359 lines
16 KiB
Python
359 lines
16 KiB
Python
# main.py
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from functions import *
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from funct_inlay import *
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from funct_wp import *
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from funct_clp import *
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from funct_gen import *
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from funct_probe import *
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import tkinter as tk
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from tkinter import ttk
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import yaml
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folder_parsets = "_cfg_parsets"
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folder_pictures = "cfg_picture"
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folder_output = "_out"
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file_def = "def.yml"
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file_jobs = "jobs.yml"
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name_newparset = "<new parset>"
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name_newjob = "<new job>"
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pic_sizelimit = 250
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def setup_group(frame, group_name, data, input_vars, selected_params, group_widgets):
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group_data = data['groups'][group_name]
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picture_name = group_data['cfg']['picture_name'] # Picture name defined in def.yml
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picture_path = os.path.join(folder_parsets, picture_name) # Full path to the picture
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param_values = get_existing_parameters(group_name, folder_parsets)
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param_values.append(name_newparset)
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param_var = selected_params[group_name] # Bind the dropdown to the corresponding selected_param entry
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multicolumn_idx = group_data['cfg'].get('multicolumn_idx', [])
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colspan = (len(multicolumn_idx)+1)*2
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# Dropdown for parameter sets
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frame_parset = ttk.Frame(frame)
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frame_parset.grid(row=2, column=0, columnspan=colspan, pady=5, sticky="w")
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param_dropdown = ttk.Combobox(frame_parset, textvariable=param_var, values=param_values, width=14)
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group_widgets[group_name] = {"param_dropdown": param_dropdown} # Save for later reference
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source_path = f"{folder_pictures}/{data['general']['notavailablepic_name']}"
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# Dropdown field
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ttk.Label(frame_parset, text="Parameter-Set:", width=14).grid(row=0, column=0, padx=5, pady=5, sticky="w")
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param_dropdown.grid(row=0, column=1, padx=5, pady=5, sticky="w")
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# Function to update the picture based on inputs or use the init picture
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def update_inlay_picture():
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grpnm = group_name
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all_group_vars = {group_name: {key: var.get() for key, var in group_vars.items()} for group_name, group_vars in
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input_vars.items()}
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# Use the source_path if the selected parameter set is the new parameter set placeholder
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# print(param_dropdown.get()) #DEBUG
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if param_dropdown.get() == name_newparset:
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picture_to_use = source_path
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else:
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picture_to_use = picture_path
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if grpnm == "inlay":
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generate_picture_inlay(all_group_vars, picture_to_use)
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elif grpnm == "wp":
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generate_picture_wp(all_group_vars, picture_to_use)
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elif grpnm == "clp":
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generate_picture_clp(all_group_vars, picture_to_use)
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elif grpnm == "probe":
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generate_picture_probe(all_group_vars, picture_to_use)
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group_image_tk = load_image(picture_to_use, pic_sizelimit)
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image_label.configure(image=group_image_tk)
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image_label.image = group_image_tk # Keep a reference to avoid garbage collection
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# Function to load a parameter set
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def load_selected_param():
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selected_param = param_dropdown.get()
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if selected_param != name_newparset:
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param_data = load_yaml(group_name, selected_param, folder_parsets)
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for key, value in param_data.items():
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input_vars[group_name][key].set(value)
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update_inlay_picture()
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# Function to save the current parameter set
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def save_current_param():
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param_name = param_dropdown.get()
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if not param_name == name_newparset:
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if param_name not in param_values and param_name.strip():
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param_values.insert(-1, param_name) # Insert before '<<new parameter set>>'
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param_dropdown['values'] = param_values
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param_dropdown.set(param_name)
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if name_newparset not in param_values:
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param_values.append(name_newparset) # Ensure it's only appended once
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param_data = {key: var.get() for key, var in input_vars[group_name].items()}
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save_yaml(group_name, param_name, param_data, folder_parsets)
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update_inlay_picture()
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# Function to delete the current parameter set
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def delete_current_param():
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param_name = param_dropdown.get()
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if param_name in param_values and param_name != name_newparset:
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confirm = messagebox.askyesno("Delete Parameter", f"Are you sure you want to delete '{param_name}'?")
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if confirm:
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delete_yaml(group_name, param_name, folder_parsets)
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param_values.remove(param_name)
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if name_newparset not in param_values:
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param_values.append(name_newparset) # Ensure it's only appended once
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# If there are any parameter sets left, select the next one; otherwise, show name_newparset
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if param_values and param_values[0] != name_newparset:
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param_dropdown['values'] = param_values
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param_dropdown.set(param_values[0]) # Select the first remaining parameter set
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load_selected_param() # Load the values of the first remaining parameter set
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else:
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# If no parameter sets left, show name_newparset
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param_dropdown['values'] = [name_newparset]
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param_dropdown.set(name_newparset)
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# Clear the input fields when no parameter sets are left
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for key in input_vars[group_name]:
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input_vars[group_name][key].set('')
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# Show original picture
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update_inlay_picture()
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# Detect and save a new parameter set if entered via dropdown (press Enter)
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def on_enter_new_param(event):
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selected_param = param_dropdown.get()
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if selected_param not in param_values and selected_param.strip():
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param_values.insert(-1, selected_param)
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param_dropdown['values'] = param_values
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save_current_param()
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param_dropdown.set(selected_param)
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if name_newparset not in param_values:
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param_values.append(name_newparset) # Ensure it's only appended once
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update_inlay_picture()
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# Load and display the specific group picture
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group_image_tk = load_image(source_path, pic_sizelimit)
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image_label = ttk.Label(frame, image=group_image_tk)
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image_label.image = group_image_tk # Keep a reference to avoid garbage collection
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image_label.grid(row=0, column=0, columnspan=colspan, padx=10, pady=10, sticky="") # Center the image in the middle
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frame.grid_rowconfigure(0, minsize=230)
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# Add horizontal line
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ttk.Separator(frame, orient='horizontal').grid(row=1, column=0, columnspan=colspan, sticky="ew", pady=10)
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# buttons for save/load/delete
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ttk.Button(frame_parset, text="Save", width=12, command=save_current_param).grid(row=1, column=0, padx=5, pady=5, sticky="w")
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ttk.Button(frame_parset, text="Delete", width=12, command=delete_current_param).grid(row=1, column=1, padx=5, pady=5, sticky="w")
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# Add horizontal line
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ttk.Separator(frame, orient='horizontal').grid(row=3, column=0, columnspan=colspan, sticky="ew", pady=10)
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# Setup input fields below dropdown and buttons
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row = 0
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col = 0
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group_vars = {}
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frame_var = ttk.Frame(frame) # Kein Innenabstand mehr
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frame_var.grid(row=4, column=0, columnspan=colspan, padx=5, pady=5, sticky="nsew")
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for idx, (var_name, _) in enumerate(group_data['parameter'].items()):
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if idx+1 in multicolumn_idx:
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col += 2
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row = 0
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ttk.Label(frame_var, text=VarDescription(var_name), font=("TkDefaultFont", 8)).grid(row=row, column=col, padx=5, pady=5, sticky="e")
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var = tk.StringVar()
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group_vars[var_name] = var
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ttk.Entry(frame_var, textvariable=var, font=("TkDefaultFont", 8), width=7).grid(row=row, column=col + 1, padx=5, pady=5, sticky="w")
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row += 1
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input_vars[group_name] = group_vars
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# Automatically select and load the first parameter set
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if param_values and param_values[0] != name_newparset:
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param_var.set(param_values[0])
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load_selected_param() # Directly load the first parameter set
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else:
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param_var.set(name_newparset) # If no parameters available, set to default
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# Bind the dropdown selection event
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param_dropdown.bind("<<ComboboxSelected>>", lambda event: load_selected_param())
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# Bind the Enter key to detect when a new parameter set is typed and saved
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param_dropdown.bind("<Return>", on_enter_new_param)
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# Automatically generate and display the picture at startup
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update_inlay_picture()
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def setup_jobs(frame, data, selected_job, selected_params, input_vars, group_widgets):
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# Load existing jobs from the jobs.yml file
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job_values = get_existing_parameters("jobs", folder_parsets)
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job_values.append(name_newjob)
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# Function to load selected job and update each group
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def load_selected_job():
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job_name = selected_job.get()
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if job_name != name_newjob:
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job_data = load_yaml("jobs", job_name, folder_parsets)
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# Update the parameter sets for each group according to the job
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for group_name, param_set in job_data.items():
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if group_name in selected_params:
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# Check if the parameter set exists for the group
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param_values = get_existing_parameters(group_name, folder_parsets)
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if param_set not in param_values:
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# If parameter set is missing, set to <<new par set>> and clear fields
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selected_params[group_name].set(name_newparset)
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clear_input_fields(group_name)
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else:
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selected_params[group_name].set(param_set)
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# Manually trigger the parameter dropdown change for the group
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param_dropdown = group_widgets[group_name]["param_dropdown"]
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param_dropdown.set(param_set) # Update dropdown to show selected set
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param_dropdown.event_generate("<<ComboboxSelected>>")
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# Function to clear the input fields when a parameter set is missing
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def clear_input_fields(group_name):
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for key in input_vars[group_name]:
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input_vars[group_name][key].set('') # Clear the input fields
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# Function to save the current job
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def save_current_job():
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job_name = selected_job.get()
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if not job_name == name_newjob:
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if job_name not in job_values and job_name.strip():
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job_values.insert(-1, job_name) # Insert before '<<new job>>'
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selected_job.set(job_name)
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job_data = {group_name: selected_params[group_name].get() for group_name in data['groups']}
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save_yaml("jobs", job_name, job_data, folder_parsets)
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# Update job dropdown after saving a new job
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job_dropdown['values'] = job_values
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job_dropdown.set(job_name)
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# Function to delete the selected job
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def delete_current_job():
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job_name = selected_job.get()
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if job_name in job_values and job_name != name_newjob:
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confirm = messagebox.askyesno("Delete Job", f"Are you sure you want to delete '{job_name}'?")
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if confirm:
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delete_yaml("jobs", job_name, folder_parsets)
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job_values.remove(job_name)
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selected_job.set(job_values[0] if job_values else name_newjob)
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# Update job dropdown after deletion
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job_dropdown['values'] = job_values
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load_selected_job()
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# Job dropdown and buttons for save/load/delete
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ttk.Label(frame, text="Job:").grid(row=0, column=0, padx=5, pady=5, sticky="w")
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job_dropdown = ttk.Combobox(frame, textvariable=selected_job, values=job_values)
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job_dropdown.grid(row=0, column=1, padx=5, pady=5)
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ttk.Button(frame, text="Save", command=save_current_job).grid(row=0, column=2, padx=5, pady=5, sticky="w")
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ttk.Button(frame, text="Delete", command=delete_current_job).grid(row=0, column=3, padx=5, pady=5, sticky="w")
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# Bind job selection to loading the selected job and updating the groups
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job_dropdown.bind("<<ComboboxSelected>>", lambda event: load_selected_job())
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job_dropdown.bind("<Return>", lambda event: save_current_job())
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# After setting up all UI components
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if job_values and job_values[0] != name_newjob:
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selected_job.set(job_values[0]) # Select the first job automatically
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load_selected_job() # Load the first job's parameters and update the corresponding parameter sets
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return load_selected_job
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def setup_evaluation(root, folder_pictures, data, folder_output, input_vars, selected_params):
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# Create a frame for the EVALUATION section
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frame = ttk.LabelFrame(root, text="EVALUATION", padding=(10, 10))
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frame.grid(row=2, column=0, columnspan=5, padx=10, pady=10, sticky="nsew")
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# Load and display the specific initial picture
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picture_path = f"{folder_pictures}/{data['general']['generatorpic_name']}"
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group_image_tk = load_image(picture_path, 100) # Assuming a function load_image exists and works as expected
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image_label = ttk.Label(frame, image=group_image_tk)
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image_label.image = group_image_tk # Keep a reference to avoid garbage collection
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image_label.grid(row=0, column=0, rowspan=2, padx=10, pady=10)
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# Function to generate configuration file based on current parameters
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def btn_gen_cfg_dmuaut1():
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gen_cfg_dmuaut(folder_output, input_vars, selected_params)
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# def btn_gen_cfg_dmuaut2():
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# gen_cfg_dmuaut(folder_output, input_vars, selected_params, filetransfer=True)
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# def btn_gen_cfg_inlay1():
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# gen_cfg_inlay(folder_output, input_vars, selected_params)
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# def btn_gen_cfg_inlay2():
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# gen_cfg_inlay(folder_output, input_vars, selected_params, filetransfer=True)
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# Place buttons in the vertical frame for operations
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button_frame = ttk.Frame(frame)
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button_frame.grid(row=0, column=1, padx=10, pady=10, sticky="n")
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button1 = ttk.Button(button_frame, text="GEN CFG_DMUAUT.SPF FILE", width=45, command=btn_gen_cfg_dmuaut1)
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button1.grid(row=0, column=0, padx=10, pady=5)
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# button2 = ttk.Button(button_frame, text="GEN+TRANSFER CFG_DMUAUT.SPF FILE", width=45, command=btn_gen_cfg_dmuaut2)
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#button2.grid(row=0, column=1, padx=10, pady=5)
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#button3 = ttk.Button(button_frame, text="GEN CFG_INLAY.SPF FILE", width=45, command=btn_gen_cfg_inlay1)
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#button3.grid(row=1, column=0, padx=5, pady=5)
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#button4 = ttk.Button(button_frame, text="GEN+TRANSFER CFG_INLAY.SPF FILE", width=45, command=btn_gen_cfg_inlay2)
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#button4.grid(row=1, column=1, padx=5, pady=5)
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# Drag-and-Drop File Field
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def main():
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# Tkinter root setup
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root = tk.Tk()
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root.title("DMU50")
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root.geometry("+0+0")
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# Load object definitions from YAML
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with open(file_def, 'r') as file:
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data = yaml.safe_load(file)
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input_vars = {}
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selected_params = {} # Dictionary to track selected parameters for each group
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selected_job = tk.StringVar()
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group_widgets = {} # Dictionary to store widgets related to groups
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def setup_ui():
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# ---- Setup Jobs UI
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frame = ttk.LabelFrame(root, text="Jobs", padding=(10, 10))
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frame.grid(row=0, column=0, columnspan=len(data['groups']), padx=10, pady=10, sticky="nsew")
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load_selected_job = setup_jobs(frame, data, selected_job, selected_params, input_vars, group_widgets)
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# ---- Create the UI for each group
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for col_idx, group_name in enumerate(data['groups']):
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frame_group = ttk.LabelFrame(root, text=VarDescription(group_name), padding=(10, 10))
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frame_group.grid(row=1, column=col_idx, padx=10, pady=10, sticky="nsew")
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selected_params[group_name] = tk.StringVar()
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setup_group(frame_group, group_name, data, input_vars, selected_params, group_widgets)
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root.grid_columnconfigure(list(range(col_idx + 1)), weight=1)
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root.grid_rowconfigure(0, weight=1)
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# ---- Setup the EVALUATION section
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setup_evaluation(root, folder_pictures, data, folder_output, input_vars, selected_params)
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# After the UI is fully set up, load the selected job to update parameter lists
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load_selected_job() # Ensure this is called to load the job parameters
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# Show the window after setup is complete
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root.deiconify()
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# Initially hide the root window
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root.withdraw()
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# Delay UI setup by 1000 milliseconds (1 second)
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root.after(300, setup_ui)
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# Start the Tkinter event loop
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root.mainloop()
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if __name__ == "__main__":
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main()
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