import gradio as gr def health_monitoring(bp_sys, bp_dia, temp, heart_rate, spo2): messages = [] if bp_sys > 140 or bp_dia > 90: messages.append("⚠️ Umuvuduko w’amaraso uri hejuru cyane.") elif bp_sys < 90 or bp_dia < 60: messages.append("⚠️ Umuvuduko w’amaraso uri hasi cyane.") else: messages.append("✅ Umuvuduko w’amaraso uri mu rugero rwiza.") if temp > 38: messages.append("⚠️ Ubushyuhe bw’umubiri buri hejuru, hashobora kuba indwara.") elif temp < 36: messages.append("⚠️ Ubushyuhe bw’umubiri buri hasi cyane.") else: messages.append("✅ Ubushyuhe bw’umubiri buri mu rugero.") if heart_rate > 100: messages.append("⚠️ Umuvuduko w’imitima uri hejuru.") elif heart_rate < 60: messages.append("⚠️ Umuvuduko w’imitima uri hasi.") else: messages.append("✅ Umuvuduko w’imitima uri mu rugero rwiza.") if spo2 < 95: messages.append("⚠️ Oxygen saturation iri hasi, bishobora kuba ikibazo.") else: messages.append("✅ Oxygen saturation iri mu rugero rwiza.") alerts = [m for m in messages if m.startswith("⚠️")] if alerts: messages.append("\n⚠️ Inama: Gana muganga vuba.") else: messages.append("\n✅ Uruhare rwawe ni rwiza, komereza aho.") return "\n".join(messages) def adjust_value(value, delta, min_val, max_val): new_val = value + delta if new_val < min_val: new_val = min_val if new_val > max_val: new_val = max_val return new_val with gr.Blocks() as demo: gr.Markdown("## Healthcare Monitoring System ") bp_sys = gr.Slider(50, 200, step=1, label="Umuvuduko w'amaraso (Systolic)", value=120) bp_dia = gr.Slider(30, 130, step=1, label="Umuvuduko w'amaraso (Diastolic)", value=80) temp = gr.Slider(30.0, 42.0, step=0.1, label="Ubushyuhe bw'umubiri (°C)", value=36.5) heart_rate = gr.Slider(30, 150, step=1, label="Umuvuduko w'imitima (bpm)", value=75) spo2 = gr.Slider(70, 100, step=1, label="Oxygen Saturation (%)", value=98) output = gr.Textbox(label="Ibisubizo bya viateur AI", lines=12) # Function to update all values and output after adjustments def update_all(bp_sys_val, bp_dia_val, temp_val, heart_rate_val, spo2_val): return health_monitoring(bp_sys_val, bp_dia_val, temp_val, heart_rate_val, spo2_val) # Buttons for bp_sys bp_sys_inc = gr.Button("+") bp_sys_dec = gr.Button("-") # Buttons for bp_dia bp_dia_inc = gr.Button("+") bp_dia_dec = gr.Button("-") # Buttons for temp temp_inc = gr.Button("+") temp_dec = gr.Button("-") # Buttons for heart_rate heart_rate_inc = gr.Button("+") heart_rate_dec = gr.Button("-") # Buttons for spo2 spo2_inc = gr.Button("+") spo2_dec = gr.Button("-") # Layout with gr.Row(): gr.Column([bp_sys, bp_sys_dec, bp_sys_inc]) gr.Column([bp_dia, bp_dia_dec, bp_dia_inc]) with gr.Row(): gr.Column([temp, temp_dec, temp_inc]) gr.Column([heart_rate, heart_rate_dec, heart_rate_inc]) gr.Column([spo2, spo2_dec, spo2_inc]) # Connect buttons to update sliders and output bp_sys_inc.click( lambda val: adjust_value(val, 1, 50, 200), bp_sys, bp_sys) bp_sys_dec.click( lambda val: adjust_value(val, -1, 50, 200), bp_sys, bp_sys) bp_dia_inc.click( lambda val: adjust_value(val, 1, 30, 130), bp_dia, bp_dia) bp_dia_dec.click( lambda val: adjust_value(val, -1, 30, 130), bp_dia, bp_dia) temp_inc.click( lambda val: adjust_value(val, 0.1, 30.0, 42.0), temp, temp) temp_dec.click( lambda val: adjust_value(val, -0.1, 30.0, 42.0), temp, temp) heart_rate_inc.click( lambda val: adjust_value(val, 1, 30, 150), heart_rate, heart_rate) heart_rate_dec.click( lambda val: adjust_value(val, -1, 30, 150), heart_rate, heart_rate) spo2_inc.click( lambda val: adjust_value(val, 1, 70, 100), spo2, spo2) spo2_dec.click( lambda val: adjust_value(val, -1, 70, 100), spo2, spo2) # When any slider changes, update output for slider in [bp_sys, bp_dia, temp, heart_rate, spo2]: slider.change( fn=update_all, inputs=[bp_sys, bp_dia, temp, heart_rate, spo2], outputs=output ) # Also update output when buttons clicked by triggering slider change for slider in [bp_sys, bp_dia, temp, heart_rate, spo2]: slider.change( fn=update_all, inputs=[bp_sys, bp_dia, temp, heart_rate, spo2], outputs=output ) # Show initial values result output.value = health_monitoring(120, 80, 36.5, 75, 98) demo.launch()