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ObjectRelator

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ObjectRelator
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## Generate text descriptions of target objects in the image using LLaVA

import argparse
import torch
from tqdm import tqdm
import random

from llava.constants import (
    IMAGE_TOKEN_INDEX,
    DEFAULT_IMAGE_TOKEN,
    DEFAULT_IM_START_TOKEN,
    DEFAULT_IM_END_TOKEN,
    IMAGE_PLACEHOLDER,
)
from llava.conversation import conv_templates, SeparatorStyle
from llava.model.builder import load_pretrained_model
from llava.utils import disable_torch_init
from llava.mm_utils import (
    process_images,
    tokenizer_image_token,
    get_model_name_from_path,
)

from PIL import Image

import requests
from PIL import Image
from io import BytesIO
import re
import os
import json
import cv2
from pycocotools.mask import encode, decode, frPyObjects
import numpy as np

def blend_mask(input_img, binary_mask, alpha=0.7):
    if input_img.ndim == 2:
        return input_img
    mask_image = np.zeros(input_img.shape, np.uint8)
    mask_image[:, :, 1] = 255
    mask_image = mask_image * np.repeat(binary_mask[:, :, np.newaxis], 3, axis=2)
    blend_image = input_img[:, :, :].copy()
    pos_idx = binary_mask > 0
    for ind in range(input_img.ndim):
        ch_img1 = input_img[:, :, ind]
        ch_img2 = mask_image[:, :, ind]
        ch_img3 = blend_image[:, :, ind]
        ch_img3[pos_idx] = alpha * ch_img1[pos_idx] + (1 - alpha) * ch_img2[pos_idx]
        blend_image[:, :, ind] = ch_img3
    return blend_image

def image_parser(args):
    print(args.image_file)
    out = args.image_file.split(args.sep)
    print(args.sep)
    print(out)
    return out


def load_image(image_file):
    if image_file.startswith("http") or image_file.startswith("https"):
        response = requests.get(image_file)
        image = Image.open(BytesIO(response.content)).convert("RGB")
    else:
        image = Image.open(image_file).convert("RGB")
    return image


def load_images(image_files):
    out = []
    for image_file in image_files:
        image = load_image(image_file)
        out.append(image)
    return out


prompt = "Identify the single object covered by the green mask without describing it. Note that it is not a hand. Format your answer as follows: The object covered by the green mask is"
model_path = "liuhaotian/llava-v1.5-7b"


def eval_model(args):
    # Model
    disable_torch_init()

    model_name = get_model_name_from_path(args.model_path)
    tokenizer, model, image_processor, context_len = load_pretrained_model(
        args.model_path, args.model_base, model_name
    )

    qs = args.query
    image_token_se = DEFAULT_IM_START_TOKEN + DEFAULT_IMAGE_TOKEN + DEFAULT_IM_END_TOKEN
    if IMAGE_PLACEHOLDER in qs:
        if model.config.mm_use_im_start_end:
            qs = re.sub(IMAGE_PLACEHOLDER, image_token_se, qs)
        else:
            qs = re.sub(IMAGE_PLACEHOLDER, DEFAULT_IMAGE_TOKEN, qs)
    else:
        if model.config.mm_use_im_start_end:
            qs = image_token_se + "\n" + qs
        else:
            qs = DEFAULT_IMAGE_TOKEN + "\n" + qs

    if "llama-2" in model_name.lower():
        conv_mode = "llava_llama_2"
    elif "mistral" in model_name.lower():
        conv_mode = "mistral_instruct"
    elif "v1.6-34b" in model_name.lower():
        conv_mode = "chatml_direct"
    elif "v1" in model_name.lower():
        conv_mode = "llava_v1"
    elif "mpt" in model_name.lower():
        conv_mode = "mpt"
    else:
        conv_mode = "llava_v0"

    if args.conv_mode is not None and conv_mode != args.conv_mode:
        print(
            "[WARNING] the auto inferred conversation mode is {}, while `--conv-mode` is {}, using {}".format(
                conv_mode, args.conv_mode, args.conv_mode
            )
        )
    else:
        args.conv_mode = conv_mode

    conv = conv_templates[args.conv_mode].copy()
    conv.append_message(conv.roles[0], qs)
    conv.append_message(conv.roles[1], None)
    prompt = conv.get_prompt()

   # store results
    new_data_list = []
    with open(args.json_path, "r") as f:
        datas = json.load(f)
    total_items = len(datas)
    for i, data in tqdm(enumerate(datas), total=total_items, desc="Processing"):
        # Load image
        query_path = data["first_frame_image"]
        query_path = os.path.join(args.image_path, query_path)
        frame = cv2.imread(query_path)
       
        for obj in data["first_frame_anns"]:
            images = []
            mask = decode(obj["segmentation"])
            mask = cv2.resize(mask, (frame.shape[1], frame.shape[0]), interpolation=cv2.INTER_NEAREST)
            # adding mask to the image
            out = blend_mask(frame, mask)
            image = Image.fromarray(out).convert("RGB") 
            images.append(image)
            image_sizes = [x.size for x in images]
            images_tensor = process_images(
                images,
                image_processor,
                model.config
            ).to(model.device, dtype=torch.float16)

            input_ids = (
                tokenizer_image_token(prompt, tokenizer, IMAGE_TOKEN_INDEX, return_tensors="pt")
                .unsqueeze(0)
                .cuda()
            )

            with torch.inference_mode():
                output_ids = model.generate(
                    input_ids,
                    images=images_tensor,
                    image_sizes=image_sizes,
                    do_sample=True if args.temperature > 0 else False,
                    temperature=args.temperature,
                    top_p=args.top_p,
                    num_beams=args.num_beams,
                    max_new_tokens=args.max_new_tokens,
                    use_cache=True,
                )
            outputs = tokenizer.batch_decode(output_ids, skip_special_tokens=True)[0].strip()
            obj["text"] = outputs
        new_data_list.append(data)
    with open(args.save_path, "w") as f:
        json.dump(new_data_list, f)


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument("--image_path", type=str, required=True, help="Path to the images.")
    parser.add_argument("--json_path", type=str, required=True, help="Path to the annotations.")
    parser.add_argument("--save_path", type=str, required=True, help="Path to save the output.")
    path_args = parser.parse_args()

    args = type('Args', (), {
        "model_path": model_path,
        "model_base": None,
        "model_name": get_model_name_from_path(model_path),
        "query": prompt,
        "conv_mode": None,
        "sep": ",",
        "temperature": 0,
        "top_p": None,
        "num_beams": 1,
        "max_new_tokens": 512,
        "image_path": path_args.image_path,
        "json_path": path_args.json_path,
        "save_path": path_args.save_path
    })()

    eval_model(args)