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import gradio as gr
import requests
from huggingface_hub import hf_hub_download
import torch
from PIL import Image
import numpy as np
# Mengunduh model dari Hugging Face
model_path = hf_hub_download(repo_id="ahmadalfian/fruits_vegetables_classifier", filename="resnet50_finetuned.pth")
# Menginisialisasi model
class FruitVegetableClassifier(torch.nn.Module):
def __init__(self):
super(FruitVegetableClassifier, self).__init__()
self.model = torch.nn.Sequential(
torch.load(model_path, map_location=torch.device('cpu')) # Memastikan dimuat di CPU
)
self.model.eval()
def forward(self, x):
return self.model(x)
model = FruitVegetableClassifier()
# Fungsi untuk memprediksi kelas
def predict(image):
# Proses gambar di sini (ubah ukuran, normalisasi, dll.)
image = image.convert("RGB")
image = image.resize((224, 224)) # Resize ke ukuran yang diharapkan model
image_tensor = torch.from_numpy(np.array(image)).permute(2, 0, 1).float().unsqueeze(0) # Ubah menjadi tensor
with torch.no_grad():
outputs = model(image_tensor)
predictions = outputs.argmax(dim=1)
return predictions.item()
# Fungsi untuk mengambil informasi nutrisi
def get_nutritional_info(food):
api_key = "3pm2NGZzYongVN1gRjnroVLUpsHC8rKWJFyx5moq"
url = "https://api.nal.usda.gov/fdc/v1/foods/search"
params = {
"query": food,
"pageSize": 5,
"api_key": api_key
}
response = requests.get(url, params=params)
data = response.json()
if "foods" in data and len(data["foods"]) > 0:
nutrients_totals = {
"Energy": 0,
"Carbohydrate, by difference": 0,
"Fiber, total dietary": 0,
"Vitamin C, total ascorbic acid": 0
}
item_count = len(data["foods"])
for food in data["foods"]:
for nutrient in food['foodNutrients']:
nutrient_name = nutrient['nutrientName']
nutrient_value = nutrient['value']
if nutrient_name in nutrients_totals:
nutrients_totals[nutrient_name] += nutrient_value
average_nutrients = {name: total / item_count for name, total in nutrients_totals.items()}
return average_nutrients
else:
return None
# Fungsi utama Gradio
def classify_and_get_nutrition(image):
predicted_class_idx = predict(image)
class_labels = [
'apple', 'banana', 'beetroot', 'bell pepper', 'cabbage', 'capsicum',
'carrot', 'cauliflower', 'chilli pepper', 'corn', 'cucumber',
'eggplant', 'garlic', 'ginger', 'grapes', 'jalepeno', 'kiwi',
'lemon', 'lettuce', 'mango', 'onion', 'orange', 'paprika',
'pear', 'peas', 'pineapple', 'pomegranate', 'potato', 'raddish',
'soy beans', 'spinach', 'sweetcorn', 'sweetpotato', 'tomato',
'turnip', 'watermelon'
]
predicted_label = class_labels[predicted_class_idx]
nutrisi = get_nutritional_info(predicted_label)
if nutrisi:
return {
"Predicted Class": predicted_label,
"Energy (kcal)": nutrisi["Energy"],
"Carbohydrates (g)": nutrisi["Carbohydrate, by difference"],
"Fiber (g)": nutrisi["Fiber, total dietary"],
"Vitamin C (mg)": nutrisi["Vitamin C, total ascorbic acid"]
}
else:
return {
"Predicted Class": predicted_label,
"Nutritional Information": "Not Found"
}
# Antarmuka Gradio
iface = gr.Interface(
fn=classify_and_get_nutrition,
inputs=gr.Image(type="pil"),
outputs=gr.JSON(),
title="Fruits and Vegetables Classifier",
description="Upload an image of a fruit or vegetable to classify and get its nutritional information."
)
iface.launch()