import gradio as gr import subprocess import os # APDL Script for ANSYS apdl_script = """/CLEAR ! Clear any existing database /PREP7 ! Enter preprocessor ! Define material properties MP, EX, 1, 210E3 ! Young's Modulus (e.g., Steel) MP, PRXY, 1, 0.3 ! Poisson's Ratio ! Define geometry (e.g., a rectangular plate) RECTNG, 0, 100, 0, 50 ! Rectangle from (0,0) to (100,50) ! Define element type and mesh ET, 1, PLANE183 ! 2D structural element ESIZE, 5 ! Set element size AMESH, ALL ! Mesh the area ! Apply boundary conditions D, NODE(0, 0), ALL, 0 ! Fix the bottom-left corner D, NODE(100, 0), UY, 0 ! Restrict vertical movement at bottom-right ! Apply loads F, NODE(50, 50), FX, 1000 ! Apply a horizontal load at the top-middle node ! Solve FINISH ! Exit preprocessor /SOLU ! Enter solution processor ANTYPE, 0 ! Static analysis SOLVE ! Solve the system FINISH ! Exit solution processor ! Post-processing for 2D view /POST1 ! Enter post-processor PLNSOL, U, SUM ! Plot nodal displacement (2D view) /IMAGE, SAVE, '2D_View', JPG ! Save 2D view as an image ! Post-processing for 3D view /VIEW, 1, 1, 1, 1 ! Set 3D view (isometric) /DV3D ! Enable dynamic 3D view PLNSOL, S, EQV ! Plot equivalent stress (3D view) /IMAGE, SAVE, '3D_View', JPG ! Save 3D view as an image ! Exit ANSYS FINISH """ def upload_step_file(file): """Function to handle STEP file upload.""" return f"STEP file '{file.name}' uploaded successfully." def modify_apdl_script(modified_script): """Function to modify and save the APDL script.""" global apdl_script apdl_script = modified_script return "APDL script updated successfully." def execute_script(): """Function to execute the APDL script using ANSYS.""" global apdl_script # Save the APDL script to a file script_file = "script.dat" with open(script_file, "w") as f: f.write(apdl_script) # Define ANSYS execution command #ansys_command = [ # "ansys", # Replace with the full path to your ANSYS executable # "-b", # Batch mode # "-i", script_file, # Input script # "-o", "output.log" # Output log ansys_command = [ "C:\\Program Files\\ANSYS Inc\\v211\\ansys.exe", # Replace with actual path "-b", "-i", script_file, "-o", "output.log" ] ] try: # Run the command subprocess.run(ansys_command, check=True) return "APDL script executed. Check generated views (2D_View.jpg, 3D_View.jpg)." except subprocess.CalledProcessError as e: return f"Error executing APDL script: {e}" def get_generated_images(): """Return the generated 2D and 3D view images if they exist.""" if os.path.exists("2D_View.jpg") and os.path.exists("3D_View.jpg"): return "2D_View.jpg", "3D_View.jpg" else: return None, None # Gradio interface with gr.Blocks() as app: gr.Markdown("# ANSYS APDL Script for 2D and 3D Views") with gr.Row(): step_file = gr.File(label="Upload STEP File") step_output = gr.Text(label="Upload Status") step_file.upload(upload_step_file, inputs=step_file, outputs=step_output) with gr.Row(): apdl_view = gr.Textbox(apdl_script, lines=20, label="APDL Script") modify_button = gr.Button("Save Changes") modify_button.click(modify_apdl_script, inputs=apdl_view, outputs=step_output) with gr.Row(): execute_button = gr.Button("Run Script") execution_output = gr.Text(label="Execution Status") execute_button.click(execute_script, outputs=execution_output) with gr.Row(): gr.Markdown("## Generated Images") view_2d = gr.Image(label="2D View", interactive=False) view_3d = gr.Image(label="3D View", interactive=False) refresh_button = gr.Button("Refresh Images") refresh_button.click(get_generated_images, outputs=[view_2d, view_3d]) app.launch()