_fn(input_img): input_img = Image.fromarray(input_img.astype("uint8"), "RGB") image = preprocess( input_img ).unsqueeze(0) with torch.no_grad(): image_features = clip_model.encode_image(image) cosine_simlarities = softmax( (all_text_features @ image_features.cpu().T) .squeeze() .reshape(len(text_prompts), 2, -1), axis=1, )[:, 0, :] # logger.info(f"cosine_simlarities shape: {cosine_simlarities.shape}") logger.info(f"cosine_simlarities: {cosine_simlarities}") probabilities = lr_model.predict_proba( cosine_simlarities.reshape(1, -1) ) logger.info(f"probabilities: {probabilities}") decision_json = json.dumps( {"is_base_body": float(probabilities[0][1])} ).encode("utf-8") logger.info(f"decision_json: {decision_json}") return decision_json iface = gr.Interface( fn=predict_fn, inputs="image", outputs="text", allow_flagging="manual" ) iface.launch()