modules/sam_inference.py

from sam2.automatic_mask_generator import SAM2AutomaticMaskGenerator
from sam2.build_sam import build_sam2
from sam2.sam2_image_predictor import SAM2ImagePredictor
from typing import Dict, List
import torch
import os
from datetime import datetime
import numpy as np

from modules.model_downloader import (
    AVAILABLE_MODELS, DEFAULT_MODEL_TYPE, OUTPUT_DIR,
    is_sam_exist,
    download_sam_model_url
)
from modules.paths import SAM2_CONFIGS_DIR, MODELS_DIR
from modules.constants import BOX_PROMPT_MODE, AUTOMATIC_MODE
from modules.mask_utils import (
    save_psd_with_masks,
    create_mask_combined_images,
    create_mask_gallery
)

CONFIGS = {
    "sam2_hiera_tiny": os.path.join(SAM2_CONFIGS_DIR, "sam2_hiera_t.yaml"),
    "sam2_hiera_small": os.path.join(SAM2_CONFIGS_DIR, "sam2_hiera_s.yaml"),
    "sam2_hiera_base_plus": os.path.join(SAM2_CONFIGS_DIR, "sam2_hiera_b+.yaml"),
    "sam2_hiera_large": os.path.join(SAM2_CONFIGS_DIR, "sam2_hiera_l.yaml"),
}


class SamInference:
    def __init__(self,
                 model_dir: str = MODELS_DIR,
                 output_dir: str = OUTPUT_DIR
                 ):
        self.model = None
        self.available_models = list(AVAILABLE_MODELS.keys())
        self.model_type = DEFAULT_MODEL_TYPE
        self.model_dir = model_dir
        self.output_dir = output_dir
        self.model_path = os.path.join(self.model_dir, AVAILABLE_MODELS[DEFAULT_MODEL_TYPE][0])
        self.device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
        self.mask_generator = None
        self.image_predictor = None
        self.video_predictor = None

    def load_model(self):
        config = CONFIGS[self.model_type]
        filename, url = AVAILABLE_MODELS[self.model_type]
        model_path = os.path.join(self.model_dir, filename)

        if not is_sam_exist(self.model_type):
            print(f"\nNo SAM2 model found, downloading {self.model_type} model...")
            download_sam_model_url(self.model_type)
        print("\nApplying configs to model..")

        try:
            self.model = build_sam2(
                config_file=config,
                ckpt_path=model_path,
                device=self.device
            )
        except Exception as e:
            print(f"Error while Loading SAM2 model! {e}")

    def generate_mask(self,
                      image: np.ndarray,
                      model_type: str,
                      **params):
        if self.model is None or self.model_type != model_type:
            self.model_type = model_type
            self.load_model()
        self.mask_generator = SAM2AutomaticMaskGenerator(
            model=self.model,
            **params
        )
        return self.mask_generator.generate(image)

    def predict_image(self,
                      image: np.ndarray,
                      model_type: str,
                      box: np.ndarray,
                      **params):
        if self.model is None or self.model_type != model_type:
            self.model_type = model_type
            self.load_model()
        self.image_predictor = SAM2ImagePredictor(sam_model=self.model)
        self.image_predictor.set_image(image)

        masks, scores, logits = self.image_predictor.predict(
            box=box,
            multimask_output=params["multimask_output"],
        )
        return masks, scores, logits

    def divide_layer(self,
                     image_input: np.ndarray,
                     image_prompt_input_data: Dict,
                     input_mode: str,
                     model_type: str,
                     *params):
        timestamp = datetime.now().strftime("%m%d%H%M%S")
        output_file_name = f"result-{timestamp}.psd"
        output_path = os.path.join(self.output_dir, "psd", output_file_name)

        if input_mode == AUTOMATIC_MODE:
            image = image_input
            maskgen_hparams = {
                'points_per_side': int(params[0]),
                'points_per_batch': int(params[1]),
                'pred_iou_thresh': float(params[2]),
                'stability_score_thresh': float(params[3]),
                'stability_score_offset': float(params[4]),
                'crop_n_layers': int(params[5]),
                'box_nms_thresh': float(params[6]),
                'crop_n_points_downscale_factor': int(params[7]),
                'min_mask_region_area': int(params[8]),
                'use_m2m': bool(params[9])
            }

            generated_masks = self.generate_mask(
                image=image,
                model_type=model_type,
                **maskgen_hparams
            )

        elif input_mode == BOX_PROMPT_MODE:
            image = image_prompt_input_data["image"]
            image = np.array(image.convert("RGB"))
            box = image_prompt_input_data["points"]
            box = np.array([[x1, y1, x2, y2] for x1, y1, _, x2, y2, _ in box])
            predict_image_hparams = {
                "multimask_output": params[0]
            }

            predicted_masks, scores, logits = self.predict_image(
                image=image,
                model_type=model_type,
                box=box,
                **predict_image_hparams
            )
            generated_masks = self.format_to_auto_result(predicted_masks)

        save_psd_with_masks(image, generated_masks, output_path)
        mask_combined_image = create_mask_combined_images(image, generated_masks)
        gallery = create_mask_gallery(image, generated_masks)

        return [mask_combined_image] + gallery, output_path

    @staticmethod
    def format_to_auto_result(
        masks: np.ndarray
    ):
        place_holder = 0
        result = [{"segmentation": mask, "area": place_holder} for mask in masks]
        return result