From fef6848336ae9c4518e4ce3ce3acffd27d2a1e12 Mon Sep 17 00:00:00 2001 From: Survivalful Date: Wed, 25 Mar 2026 12:55:57 +0000 Subject: [PATCH] Upload files to "/" --- main.py | 1130 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1130 insertions(+) create mode 100644 main.py diff --git a/main.py b/main.py new file mode 100644 index 0000000..4e13018 --- /dev/null +++ b/main.py @@ -0,0 +1,1130 @@ +import tkinter as tk +from tkinter import messagebox +import math +import platform +import os +import sys +import datetime +import json +import sqlite3 + +def resource_path(relative_path): + if hasattr(sys, '_MEIPASS'): + return os.path.join(sys._MEIPASS, relative_path) + return os.path.join(os.path.dirname(__file__), relative_path) + +APP_DIR = os.path.join(os.environ.get("LOCALAPPDATA", os.path.expanduser("~")), "Survivalcalc") +SETTINGS_FILE = os.path.join(APP_DIR, "settings.json") +DB_FILE = os.path.join(APP_DIR, "history.db") +os.makedirs(APP_DIR, exist_ok=True) + +LANG = { + "DE": { + "menu": "Menü", + "info": "Info", + "calculator": "Rechner", + "shape": "Formen", + "area": "Fläche", + "volume": "Volumen", + "settings": "Einstellungen", + "exit": "Beenden", + "history": "Verlauf", + "appearance": "Darstellung", + "dark_mode": "Dark Mode", + "toggle": "Wechseln", + "on": "Ein ✓", + "off": "Aus", + "rounding": "Rundung", + "rounding_active":"Rundung aktiv", + "decimal_places":"Nachkommastellen", + "units": "Einheiten", + "default_unit": "Standardeinheit", + "language": "Sprache", + "delete_history":"Verlauf löschen", + "reset_settings":"Einstellungen zurücksetzen", + "confirm_del_h": "Verlauf wirklich löschen?", + "confirm_reset": "Einstellungen wirklich zurücksetzen?", + "yes": "Ja", + "no": "Nein", + "app_info": "App", + "support": "Support", + "system": "System", + "version": "Version", + "release": "Release", + "status": "Status", + "license": "Lizenz", + "installed": "Installiert am", + "website": "Website", + "email": "E-Mail", + "os": "Betriebssystem", + "os_version": "Version", + "arch": "Architektur", + "python": "Python-Version", + "error": "Bitte eine gültige Zahl eingeben.", + "area_square": "Fläche – Quadrat", + "area_rect": "Fläche – Rechteck", + "area_circle": "Fläche – Kreis", + "area_tri": "Fläche – Dreieck", + "area_trap": "Fläche – Trapez", + "area_cyl": "Fläche – Zylinder", + "area_sphere": "Fläche – Kugel", + "area_cone": "Fläche – Kegel", + "vol_cube": "Volumen – Würfel", + "vol_rect": "Volumen – Quader", + "vol_cyl": "Volumen – Zylinder", + "vol_cone": "Volumen – Kegel", + "vol_sphere": "Volumen – Kugel", + "vol_tetra": "Volumen – Tetraeder", + "vol_trap": "Volumen – Trapezprisma", + "side": "Seite", + "radius": "Radius r:", + "diameter": "Durchmesser d:", + "height": "Höhe h:", + "width": "Breite w:", + "length": "Länge l:", + "base": "Grundlinie g:", + "slant": "Mantellinie l:", + "depth": "Tiefe i:", + "with_radius": "Mit Radius", + "with_diameter": "Mit Durchmesser", + "result_area": "A", + "result_vol": "V", + "cube": "Würfel", + "rect_prism": "Quader", + "cylinder": "Zylinder", + "cone": "Kegel", + "sphere": "Kugel", + "tetrahedron": "Tetraeder", + "trap_prism": "Trapezprisma", + "square": "Quadrat", + "rectangle": "Rechteck", + "circle": "Kreis", + "triangle": "Dreieck", + "trapezoid": "Trapez", + }, + "EN": { + "menu": "Menu", + "info": "Info", + "calculator": "Calculator", + "shape": "Shapes", + "area": "Area", + "volume": "Volume", + "settings": "Settings", + "exit": "Exit", + "history": "History", + "appearance": "Appearance", + "dark_mode": "Dark Mode", + "toggle": "Toggle", + "on": "On ✓", + "off": "Off", + "rounding": "Rounding", + "rounding_active":"Rounding active", + "decimal_places":"Decimal places", + "units": "Units", + "default_unit": "Default unit", + "language": "Language", + "delete_history":"Delete history", + "reset_settings":"Reset settings", + "confirm_del_h": "Really delete history?", + "confirm_reset": "Really reset settings?", + "yes": "Yes", + "no": "No", + "app_info": "App", + "support": "Support", + "system": "System", + "version": "Version", + "release": "Release", + "status": "Status", + "license": "License", + "installed": "Installed on", + "website": "Website", + "email": "E-Mail", + "os": "Operating system", + "os_version": "Version", + "arch": "Architecture", + "python": "Python version", + "error": "Please enter a valid number.", + "area_square": "Area – Square", + "area_rect": "Area – Rectangle", + "area_circle": "Area – Circle", + "area_tri": "Area – Triangle", + "area_trap": "Area – Trapezoid", + "area_cyl": "Area – Cylinder", + "area_sphere": "Area – Sphere", + "area_cone": "Area – Cone", + "vol_cube": "Volume – Cube", + "vol_rect": "Volume – Rectangular prism", + "vol_cyl": "Volume – Cylinder", + "vol_cone": "Volume – Cone", + "vol_sphere": "Volume – Sphere", + "vol_tetra": "Volume – Tetrahedron", + "vol_trap": "Volume – Trapezoidal prism", + "side": "Side", + "radius": "Radius r:", + "diameter": "Diameter d:", + "height": "Height h:", + "width": "Width w:", + "length": "Length l:", + "base": "Base g:", + "slant": "Slant l:", + "depth": "Depth i:", + "with_radius": "With radius", + "with_diameter": "With diameter", + "result_area": "A", + "result_vol": "V", + "cube": "Cube", + "rect_prism": "Rect. prism", + "cylinder": "Cylinder", + "cone": "Cone", + "sphere": "Sphere", + "tetrahedron": "Tetrahedron", + "trap_prism": "Trapezoidal prism", + "square": "Square", + "rectangle": "Rectangle", + "circle": "Circle", + "triangle": "Triangle", + "trapezoid": "Trapezoid", + } +} + +def t(key): + return LANG[language].get(key, key) + +app_version = "1.0.0" +app_release = "24.3.2026" +app_status = "Stable" +dev_e_mail = "team@survivalful.de" +dev_website = "https://Survivalful.de/" +app_license = "MIT License © 2026 Survivalful" +sys_system = platform.system() +sys_version = platform.release() +sys_machine = platform.machine() +sys_python = platform.python_version() +install_date = datetime.datetime.now().strftime("%d.%m.%Y %H:%M") + +DEFAULT_SETTINGS = { + "bg_dark": True, + "round_num": 2, + "round_en": True, + "default_unit": "m", + "language": "EN", +} + +def load_settings(): + global bg_dark, round_num, round_en, default_unit, language, bg, fg + if os.path.exists(SETTINGS_FILE): + with open(SETTINGS_FILE, "r") as f: + s = json.load(f) + else: + s = DEFAULT_SETTINGS.copy() + bg_dark = s.get("bg_dark", DEFAULT_SETTINGS["bg_dark"]) + round_num = s.get("round_num", DEFAULT_SETTINGS["round_num"]) + round_en = s.get("round_en", DEFAULT_SETTINGS["round_en"]) + default_unit = s.get("default_unit", DEFAULT_SETTINGS["default_unit"]) + language = s.get("language", DEFAULT_SETTINGS["language"]) + bg = 'black' if bg_dark else 'white' + fg = 'white' if bg_dark else 'black' + +def save_settings(): + with open(SETTINGS_FILE, "w") as f: + json.dump({ + "bg_dark": bg_dark, + "round_num": round_num, + "round_en": round_en, + "default_unit": default_unit, + "language": language, + }, f, indent=2) + +def init_db(): + con = sqlite3.connect(DB_FILE) + con.execute("""CREATE TABLE IF NOT EXISTS history ( + id INTEGER PRIMARY KEY AUTOINCREMENT, + expr TEXT, + result TEXT, + timestamp TEXT + )""") + con.commit() + con.close() + +def db_add(expr, result): + con = sqlite3.connect(DB_FILE) + con.execute("INSERT INTO history (expr, result, timestamp) VALUES (?,?,?)", + (expr, str(result), datetime.datetime.now().strftime("%d.%m.%Y %H:%M:%S"))) + con.commit() + con.close() + +def db_get_last(n=3): + con = sqlite3.connect(DB_FILE) + rows = con.execute( + "SELECT expr, result FROM history ORDER BY id DESC LIMIT ?", (n,) + ).fetchall() + con.close() + return rows + +def db_clear(): + con = sqlite3.connect(DB_FILE) + con.execute("DELETE FROM history") + con.commit() + con.close() + +load_settings() +init_db() + +UNIT_FACTORS = {"mm": 0.001, "cm": 0.01, "m": 1.0, "km": 1000.0} +UNITS = list(UNIT_FACTORS.keys()) + +def half(first, last): + return first / last + +def make_section(parent, title, row): + parent.rowconfigure(row, weight=0) + f = tk.Frame(parent, bg=bg) + f.grid(row=row, column=0, columnspan=3, sticky="ew", padx=12, pady=(16, 4)) + tk.Label(f, text=title, bg=bg, fg="#7c5cbf", + font=("Arial", 10, "bold"), anchor="w").pack(side="left") + tk.Frame(f, bg="#333333" if bg_dark else "#cccccc", + height=1).pack(side="left", fill="x", expand=True, padx=(8, 0)) + +def make_input_row(parent, label_text, var, row, unit_var=None): + parent.rowconfigure(row, weight=0) + parent.rowconfigure(row + 1, weight=0) + tk.Label(parent, text=label_text, bg=bg, fg=fg, + font=("Arial", 11), anchor="w").grid( + row=row, column=0, sticky="nw", padx=16, pady=(8, 0)) + row_frame = tk.Frame(parent, bg=bg) + row_frame.grid(row=row+1, column=0, sticky="ew", padx=16, pady=(2, 4)) + row_frame.columnconfigure(0, weight=1) + entry = tk.Entry(row_frame, textvariable=var, + bg="#2c2c2e" if bg_dark else "#f0f0f0", + fg=fg, insertbackground=fg, + font=("Arial", 14), relief="flat", bd=0, + highlightthickness=1, + highlightbackground="#444" if bg_dark else "#ccc", + highlightcolor="#7c5cbf") + entry.grid(row=0, column=0, sticky="ew", ipady=6) + if unit_var is not None: + um = tk.OptionMenu(row_frame, unit_var, *UNITS) + um.config(bg="#2c2c2e" if bg_dark else "#f0f0f0", fg=fg, + activebackground="#3a3a3c", activeforeground=fg, + relief="flat", highlightthickness=0, + font=("Arial", 11), width=3) + um["menu"].config(bg="#2c2c2e" if bg_dark else "#f0f0f0", fg=fg) + um.grid(row=0, column=1, padx=(4, 0), ipady=3) + return entry + +def make_result_label(parent, row): + parent.rowconfigure(row, weight=0) + r = tk.Label(parent, text="", bg=bg, + fg="#bf9fff" if bg_dark else "#7c5cbf", + font=("Arial", 16, "bold"), anchor="w") + r.grid(row=row, column=0, sticky="nw", padx=16, pady=(4, 12)) + return r + +def make_title_label(parent, text, symbol, row): + parent.rowconfigure(row, weight=0) + frame = tk.Frame(parent, bg=bg) + frame.grid(row=row, column=0, sticky="nw", padx=16, pady=(12, 2)) + tk.Label(frame, text=text, bg=bg, fg=fg, + font=("Arial", 13, "bold"), anchor="w").pack(side="left") + tk.Label(frame, text=f" {symbol}", bg=bg, + fg="#888888" if bg_dark else "#aaaaaa", + font=("Arial", 11), anchor="w").pack(side="left") + return frame + +def get_m(var, unit_var): + return float(var.get()) * UNIT_FACTORS[unit_var.get()] + +def format_result(val, unit_var): + return val / (UNIT_FACTORS[unit_var.get()] ** 2) + +def format_vol(val, unit_var): + return val / (UNIT_FACTORS[unit_var.get()] ** 3) + +def clear_frame(): + for widget in content_frame.winfo_children(): + widget.destroy() + for i in range(20): + content_frame.rowconfigure(i, weight=0) + content_frame.columnconfigure(0, weight=1) + +def make_scroll_frame(parent): + canvas = tk.Canvas(parent, bg=bg, highlightthickness=0) + scrollbar = tk.Scrollbar(parent, orient="vertical", command=canvas.yview) + inner = tk.Frame(canvas, bg=bg) + inner.bind("", + lambda e: canvas.configure(scrollregion=canvas.bbox("all"))) + canvas.create_window((0, 0), window=inner, anchor="nw") + canvas.configure(yscrollcommand=scrollbar.set) + canvas.pack(side="left", fill="both", expand=True) + scrollbar.pack(side="right", fill="y") + def on_mousewheel(event): + canvas.yview_scroll(int(-1*(event.delta/120)), "units") + canvas.bind_all("", on_mousewheel) + return inner + +def rebuild_menu(): + menubar.delete(0, "end") + menu.delete(0, "end") + shape_area.delete(0, "end") + shape_volume.delete(0, "end") + shape.delete(0, "end") + areacircle.delete(0, "end") + areacylinder.delete(0, "end") + areasphere.delete(0, "end") + areacone.delete(0, "end") + volumeclinder.delete(0, "end") + volumecone.delete(0, "end") + volumesphere.delete(0, "end") + areacircle.add_command(label=t("with_radius"), command=area_circle_radius) + areacircle.add_command(label=t("with_diameter"), command=area_circle_diameter) + areacylinder.add_command(label=t("with_radius"), command=area_cylinder_radius) + areacylinder.add_command(label=t("with_diameter"), command=area_cylinder_diameter) + areasphere.add_command(label=t("with_radius"), command=area_sphere_radius) + areasphere.add_command(label=t("with_diameter"), command=area_sphere_diameter) + areacone.add_command(label=t("with_radius"), command=area_cone_radius) + areacone.add_command(label=t("with_diameter"), command=area_cone_diameter) + volumeclinder.add_command(label=t("with_radius"), command=volume_cylinder_radius) + volumeclinder.add_command(label=t("with_diameter"), command=volume_cylinder_diameter) + volumecone.add_command(label=t("with_radius"), command=volume_cone_radius) + volumecone.add_command(label=t("with_diameter"), command=volume_cone_diameter) + volumesphere.add_command(label=t("with_radius"), command=volume_sphere_radius) + volumesphere.add_command(label=t("with_diameter"), command=volume_sphere_diameter) + shape_area.add_command(label=t("square"), command=area_square) + shape_area.add_command(label=t("rectangle"), command=area_rectangle) + shape_area.add_cascade(label=t("circle"), menu=areacircle) + shape_area.add_command(label=t("triangle"), command=area_triangle) + shape_area.add_command(label=t("trapezoid"), command=area_trapezoid) + shape_area.add_cascade(label=t("cylinder"), menu=areacylinder) + shape_area.add_cascade(label=t("sphere"), menu=areasphere) + shape_area.add_cascade(label=t("cone"), menu=areacone) + shape_volume.add_command(label=t("cube"), command=volume_cube) + shape_volume.add_command(label=t("rect_prism"), command=volume_rectangular_prism) + shape_volume.add_cascade(label=t("cylinder"), menu=volumeclinder) + shape_volume.add_cascade(label=t("cone"), menu=volumecone) + shape_volume.add_cascade(label=t("sphere"), menu=volumesphere) + shape_volume.add_command(label=t("tetrahedron"), command=volume_tetrahedron) + shape_volume.add_command(label=t("trap_prism"), command=volume_trapezoidal_prism) + shape.add_cascade(label=t("area"), menu=shape_area) + shape.add_cascade(label=t("volume"), menu=shape_volume) + menu.add_command(label=t("info"), command=info) + menu.add_command(label=t("calculator"), command=calculator) + menu.add_cascade(label=t("shape"), menu=shape) + menu.add_command(label=t("settings"), command=settings) + menu.add_command(label=t("exit"), command=do_exit) + menubar.add_cascade(label=t("menu"), menu=menu) + +def info(): + clear_frame() + content_frame.rowconfigure(0, weight=1) + content_frame.columnconfigure(0, weight=1) + inner = make_scroll_frame(content_frame) + inner.columnconfigure(0, weight=1) + def info_row(parent, label, value, r): + tk.Label(parent, text=label, + bg="#1e1e1e" if bg_dark else "#f5f5f5", + fg="#888888" if bg_dark else "#777777", + font=("Arial", 10), anchor="w").grid( + row=r, column=0, sticky="w", padx=14, pady=(5, 0)) + tk.Label(parent, text=value, + bg="#1e1e1e" if bg_dark else "#f5f5f5", + fg=fg, font=("Arial", 11), anchor="w").grid( + row=r+1, column=0, sticky="w", padx=14, pady=(0, 5)) + def card(title, items, row): + inner.rowconfigure(row, weight=0) + outer = tk.Frame(inner, bg="#7c5cbf") + outer.grid(row=row, column=0, sticky="ew", padx=16, pady=(10, 0)) + outer.columnconfigure(0, weight=1) + tk.Label(outer, text=title, bg="#7c5cbf", fg="#ece8ff", + font=("Arial", 11, "bold"), anchor="w", + padx=10, pady=6).grid(row=0, column=0, sticky="w") + body = tk.Frame(outer, bg="#1e1e1e" if bg_dark else "#f5f5f5") + body.grid(row=1, column=0, sticky="ew", padx=1, pady=(0, 1)) + body.columnconfigure(0, weight=1) + for i, (lbl, val) in enumerate(items): + info_row(body, lbl, val, i*2) + card(t("app_info"), [ + (t("version"), app_version), + (t("release"), app_release), + (t("status"), app_status), + (t("license"), app_license), + (t("installed"), install_date), + ("App-Ordner", APP_DIR), + ], 0) + card(t("support"), [ + (t("website"), dev_website), + (t("email"), dev_e_mail), + ], 1) + card(t("system"), [ + (t("os"), sys_system), + (t("os_version"), sys_version), + (t("arch"), sys_machine), + (t("python"), sys_python), + ], 2) + +def do_exit(): + root.quit() + +def settings(): + clear_frame() + content_frame.rowconfigure(0, weight=1) + content_frame.columnconfigure(0, weight=1) + inner = make_scroll_frame(content_frame) + inner.columnconfigure(0, weight=1) + inner.columnconfigure(1, weight=1) + inner.columnconfigure(2, weight=0) + make_section(inner, t("appearance"), 0) + def bg_toggle(): + global bg_dark, bg, fg + bg_dark = not bg_dark + bg = 'black' if bg_dark else 'white' + fg = 'white' if bg_dark else 'black' + root.config(bg=bg) + content_frame.config(bg=bg) + creator.config(bg=bg, fg=fg) + save_settings() + settings() + inner.rowconfigure(1, weight=0) + tk.Label(inner, text=t("dark_mode"), bg=bg, fg=fg, + font=("Arial", 11), anchor="w").grid( + row=1, column=0, sticky="w", padx=16, pady=8) + tk.Label(inner, text=t("on") if bg_dark else t("off"), + bg=bg, fg="#bf9fff" if bg_dark else "#7c5cbf", + font=("Arial", 11)).grid(row=1, column=1, sticky="w") + tk.Button(inner, text=t("toggle"), command=bg_toggle, + bg="#2c2c2e" if bg_dark else "#eeeeee", fg=fg, + relief="flat", padx=10, pady=4, cursor="hand2").grid( + row=1, column=2, padx=16, pady=8, sticky="e") + make_section(inner, t("rounding"), 2) + def round_toggle(): + global round_en + round_en = not round_en + round_lbl.config(text=t("on") if round_en else t("off"), + fg="#bf9fff" if round_en else "#888888") + save_settings() + inner.rowconfigure(3, weight=0) + tk.Label(inner, text=t("rounding_active"), bg=bg, fg=fg, + font=("Arial", 11), anchor="w").grid( + row=3, column=0, sticky="w", padx=16, pady=8) + round_lbl = tk.Label(inner, + text=t("on") if round_en else t("off"), + bg=bg, + fg="#bf9fff" if round_en else "#888888", + font=("Arial", 11)) + round_lbl.grid(row=3, column=1, sticky="w") + tk.Button(inner, text=t("toggle"), command=round_toggle, + bg="#2c2c2e" if bg_dark else "#eeeeee", fg=fg, + relief="flat", padx=10, pady=4, cursor="hand2").grid( + row=3, column=2, padx=16, pady=8, sticky="e") + inner.rowconfigure(4, weight=0) + inner.rowconfigure(5, weight=0) + tk.Label(inner, text=t("decimal_places"), bg=bg, fg=fg, + font=("Arial", 11), anchor="w").grid( + row=4, column=0, sticky="w", padx=16, pady=(8, 0)) + slider_val = tk.Label(inner, text=str(round_num), + bg=bg, fg="#bf9fff" if bg_dark else "#7c5cbf", + font=("Arial", 11, "bold")) + slider_val.grid(row=4, column=1, sticky="w") + def on_slider(val): + global round_num + round_num = int(float(val)) + slider_val.config(text=str(round_num)) + save_settings() + tk.Scale(inner, from_=0, to=20, orient="horizontal", + command=on_slider, + bg=bg, fg=fg, + troughcolor="#2c2c2e" if bg_dark else "#dddddd", + highlightthickness=0, showvalue=False, + relief="flat", sliderrelief="flat", + activebackground="#7c5cbf").grid( + row=5, column=0, columnspan=3, sticky="ew", padx=16, pady=(0, 8)) + make_section(inner, t("units"), 6) + inner.rowconfigure(7, weight=0) + tk.Label(inner, text=t("default_unit"), bg=bg, fg=fg, + font=("Arial", 11), anchor="w").grid( + row=7, column=0, sticky="w", padx=16, pady=8) + unit_var = tk.StringVar(value=default_unit) + def on_unit(*args): + global default_unit + default_unit = unit_var.get() + save_settings() + unit_var.trace_add("write", on_unit) + um = tk.OptionMenu(inner, unit_var, *UNITS) + um.config(bg="#2c2c2e" if bg_dark else "#f0f0f0", fg=fg, + activebackground="#3a3a3c", activeforeground=fg, + relief="flat", highlightthickness=0, + font=("Arial", 11), width=4) + um["menu"].config(bg="#2c2c2e" if bg_dark else "#f0f0f0", fg=fg) + um.grid(row=7, column=1, columnspan=2, sticky="w", padx=4, pady=8) + make_section(inner, t("language"), 8) + inner.rowconfigure(9, weight=0) + tk.Label(inner, text=t("language"), bg=bg, fg=fg, + font=("Arial", 11), anchor="w").grid( + row=9, column=0, sticky="w", padx=16, pady=8) + lang_var = tk.StringVar(value=language) + def on_lang(*args): + global language + language = lang_var.get() + save_settings() + rebuild_menu() + settings() + lang_var.trace_add("write", on_lang) + for i, lang in enumerate(["DE", "EN"]): + tk.Radiobutton(inner, text=lang, variable=lang_var, value=lang, + bg=bg, fg=fg, + selectcolor="#2c2c2e" if bg_dark else "#dddddd", + activebackground=bg, activeforeground=fg, + font=("Arial", 11)).grid( + row=9, column=1+i, sticky="w", + padx=(4 if i == 0 else 0, 0), pady=8) + make_section(inner, "Datenverwaltung" if language == "DE" else "Data management", 10) + def del_history(): + if messagebox.askyesno(t("delete_history"), t("confirm_del_h")): + db_clear() + def reset_s(): + if messagebox.askyesno(t("reset_settings"), t("confirm_reset")): + global bg_dark, round_num, round_en, default_unit, language, bg, fg + bg_dark = DEFAULT_SETTINGS["bg_dark"] + round_num = DEFAULT_SETTINGS["round_num"] + round_en = DEFAULT_SETTINGS["round_en"] + default_unit = DEFAULT_SETTINGS["default_unit"] + language = DEFAULT_SETTINGS["language"] + bg = 'black' if bg_dark else 'white' + fg = 'white' if bg_dark else 'black' + save_settings() + root.config(bg=bg) + content_frame.config(bg=bg) + creator.config(bg=bg, fg=fg) + rebuild_menu() + settings() + inner.rowconfigure(11, weight=0) + inner.rowconfigure(12, weight=0) + tk.Button(inner, text=t("delete_history"), command=del_history, + bg="#3a1a1a", fg="#ff8080", + relief="flat", padx=10, pady=6, cursor="hand2", + font=("Arial", 11)).grid( + row=11, column=0, columnspan=3, sticky="ew", padx=16, pady=(8, 4)) + tk.Button(inner, text=t("reset_settings"), command=reset_s, + bg="#2a1a3a", fg="#bf9fff", + relief="flat", padx=10, pady=6, cursor="hand2", + font=("Arial", 11)).grid( + row=12, column=0, columnspan=3, sticky="ew", padx=16, pady=(0, 16)) + +def area_square(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + v = get_m(var, unit_var); s = format_result(v**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_square"), "A = a²", 0) + make_input_row(content_frame, f"{t('side')} a:", var, 1, unit_var) + result = make_result_label(content_frame, 3) + +def area_rectangle(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_a, var_b = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_result(get_m(var_a, unit_var) * get_m(var_b, unit_var), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_a.trace_add("write", calc); var_b.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_rect"), "A = a · b", 0) + make_input_row(content_frame, f"{t('side')} a:", var_a, 1, unit_var) + make_input_row(content_frame, f"{t('side')} b:", var_b, 3) + result = make_result_label(content_frame, 5) + +def area_circle_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + r = get_m(var_r, unit_var); s = format_result(math.pi * r**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_r.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_circle"), "A = π · r²", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + result = make_result_label(content_frame, 3) + +def area_circle_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + r = get_m(var_d, unit_var)/2; s = format_result(math.pi * r**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_d.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_circle"), "A = π · (d/2)²", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + result = make_result_label(content_frame, 3) + +def area_triangle(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_g, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_result(0.5 * get_m(var_g, unit_var) * get_m(var_h, unit_var), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_g.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_tri"), "A = g · h / 2", 0) + make_input_row(content_frame, t("base"), var_g, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def area_trapezoid(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_a, var_b, var_h = tk.StringVar(), tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_result(((get_m(var_a,unit_var)+get_m(var_b,unit_var))/2)*get_m(var_h,unit_var), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_a.trace_add("write", calc); var_b.trace_add("write", calc) + var_h.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_trap"), "A = (a+b)/2 · h", 0) + make_input_row(content_frame, f"{t('side')} a:", var_a, 1, unit_var) + make_input_row(content_frame, f"{t('side')} b:", var_b, 3) + make_input_row(content_frame, t("height"), var_h, 5) + result = make_result_label(content_frame, 7) + +def area_cylinder_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, h = get_m(var_r,unit_var), get_m(var_h,unit_var) + s = format_result(2*math.pi*r*h + 2*math.pi*r**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_r.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_cyl"), "A = 2πr(r+h)", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def area_cylinder_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, h = get_m(var_d,unit_var)/2, get_m(var_h,unit_var) + s = format_result(2*math.pi*r*h + 2*math.pi*r**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_d.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_cyl"), "A = 2πr(r+h)", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def area_sphere_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_result(4*math.pi*get_m(var_r,unit_var)**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_r.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_sphere"), "A = 4πr²", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + result = make_result_label(content_frame, 3) + +def area_sphere_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_result(4*math.pi*(get_m(var_d,unit_var)/2)**2, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_d.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_sphere"), "A = 4π(d/2)²", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + result = make_result_label(content_frame, 3) + +def area_cone_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, var_l = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, l = get_m(var_r,unit_var), get_m(var_l,unit_var) + s = format_result(math.pi*r*(r+l), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_r.trace_add("write", calc); var_l.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_cone"), "A = πr(r+l)", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + make_input_row(content_frame, t("slant"), var_l, 3) + result = make_result_label(content_frame, 5) + +def area_cone_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, var_l = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, l = get_m(var_d,unit_var)/2, get_m(var_l,unit_var) + s = format_result(math.pi*r*(r+l), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_area')} = {s} {unit_var.get()}²") + except: result.config(text="") + var_d.trace_add("write", calc); var_l.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("area_cone"), "A = πr(r+l)", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + make_input_row(content_frame, t("slant"), var_l, 3) + result = make_result_label(content_frame, 5) + +def volume_cube(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_a, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_vol(get_m(var_a,unit_var)**3, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_a.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_cube"), "V = a³", 0) + make_input_row(content_frame, f"{t('side')} a:", var_a, 1, unit_var) + result = make_result_label(content_frame, 3) + +def volume_rectangular_prism(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_l, var_w, var_h = tk.StringVar(), tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_vol(get_m(var_l,unit_var)*get_m(var_w,unit_var)*get_m(var_h,unit_var), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_l.trace_add("write", calc); var_w.trace_add("write", calc) + var_h.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_rect"), "V = l · w · h", 0) + make_input_row(content_frame, t("length"), var_l, 1, unit_var) + make_input_row(content_frame, t("width"), var_w, 3) + make_input_row(content_frame, t("height"), var_h, 5) + result = make_result_label(content_frame, 7) + +def volume_cylinder_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, h = get_m(var_r,unit_var), get_m(var_h,unit_var) + s = format_vol(math.pi*r**2*h, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_r.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_cyl"), "V = π · r² · h", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def volume_cylinder_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, h = get_m(var_d,unit_var)/2, get_m(var_h,unit_var) + s = format_vol(math.pi*r**2*h, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_d.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_cyl"), "V = π · (d/2)² · h", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def volume_cone_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, h = get_m(var_r,unit_var), get_m(var_h,unit_var) + s = format_vol((1/3)*math.pi*r**2*h, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_r.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_cone"), "V = π·r²·h / 3", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def volume_cone_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, var_h = tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + r, h = get_m(var_d,unit_var)/2, get_m(var_h,unit_var) + s = format_vol((1/3)*math.pi*r**2*h, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_d.trace_add("write", calc); var_h.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_cone"), "V = π·r²·h / 3", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + make_input_row(content_frame, t("height"), var_h, 3) + result = make_result_label(content_frame, 5) + +def volume_sphere_radius(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_r, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_vol((4/3)*math.pi*get_m(var_r,unit_var)**3, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_r.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_sphere"), "V = 4/3 · π · r³", 0) + make_input_row(content_frame, t("radius"), var_r, 1, unit_var) + result = make_result_label(content_frame, 3) + +def volume_sphere_diameter(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_d, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_vol((4/3)*math.pi*(get_m(var_d,unit_var)/2)**3, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_d.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_sphere"), "V = 4/3 · π · (d/2)³", 0) + make_input_row(content_frame, t("diameter"), var_d, 1, unit_var) + result = make_result_label(content_frame, 3) + +def volume_tetrahedron(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_a, unit_var = tk.StringVar(), tk.StringVar(value=default_unit) + def calc(*a): + try: + s = format_vol(get_m(var_a,unit_var)**3 / (6*2**0.5), unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + var_a.trace_add("write", calc); unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_tetra"), "V = a³ / (6√2)", 0) + make_input_row(content_frame, f"{t('side')} a:", var_a, 1, unit_var) + result = make_result_label(content_frame, 3) + +def volume_trapezoidal_prism(): + clear_frame(); content_frame.columnconfigure(0, weight=1) + var_b, var_B, var_h, var_i = tk.StringVar(), tk.StringVar(), tk.StringVar(), tk.StringVar() + unit_var = tk.StringVar(value=default_unit) + def calc(*a): + try: + b=get_m(var_b,unit_var); B=get_m(var_B,unit_var) + h=get_m(var_h,unit_var); i=get_m(var_i,unit_var) + s = format_vol(((b+B)/2)*h*i, unit_var) + if round_en: s = round(s, round_num) + result.config(text=f"{t('result_vol')} = {s} {unit_var.get()}³") + except: result.config(text="") + for v in (var_b, var_B, var_h, var_i): v.trace_add("write", calc) + unit_var.trace_add("write", calc) + make_title_label(content_frame, t("vol_trap"), "V = (b+B)/2 · h · i", 0) + make_input_row(content_frame, f"{t('side')} b:", var_b, 1, unit_var) + make_input_row(content_frame, f"{t('side')} B:", var_B, 3) + make_input_row(content_frame, t("height"), var_h, 5) + make_input_row(content_frame, t("depth"), var_i, 7) + result = make_result_label(content_frame, 9) + +def calculator(): + clear_frame() + display_var = tk.StringVar(value="0") + expr_var = tk.StringVar(value="") + + def button_click(z): + c = display_var.get() + display_var.set(str(z) if c in ("0", "Fehler", "Error") else c + str(z)) + + def clear(): + display_var.set("0"); expr_var.set("") + + def backspace(): + c = display_var.get() + display_var.set(c[:-1] if len(c) > 1 and c not in ("Fehler","Error") else "0") + + def toggle_sign(): + c = display_var.get() + try: + v = float(c) + display_var.set(("-"+c) if v > 0 else (c[1:] if v < 0 else c)) + except: pass + + def percent(): + try: + v = float(display_var.get()) / 100 + display_var.set(str(round(v, round_num) if round_en else v)) + except: pass + + def ausrechnen(event=None): + try: + ausdruck = display_var.get() + expr_var.set(ausdruck + " =") + ergebnis = eval(ausdruck) + if round_en: ergebnis = round(ergebnis, round_num) + display_var.set(str(ergebnis)) + db_add(ausdruck, ergebnis) + update_history() + except: + expr_var.set(""); display_var.set("Fehler" if language=="DE" else "Error") + + def tastatur_input(event): + if event.char in "0123456789+-*/.": button_click(event.char) + elif event.keysym == "Return": ausrechnen() + elif event.keysym in ("Escape","c","C"): clear() + elif event.keysym == "BackSpace": backspace() + + content_frame.bind_all("", tastatur_input) + + wrapper = tk.Frame(content_frame, bg="#1c1c1e") + wrapper.grid(row=0, column=0, sticky="nsew") + content_frame.rowconfigure(0, weight=1) + content_frame.columnconfigure(0, weight=1) + wrapper.columnconfigure(0, weight=1) + wrapper.rowconfigure(1, weight=1) + + display_frame = tk.Frame(wrapper, bg="#2c2c2e") + display_frame.grid(row=0, column=0, sticky="ew", padx=10, pady=(10, 6)) + tk.Label(display_frame, textvariable=expr_var, + font=("Arial", 12), bg="#2c2c2e", fg="#888888", + anchor="e", padx=12, pady=6).pack(fill="x", pady=(6, 0)) + tk.Label(display_frame, textvariable=display_var, + font=("Arial", 34, "bold"), bg="#2c2c2e", fg="white", + anchor="e", padx=12, pady=0).pack(fill="x", pady=(0, 10)) + + STYLE = { + "num": {"bg": "#2c2c2e", "fg": "white", "abg": "#3a3a3c"}, + "op": {"bg": "#3a3a3c", "fg": "#bf9fff", "abg": "#48484a"}, + "fn": {"bg": "#3a3a3c", "fg": "#aaaaaa", "abg": "#48484a"}, + "eq": {"bg": "#7c5cbf", "fg": "#ece8ff", "abg": "#5e42a0"}, + } + grid = tk.Frame(wrapper, bg="#1c1c1e") + grid.grid(row=1, column=0, sticky="nsew", padx=10, pady=(0, 6)) + for c in range(4): grid.columnconfigure(c, weight=1) + for r in range(5): grid.rowconfigure(r, weight=1) + + def make_btn(text, kind, cmd, row, col, colspan=1): + s = STYLE[kind] + tk.Button(grid, text=text, command=cmd, + bg=s["bg"], fg=s["fg"], + activebackground=s["abg"], activeforeground=s["fg"], + font=("Arial", 18), relief="flat", bd=0, + padx=0, pady=14, cursor="hand2").grid( + row=row, column=col, columnspan=colspan, + padx=4, pady=4, sticky="nsew") + + make_btn("AC", "fn", clear, 0, 0) + make_btn("+/-", "fn", toggle_sign, 0, 1) + make_btn("%", "fn", percent, 0, 2) + make_btn("÷", "op", lambda: button_click("/"), 0, 3) + make_btn("7", "num", lambda: button_click("7"), 1, 0) + make_btn("8", "num", lambda: button_click("8"), 1, 1) + make_btn("9", "num", lambda: button_click("9"), 1, 2) + make_btn("×", "op", lambda: button_click("*"), 1, 3) + make_btn("4", "num", lambda: button_click("4"), 2, 0) + make_btn("5", "num", lambda: button_click("5"), 2, 1) + make_btn("6", "num", lambda: button_click("6"), 2, 2) + make_btn("−", "op", lambda: button_click("-"), 2, 3) + make_btn("1", "num", lambda: button_click("1"), 3, 0) + make_btn("2", "num", lambda: button_click("2"), 3, 1) + make_btn("3", "num", lambda: button_click("3"), 3, 2) + make_btn("+", "op", lambda: button_click("+"), 3, 3) + make_btn("⌫", "fn", backspace, 4, 0) + make_btn("0", "num", lambda: button_click("0"), 4, 1) + make_btn(".", "num", lambda: button_click("."), 4, 2) + make_btn("=", "eq", ausrechnen, 4, 3) + + hist_frame = tk.Frame(wrapper, bg="#1c1c1e") + hist_frame.grid(row=2, column=0, sticky="ew", padx=10, pady=(0, 8)) + tk.Label(hist_frame, text=t("history"), bg="#1c1c1e", fg="#555555", + font=("Arial", 10), anchor="w").pack(fill="x", padx=6) + history_label = tk.Label(hist_frame, text="", bg="#1c1c1e", + fg="#666666", font=("Arial", 10), + anchor="e", justify="right") + history_label.pack(fill="x", padx=6) + + def update_history(): + rows = db_get_last(3) + lines = [f"{r[0]} = {r[1]}" for r in rows] + history_label.config(text="\n".join(lines)) + + update_history() + +root = tk.Tk() +root.title("Calculator") +root.geometry("500x640") +root.resizable(False, False) +root.iconbitmap(default=resource_path("bilder/icon.ico")) + +menubar = tk.Menu(root) +menu = tk.Menu(menubar, tearoff=0) +shape = tk.Menu(menu, tearoff=0) +shape_volume = tk.Menu(shape, tearoff=0) +shape_area = tk.Menu(shape, tearoff=0) +areacircle = tk.Menu(shape_area, tearoff=0) +areacylinder = tk.Menu(shape_area, tearoff=0) +areasphere = tk.Menu(shape_area, tearoff=0) +areacone = tk.Menu(shape_area, tearoff=0) +volumeclinder = tk.Menu(shape_volume, tearoff=0) +volumecone = tk.Menu(shape_volume, tearoff=0) +volumesphere = tk.Menu(shape_volume, tearoff=0) + +root.config(menu=menubar) + +content_frame = tk.Frame(root) +content_frame.grid(row=0, column=0, padx=10, pady=10, sticky="nsew") +root.columnconfigure(0, weight=1) +root.rowconfigure(0, weight=1) +content_frame.columnconfigure(0, weight=1) +root.config(bg=bg) +content_frame.config(bg=bg) + +creator = tk.Label(root, bg=bg, fg=fg) + +rebuild_menu() +calculator() + +root.mainloop()