197 lines
9.0 KiB
Python
Executable File
197 lines
9.0 KiB
Python
Executable File
#!/usr/bin/env python3
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import json
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import os
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import re
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import openpyxl
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from openpyxl.utils import get_column_letter
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from direct_xml_update import update_excel_with_direct_xml
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def update_excel_variables(excel_path):
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"""
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Update the Variables sheet in the Excel file with values from config.json
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Args:
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excel_path (str): Path to the Excel file to update
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Returns:
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bool: True if successful, False otherwise
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"""
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# Define paths
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script_dir = os.path.dirname(os.path.abspath(__file__))
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config_path = os.path.join(script_dir, 'config.json')
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try:
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# Load config.json
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with open(config_path, 'r') as f:
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config = json.load(f)
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user_data = config.get('user_data', {})
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# Load Excel workbook
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print(f"Opening Excel file: {excel_path}")
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wb = openpyxl.load_workbook(excel_path)
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# Try to access the Variables sheet
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try:
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# First try by name
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sheet = wb['Variables']
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except KeyError:
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# If not found by name, try to access the last sheet
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sheet_names = wb.sheetnames
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if sheet_names:
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print(f"Variables sheet not found by name. Using last sheet: {sheet_names[-1]}")
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sheet = wb[sheet_names[-1]]
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else:
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print("No sheets found in the workbook")
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return False
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# Map config variables to Excel cells based on the provided mapping
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cell_mappings = {
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'B2': user_data.get('store_name', ''),
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'B31': user_data.get('starting_date', ''),
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'B32': user_data.get('duration', 36),
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'B37': user_data.get('open_days_per_month', 0),
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# Convenience store type
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'H37': user_data.get('convenience_store_type', {}).get('stores_number', 0),
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'C37': user_data.get('convenience_store_type', {}).get('monthly_transactions', 0),
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# Convert boolean to 1/0 for has_digital_screens
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'I37': 1 if user_data.get('convenience_store_type', {}).get('has_digital_screens', False) else 0,
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'J37': user_data.get('convenience_store_type', {}).get('screen_count', 0),
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'K37': user_data.get('convenience_store_type', {}).get('screen_percentage', 0),
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# Convert boolean to 1/0 for has_in_store_radio
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'M37': 1 if user_data.get('convenience_store_type', {}).get('has_in_store_radio', False) else 0,
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'N37': user_data.get('convenience_store_type', {}).get('radio_percentage', 0),
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# Supermarket store type
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'H38': user_data.get('supermarket_store_type', {}).get('stores_number', 0),
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'C38': user_data.get('supermarket_store_type', {}).get('monthly_transactions', 0),
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# Convert boolean to 1/0 for has_digital_screens
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'I38': 1 if user_data.get('supermarket_store_type', {}).get('has_digital_screens', False) else 0,
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'J38': user_data.get('supermarket_store_type', {}).get('screen_count', 0),
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'K38': user_data.get('supermarket_store_type', {}).get('screen_percentage', 0),
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# Convert boolean to 1/0 for has_in_store_radio
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'M38': 1 if user_data.get('supermarket_store_type', {}).get('has_in_store_radio', False) else 0,
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'N38': user_data.get('supermarket_store_type', {}).get('radio_percentage', 0),
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# Hypermarket store type
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'H39': user_data.get('hypermarket_store_type', {}).get('stores_number', 0),
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'C39': user_data.get('hypermarket_store_type', {}).get('monthly_transactions', 0),
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# Convert boolean to 1/0 for has_digital_screens
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'I39': 1 if user_data.get('hypermarket_store_type', {}).get('has_digital_screens', False) else 0,
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'J39': user_data.get('hypermarket_store_type', {}).get('screen_count', 0),
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'K39': user_data.get('hypermarket_store_type', {}).get('screen_percentage', 0),
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# Convert boolean to 1/0 for has_in_store_radio
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'M39': 1 if user_data.get('hypermarket_store_type', {}).get('has_in_store_radio', False) else 0,
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'N39': user_data.get('hypermarket_store_type', {}).get('radio_percentage', 0),
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# On-site channels
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'B43': user_data.get('website_visitors', 0),
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'B44': user_data.get('app_users', 0),
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'B45': user_data.get('loyalty_users', 0),
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# Off-site channels
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'B49': user_data.get('facebook_followers', 0),
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'B50': user_data.get('instagram_followers', 0),
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'B51': user_data.get('google_views', 0),
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'B52': user_data.get('email_subscribers', 0),
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'B53': user_data.get('sms_users', 0),
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'B54': user_data.get('whatsapp_contacts', 0)
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}
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# Update the cells
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for cell_ref, value in cell_mappings.items():
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try:
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# Force the value to be set, even if the cell is protected or has data validation
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cell = sheet[cell_ref]
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cell.value = value
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print(f"Updated {cell_ref} with value: {value}")
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except Exception as e:
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print(f"Error updating cell {cell_ref}: {e}")
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# Save the workbook immediately after updating the cells
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print("Saving workbook after updating variables...")
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wb.save(excel_path)
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# Update sheet names - replace {store_name} with actual store name
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store_name = user_data.get('store_name', '')
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if store_name:
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# Dictionary to store old sheet name to new sheet name mappings
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sheet_name_mapping = {}
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# Make a copy of the sheet names to avoid modifying during iteration
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sheet_names = wb.sheetnames.copy()
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for sheet_name in sheet_names:
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if '{store_name}' in sheet_name:
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new_sheet_name = sheet_name.replace('{store_name}', store_name)
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# Get the sheet by its old name
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sheet = wb[sheet_name]
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# Set the new title
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sheet.title = new_sheet_name
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# Store the mapping
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sheet_name_mapping[sheet_name] = new_sheet_name
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print(f"Renamed sheet '{sheet_name}' to '{new_sheet_name}'")
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# Use direct XML modification to replace all instances of {store_name}
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print("Using direct XML modification to update all formulas...")
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modified_file = update_excel_with_direct_xml(excel_path, store_name)
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if modified_file and os.path.exists(modified_file):
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# Use the modified file instead of the original
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print(f"Using modified file: {modified_file}")
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# Copy the modified file back to the original location
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import shutil
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shutil.copy2(modified_file, excel_path)
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# Remove the modified file
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os.remove(modified_file)
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# Reload the workbook to get the changes
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wb = openpyxl.load_workbook(excel_path)
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# Re-apply the variables to make sure they weren't overwritten
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print("Re-applying variables after XML modification...")
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try:
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sheet = wb['Variables']
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for cell_ref, value in cell_mappings.items():
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try:
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cell = sheet[cell_ref]
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cell.value = value
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print(f"Re-applied {cell_ref} with value: {value}")
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except Exception as e:
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print(f"Error re-applying cell {cell_ref}: {e}")
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# Save the workbook again
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wb.save(excel_path)
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except Exception as e:
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print(f"Error re-applying variables: {e}")
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# Save the workbook
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wb.save(excel_path)
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print(f"Excel file updated successfully: {excel_path}")
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return True
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except Exception as e:
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print(f"Error updating Excel file: {e}")
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return False
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def update_formula_references(workbook, sheet_name_mapping):
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"""
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This function is no longer used directly - we now use direct_xml_update.py instead.
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It's kept here for backward compatibility.
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Args:
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workbook: The openpyxl workbook object
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sheet_name_mapping: Dictionary mapping old sheet names to new sheet names
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"""
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# This function is now just a placeholder
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# The actual work is done by update_excel_with_direct_xml in direct_xml_update.py
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print("Using direct XML modification approach instead of formula reference updating")
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return 0
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if __name__ == "__main__":
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# For testing purposes
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import sys
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if len(sys.argv) > 1:
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excel_path = sys.argv[1]
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update_excel_variables(excel_path)
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else:
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print("Please provide the path to the Excel file as an argument")
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