import lxml.etree as gfg import pandas as pd import numpy as np import uuid import openpyxl def generate_clothing_item(name, model, texture_choices): root = gfg.Element("clothingItem") m_MaleModel = gfg.Element("m_MaleModel") m_MaleModel.text = f"{model}_Male" root.append(m_MaleModel) m_FemaleModel = gfg.Element("m_FemaleModel") m_FemaleModel.text = f"{model}_Female" root.append(m_FemaleModel) guid = str(uuid.uuid4()) m_GUID = gfg.Element("m_GUID") m_GUID.text = guid root.append(m_GUID) m_Static = gfg.Element("m_Static") m_Static.text = "false" root.append(m_Static) m_AllowRandomTint = gfg.Element("m_AllowRandomTint") m_AllowRandomTint.text = "false" root.append(m_AllowRandomTint) # Defined by the amount of textures that we're gonna pass for tex in texture_choices: textureChoices = gfg.Element("textureChoices") textureChoices.text = tex root.append(textureChoices) tree = gfg.ElementTree(root) path = r'python_helpers/outputs/output_clothing/' + name + ".xml" with open(path, "wb") as file: tree.write(file, encoding='utf-8', xml_declaration=True, pretty_print=True ) # Add a new part for guid table # # media/clothing/clothingItems/Amputation_Right_Foot.xml # 2600c2ab-bfeb-49c3-b0b5-e21c6d83d5c2 # root_guid = gfg.Element("files") path_guidtable = gfg.Element("path") path_guidtable.text = "media/clothing/clothingItems/" + name + ".xml" root_guid.append(path_guidtable) guid_guidtable = gfg.Element("guid") guid_guidtable.text = guid root_guid.append(guid_guidtable) tree_guid = gfg.ElementTree(root_guid) path_idtable = r'python_helpers/outputs/fileGuidTable.xml' with open(path_idtable, "ab") as file: tree_guid.write(file, encoding='utf-8', pretty_print=True) def generate_recipe(recipe_name, recipe_items, result_name, time, skill_required, tooltip): root_element = f"recipe {recipe_name}\n" root_element += "\t{\n" for item in recipe_items: root_element += f"\t\t{item},\n" root_element += f"\n\n\t\tResult: {result_name},\n" root_element += f"\t\tTime: {time:.2f},\n" root_element += "\t\tNeedToBeLearn: true,\n" root_element += "\t\tCanBeDoneFromFloor: false,\n" root_element += "\t\tOnGiveXP: NoXP_OnGiveXP,\n" root_element += f"\t\tSkillRequired: {skill_required[0]}={skill_required[1]},\n" root_element += "\t\tCategory: Surgeon,\n" root_element += f"\t\tTooltip: {tooltip},\n" root_element += "\t}\n" path = r'python_helpers/outputs/output_recipe/script.txt' with open(path, "at") as file: file.write(root_element) file.close() def generate_item(item_name, weight, item_type, display_category, display_name, icon, tooltip, can_have_holes, clothing_item=None, body_location = None, blood_location = None): root_element = f"item {item_name}\n" root_element += "\t{\n" root_element += f"\t\tWeight = {weight},\n" root_element += f"\t\tType = {item_type},\n" root_element += f"\t\tDisplayCategory = {display_category},\n" root_element += f"\t\tDisplayName = {display_name},\n" if item_type == "Clothing": root_element += f"\t\tClothingItem = {clothing_item},\n" root_element += f"\t\tBodyLocation = {body_location},\n" root_element += f"\t\tBloodLocation = {blood_location},\n" root_element += f"\t\tIcon = {icon},\n" root_element += f"\t\tTooltip = {tooltip},\n" root_element += f"\t\tCanHaveHoles = {can_have_holes.lower()},\n" root_element += "\t}\n" path = r'python_helpers/outputs/output_item/script.txt' with open(path, "at") as file: file.write(root_element) file.close() ########################################################################################### def read_table(file_name: str, table_name: str) -> pd.DataFrame: wb = openpyxl.load_workbook(file_name, read_only= False, data_only = True) # openpyxl does not have table info if read_only is True; data_only means any functions will pull the last saved value instead of the formula for sheetname in wb.sheetnames: # pulls as strings sheet = wb[sheetname] # get the sheet object instead of string if table_name in sheet.tables: # tables are stored within sheets, not within the workbook, although table names are unique in a workbook tbl = sheet.tables[table_name] # get table object instead of string tbl_range = tbl.ref #something like 'C4:F9' break # we've got our table, bail from for-loop data = sheet[tbl_range] # returns a tuple that contains rows, where each row is a tuple containing cells content = [[cell.value for cell in row] for row in data] # loop through those row/cell tuples header = content[0] # first row is column headers rest = content[1:] # every row that isn't the first is data df = pd.DataFrame(rest, columns = header) wb.close() return df ########################################################################################### excel_path = r'python_helpers/modules_prost.xlsx' df_base = read_table(excel_path, "BaseTable") df_top = read_table(excel_path, "TopTable") limbs = ["Hand", "LowerArm"] sides = ["Left", "Right"] prost_bodylocations = ["TOC_ArmRightProsthesis", "TOC_ArmLeftProsthesis"] texture_types = ["Wooden", "Metal"] # CLOTHING GENERATION PASS for base_row in df_base.iterrows(): for top_row in df_top.iterrows(): base_name = base_row[1][0] top_name = top_row[1][0] for limb in limbs: for side in sides: current_name = "Prost_" + side + "_" + limb + "_" + base_name + "_" + top_name texture_choices = {r"Amputations\\Upperarm\\skin01_b"} generate_clothing_item(current_name, "test", texture_choices) # ITEM GENERATION PASS - ASSEMBLED for base_row in df_base.iterrows(): for top_row in df_top.iterrows(): base_id = base_row[1]["Base"] top_id = top_row[1]["Top"] item_id = "Prost_" + base_id + "_" + top_id item_type = "Clothing" weight = "{0:.2f}".format(float(base_row[1]["Weight"]) + float(top_row[1]["Weight"])) display_category = "Prosthesis" display_name = "Prosthesis - " + base_row[1]["Display Name"] + " and " + top_row[1]["Display Name"] for limb in limbs: for side in sides: clothing_item_name = "Prost_" + side + "_" + limb + "_" + base_id + "_" + top_id bl = prost_bodylocations[0] if side == "Right" else prost_bodylocations[1] icon = "metalLeg" generate_item(item_id, weight, item_type, display_category, display_name, icon, "TempTooltip", "false", clothing_item_name, bl, "Hands") # ITEM GENERATION PASS - Single item to assemble stuff def generate_normal_items(df, type): for row in df.iterrows(): item_id = "ProstPart_" + row[1][type] item_type = "Normal" weight = "{0:.2f}".format(float(row[1]["Weight"])) display_category = "Prosthesis" display_name = row[1]["Display Name"] icon = "ProstTest" + type generate_item(item_id, weight, item_type, display_category, display_name, icon, "TempTooltip", "false") generate_normal_items(df_base, "Base") generate_normal_items(df_top, "Top") # RECIPE GENERATION PASS for base_row in df_base.iterrows(): for top_row in df_top.iterrows(): base_name = base_row[1]["Base"] top_name = top_row[1]["Top"] recipe_name = f"Craft prosthesis with {base_name} and {top_name}" first_item = "ProstPart_" + base_row[1]["Base"] second_item = "ProstPart_" + top_row[1]["Top"] recipe_items = [first_item, second_item] result = "Prost_" + base_name + "_" + top_name time = 10 # TODO Change this skill_required = ["FirstAid","2"] # TODO Change this tooltip = "Tooltip_test" generate_recipe(recipe_name, recipe_items, result, time, skill_required, tooltip)