Hugging Face's logo

Spaces:
DawnC
/
PawMatchAI
Running on Zero

App Files Community
1
PawMatchAI / app.py
DawnC's picture
DawnC
Update app.py
4486636 verified
raw
history blame
27.4 kB
import os
import numpy as np
import torch
import torch.nn as nn
import gradio as gr
from torchvision.models import efficientnet_v2_m, EfficientNet_V2_M_Weights
import torch.nn.functional as F
from torchvision import transforms
from PIL import Image, ImageDraw, ImageFont, ImageFilter
from data_manager import get_dog_description
from urllib.parse import quote
from ultralytics import YOLO
import asyncio
# 下載YOLOv8預訓練模型
model_yolo = YOLO('yolov8n.pt') # 使用 YOLOv8 預訓練模型
dog_breeds = ["Afghan_Hound", "African_Hunting_Dog", "Airedale", "American_Staffordshire_Terrier",
"Appenzeller", "Australian_Terrier", "Bedlington_Terrier", "Bernese_Mountain_Dog",
"Blenheim_Spaniel", "Border_Collie", "Border_Terrier", "Boston_Bull", "Bouvier_Des_Flandres",
"Brabancon_Griffon", "Brittany_Spaniel", "Cardigan", "Chesapeake_Bay_Retriever",
"Chihuahua", "Dandie_Dinmont", "Doberman", "English_Foxhound", "English_Setter",
"English_Springer", "EntleBucher", "Eskimo_Dog", "French_Bulldog", "German_Shepherd",
"German_Short-Haired_Pointer", "Gordon_Setter", "Great_Dane", "Great_Pyrenees",
"Greater_Swiss_Mountain_Dog", "Ibizan_Hound", "Irish_Setter", "Irish_Terrier",
"Irish_Water_Spaniel", "Irish_Wolfhound", "Italian_Greyhound", "Japanese_Spaniel",
"Kerry_Blue_Terrier", "Labrador_Retriever", "Lakeland_Terrier", "Leonberg", "Lhasa",
"Maltese_Dog", "Mexican_Hairless", "Newfoundland", "Norfolk_Terrier", "Norwegian_Elkhound",
"Norwich_Terrier", "Old_English_Sheepdog", "Pekinese", "Pembroke", "Pomeranian",
"Rhodesian_Ridgeback", "Rottweiler", "Saint_Bernard", "Saluki", "Samoyed",
"Scotch_Terrier", "Scottish_Deerhound", "Sealyham_Terrier", "Shetland_Sheepdog",
"Shih-Tzu", "Siberian_Husky", "Staffordshire_Bullterrier", "Sussex_Spaniel",
"Tibetan_Mastiff", "Tibetan_Terrier", "Walker_Hound", "Weimaraner",
"Welsh_Springer_Spaniel", "West_Highland_White_Terrier", "Yorkshire_Terrier",
"Affenpinscher", "Basenji", "Basset", "Beagle", "Black-and-Tan_Coonhound", "Bloodhound",
"Bluetick", "Borzoi", "Boxer", "Briard", "Bull_Mastiff", "Cairn", "Chow", "Clumber",
"Cocker_Spaniel", "Collie", "Curly-Coated_Retriever", "Dhole", "Dingo",
"Flat-Coated_Retriever", "Giant_Schnauzer", "Golden_Retriever", "Groenendael", "Keeshond",
"Kelpie", "Komondor", "Kuvasz", "Malamute", "Malinois", "Miniature_Pinscher",
"Miniature_Poodle", "Miniature_Schnauzer", "Otterhound", "Papillon", "Pug", "Redbone",
"Schipperke", "Silky_Terrier", "Soft-Coated_Wheaten_Terrier", "Standard_Poodle",
"Standard_Schnauzer", "Toy_Poodle", "Toy_Terrier", "Vizsla", "Whippet",
"Wire-Haired_Fox_Terrier"]
class MultiHeadAttention(nn.Module):
def __init__(self, in_dim, num_heads=8):
super().__init__()
self.num_heads = num_heads
self.head_dim = max(1, in_dim // num_heads)
self.scaled_dim = self.head_dim * num_heads
self.fc_in = nn.Linear(in_dim, self.scaled_dim)
self.query = nn.Linear(self.scaled_dim, self.scaled_dim)
self.key = nn.Linear(self.scaled_dim, self.scaled_dim)
self.value = nn.Linear(self.scaled_dim, self.scaled_dim)
self.fc_out = nn.Linear(self.scaled_dim, in_dim)
def forward(self, x):
N = x.shape[0]
x = self.fc_in(x)
q = self.query(x).view(N, self.num_heads, self.head_dim)
k = self.key(x).view(N, self.num_heads, self.head_dim)
v = self.value(x).view(N, self.num_heads, self.head_dim)
energy = torch.einsum("nqd,nkd->nqk", [q, k])
attention = F.softmax(energy / (self.head_dim ** 0.5), dim=2)
out = torch.einsum("nqk,nvd->nqd", [attention, v])
out = out.reshape(N, self.scaled_dim)
out = self.fc_out(out)
return out
class BaseModel(nn.Module):
def __init__(self, num_classes, device='cuda' if torch.cuda.is_available() else 'cpu'):
super().__init__()
self.device = device
self.backbone = efficientnet_v2_m(weights=EfficientNet_V2_M_Weights.IMAGENET1K_V1)
self.feature_dim = self.backbone.classifier[1].in_features
self.backbone.classifier = nn.Identity()
self.num_heads = max(1, min(8, self.feature_dim // 64))
self.attention = MultiHeadAttention(self.feature_dim, num_heads=self.num_heads)
self.classifier = nn.Sequential(
nn.LayerNorm(self.feature_dim),
nn.Dropout(0.3),
nn.Linear(self.feature_dim, num_classes)
)
self.to(device)
def forward(self, x):
x = x.to(self.device)
features = self.backbone(x)
attended_features = self.attention(features)
logits = self.classifier(attended_features)
return logits, attended_features
num_classes = 120
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
model = BaseModel(num_classes=num_classes, device=device)
checkpoint = torch.load('best_model_81_dog.pth', map_location=torch.device('cpu'))
model.load_state_dict(checkpoint['model_state_dict'])
# evaluation mode
model.eval()
# Image preprocessing function
def preprocess_image(image):
# If the image is numpy.ndarray turn into PIL.Image
if isinstance(image, np.ndarray):
image = Image.fromarray(image)
# Use torchvision.transforms to process images
transform = transforms.Compose([
transforms.Resize((224, 224)),
transforms.ToTensor(),
transforms.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]),
])
return transform(image).unsqueeze(0)
def get_akc_breeds_link():
return "https://www.akc.org/dog-breeds/"
# def predict(image):
# if image is None:
# return "Please upload an image to get started.", gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# try:
# image_tensor = preprocess_image(image)
# with torch.no_grad():
# output = model(image_tensor)
# logits = output[0] if isinstance(output, tuple) else output
# probabilities = F.softmax(logits, dim=1)
# topk_probs, topk_indices = torch.topk(probabilities, k=3)
# top1_prob = topk_probs[0][0].item()
# topk_breeds = [dog_breeds[idx.item()] for idx in topk_indices[0]]
# topk_probs_percent = [f"{prob.item() * 100:.2f}%" for prob in topk_probs[0]]
# if top1_prob >= 0.5:
# breed = topk_breeds[0]
# description = get_dog_description(breed)
# return format_description(description, breed), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# elif top1_prob < 0.2:
# return ("The image is too unclear or the dog breed is not in the dataset. Please upload a clearer image of the dog.",
# gr.update(visible=False), gr.update(visible=False), gr.update(visible=False))
# else:
# explanation = (
# f"The model couldn't confidently identify the breed. Here are the top 3 possible breeds:\n\n"
# f"1. **{topk_breeds[0]}** ({topk_probs_percent[0]} confidence)\n"
# f"2. **{topk_breeds[1]}** ({topk_probs_percent[1]} confidence)\n"
# f"3. **{topk_breeds[2]}** ({topk_probs_percent[2]} confidence)\n\n"
# "Click on a button to view more information about the breed."
# )
# return explanation, gr.update(visible=True, value=f"More about {topk_breeds[0]}"), gr.update(visible=True, value=f"More about {topk_breeds[1]}"), gr.update(visible=True, value=f"More about {topk_breeds[2]}")
# except Exception as e:
# return f"An error occurred: {e}", gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# def format_description(description, breed):
# if isinstance(description, dict):
# formatted_description = "\n\n".join([f"**{key}**: {value}" for key, value in description.items()])
# else:
# formatted_description = description
# akc_link = get_akc_breeds_link()
# formatted_description += f"\n\n**Want to learn more about dog breeds?** [Visit the AKC dog breeds page]({akc_link}) and search for {breed} to find detailed information."
# disclaimer = ("\n\n*Disclaimer: The external link provided leads to the American Kennel Club (AKC) dog breeds page. "
# "You may need to search for the specific breed on that page. "
# "I am not responsible for the content on external sites. "
# "Please refer to the AKC's terms of use and privacy policy.*")
# formatted_description += disclaimer
# return formatted_description
# def show_details(breed):
# breed_name = breed.split("More about ")[-1]
# description = get_dog_description(breed_name)
# return format_description(description, breed_name)
# with gr.Blocks(css="""
# .container {
# max-width: 900px;
# margin: 0 auto;
# padding: 20px;
# background-color: rgba(255, 255, 255, 0.9);
# border-radius: 15px;
# box-shadow: 0 0 20px rgba(0, 0, 0, 0.1);
# }
# .gr-form { display: flex; flex-direction: column; align-items: center; }
# .gr-box { width: 100%; max-width: 500px; }
# .output-markdown, .output-image {
# margin-top: 20px;
# padding: 15px;
# background-color: #f5f5f5;
# border-radius: 10px;
# }
# .examples {
# display: flex;
# justify-content: center;
# flex-wrap: wrap;
# gap: 10px;
# margin-top: 20px;
# }
# .examples img {
# width: 100px;
# height: 100px;
# object-fit: cover;
# }
# """) as iface:
# gr.HTML("<h1 style='font-family:Roboto; font-weight:bold; color:#2C3E50; text-align:center;'>🐶 Dog Breed Classifier 🔍</h1>")
# gr.HTML("<p style='font-family:Open Sans; color:#34495E; text-align:center;'>Upload a picture of a dog, and the model will predict its breed, provide detailed information, and include an extra information link!</p>")
# with gr.Row():
# input_image = gr.Image(label="Upload a dog image", type="numpy")
# output = gr.Markdown(label="Prediction Results")
# with gr.Row():
# btn1 = gr.Button("View More 1", visible=False)
# btn2 = gr.Button("View More 2", visible=False)
# btn3 = gr.Button("View More 3", visible=False)
# input_image.change(predict, inputs=input_image, outputs=[output, btn1, btn2, btn3])
# btn1.click(show_details, inputs=btn1, outputs=output)
# btn2.click(show_details, inputs=btn2, outputs=output)
# btn3.click(show_details, inputs=btn3, outputs=output)
# gr.Examples(
# examples=['Border_Collie.jpg', 'Golden_Retriever.jpeg', 'Saint_Bernard.jpeg', 'French_Bulldog.jpeg', 'Samoyed.jpg'],
# inputs=input_image
# )
# gr.HTML('For more details on this project and other work, feel free to visit my GitHub <a href="https://github.com/Eric-Chung-0511/Learning-Record/tree/main/Data%20Science%20Projects/Dog%20Breed%20Classifier">Dog Breed Classifier</a>')
# # launch the program
# if __name__ == "__main__":
# iface.launch()
def format_description(description, breed):
if isinstance(description, dict):
# 確保每一個描述項目換行顯示
formatted_description = "\n\n".join([f"**{key}**: {value}" for key, value in description.items()])
else:
formatted_description = description
akc_link = get_akc_breeds_link()
formatted_description += f"\n\n**Want to learn more about dog breeds?** [Visit the AKC dog breeds page]({akc_link}) and search for {breed} to find detailed information."
disclaimer = ("\n\n*Disclaimer: The external link provided leads to the American Kennel Club (AKC) dog breeds page. "
"You may need to search for the specific breed on that page. "
"I am not responsible for the content on external sites. "
"Please refer to the AKC's terms of use and privacy policy.*")
formatted_description += disclaimer
return formatted_description
async def predict_single_dog(image):
return await asyncio.to_thread(_predict_single_dog, image)
def _predict_single_dog(image):
image_tensor = preprocess_image(image)
with torch.no_grad():
output = model(image_tensor)
logits = output[0] if isinstance(output, tuple) else output
probabilities = F.softmax(logits, dim=1)
topk_probs, topk_indices = torch.topk(probabilities, k=3)
top1_prob = topk_probs[0][0].item()
topk_breeds = [dog_breeds[idx.item()] for idx in topk_indices[0]]
topk_probs_percent = [f"{prob.item() * 100:.2f}%" for prob in topk_probs[0]]
return top1_prob, topk_breeds, topk_probs_percent
async def detect_multiple_dogs(image, conf_threshold=0.2, iou_threshold=0.5):
results = model_yolo(image, conf=conf_threshold, iou=iou_threshold)[0]
dogs = []
for box in results.boxes:
if box.cls == 16: # COCO 資料集中狗的類別是 16
xyxy = box.xyxy[0].tolist()
confidence = box.conf.item()
cropped_image = image.crop((xyxy[0], xyxy[1], xyxy[2], xyxy[3]))
dogs.append((cropped_image, confidence, xyxy))
return dogs
# async def predict(image):
# if image is None:
# return "Please upload an image to start.", None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# try:
# if isinstance(image, np.ndarray):
# image = Image.fromarray(image)
# # 嘗試檢測多隻狗
# dogs = await detect_multiple_dogs(image)
# if len(dogs) == 0:
# # 單狗情境
# top1_prob, topk_breeds, topk_probs_percent = await predict_single_dog(image)
# if top1_prob < 0.2:
# return "The image is unclear or the breed is not in the dataset. Please upload a clearer image of a dog.", None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# breed = topk_breeds[0]
# description = get_dog_description(breed)
# if top1_prob >= 0.5:
# formatted_description = format_description(description, breed)
# return formatted_description, image, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# else:
# explanation = (
# f"The model couldn't confidently identify the breed. Here are the top 3 possible breeds:\n\n"
# f"1. **{topk_breeds[0]}** ({topk_probs_percent[0]} confidence)\n"
# f"2. **{topk_breeds[1]}** ({topk_probs_percent[1]} confidence)\n"
# f"3. **{topk_breeds[2]}** ({topk_probs_percent[2]} confidence)\n\n"
# "Click on a button to view more information about the breed."
# )
# return explanation, image, gr.update(visible=True, value=f"More about {topk_breeds[0]}"), gr.update(visible=True, value=f"More about {topk_breeds[1]}"), gr.update(visible=True, value=f"More about {topk_breeds[2]}")
# # 多狗情境
# color_list = ['#FF0000', '#00FF00', '#0000FF', '#FFFF00', '#00FFFF', '#FF00FF', '#800080', '#FFA500']
# explanations = []
# annotated_image = image.copy()
# draw = ImageDraw.Draw(annotated_image)
# font = ImageFont.load_default()
# for i, (cropped_image, _, box) in enumerate(dogs):
# top1_prob, topk_breeds, topk_probs_percent = await predict_single_dog(cropped_image)
# color = color_list[i % len(color_list)]
# draw.rectangle(box, outline=color, width=3)
# draw.text((box[0], box[1]), f"Dog {i+1}", fill=color, font=font)
# breed = topk_breeds[0]
# if top1_prob >= 0.5:
# description = get_dog_description(breed)
# formatted_description = format_description(description, breed)
# explanations.append(f"Dog {i+1}: {formatted_description}")
# elif top1_prob >= 0.2:
# explanations.append(f"Dog {i+1}: Top 3 possible breeds:\n"
# f"1. **{topk_breeds[0]}** ({topk_probs_percent[0]} confidence)\n"
# f"2. **{topk_breeds[1]}** ({topk_probs_percent[1]} confidence)\n"
# f"3. **{topk_breeds[2]}** ({topk_probs_percent[2]} confidence)")
# else:
# explanations.append(f"Dog {i+1}: The image is unclear or the breed is not in the dataset.")
# final_explanation = "\n\n".join(explanations)
# return final_explanation, annotated_image, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# except Exception as e:
# return f"An error occurred: {str(e)}", None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False)
# def show_details(choice):
# if not choice:
# return "Please select a breed to view details."
# try:
# breed = choice.split("More about ")[-1]
# description = get_dog_description(breed)
# return format_description(description, breed)
# except Exception as e:
# return f"An error occurred while showing details: {e}"
# with gr.Blocks() as iface:
# gr.HTML("<h1 style='text-align: center;'>🐶 Dog Breed Classifier 🔍</h1>")
# gr.HTML("<p style='text-align: center;'>Upload a picture of a dog, and the model will predict its breed, provide detailed information, and include an extra information link!</p>")
# with gr.Row():
# input_image = gr.Image(label="Upload a dog image", type="pil")
# output_image = gr.Image(label="Annotated Image")
# output = gr.Markdown(label="Prediction Results")
# with gr.Row():
# btn1 = gr.Button("View More 1", visible=False)
# btn2 = gr.Button("View More 2", visible=False)
# btn3 = gr.Button("View More 3", visible=False)
# input_image.change(
# predict,
# inputs=input_image,
# outputs=[output, output_image, btn1, btn2, btn3]
# )
# btn1.click(show_details, inputs=btn1, outputs=output)
# btn2.click(show_details, inputs=btn2, outputs=output)
# btn3.click(show_details, inputs=btn3, outputs=output)
# gr.Examples(
# examples=['Border_Collie.jpg', 'Golden_Retriever.jpeg', 'Saint_Bernard.jpeg', 'French_Bulldog.jpeg', 'Samoyed.jpg'],
# inputs=input_image
# )
# gr.HTML('For more details on this project and other work, feel free to visit my GitHub <a href="https://github.com/Eric-Chung-0511/Learning-Record/tree/main/Data%20Science%20Projects/Dog_Breed_Classifier">Dog Breed Classifier</a>')
# if __name__ == "__main__":
# iface.launch()
async def predict(image):
if image is None:
return "Please upload an image to start.", None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), None
try:
if isinstance(image, np.ndarray):
image = Image.fromarray(image)
dogs = await detect_multiple_dogs(image, conf_threshold=0.05)
if len(dogs) <= 1:
return await process_single_dog(image)
# 多狗情境
color_list = ['#FF0000', '#00FF00', '#0000FF', '#FFFF00', '#00FFFF', '#FF00FF', '#800080', '#FFA500']
explanations = []
buttons = []
annotated_image = image.copy()
draw = ImageDraw.Draw(annotated_image)
font = ImageFont.load_default()
for i, (cropped_image, _, box) in enumerate(dogs):
top1_prob, topk_breeds, topk_probs_percent = await predict_single_dog(cropped_image)
color = color_list[i % len(color_list)]
draw.rectangle(box, outline=color, width=3)
draw.text((box[0], box[1]), f"Dog {i+1}", fill=color, font=font)
breed = topk_breeds[0]
if top1_prob >= 0.5:
description = get_dog_description(breed)
formatted_description = format_description(description, breed)
explanations.append(f"Dog {i+1}: {formatted_description}")
elif top1_prob >= 0.2:
dog_explanation = f"Dog {i+1}: Top 3 possible breeds:\n"
dog_explanation += "\n".join([f"{j+1}. **{breed}** ({prob} confidence)" for j, (breed, prob) in enumerate(zip(topk_breeds[:3], topk_probs_percent[:3]))])
explanations.append(dog_explanation)
buttons.extend([gr.update(visible=True, value=f"Dog {i+1}: More about {breed}") for breed in topk_breeds[:3]])
else:
explanations.append(f"Dog {i+1}: The image is unclear or the breed is not in the dataset.")
final_explanation = "\n\n".join(explanations)
if buttons:
final_explanation += "\n\nClick on a button to view more information about the breed."
initial_state = {
"explanation": final_explanation,
"buttons": buttons,
"show_back": True
}
return (final_explanation, annotated_image,
buttons[0] if len(buttons) > 0 else gr.update(visible=False),
buttons[1] if len(buttons) > 1 else gr.update(visible=False),
buttons[2] if len(buttons) > 2 else gr.update(visible=False),
gr.update(visible=True),
initial_state)
else:
initial_state = {
"explanation": final_explanation,
"buttons": [],
"show_back": False
}
return final_explanation, annotated_image, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), initial_state
except Exception as e:
error_msg = f"An error occurred: {str(e)}"
print(error_msg) # 添加日誌輸出
return error_msg, None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), None
async def process_single_dog(image):
top1_prob, topk_breeds, topk_probs_percent = await predict_single_dog(image)
if top1_prob < 0.2:
initial_state = {
"explanation": "The image is unclear or the breed is not in the dataset. Please upload a clearer image of a dog.",
"buttons": [],
"show_back": False
}
return initial_state["explanation"], None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), initial_state
breed = topk_breeds[0]
description = get_dog_description(breed)
if top1_prob >= 0.5:
formatted_description = format_description(description, breed)
initial_state = {
"explanation": formatted_description,
"buttons": [],
"show_back": False
}
return formatted_description, image, gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), initial_state
else:
explanation = (
f"The model couldn't confidently identify the breed. Here are the top 3 possible breeds:\n\n"
f"1. **{topk_breeds[0]}** ({topk_probs_percent[0]} confidence)\n"
f"2. **{topk_breeds[1]}** ({topk_probs_percent[1]} confidence)\n"
f"3. **{topk_breeds[2]}** ({topk_probs_percent[2]} confidence)\n\n"
"Click on a button to view more information about the breed."
)
buttons = [
gr.update(visible=True, value=f"More about {topk_breeds[0]}"),
gr.update(visible=True, value=f"More about {topk_breeds[1]}"),
gr.update(visible=True, value=f"More about {topk_breeds[2]}")
]
initial_state = {
"explanation": explanation,
"buttons": buttons,
"show_back": True
}
return explanation, image, buttons[0], buttons[1], buttons[2], gr.update(visible=True), initial_state
def show_details(choice, previous_output, initial_state):
if not choice:
return previous_output, gr.update(visible=True), initial_state
try:
breed = choice.split("More about ")[-1]
description = get_dog_description(breed)
formatted_description = format_description(description, breed)
return formatted_description, gr.update(visible=True), initial_state
except Exception as e:
error_msg = f"An error occurred while showing details: {e}"
print(error_msg) # 添加日誌輸出
return error_msg, gr.update(visible=True), initial_state
# 介面部分
with gr.Blocks() as iface:
gr.HTML("<h1 style='text-align: center;'>🐶 Dog Breed Classifier 🔍</h1>")
gr.HTML("<p style='text-align: center;'>Upload a picture of a dog, and the model will predict its breed, provide detailed information, and include an extra information link!</p>")
with gr.Row():
input_image = gr.Image(label="Upload a dog image", type="pil")
output_image = gr.Image(label="Annotated Image")
output = gr.Markdown(label="Prediction Results")
with gr.Row():
btn1 = gr.Button("View More 1", visible=False)
btn2 = gr.Button("View More 2", visible=False)
btn3 = gr.Button("View More 3", visible=False)
back_button = gr.Button("Back", visible=False)
initial_state = gr.State()
input_image.change(
predict,
inputs=input_image,
outputs=[output, output_image, btn1, btn2, btn3, back_button, initial_state]
)
for btn in [btn1, btn2, btn3]:
btn.click(
show_details,
inputs=[btn, output, initial_state],
outputs=[output, back_button, initial_state]
)
back_button.click(
lambda state: (state["explanation"],
state["buttons"][0] if len(state["buttons"]) > 0 else gr.update(visible=False),
state["buttons"][1] if len(state["buttons"]) > 1 else gr.update(visible=False),
state["buttons"][2] if len(state["buttons"]) > 2 else gr.update(visible=False),
gr.update(visible=state["show_back"])),
inputs=[initial_state],
outputs=[output, btn1, btn2, btn3, back_button]
)
gr.Examples(
examples=['Border_Collie.jpg', 'Golden_Retriever.jpeg', 'Saint_Bernard.jpeg', 'French_Bulldog.jpeg', 'Samoyed.jpg'],
inputs=input_image
)
gr.HTML('For more details on this project and other work, feel free to visit my GitHub <a href="https://github.com/Eric-Chung-0511/Learning-Record/tree/main/Data%20Science%20Projects/Dog_Breed_Classifier">Dog Breed Classifier</a>')
if __name__ == "__main__":
iface.launch()