import sys from pathlib import Path import torch from .. import MODEL_REPO_ID, logger from ..utils.base_model import BaseModel gim_path = Path(__file__).parent / "../../third_party/gim" sys.path.append(str(gim_path)) from dkm.models.model_zoo.DKMv3 import DKMv3 class GIM(BaseModel): default_conf = { "model_name": "gim_lightglue_100h.ckpt", "match_threshold": 0.2, "checkpoint_dir": gim_path / "weights", } required_inputs = [ "image0", "image1", ] def _init(self, conf): model_path = self._download_model( repo_id=MODEL_REPO_ID, filename="{}/{}".format( Path(__file__).stem, self.conf["model_name"] ), ) self.aspect_ratio = 896 / 672 model = DKMv3(None, 672, 896, upsample_preds=True) state_dict = torch.load(str(model_path), map_location="cpu") if "state_dict" in state_dict.keys(): state_dict = state_dict["state_dict"] for k in list(state_dict.keys()): if k.startswith("model."): state_dict[k.replace("model.", "", 1)] = state_dict.pop(k) if "encoder.net.fc" in k: state_dict.pop(k) model.load_state_dict(state_dict) self.net = model logger.info("Loaded GIM model") def pad_image(self, image, aspect_ratio): new_width = max(image.shape[3], int(image.shape[2] * aspect_ratio)) new_height = max(image.shape[2], int(image.shape[3] / aspect_ratio)) pad_width = new_width - image.shape[3] pad_height = new_height - image.shape[2] return torch.nn.functional.pad( image, ( pad_width // 2, pad_width - pad_width // 2, pad_height // 2, pad_height - pad_height // 2, ), ) def rescale_kpts(self, sparse_matches, shape0, shape1): kpts0 = torch.stack( ( shape0[1] * (sparse_matches[:, 0] + 1) / 2, shape0[0] * (sparse_matches[:, 1] + 1) / 2, ), dim=-1, ) kpts1 = torch.stack( ( shape1[1] * (sparse_matches[:, 2] + 1) / 2, shape1[0] * (sparse_matches[:, 3] + 1) / 2, ), dim=-1, ) return kpts0, kpts1 def compute_mask(self, kpts0, kpts1, orig_shape0, orig_shape1): mask = ( (kpts0[:, 0] > 0) & (kpts0[:, 1] > 0) & (kpts1[:, 0] > 0) & (kpts1[:, 1] > 0) ) mask &= ( (kpts0[:, 0] <= (orig_shape0[1] - 1)) & (kpts1[:, 0] <= (orig_shape1[1] - 1)) & (kpts0[:, 1] <= (orig_shape0[0] - 1)) & (kpts1[:, 1] <= (orig_shape1[0] - 1)) ) return mask def _forward(self, data): image0, image1 = self.pad_image( data["image0"], self.aspect_ratio ), self.pad_image(data["image1"], self.aspect_ratio) dense_matches, dense_certainty = self.net.match(image0, image1) sparse_matches, mconf = self.net.sample( dense_matches, dense_certainty, self.conf["max_keypoints"] ) kpts0, kpts1 = self.rescale_kpts( sparse_matches, image0.shape[-2:], image1.shape[-2:] ) mask = self.compute_mask( kpts0, kpts1, data["image0"].shape[-2:], data["image1"].shape[-2:] ) b_ids, i_ids = torch.where(mconf[None]) pred = { "keypoints0": kpts0[i_ids], "keypoints1": kpts1[i_ids], "confidence": mconf[i_ids], "batch_indexes": b_ids, } scores, b_ids = pred["confidence"], pred["batch_indexes"] kpts0, kpts1 = pred["keypoints0"], pred["keypoints1"] pred["confidence"], pred["batch_indexes"] = scores[mask], b_ids[mask] pred["keypoints0"], pred["keypoints1"] = kpts0[mask], kpts1[mask] out = { "keypoints0": pred["keypoints0"], "keypoints1": pred["keypoints1"], } return out