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import gradio as gr
import requests
import os
# Load environment variables from Hugging Face Secrets
MATH_ENGINE_URL = "https://abhlash-mathengine.hf.space/calculate"
# Gradio Interface
history = []
current_input = ""
def gradio_calculate(a, b, operation):
url = MATH_ENGINE_URL
payload = {"a": a, "b": b, "operation": operation}
headers = {"Content-Type": "application/json"}
response = requests.post(url, json=payload, headers=headers)
result = response.json().get("result", "Error: " + response.json().get("detail", "Unknown error"))
history.append(f"{a} {operation} {b} = {result}")
return "\n".join(history)
def update_input(digit):
global current_input
current_input += str(digit)
return current_input
def clear_input():
global current_input
current_input = ""
return current_input
def backspace():
global current_input
current_input = current_input[:-1]
return current_input
def test_fastapi(a, b, operation):
url = MATH_ENGINE_URL
payload = {"a": a, "b": b, "operation": operation}
headers = {"Content-Type": "application/json"}
response = requests.post(url, json=payload, headers=headers)
return response.json()
def create_interface():
with gr.Blocks() as demo:
a = gr.Number(label="A", interactive=True)
b = gr.Number(label="B", interactive=True)
result = gr.Textbox(label="Result", lines=10, interactive=False)
current = gr.Textbox(label="Current Input", interactive=False)
with gr.Row():
for i in range(10):
gr.Button(str(i)).click(lambda x=i: update_input(x), inputs=[], outputs=current)
gr.Button("Back").click(backspace, inputs=[], outputs=current)
gr.Button("Clear").click(clear_input, inputs=[], outputs=current)
with gr.Row():
gr.Button("Set A").click(lambda x: float(current_input), inputs=[], outputs=a)
gr.Button("Set B").click(lambda x: float(current_input), inputs=[], outputs=b)
with gr.Row():
gr.Button("Add").click(lambda a, b: gradio_calculate(a, b, "add"), inputs=[a, b], outputs=result)
gr.Button("Subtract").click(lambda a, b: gradio_calculate(a, b, "subtract"), inputs=[a, b], outputs=result)
gr.Button("Multiply").click(lambda a, b: gradio_calculate(a, b, "multiply"), inputs=[a, b], outputs=result)
gr.Button("Divide").click(lambda a, b: gradio_calculate(a, b, "divide"), inputs=[a, b], outputs=result)
gr.Button("Power").click(lambda a, b: gradio_calculate(a, b, "power"), inputs=[a, b], outputs=result)
gr.Button("Modulus").click(lambda a, b: gradio_calculate(a, b, "modulus"), inputs=[a, b], outputs=result)
gr.Button("Square Root").click(lambda a: gradio_calculate(a, None, "sqrt"), inputs=[a], outputs=result)
gr.Button("Log").click(lambda a: gradio_calculate(a, None, "log"), inputs=[a], outputs=result)
gr.Button("Log10").click(lambda a: gradio_calculate(a, None, "log10"), inputs=[a], outputs=result)
gr.Button("Sin").click(lambda a: gradio_calculate(a, None, "sin"), inputs=[a], outputs=result)
gr.Button("Cos").click(lambda a: gradio_calculate(a, None, "cos"), inputs=[a], outputs=result)
gr.Button("Tan").click(lambda a: gradio_calculate(a, None, "tan"), inputs=[a], outputs=result)
gr.Button("Asin").click(lambda a: gradio_calculate(a, None, "asin"), inputs=[a], outputs=result)
gr.Button("Acos").click(lambda a: gradio_calculate(a, None, "acos"), inputs=[a], outputs=result)
gr.Button("Atan").click(lambda a: gradio_calculate(a, None, "atan"), inputs=[a], outputs=result)
gr.Button("Factorial").click(lambda a: gradio_calculate(a, None, "factorial"), inputs=[a], outputs=result)
return demo
def run_gradio():
demo = create_interface()
demo.launch()
if __name__ == "__main__":
run_gradio() |