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# Import Libraries
from pathlib import Path
import pandas as pd
import numpy as np
import torch
import pickle
from PIL import Image
from io import BytesIO
import requests
import gradio as gr
import os
#from transformers import CLIPProcessor, CLIPModel, CLIPTokenizer
import sentence_transformers
from sentence_transformers import SentenceTransformer, util
# check if CUDA available
device = "cuda" if torch.cuda.is_available() else "cpu"
# Load the openAI's CLIP model
#model = CLIPModel.from_pretrained("openai/clip-vit-base-patch32")
#processor = CLIPProcessor.from_pretrained("openai/clip-vit-base-patch32")
#tokenizer = CLIPTokenizer.from_pretrained("openai/clip-vit-base-patch32")
# taking photo IDs
#photo_ids = pd.read_csv("./photo_ids.csv")
#photo_ids = list(photo_ids['photo_id'])
# Photo dataset
#photos = pd.read_csv("./photos.tsv000", sep="\t", header=0)
# taking features vectors
#photo_features = np.load("./features.npy")
IMAGES_DIR = Path("./photos/")
#def show_output_image(matched_images) :
#image=[]
#for photo_id in matched_images:
# photo_image_url = f"https://unsplash.com/photos/{photo_id}/download?w=280"
#response = requests.get(photo_image_url, stream=True)
#img = Image.open(BytesIO(response.content))
# response = requests.get(photo_image_url, stream=True).raw
# img = Image.open(response)
#photo = photo_id + '.jpg'
#img = Image.open(response).convert("RGB")
#img = Image.open(os.path.join(IMAGES_DIR, photo))
#image.append(img)
#return image
# Encode and normalize the search query using CLIP
#def encode_search_query(search_query, model, device):
# with torch.no_grad():
# inputs = tokenizer([search_query], padding=True, return_tensors="pt")
#inputs = processor(text=[search_query], images=None, return_tensors="pt", padding=True)
# text_features = model.get_text_features(**inputs).cpu().numpy()
# return text_features
# Find all matched photos
#def find_matches(features, photo_ids, results_count=4):
# Compute the similarity between the search query and each photo using the Cosine similarity
#text_features = np.array(text_features)
#similarities = (photo_features @ features.T).squeeze(1)
# Sort the photos by their similarity score
#best_photo_idx = (-similarities).argsort()
# Return the photo IDs of the best matches
#matches = [photo_ids[i] for i in best_photo_idx[:results_count]]
#return matches
#Load CLIP model
model = SentenceTransformer('clip-ViT-B-32')
# pre-computed embeddings
emb_filename = 'unsplash-25k-photos-embeddings.pkl'
with open(emb_filename, 'rb') as fIn:
img_names, img_emb = pickle.load(fIn)
def display_matches(indices):
best_matched_images = [Image.open(os.path.join("photos/", img_names[best_img['corpus_id']])) for best_img in indices]
return best_matched_images
def image_search(search_text, search_image, option):
# Input Text Query
#search_query = "The feeling when your program finally works"
if option == "Text-To-Image" :
# Extracting text features embeddings
#text_features = encode_search_query(search_text, model, device)
text_emb = model.encode([search_text], convert_to_tensor=True)
similarity = util.cos_sim(img_emb, text_emb)
return [Image.open(img_folder / img_names[top_k_best_image]) for top_k_best_image in torch.topk(similarity, 2, 0).indices]
# Find the matched Images
#matched_images = find_matches(text_features, photo_features, photo_ids, 4)
#matched_results = util.semantic_search(text_emb, img_emb, top_k=4)[0]
# top 4 highest ranked images
#return display_matches(matched_results)
elif option == "Image-To-Image":
# Input Image for Search
#search_image = Image.fromarray(search_image.astype('uint8'), 'RGB')
#with torch.no_grad():
# processed_image = processor(text=None, images=search_image, return_tensors="pt", padding=True)["pixel_values"]
# image_feature = model.get_image_features(processed_image.to(device))
# image_feature /= image_feature.norm(dim=-1, keepdim=True)
#image_feature = image_feature.cpu().numpy()
# Find the matched Images
#matched_images = find_matches(image_feature, photo_ids, 4)
#image_emb = model.encode(Image.open(search_image), convert_to_tensor=True)
#image_emb = model.encode(Image.open(search_image))
# Find the matched Images
#matched_images = find_matches(text_features, photo_features, photo_ids, 4)
#similarity = util.cos_sim(image_emb, img_emb)
#matched_results = util.semantic_search(image_emb, img_emb, 4)[0]
emb = model.encode([Image.fromarray(image)], convert_to_tensor=True)
similarity = util.cos_sim(img_emb, emb)
return [Image.open(IMAGES_DIR / img_names[top_k_best_image]) for top_k_best_image in torch.topk(similarity, 2, 0).indices]
gr.Interface(fn=image_search,
inputs=[gr.inputs.Textbox(lines=7, label="Input Text"),
gr.inputs.Image(type="pil", optional=True),
gr.inputs.Dropdown(["Text-To-Image", "Image-To-Image"])
],
outputs=gr.outputs.Carousel([gr.outputs.Image(type="pil"), gr.outputs.Image(type="pil"), gr.outputs.Image(type="pil"), gr.outputs.Image(type="pil")]),
enable_queue=True
).launch(debug=True,share=True) |