*This model was released on 2019-11-26 and added to Hugging Face Transformers on 2025-01-20.*

# SuperGlue [SuperGlue](https://huggingface.co/papers/1911.11763) is a neural network that matches two sets of local features by jointly finding correspondences and rejecting non-matchable points. Assignments are estimated by solving a differentiable optimal transport problem, whose costs are predicted by a graph neural network. SuperGlue introduces a flexible context aggregation mechanism based on attention, enabling it to reason about the underlying 3D scene and feature assignments jointly. Paired with the [SuperPoint model](https://huggingface.co/magic-leap-community/superpoint), it can be used to match two images and estimate the pose between them. This model is useful for tasks such as image matching, homography estimation, etc. You can find all the original SuperGlue checkpoints under the [Magic Leap Community](https://huggingface.co/magic-leap-community) organization. > [!TIP] > This model was contributed by [stevenbucaille](https://huggingface.co/stevenbucaille). > > Click on the SuperGlue models in the right sidebar for more examples of how to apply SuperGlue to different computer vision tasks. The example below demonstrates how to match keypoints between two images with [`Pipeline`] or the [`AutoModel`] class. ```py from transformers import pipeline keypoint_matcher = pipeline(task="keypoint-matching", model="magic-leap-community/superglue_outdoor") url_0 = "https://raw.githubusercontent.com/magicleap/SuperGluePretrainedNetwork/refs/heads/master/assets/phototourism_sample_images/united_states_capitol_98169888_3347710852.jpg" url_1 = "https://raw.githubusercontent.com/magicleap/SuperGluePretrainedNetwork/refs/heads/master/assets/phototourism_sample_images/united_states_capitol_26757027_6717084061.jpg" results = keypoint_matcher([url_0, url_1], threshold=0.9) print(results[0]) # {'keypoint_image_0': {'x': ..., 'y': ...}, 'keypoint_image_1': {'x': ..., 'y': ...}, 'score': ...} ``` ```py from transformers import AutoImageProcessor, AutoModel import torch from PIL import Image import requests url_image1 = "https://raw.githubusercontent.com/magicleap/SuperGluePretrainedNetwork/refs/heads/master/assets/phototourism_sample_images/united_states_capitol_98169888_3347710852.jpg" image1 = Image.open(requests.get(url_image1, stream=True).raw) url_image2 = "https://raw.githubusercontent.com/magicleap/SuperGluePretrainedNetwork/refs/heads/master/assets/phototourism_sample_images/united_states_capitol_26757027_6717084061.jpg" image2 = Image.open(requests.get(url_image2, stream=True).raw) images = [image1, image2] processor = AutoImageProcessor.from_pretrained("magic-leap-community/superglue_outdoor") model = AutoModel.from_pretrained("magic-leap-community/superglue_outdoor") inputs = processor(images, return_tensors="pt") with torch.inference_mode(): outputs = model(**inputs) # Post-process to get keypoints and matches image_sizes = [[(image.height, image.width) for image in images]] processed_outputs = processor.post_process_keypoint_matching(outputs, image_sizes, threshold=0.2) ``` ## Notes - SuperGlue performs feature matching between two images simultaneously, requiring pairs of images as input. ```python from transformers import AutoImageProcessor, AutoModel import torch from PIL import Image import requests processor = AutoImageProcessor.from_pretrained("magic-leap-community/superglue_outdoor") model = AutoModel.from_pretrained("magic-leap-community/superglue_outdoor") # SuperGlue requires pairs of images images = [image1, image2] inputs = processor(images, return_tensors="pt") with torch.inference_mode(): outputs = model(**inputs) # Extract matching information keypoints0 = outputs.keypoints0 # Keypoints in first image keypoints1 = outputs.keypoints1 # Keypoints in second image matches = outputs.matches # Matching indices matching_scores = outputs.matching_scores # Confidence scores ``` - The model outputs matching indices, keypoints, and confidence scores for each match. - For better visualization and analysis, use the [`SuperGlueImageProcessor.post_process_keypoint_matching`] method to get matches in a more readable format. ```py # Process outputs for visualization image_sizes = [[(image.height, image.width) for image in images]] processed_outputs = processor.post_process_keypoint_matching(outputs, image_sizes, threshold=0.2) for i, output in enumerate(processed_outputs): print(f"For the image pair {i}") for keypoint0, keypoint1, matching_score in zip( output["keypoints0"], output["keypoints1"], output["matching_scores"] ): print(f"Keypoint at {keypoint0.numpy()} matches with keypoint at {keypoint1.numpy()} with score {matching_score}") ``` - Visualize the matches between the images using the built-in plotting functionality. ```py # Easy visualization using the built-in plotting method processor.visualize_keypoint_matching(images, processed_outputs) ```

## Resources - Refer to the [original SuperGlue repository](https://github.com/magicleap/SuperGluePretrainedNetwork) for more examples and implementation details. ## SuperGlueConfig [[autodoc]] SuperGlueConfig ## SuperGlueImageProcessor [[autodoc]] SuperGlueImageProcessor - preprocess - post_process_keypoint_matching - visualize_keypoint_matching ## SuperGlueImageProcessorFast [[autodoc]] SuperGlueImageProcessorFast - preprocess - post_process_keypoint_matching - visualize_keypoint_matching ## SuperGlueForKeypointMatching [[autodoc]] SuperGlueForKeypointMatching - forward