localization.py

import streamlit as st
from text2image import get_model, get_tokenizer, get_image_transform
from utils import text_encoder
from torchvision import transforms
from PIL import Image
from jax import numpy as jnp
import pandas as pd
import numpy as np
import requests
import psutil
import time
import jax
import gc


preprocess = transforms.Compose([
    transforms.ToTensor(),
    transforms.Normalize((0.48145466, 0.4578275, 0.40821073), (0.26862954, 0.26130258, 0.27577711)),
])


def pad_to_square(image, size=224):
    ratio = float(size) / max(image.size)
    new_size = tuple([int(x * ratio) for x in image.size])
    image = image.resize(new_size, Image.ANTIALIAS)
    new_image = Image.new("RGB", size=(size, size), color=(128, 128, 128))
    new_image.paste(image, ((size - new_size[0]) // 2, (size - new_size[1]) // 2))
    return new_image


def image_encoder(image, model):
    image = np.transpose(image, (0, 2, 3, 1))
    features = model.get_image_features(image)
    features /= jnp.linalg.norm(features, keepdims=True)
    return features


def gen_image_batch(image_url, image_size=224, pixel_size=10):
    n_pixels = image_size // pixel_size + 1

    image_batch = []
    masks = []
    image_raw = requests.get(image_url, stream=True).raw
    image = Image.open(image_raw).convert("RGB")
    image = pad_to_square(image, size=image_size)
    gray = np.ones_like(image) * 128
    mask = np.ones_like(image)

    image_batch.append(image)
    masks.append(mask)

    for i in range(0, n_pixels):
        for j in range(i+1, n_pixels):
            m = mask.copy()
            m[:min(i*pixel_size, image_size) + 1, :] = 0
            m[min(j*pixel_size, image_size) + 1:, :] = 0
            neg_m = 1 - m
            image_batch.append(image * m + gray * neg_m)
            masks.append(m)

    for i in range(0, n_pixels+1):
        for j in range(i+1, n_pixels+1):
            m = mask.copy()
            m[:, :min(i*pixel_size + 1, image_size)] = 0
            m[:, min(j*pixel_size + 1, image_size):] = 0
            neg_m = 1 - m
            image_batch.append(image * m + gray * neg_m)
            masks.append(m)

    return image_batch, masks


def get_heatmap(image_url, text, pixel_size=10, iterations=3):
    tokenizer = get_tokenizer()
    model = get_model()
    image_size = model.config.vision_config.image_size
    text_embedding = text_encoder(text, model, tokenizer)
    images, masks = gen_image_batch(image_url, image_size=image_size, pixel_size=pixel_size)

    input_image = images[0].copy()
    images = np.stack([preprocess(image) for image in images], axis=0)
    image_embeddings = jnp.asarray(image_encoder(images, model))

    sims = []
    scores = []
    mask_val = jnp.zeros_like(masks[0])

    for e, m in zip(image_embeddings, masks):
        sim = jnp.matmul(e, text_embedding.T)
        sims.append(sim)
        if len(sims) > 1:
            scores.append(sim * m)
            mask_val += 1 - m

    score = jnp.mean(jnp.clip(jnp.array(scores) - sims[0], 0, jnp.inf), axis=0)
    for i in range(iterations):
        score = jnp.clip(score - jnp.mean(score), 0, jnp.inf)
    score = (score - jnp.min(score)) / (jnp.max(score) - jnp.min(score))
    return np.asarray(score), input_image


def app():
    st.title("Zero-Shot Localization")
    st.markdown(
        """

        ### 👋 Ciao!

        Here you can find an example for zero shot localization that will show you where in an image the model sees an object.
        
        The location of the object is computed by masking different areas of the image and looking at 
        how the similarity to the image description changes. If you want to have a look at the implementation in details
        you can find it in [this Colab](https://colab.research.google.com/drive/10neENr1DEAFq_GzsLqBDo0gZ50hOhkOr?usp=sharing).

        🤌 Italian mode on! 🤌

        For example, try typing "gatto" (cat) or "cane" (dog) in the space for label and click "locate"!

        """
    )

    image_url = st.text_input(
        "You can input the URL of an image here...",
        value="https://www.tuttosuigatti.it/files/styles/full_width/public/images/featured/205/cani-e-gatti.jpg?itok=WAAiTGS6",
    )

    MAX_ITER = 1

    col1, col2 = st.beta_columns([3, 1])

    with col2:
        pixel_size = st.selectbox(
            "Pixel Size", options=range(10, 21, 5), index=0
        )

        iterations = st.selectbox(
            "Refinement Steps", options=range(3, 30, 3), index=0
        )

        compute = st.button("LOCATE")

    with col1:
        caption = st.text_input(f"Insert label...")

    if compute:

        with st.spinner('Waiting for resources...'):
            sleep_time = 5
            print('CPU_load', psutil.cpu_percent())
            while psutil.cpu_percent() > 60:
                time.sleep(sleep_time)


        if not caption or not image_url:
            st.error("Please choose one image and at least one label")
        else:
            with st.spinner("Computing... This might take up to a few minutes depending on the current load 😕  \n"
                            "[Colab Link](https://colab.research.google.com/drive/10neENr1DEAFq_GzsLqBDo0gZ50hOhkOr?usp=sharing)"):
                heatmap, image = get_heatmap(image_url, caption, pixel_size, iterations)

                with col1:
                    st.image(image, use_column_width=True)
                    st.image(heatmap, use_column_width=True)
                    st.image(np.asarray(image) / 255.0 * heatmap, use_column_width=True)
        gc.collect()

    elif image_url:
        image_raw = requests.get(image_url, stream=True, ).raw
        image = Image.open(image_raw).convert("RGB")
        with col1:
            st.image(image)