# from __future__ import annotations import gradio as gr from huggingface_hub import from_pretrained_fastai import os from typing import Iterable # from gradio.themes.base import Base # from gradio.themes.utils import colors, fonts, sizes os.environ["HF_ENDPOINT"] = "https://huggingface.co" materials_model = from_pretrained_fastai("pyesonekyaw/recycletree_materials") paper_model = from_pretrained_fastai("pyesonekyaw/recycletree_paper") plastic_model = from_pretrained_fastai("pyesonekyaw/recycletree_plastic") metal_model = from_pretrained_fastai("pyesonekyaw/recycletree_metal") others_model = from_pretrained_fastai("pyesonekyaw/recycletree_others") glass_model = from_pretrained_fastai("pyesonekyaw/recycletree_glass") examples = ["Examples/1.jpg", "Examples/2.jpg", "Examples/3.jpg", "Examples/4.jpg", "Examples/5.jpg"] material_names = ['Glass', 'Metal', 'Others', 'Paper', 'Plastic'] plastic_names = ['CD Disk', 'Straw', 'Plastic Bag', 'Clothes Hanger', 'Plastic Container or Bottle', 'Disposable Cutlery', 'Plastic Packaging', 'Plastic Packaging With Foil', 'Styrofoam'] paper_names = ['Beverage Carton', 'Cardboard', 'Chopsticks', 'Disposables', 'Paper Bag', 'Paper Packaging', 'Paper Product', 'Receipt', 'Paper Roll', 'Paper Sheet', 'Tissue Box', 'Tissue Paper'] glass_names = ['Ceramic', 'Glassware', 'Lightbulb'] other_names = ['Battery', 'Electronic Waste', 'Stationery'] metal_names = ['Aerosol Can', 'Aluminium Foil or Tray', 'Metal Can or Container'] material_num_name_dict = { "metal": "Metal", "glass": "Glass", "paper": "Paper", "plastic": "Plastic", "others": "Others", } plastic_item_num_dict = { "CD Disk": ["Yes", "Nil"], "Straw": ["No, dispose as general waste","Nil"], "Plastic Bag": ["Yes, if they are not oxo- and bio- degradable bags", "Contaminated with food waste/liquid waste/other forms of waste. Please refer to RecycleHowAh for more information"], "Clothes Hanger": ["Yes", "Made up of more than one plastic, if unsure, just dispose as normal waste "], "Plastic Container or Bottle": ["Yes", "When they are not emptied or not rinsed "], "Disposable Cutlery": ["No, dispose as general waste", "Nil"], "Plastic Packaging": ["Yes, for things like bubble wrap and egg tray but no if directly enclosing food like cling wrap", "Contaminated with food contents "], "Plastic Packaging With Foil": ["No","Nil"], "Styrofoam": ["No, dispose as general waste","Nil"] } glass_item_num_dict = { "Ceramic": ["No, donate if can be reused", "Nil"], "Glassware": ["Yes","If there is liquid/solid residue inside the glassware "], "Lightbulb": ["Could be recycled at specific collection points which can be found on onemap.sg, under Lighting waste collection points", "Nil"] } metal_item_num_dict = { "Aerosol Can": ["Yes","If there are any remaining contents in the can"], "Aluminium Foil or Tray": ["Yes","If there is any residue "], "Metal Can or Container": ["Yes","If there is any residue "] } others_item_num_dict = { "Battery": ["Battery","No, rechargeable batteries can be recycled through specific collection points (e-waste collection)", "Nil"], "Electronic Waste": ["Electronic Waste","Can be recycled through specific collection points (e-waste collection). Please refer to RecycleHowAh for more information"], "Stationery": ["Stationery","No, donate if can be reused"] } paper_item_num_dict = { "Beverage Carton": ["Yes, rinsed and flattened","Nil"], "Cardboard": ["Yes","Remains of other materials such as tape, contaminated with other waste"], "Chopsticks": ["No, dispose as general waste ",], "Disposables": ["No, dispose as general waste ",], "Paper Bag": ["Yes","Contaminated with food waste or other waste "], "Paper Packaging": ["Yes","Made up of more than one material or contaminated with food waste"], "Paper Product": ["Yes","Contaminated with other waste"], "Receipt": ["Yes","Contaminated with other waste"], "Paper Roll": ["Yes","Contaminated with other waste"], "Paper Sheet": ["Yes","Contaminated with other waste "], "Tissue Box": ["Yes","Plastic liners not removed or contaminated with other waste "], "Tissue Paper": ["No, dispose as general waste","Nil"] } # class Seafoam(Base): # def __init__( # self, # *, # primary_hue: colors.Color | str = colors.emerald, # secondary_hue: colors.Color | str = colors.teal, # neutral_hue: colors.Color | str = colors.teal, # spacing_size: sizes.Size | str = sizes.spacing_md, # radius_size: sizes.Size | str = sizes.radius_md, # text_size: sizes.Size | str = sizes.text_lg, # font: fonts.Font # | str # | Iterable[fonts.Font | str] = ( # fonts.GoogleFont("Quicksand"), # "ui-sans-serif", # "sans-serif", # ), # font_mono: fonts.Font # | str # | Iterable[fonts.Font | str] = ( # fonts.GoogleFont("IBM Plex Mono"), # "ui-monospace", # "monospace", # ), # ): # super().__init__( # primary_hue=primary_hue, # secondary_hue=secondary_hue, # neutral_hue=neutral_hue, # spacing_size=spacing_size, # radius_size=radius_size, # text_size=text_size, # font=font, # font_mono=font_mono, # ) # super().set( # body_background_fill="linear-gradient(45deg, *primary_200, *primary_200 10px, *primary_50 10px, *primary_50 20px)", # body_background_fill_dark="linear-gradient(45deg, *primary_200, *primary_200 10px, *primary_50 10px, *primary_50 20px)", # stat_background_fill_dark="linear-gradient(to right, *primary_400, *primary_200)", # error_background_fill_dark=f"linear-gradient(to right, {colors.red.c100}, *background_fill_secondary)", # button_primary_background_fill="linear-gradient(90deg, *primary_300, *secondary_400)", # button_primary_background_fill_hover="linear-gradient(90deg, *primary_200, *secondary_300)", # button_primary_background_fill_hover_dark="linear-gradient(90deg, *primary_200, *secondary_300)", # button_primary_text_color="white", # button_primary_background_fill_dark="linear-gradient(90deg, *primary_300, *secondary_400)", # slider_color="*secondary_300", # slider_color_dark="*secondary_300", # block_title_text_weight="600", # block_border_width="3px", # block_shadow="*shadow_drop_lg", # button_shadow="*shadow_drop_lg", # button_large_padding="32px", # ) # for k in list(self.__dict__.keys()): # if '_dark' in k: # setattr(self,k,None) # seafoam = Seafoam() def predict_image(inp): """ Performs inference for a given input image and returns the prediction and CAM image. """ try: material_label, material_label_idx, material_probs = materials_model.predict(inp) material_preds = {name: prob for name, prob in zip(material_names, material_probs.tolist())} if material_label == 'paper': specific_label, specific_label_idx, specific_probs = paper_model.predict(inp) specific_preds = {name: prob for name, prob in zip(paper_names, specific_probs.tolist())} specific_label = paper_names[int(specific_label_idx)] recyclable_qn = paper_item_num_dict[specific_label][0] recyclable_advice = paper_item_num_dict[specific_label][1] elif material_label == 'plastic': specific_label, specific_label_idx, specific_probs = plastic_model.predict(inp) specific_preds = {name: prob for name, prob in zip(plastic_names, specific_probs.tolist())} specific_label = plastic_names[int(specific_label_idx)] recyclable_qn = plastic_item_num_dict[specific_label][0] recyclable_advice = plastic_item_num_dict[specific_label][1] elif material_label == 'glass': specific_label, specific_label_idx, specific_probs = glass_model.predict(inp) specific_preds = {name: prob for name, prob in zip(glass_names, specific_probs.tolist())} specific_label = glass_names[int(specific_label_idx)] recyclable_qn = glass_item_num_dict[specific_label][0] recyclable_advice = glass_item_num_dict[specific_label][1] elif material_label == 'metal': specific_label, specific_label_idx, specific_probs = metal_model.predict(inp) specific_preds = {name: prob for name, prob in zip(metal_names, specific_probs.tolist())} specific_label = metal_names[int(specific_label_idx)] recyclable_qn = metal_item_num_dict[specific_label][0] recyclable_advice = metal_item_num_dict[specific_label][1] elif material_label == 'others': specific_label, specific_label_idx, specific_probs = others_model.predict(inp) specific_preds = {name: prob for name, prob in zip(other_names, specific_probs.tolist())} specific_label = other_names[int(specific_label_idx)] recyclable_qn = others_item_num_dict[specific_label][0] recyclable_advice = others_item_num_dict[specific_label][1] return material_preds, specific_preds, recyclable_qn, recyclable_advice except: raise Exception("Invalid file format! Please only upload .jpg or .png files!") with gr.Blocks(title="Trash Classification", css="#custom_header {min-height: 3rem} #custom_title {min-height: 3rem; text-align: center}") as demo:#, theme=seafoam) as demo: gr.Markdown("# Recyclable Detector- Classification of trash and recyclables", elem_id="custom_title") gr.Markdown("Gradio Inference interface", elem_id="custom_title") with gr.Column(): with gr.Column(): with gr.Box(): gr.Markdown("## Inputs", elem_id="custom_header") input_image = gr.Image(label="Input Image") input_image.style(height=240) btn = gr.Button(value="Submit") btn.style(full_width=True) with gr.Column(): with gr.Box(): gr.Markdown("## Outputs", elem_id="custom_header") recycling_qn = gr.outputs.Textbox(label="Is this recyclable?") recycling_advice = gr.outputs.Textbox(label="It is not recyclable when:") with gr.Row(): material_probs = gr.outputs.Label(label="Material Prediction") item_probs = gr.outputs.Label(label="Item Prediction") gr.Examples( examples=examples, inputs=input_image, fn=predict_image, cache_examples=False, ) btn.click(predict_image, inputs=[input_image], outputs=[material_probs, item_probs, recycling_qn, recycling_advice]) if __name__ == "__main__": demo.launch(show_error=True)