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| from transformers import ViTConfig, ViTForImageClassification | |
| from transformers import ViTFeatureExtractor | |
| from PIL import Image | |
| import requests | |
| import matplotlib.pyplot as plt | |
| import gradio as gr | |
| from transformers import ImageClassificationPipeline, PerceiverForImageClassificationConvProcessing, PerceiverFeatureExtractor | |
| from transformers import VisionEncoderDecoderModel | |
| from transformers import AutoTokenizer | |
| import torch | |
| # option 1: load with randomly initialized weights (train from scratch) | |
| config = ViTConfig(num_hidden_layers=12, hidden_size=768) | |
| model = ViTForImageClassification(config) | |
| #print(config) | |
| feature_extractor = ViTFeatureExtractor() | |
| # or, to load one that corresponds to a checkpoint on the hub: | |
| #feature_extractor = ViTFeatureExtractor.from_pretrained("google/vit-base-patch16-224") | |
| #the following gets called by classify_image() | |
| feature_extractor = PerceiverFeatureExtractor.from_pretrained("deepmind/vision-perceiver-conv") | |
| model = PerceiverForImageClassificationConvProcessing.from_pretrained("deepmind/vision-perceiver-conv") | |
| image_pipe = ImageClassificationPipeline(model=model, feature_extractor=feature_extractor) | |
| ''' | |
| # initialize a vit-bert from a pretrained ViT and a pretrained BERT model. Note that the cross-attention layers will be randomly initialized | |
| model = VisionEncoderDecoderModel.from_encoder_decoder_pretrained( | |
| "google/vit-base-patch16-224-in21k", "bert-base-uncased" | |
| ) | |
| # saving model after fine-tuning | |
| model.save_pretrained("./vit-bert") | |
| # load fine-tuned model | |
| model = VisionEncoderDecoderModel.from_pretrained("./vit-bert") | |
| repo_name = "ydshieh/vit-gpt2-coco-en" | |
| test_image = "cats.jpg" | |
| feature_extractor2 = ViTFeatureExtractor.from_pretrained(repo_name) | |
| tokenizer = AutoTokenizer.from_pretrained(repo_name) | |
| model2 = VisionEncoderDecoderModel.from_pretrained(repo_name) | |
| pixel_values = feature_extractor2(test_image, return_tensors="pt").pixel_values | |
| # autoregressively generate text (using beam search or other decoding strategy) | |
| generated_ids = model2.generate(pixel_values, max_length=16, num_beams=4, return_dict_in_generate=True) | |
| # decode into text | |
| preds = tokenizer.batch_decode(generated_ids[0], skip_special_tokens=True) | |
| preds = [pred.strip() for pred in preds] | |
| print(preds) | |
| ''' | |
| def classify_image(image): | |
| results = image_pipe(image) | |
| print("RESULTS") | |
| print(results) | |
| # convert to format Gradio expects | |
| output = {} | |
| for prediction in results: | |
| predicted_label = prediction['label'] | |
| score = prediction['score'] | |
| output[predicted_label] = score | |
| print("OUTPUT") | |
| print(output) | |
| return output | |
| image = gr.inputs.Image(type="pil") | |
| image_piped = "" | |
| label = gr.outputs.Label(num_top_classes=5) | |
| examples = [["cats.jpg"], ["dog.jpg"]] | |
| title = "Generate a Story from an Image" | |
| description = "Demo for classifying images with Perceiver IO. To use it, simply upload an image and click 'submit' to let the model predict the 5 most probable ImageNet classes. Results will show up in a few seconds." + image_piped | |
| article = "<p style='text-align: center'></p>" | |
| gr.Interface(fn=classify_image, inputs=image, outputs=label, title=title, description=description, examples="", enable_queue=True).launch(debug=True) | |