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aza/AzA march 2026 - Kopie (7)/basis14.py.bak_20260220_131042
suro 3bdc930d6e update
2026-04-16 13:32:32 +02:00

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# -*- coding: utf-8 -*-
"""
KG-Diktat Desktop (Aufnahme -> Transkription -> Krankengeschichte)
===============================================================
Modulare Architektur Hauptdatei mit Imports aus:
aza_config, aza_prompts, aza_ui_helpers, aza_persistence, aza_audio,
aza_todo_mixin, aza_text_windows_mixin, aza_diktat_mixin,
aza_settings_mixin, aza_ordner_mixin, aza_arbeitsplan_mixin
"""
import os
import re
import json
import sys
import time
import hashlib
from difflib import SequenceMatcher
import threading
import tempfile
import wave
from datetime import datetime, timedelta
import tkinter as tk
import tkinter.font as tkfont
from tkinter import ttk, messagebox, simpledialog
from tkinter.scrolledtext import ScrolledText
from dotenv import load_dotenv
from openai import OpenAI
import requests as _requests
# Windows: für Einfügen in externes Fenster (Word, Notepad etc.)
if sys.platform == "win32":
try:
import ctypes
_user32 = ctypes.windll.user32
except Exception:
_user32 = None
else:
_user32 = None
# Globaler Autotext in Windows (Word, Editor, überall): pynput für Tastatur-Hook
try:
from pynput.keyboard import Controller as KbdController, Key, KeyCode, Listener as KbdListener
_HAS_PYNPUT = True
except ImportError:
_HAS_PYNPUT = False
# ─── Modul-Imports ───
from aza_config import *
from aza_config import (_ALL_WINDOWS, _SOAP_SECTIONS, _SOAP_LABELS,
NUM_SOAP_PRESETS, NUM_BRIEF_PRESETS)
from aza_prompts import *
from aza_persistence import *
from aza_persistence import _win_clipboard_set, _win_clipboard_get
from aza_ui_helpers import *
from aza_audio import AudioRecorder
from aza_todo_mixin import TodoMixin
from aza_text_windows_mixin import TextWindowsMixin
from aza_diktat_mixin import AzaDiktatMixin
from aza_settings_mixin import AzaSettingsMixin
from aza_ordner_mixin import AzaOrdnerMixin
from aza_arbeitsplan_mixin import AzaArbeitsplanMixin
class KGDesktopApp(tk.Tk, TodoMixin, TextWindowsMixin, AzaDiktatMixin, AzaSettingsMixin, AzaOrdnerMixin, AzaArbeitsplanMixin):
def __init__(self):
super().__init__()
self.title("KI Assistent PRAXIS LINDENGUT AG")
# Logo als Icon setzen (Titelleiste ~71x71 Pixel)
try:
logo_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), "logo.png")
if os.path.exists(logo_path):
from PIL import Image
# Bild laden (weißer Hintergrund bleibt!)
img = Image.open(logo_path)
# Für Titelleiste: ~71 Pixel
icon_img = img.resize((57, 57), Image.Resampling.LANCZOS)
# Speichere temporär als .ico (Windows braucht .ico für iconphoto)
import tempfile
temp_ico = tempfile.NamedTemporaryFile(suffix='.ico', delete=False)
icon_img.save(temp_ico.name, format='ICO')
temp_ico.close()
# Setze als Fenster-Icon
self.iconbitmap(temp_ico.name)
# Aufräumen
try:
os.unlink(temp_ico.name)
except:
pass
except Exception as e:
print(f"Logo konnte nicht geladen werden: {e}")
MAIN_MIN_W, MAIN_MIN_H = 750, 650 # Mindestgröße: alle Buttons sichtbar (angepasst für unterschiedliche DPI)
self.minsize(MAIN_MIN_W, MAIN_MIN_H)
# Gespeicherte Größe/Position, Sash und Transkript-Höhe laden oder Standard
saved = load_window_geometry()
self._saved_sash = None
self._saved_sash_transcript = None
if saved:
w = max(MAIN_MIN_W, saved[0])
h = max(MAIN_MIN_H, saved[1])
x, y = saved[2], saved[3]
self.geometry(f"{w}x{h}+{x}+{y}")
if len(saved) >= 5 and saved[4] is not None:
self._saved_sash = saved[4]
if len(saved) >= 6 and saved[5] is not None:
self._saved_sash_transcript = saved[5]
else:
self.geometry(f"{DEFAULT_WINDOW_WIDTH}x{DEFAULT_WINDOW_HEIGHT}")
center_window(self, DEFAULT_WINDOW_WIDTH, DEFAULT_WINDOW_HEIGHT)
# Fenster immer im Vordergrund
self.attributes("-topmost", True)
self._last_external_hwnd = None
self.bind("<FocusOut>", self._on_focus_out_for_external_paste)
self._geometry_save_after_id = None
self.bind("<Configure>", self._on_configure)
self.protocol("WM_DELETE_WINDOW", self._on_close)
# Benutzerprofil laden und Login
self._user_profile = load_user_profile()
if not self._user_profile.get("name") or self._user_profile.get("password_hash"):
self.withdraw()
self._show_login_dialog()
self.deiconify()
load_dotenv()
api_key = os.getenv("OPENAI_API_KEY", "").strip()
self.client = OpenAI(api_key=api_key) if api_key else None
self.api_key_present = bool(api_key)
self.recorder = AudioRecorder()
self.is_recording = False
self._recording_mode = "new"
self.last_wav_path = None
self._last_brief_text = ""
self._last_rezept_text = ""
self._last_kogu_text = ""
self._timer_sec = 0
self._timer_running = False
self._phase = ""
self._autotext_data = load_autotext()
self._autotext_global_buffer = []
self._autotext_injecting = [False]
self._autotext_focus_in_app = [False]
if _HAS_PYNPUT and sys.platform == "win32":
threading.Thread(target=self._run_global_autotext_listener, daemon=True).start()
self.configure(bg="#B9ECFA")
style = ttk.Style(self)
try:
style.theme_use("clam")
except tk.TclError:
pass
style.configure("TFrame", background="#B9ECFA")
style.configure("TPanedwindow", background="#B9ECFA")
try:
style.configure("TPanedwindow.Sash", background="#B9ECFA", width=8)
except tk.TclError:
pass
style.configure("TLabel", background="#B9ECFA", foreground="#1a4d6d")
style.configure("TopBar.TFrame", background="#B9ECFA")
style.configure("StatusBar.TFrame", background="#B9ECFA")
style.configure("TranscriptBar.TFrame", background="#B9ECFA")
style.configure(
"TButton",
background="#7EC8E3",
foreground="#1a4d6d",
padding=(10, 6),
borderwidth=0,
)
style.map("TButton", background=[("active", "#5AB9E8"), ("pressed", "#4AA5D4")])
style.configure(
"Primary.TButton",
background="#2196F3",
foreground="white",
padding=(12, 16),
)
style.map("Primary.TButton", background=[("active", "#1E88D4"), ("pressed", "#1976D2")])
self._build_ui()
try:
self.attributes("-alpha", load_opacity())
except Exception:
pass
self.after(100, self._restore_sash)
self.after(1500, self._check_old_kg_entries)
# Automatische Aktualisierung der Token-Nutzung beim Start (nach 3 Sekunden)
self.after(3000, lambda: threading.Thread(target=self._fetch_and_update_usage, daemon=True).start())
self._window_registry.add(self)
if not self.api_key_present:
messagebox.showwarning(
"OPENAI_API_KEY fehlt",
"Ich finde keinen OPENAI_API_KEY.\n\n"
"Lege im selben Ordner wie dieses Script eine Datei '.env' an mit:\n"
"OPENAI_API_KEY=sk-...\n\n"
"Oder setze die Umgebungsvariable OPENAI_API_KEY.\n"
)
def _build_ui(self):
try:
def_font = tkfont.nametofont("TkDefaultFont")
font_size = max(10, def_font.actual()["size"]) # Mindestens Größe 10 für bessere Lesbarkeit
self._text_font = (def_font.actual()["family"], font_size)
except Exception:
self._text_font = ("Segoe UI", 10)
# Liste aller skalierbaren Widgets (Buttons, Labels, Text-Widgets)
self._scalable_widgets = []
self._scalable_text_widgets = []
top = ttk.Frame(self, padding=10, style="TopBar.TFrame")
top.pack(fill="x")
self.model_var = tk.StringVar(value=load_saved_model())
self._btn_row_left = ttk.Frame(top)
self._btn_row_left.pack(side="left")
self.btn_record = RoundedButton(
self._btn_row_left, "⏺ Start", command=self.toggle_record,
bg="#5B8DB3", fg="white", active_bg="#4A7A9E", width=100, height=40,
canvas_bg="#B9ECFA",
)
self.btn_record.lock_color = True
self.btn_record.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self.btn_record)
self.btn_record_append = RoundedButton(
self._btn_row_left, "⏺ Korrigieren", command=self._toggle_record_append,
bg="#5B8DB3", fg="white", active_bg="#4A7A9E",
width=90, height=28, canvas_bg="#B9ECFA",
)
self.btn_record_append.lock_color = True
self.btn_record_append.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self.btn_record_append)
self._btn_diktat_top = RoundedButton(
self._btn_row_left, "Diktat", command=self.open_diktat_window,
bg="#95D6ED", fg="#1a4d6d", active_bg="#7BC8E0",
width=60, height=28, canvas_bg="#95D6ED",
)
self._btn_diktat_top.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self._btn_diktat_top)
self.btn_new = RoundedButton(
self._btn_row_left, "Neu", command=self._new_session,
width=50, height=28, canvas_bg="#B9ECFA",
)
self.btn_new.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self.btn_new)
self._btn_minimize = RoundedButton(
self._btn_row_left, "", command=self._toggle_minimize,
width=28, height=28, canvas_bg="#B9ECFA",
)
self._btn_minimize.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self._btn_minimize)
self._btn_tile_windows = RoundedButton(
self._btn_row_left, "⊞", command=self.arrange_windows_top,
width=28, height=28, canvas_bg="#BAE8F8", bg="#BAE8F8", fg="#1a4d6d", active_bg="#A8D8E8",
)
self._btn_tile_windows.pack(side="left", padx=(3, 0), anchor="n")
self._scalable_widgets.append(self._btn_tile_windows)
self._btn_reset_pos = RoundedButton(
self._btn_row_left, "↺", command=self._reset_window_positions,
width=28, height=28, canvas_bg="#BAE8F8", bg="#BAE8F8", fg="#1a4d6d", active_bg="#A8D8E8",
)
self._btn_reset_pos.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self._btn_reset_pos)
self._btn_profile = RoundedButton(
self._btn_row_left, "👤", command=self._show_profile_editor,
width=28, height=28, canvas_bg="#BAE8F8", bg="#BAE8F8", fg="#1a4d6d", active_bg="#A8D8E8",
)
self._btn_profile.pack(side="left", padx=(6, 0), anchor="n")
self._scalable_widgets.append(self._btn_profile)
self._top_right = ttk.Frame(top, style="TopBar.TFrame")
self._top_right.pack(side="right", anchor="n")
# Token-Anzeige (zeigt echten OpenAI-Verbrauch)
token_data = load_token_usage()
used_dollars = token_data.get("used_dollars", 0)
budget_dollars = token_data.get("budget_dollars", 50) # Standard: $50
if budget_dollars > 0:
remaining_percent = int(((budget_dollars - used_dollars) / budget_dollars * 100))
remaining_percent = max(0, min(100, remaining_percent))
else:
remaining_percent = 100
self._token_label = ttk.Label(
self._top_right,
text=f"📊 {remaining_percent}%",
font=("Segoe UI", 9),
foreground="#BD4500" if remaining_percent < 20 else ("#FF8C00" if remaining_percent < 50 else "#1a4d6d"),
cursor="hand2"
)
self._token_label.pack(side="left", padx=(0, 8))
remaining = max(0, budget_dollars - used_dollars)
tooltip_text = f"Guthaben: {remaining_percent}% (${remaining:.2f} von ${budget_dollars:.2f})\n\n"
tooltip_text += f"Verbraucht: ${used_dollars:.2f}\n\n"
tooltip_text += "100% = Volles Budget verfügbar\n0% = Budget aufgebraucht\n\n"
tooltip_text += "Linksklick: Echte Daten von OpenAI laden\nRechtsklick: Budget einstellen"
add_tooltip(self._token_label, tooltip_text)
# Token-Label anklickbar machen
def refresh_usage(e=None):
self.set_status("Lade Verbrauch von OpenAI...")
threading.Thread(target=self._fetch_and_update_usage, daemon=True).start()
def open_budget(e=None):
self._open_budget_settings()
self._token_label.bind("<Button-1>", refresh_usage)
self._token_label.bind("<Button-3>", open_budget)
# KEINE REGLER MEHR - Fixierte optimale Größen (Schrift: 60%, Buttons: 140%)
# Wende fixierte Werte direkt an
self._apply_font_scale_global(FIXED_FONT_SCALE)
self._apply_button_scale_global(FIXED_BUTTON_SCALE)
# Transparenz-Regler
self._opacity_var_main = tk.DoubleVar(value=round(load_opacity() * 100))
def on_opacity_main(val):
try:
alpha = float(val) / 100.0
alpha = max(MIN_OPACITY, min(1.0, alpha))
self.attributes("-alpha", alpha)
save_opacity(alpha)
except Exception:
pass
opacity_lbl_half = tk.Label(self._top_right, text="◐", font=("Segoe UI", 7),
bg="#B9ECFA", fg="#7AAFC8", cursor="hand2")
opacity_lbl_half.pack(side="left", padx=(0, 1))
opacity_lbl_half.bind("<Button-1>", lambda e: (self._opacity_var_main.set(round(MIN_OPACITY * 100)),
on_opacity_main(str(MIN_OPACITY * 100))))
opacity_lbl_half.bind("<Enter>", lambda e: opacity_lbl_half.configure(fg="#1a4d6d"))
opacity_lbl_half.bind("<Leave>", lambda e: opacity_lbl_half.configure(fg="#7AAFC8"))
add_tooltip(opacity_lbl_half, f"Maximale Transparenz ({int(MIN_OPACITY*100)}%)")
try:
s = ttk.Style(self)
s.configure("MainOpacity.Horizontal.TScale", troughcolor="#c8ecf8", background="#5B8DB3")
except Exception:
pass
self._opacity_scale_main = ttk.Scale(
self._top_right,
from_=40, to=100,
variable=self._opacity_var_main,
orient="horizontal",
length=50,
command=on_opacity_main,
style="MainOpacity.Horizontal.TScale",
)
self._opacity_scale_main.pack(side="left")
add_tooltip(self._opacity_scale_main, "Transparenz anpassen:\nLinks = durchsichtig, Rechts = undurchsichtig")
opacity_lbl_sun = tk.Label(self._top_right, text="☀", font=("Segoe UI", 7),
bg="#B9ECFA", fg="#7AAFC8", cursor="hand2")
opacity_lbl_sun.pack(side="left", padx=(1, 8))
opacity_lbl_sun.bind("<Button-1>", lambda e: (self._opacity_var_main.set(100),
on_opacity_main("100")))
opacity_lbl_sun.bind("<Enter>", lambda e: opacity_lbl_sun.configure(fg="#1a4d6d"))
opacity_lbl_sun.bind("<Leave>", lambda e: opacity_lbl_sun.configure(fg="#7AAFC8"))
add_tooltip(opacity_lbl_sun, "Voll sichtbar (100%)")
self.btn_settings = RoundedButton(
self._top_right, "⚙", command=self._open_settings, width=36, height=28, canvas_bg="#B9ECFA",
)
self.btn_settings.pack(side="right", anchor="n")
self._scalable_widgets.append(self.btn_settings)
add_tooltip(self.btn_settings, "Einstellungen öffnen")
self._status_row = ttk.Frame(self, padding=(16, 4), style="StatusBar.TFrame")
self._status_row.pack(fill="x")
self.status_var = tk.StringVar(value="Bereit.")
self.lbl_status = tk.Label(
self._status_row, textvariable=self.status_var, fg="#BD4500", bg="#B9ECFA", font=self._text_font
)
self.lbl_status.pack(side="left")
self._apply_status_color()
self.paned = ttk.PanedWindow(self, orient="horizontal")
self.paned.pack(fill="both", expand=True, padx=10, pady=(0, 10))
self.paned.bind("<Configure>", self._on_paned_configure)
self._minimized = False
self._aza_minimize = self._toggle_minimize
self._aza_is_minimized = lambda: self._minimized
self._aza_windows = set()
self._window_registry = set()
self._btn_brief_mini = None
left = ttk.Frame(self.paned, padding=10)
right = ttk.Frame(self.paned, padding=10)
self.paned.add(left, weight=1)
self.paned.add(right, weight=1)
left_top = ttk.Frame(left)
left_top.pack(fill="x", pady=(0, 4))
self.btn_copy_transcript = RoundedButton(
left_top, "Transkript kopieren", command=self.copy_transcript,
width=160, height=28, canvas_bg="#B9ECFA",
)
self.btn_copy_transcript.pack(anchor="center")
# Vertikales PanedWindow für Transkript (verstellbare Höhe)
self.paned_transcript = ttk.PanedWindow(left, orient="vertical")
self.paned_transcript.pack(fill="both", expand=True)
self.paned_transcript.bind("<Configure>", self._on_paned_configure)
# Sash (Trennbalken) sichtbar machen
style = ttk.Style()
style.configure("Sash", sashthickness=8, background="#7EC8E3")
top_left = ttk.Frame(self.paned_transcript)
bottom_left = ttk.Frame(self.paned_transcript, style="TranscriptBar.TFrame")
self.paned_transcript.add(top_left, weight=1)
self.paned_transcript.add(bottom_left, weight=0)
# Frame für Label + Schriftgrößen-Spinbox
transcript_header = ttk.Frame(top_left)
transcript_header.pack(fill="x", anchor="w")
ttk.Label(transcript_header, text="Transkript:").pack(side="left")
trans_frame = ttk.Frame(top_left)
trans_frame.pack(fill="both", expand=True)
self.txt_transcript = ScrolledText(
trans_frame, wrap="word", font=self._text_font, bg="#e1f6fc"
)
self.txt_transcript.pack(fill="both", expand=True)
self._bind_textblock_pending(self.txt_transcript)
# Schriftgrößen-Spinbox für Transkript
add_text_font_size_control(transcript_header, self.txt_transcript, initial_size=10, bg_color="#B9ECFA", save_key="main_transcript")
# --- Buttons in bottom_left (unterhalb des Trennbalkens) ---
trans_btn_row = ttk.Frame(bottom_left, padding=(0, 4, 0, 0))
trans_btn_row.pack(fill="x")
RoundedButton(
trans_btn_row, "Ordner", command=self.open_ordner_window,
bg="#95D6ED", fg="#1a4d6d", active_bg="#7BC8E0", width=180, height=38, canvas_bg="#B9ECFA",
radius=0,
).pack(anchor="center")
# Anchor für Add-on (immer vorhanden, bleibt links)
self._addon_anchor = ttk.Frame(bottom_left)
self._addon_anchor.pack(fill="x")
# Add-on-Container (Übersetzer etc.) ein-/ausblendbar über Einstellungen
self._addon_container = ttk.Frame(bottom_left)
addon_inner = ttk.Frame(self._addon_container)
addon_inner.pack(fill="x")
# Add-on Header mit Toggle-Pfeil
addon_header_frame = ttk.Frame(addon_inner)
addon_header_frame.pack(fill="x", pady=(0, 4))
# Toggle-Pfeil und Label
self._addon_collapsed = False
self._addon_toggle_label = tk.Label(addon_header_frame, text="\u25BC Add-on (provisorisch):",
font=("Segoe UI", 10), bg="#B9ECFA", fg="#1a4d6d",
cursor="hand2")
self._addon_toggle_label.pack(anchor="center")
self._addon_toggle_label.bind("<Button-1>", self._toggle_addon_collapse)
# Container für die Buttons (zum Ein-/Ausblenden)
self._addon_buttons_container = ttk.Frame(addon_inner)
self._addon_buttons_container.pack(fill="x")
# Speichere Button-Rows für späteres Ein-/Ausblenden
self._addon_button_rows = {}
uebersetzer_row = ttk.Frame(self._addon_buttons_container, padding=(0, 0, 0, 0))
self._addon_button_rows["uebersetzer"] = uebersetzer_row
uebersetzer_row.pack(fill="x")
RoundedButton(
uebersetzer_row, "Übersetzer (provisorisch)", command=self._open_uebersetzer,
bg="#A8B8C0", fg="#1a4d6d", active_bg="#98A8B0", width=180, height=38, canvas_bg="#A8B8C0",
radius=0,
).pack(anchor="center")
# E-Mail Button
email_row = ttk.Frame(self._addon_buttons_container, padding=(0, 4, 0, 0))
self._addon_button_rows["email"] = email_row
email_row.pack(fill="x")
RoundedButton(
email_row, "E-Mail", command=self._open_email,
bg="#B8C8D0", fg="#1a4d6d", active_bg="#A8B8C0", width=180, height=38, canvas_bg="#B8C8D0",
radius=0,
).pack(anchor="center")
# Autotext Button
autotext_row = ttk.Frame(self._addon_buttons_container, padding=(0, 4, 0, 0))
self._addon_button_rows["autotext"] = autotext_row
autotext_row.pack(fill="x")
RoundedButton(
autotext_row, "Autotext", command=self._open_autotext_dialog,
bg="#CADFE8", fg="#1a4d6d", active_bg="#BAD0E0", width=180, height=38, canvas_bg="#CADFE8",
radius=0,
).pack(anchor="center")
# WhatsApp Button
whatsapp_row = ttk.Frame(self._addon_buttons_container, padding=(0, 4, 0, 0))
self._addon_button_rows["whatsapp"] = whatsapp_row
whatsapp_row.pack(fill="x")
RoundedButton(
whatsapp_row, "WhatsApp", command=self._open_whatsapp,
bg="#D8E8F0", fg="#1a4d6d", active_bg="#C8D8E8", width=180, height=38, canvas_bg="#D8E8F0",
radius=0,
).pack(anchor="center")
# DocApp Button
docapp_row = ttk.Frame(self._addon_buttons_container, padding=(0, 4, 0, 0))
self._addon_button_rows["docapp"] = docapp_row
docapp_row.pack(fill="x")
RoundedButton(
docapp_row, "MedWork", command=self._open_docapp,
bg="#E8F4F8", fg="#1a4d6d", active_bg="#D8E8F0", width=180, height=38, canvas_bg="#E8F4F8",
radius=0,
).pack(anchor="center")
# To-do Button
todo_row = ttk.Frame(self._addon_buttons_container, padding=(0, 4, 0, 0))
self._addon_button_rows["todo"] = todo_row
todo_row.pack(fill="x")
RoundedButton(
todo_row, "To-do", command=self._open_todo_window,
bg="#F0F8FB", fg="#1a4d6d", active_bg="#E0F0F5", width=180, height=38, canvas_bg="#F0F8FB",
radius=0,
).pack(anchor="center")
# Arbeitsplan Button
arbeitsplan_row = ttk.Frame(self._addon_buttons_container, padding=(0, 4, 0, 0))
self._addon_button_rows["arbeitsplan"] = arbeitsplan_row
arbeitsplan_row.pack(fill="x")
RoundedButton(
arbeitsplan_row, "Arbeitsplan", command=self._open_arbeitsplan_window,
bg="#F8FCFE", fg="#1a4d6d", active_bg="#EAF4F8", width=180, height=38, canvas_bg="#F8FCFE",
radius=0,
).pack(anchor="center")
# Initiales Ein-/Ausblenden der Buttons basierend auf Einstellungen
self._update_addon_buttons_visibility()
self._addon_container.pack(fill="x", before=self._addon_anchor)
if not self._autotext_data.get("addon_visible", True):
self._addon_container.pack_forget()
self._addon_spacer_frame = self._addon_anchor # Referenz für Textblöcke (pack before)
right_top = ttk.Frame(right)
right_top.pack(fill="x", pady=(0, 4))
self.btn_make_kg = RoundedButton(
right_top, "KG erstellen", command=self.make_kg_from_text,
width=90, height=28, canvas_bg="#B9ECFA",
)
self.btn_make_kg.pack(side="left", padx=(4, 0))
self.btn_copy = RoundedButton(
right_top, "KG kopieren", command=self.copy_output,
width=80, height=28, canvas_bg="#B9ECFA",
)
self.btn_copy.pack(side="left", padx=(4, 0))
# Vertikales PanedWindow für KG (verstellbare Höhe)
self.paned_kg = ttk.PanedWindow(right, orient="vertical")
self.paned_kg.pack(fill="both", expand=True)
self.paned_kg.bind("<Configure>", self._on_paned_configure)
top_right = ttk.Frame(self.paned_kg)
bottom_right = ttk.Frame(self.paned_kg)
self.paned_kg.add(top_right, weight=1)
self.paned_kg.add(bottom_right, weight=0)
# Frame für Label + Schriftgrößen-Spinbox
kg_header = ttk.Frame(top_right)
kg_header.pack(fill="x", anchor="w")
ttk.Label(kg_header, text="Krankengeschichte:").pack(side="left")
self.txt_output = ScrolledText(
top_right, wrap="word", height=22, font=self._text_font, bg="#F5FCFF"
)
self.txt_output.pack(fill="both", expand=True)
self._bind_textblock_pending(self.txt_output)
self._bind_kg_section_copy(self.txt_output)
# Schriftgrößen-Spinbox für KG
add_text_font_size_control(kg_header, self.txt_output, initial_size=10, bg_color="#B9ECFA", save_key="main_kg")
# ─── SOAP-Abschnitts-Steuerung (A±, S±, O±, B±, D±, T±, P±) einklappbar ───
_SOAP_BG = "#B9ECFA"
soap_toggle_frame = tk.Frame(bottom_right, bg=_SOAP_BG)
soap_toggle_frame.pack(fill="x")
self._soap_collapsed = self._autotext_data.get("soap_collapsed", False)
self._soap_toggle_label = tk.Label(
soap_toggle_frame,
text="\u25B6 SOAP:" if self._soap_collapsed else "\u25BC SOAP:",
font=("Segoe UI", 10), bg=_SOAP_BG, fg="#1a4d6d", cursor="hand2")
self._soap_toggle_label.pack(anchor="w")
self._soap_toggle_label.bind("<Button-1>", self._toggle_soap_collapse)
soap_ctrl_bar = tk.Frame(bottom_right, bg=_SOAP_BG, padx=4, pady=4)
self._soap_container = soap_ctrl_bar
if not self._soap_collapsed:
soap_ctrl_bar.pack(fill="x")
self._soap_anchor = tk.Frame(bottom_right, bg=_SOAP_BG, height=0)
self._soap_anchor.pack(fill="x")
self._soap_section_labels = {}
self._soap_section_levels = load_soap_section_levels()
self._soap_inner = tk.Frame(soap_ctrl_bar, bg=_SOAP_BG)
self._soap_inner.pack(anchor="center")
self._soap_bg = _SOAP_BG
self._rebuild_soap_section_controls()
# ─── KG-Bearbeitungs-Buttons (Kürzer / Ausführlicher / Vorlage) ───
# Zeile 1: gleiche Farbe wie KG erstellen (#7EC8E3)
_row1_bg, _row1_active = "#7EC8E3", "#6CB8D3"
kg_edit_bar = tk.Frame(soap_ctrl_bar, bg="#B9ECFA", pady=4)
kg_edit_bar.pack(fill="x")
self.btn_kg_kuerzer = RoundedButton(
kg_edit_bar, "Kürzer", command=self._kg_kuerzer,
width=120, height=28, canvas_bg="#B9ECFA", bg=_row1_bg, fg="#1a4d6d", active_bg=_row1_active,
)
self.btn_kg_kuerzer.pack(side="left")
self.btn_kg_ausfuehrlicher = RoundedButton(
kg_edit_bar, "Ausführlicher", command=self._kg_ausfuehrlicher,
width=140, height=28, canvas_bg="#B9ECFA", bg=_row1_bg, fg="#1a4d6d", active_bg=_row1_active,
)
self.btn_kg_ausfuehrlicher.pack(side="left", padx=(8, 0))
self.btn_kg_vorlage = RoundedButton(
kg_edit_bar, "Vorlage", command=self._open_kg_vorlage,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row1_bg, fg="#1a4d6d", active_bg=_row1_active,
)
self.btn_kg_vorlage.pack(side="left", padx=(8, 0))
self._update_kg_detail_display()
# ─── Dokumente-Gruppe (Brief, Rezept, … Korrektur) einklappbar ───
dokumente_header_frame = ttk.Frame(bottom_right, style="TranscriptBar.TFrame")
dokumente_header_frame.pack(fill="x", pady=(6, 0))
self._dokumente_collapsed = self._autotext_data.get("dokumente_collapsed", False)
self._dokumente_toggle_label = tk.Label(
dokumente_header_frame,
text="\u25B6 Dokumente:" if self._dokumente_collapsed else "\u25BC Dokumente:",
font=("Segoe UI", 10), bg="#B9ECFA", fg="#1a4d6d", cursor="hand2")
self._dokumente_toggle_label.pack(anchor="w")
self._dokumente_toggle_label.bind("<Button-1>", self._toggle_dokumente_collapse)
self._dokumente_container = ttk.Frame(bottom_right, style="TranscriptBar.TFrame")
self._dokumente_container.pack(fill="x")
self._dokumente_anchor = ttk.Frame(bottom_right, style="TranscriptBar.TFrame")
self._dokumente_anchor.pack(fill="x")
# Zeile 2 (+15% heller): Brief, Rezept, OP-Bericht
_row2_bg, _row2_active = "#97D3E9", "#87C3D9"
letter_bar = ttk.Frame(self._dokumente_container, padding=(0, 4), style="TranscriptBar.TFrame")
letter_bar.pack(fill="x")
self.btn_letter = RoundedButton(
letter_bar, "Brief", command=self.open_brief_window,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row2_bg, fg="#1a4d6d", active_bg=_row2_active,
)
self.btn_letter.pack(side="left")
self.btn_recipe = RoundedButton(
letter_bar, "Rezept", command=self.open_rezept_window,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row2_bg, fg="#1a4d6d", active_bg=_row2_active,
)
self.btn_recipe.pack(side="left", padx=(8, 0))
self.btn_op_bericht = RoundedButton(
letter_bar, "OP-Bericht", command=self.open_op_bericht_window,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row2_bg, fg="#1a4d6d", active_bg=_row2_active,
)
self.btn_op_bericht.pack(side="left", padx=(8, 0))
# Zeile 3 (+30% heller): KOGU, Diskussion mit KI, Arztzeugnis
_row3_bg, _row3_active = "#B0DEEF", "#A0CEDF"
kogu_bar = ttk.Frame(self._dokumente_container, padding=(0, 2), style="TranscriptBar.TFrame")
kogu_bar.pack(fill="x")
self.btn_kogu = RoundedButton(
kogu_bar, "KOGU", command=self.open_kogu_window,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row3_bg, fg="#1a4d6d", active_bg=_row3_active,
)
self.btn_kogu.pack(side="left")
self.btn_diskussion = RoundedButton(
kogu_bar, "Diskussion mit KI", command=self.open_diskussion_window,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row3_bg, fg="#1a4d6d", active_bg=_row3_active,
)
self.btn_diskussion.pack(side="left", padx=(8, 0))
self.btn_arztzeugnis = RoundedButton(
kogu_bar, "Arztzeugnis", command=self._open_arztzeugnis,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row3_bg, fg="#1a4d6d", active_bg=_row3_active,
)
self.btn_arztzeugnis.pack(side="left", padx=(8, 0))
# Zeile 4 (+45% heller): KI-Kontrolle, Korrektur
_row4_bg, _row4_active = "#C9E9F5", "#B9D9E5"
korrektur_bar = ttk.Frame(self._dokumente_container, padding=(0, 2), style="TranscriptBar.TFrame")
korrektur_bar.pack(fill="x")
self.btn_ki_pruefen = RoundedButton(
korrektur_bar, "KI-Kontrolle", command=self.open_ki_pruefen,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row4_bg, fg="#1a4d6d", active_bg=_row4_active,
)
self.btn_ki_pruefen.pack(side="left")
self.btn_korrektur = RoundedButton(
korrektur_bar, "Korrektur", command=self.open_pruefen_window,
width=100, height=28, canvas_bg="#B9ECFA", bg=_row4_bg, fg="#1a4d6d", active_bg=_row4_active,
)
self.btn_korrektur.pack(side="left", padx=(8, 0))
if self._dokumente_collapsed:
self._dokumente_container.pack_forget()
# Textblöcke unterhalb der Button-Reihen (rechte Seite unten)
textbloecke_header_frame = ttk.Frame(bottom_right, style="TranscriptBar.TFrame")
textbloecke_header_frame.pack(fill="x", pady=(6, 0))
self._textbloecke_collapsed = self._autotext_data.get("textbloecke_collapsed", False)
self._textbloecke_toggle_label = tk.Label(textbloecke_header_frame,
text="▶ Textblöcke:" if self._textbloecke_collapsed else "▼ Textblöcke:",
font=("Segoe UI", 10), bg="#B9ECFA", fg="#1a4d6d",
cursor="hand2")
self._textbloecke_toggle_label.pack(anchor="w")
self._textbloecke_toggle_label.bind("<Button-1>", self._toggle_textbloecke_collapse)
self._textbloecke_container = ttk.Frame(bottom_right, style="TranscriptBar.TFrame")
self._textbloecke_container.pack(fill="x")
self._textbloecke_anchor = ttk.Frame(bottom_right, style="TranscriptBar.TFrame")
self._textbloecke_anchor.pack(fill="x")
self._textbloecke_data = load_textbloecke()
self._removed_textbloecke = []
self._last_focused_text_widget = None
self._last_insert_index = "1.0"
self._textblock_drag_data = {"text": None, "active": False}
self._just_dropped_on_textblock = False
self._textbloecke_buttons = []
self._textbloecke_rows_frame = ttk.Frame(self._textbloecke_container)
self._textbloecke_rows_frame.pack(fill="x")
self._rebuild_textblock_buttons()
plus_minus_row = ttk.Frame(self._textbloecke_container, padding=(0, 4, 0, 0))
plus_minus_row.pack(fill="x")
pm_inner = ttk.Frame(plus_minus_row)
pm_inner.pack(anchor="center")
RoundedButton(pm_inner, "+", command=self._add_textblock, width=28, height=24, canvas_bg="#B9ECFA",
bg="#e1f6fc", fg="#1a4d6d", active_bg="#B8E8F4", radius=0).pack(side="left", padx=(0, 4))
RoundedButton(pm_inner, "", command=self._remove_textblock, width=28, height=24, canvas_bg="#B9ECFA",
bg="#e1f6fc", fg="#1a4d6d", active_bg="#B8E8F4", radius=0).pack(side="left")
if self._textbloecke_collapsed:
self._textbloecke_container.pack_forget()
self.bind_all("<B1-Motion>", self._textblock_on_drag_motion)
self.bind_all("<ButtonRelease-1>", self._on_global_drag_release)
if not self._autotext_data.get("textbloecke_visible", True):
self._textbloecke_container.pack_forget()
self._bottom_frame = ttk.Frame(self, padding=(10, 0, 10, 10), style="StatusBar.TFrame")
self._bottom_frame.pack(fill="x")
ttk.Label(
self._bottom_frame,
text="Ablauf: ⏺ Start → ⏹ Stopp → automatische Transkription → automatische KG. "
"⏺ Korrigieren ergänzt bestehende KG. „KG erstellen“ erzeugt KG aus Text."
).pack(side="left", anchor="w")
add_resize_grip(self)
# GANZ LINKS & WEITER OBEN: "AzA" Text + Logo (über dem Resize-Grip!)
logo_frame = tk.Frame(self, bg="#B9ECFA")
logo_frame.place(relx=0.01, rely=0.97, anchor="sw") # Ganz links unten, aber höher
# Logo ZUERST (links)
try:
logo_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), "logo.png")
if os.path.exists(logo_path):
from PIL import Image, ImageTk
img = Image.open(logo_path)
img_small = img.resize((62, 62), Image.Resampling.LANCZOS)
self.bottom_logo_photo = ImageTk.PhotoImage(img_small)
logo_label = tk.Label(logo_frame, image=self.bottom_logo_photo, bg="#B9ECFA")
logo_label.pack(side="left", padx=(0, 10))
except Exception as e:
print(f"Bottom-Logo konnte nicht geladen werden: {e}")
# Text-Teil DANACH (rechts vom Logo)
text_frame = tk.Frame(logo_frame, bg="#B9ECFA")
text_frame.pack(side="left")
aza_label1 = tk.Label(text_frame, text="AzA von Arzt zu Arzt",
bg="#B9ECFA", fg="#1a4d6d",
font=("Segoe UI", 19, "bold")) # 24 → 19 (20% kleiner)
aza_label1.pack(anchor="w")
aza_label2 = tk.Label(text_frame, text="Informatik zu fairen Preisen",
bg="#B9ECFA", fg="#1a4d6d",
font=("Segoe UI", 11)) # 21 → 11 (50% kleiner)
aza_label2.pack(anchor="w")
# Initiale Schriftgrößen- und Button-Größen-Anwendung beim Start
self.after(100, lambda: self._apply_font_scale(load_font_scale()))
self.after(150, lambda: self._apply_button_scale(load_button_scale()))
# To-Do-Liste automatisch öffnen, wenn in Einstellungen aktiviert (Standard: an)
if (self._autotext_data.get("todo_auto_open", True)
and self._autotext_data.get("addon_buttons", {}).get("todo", True)):
self.after(500, self._open_todo_window)
def _on_configure(self, event):
"""Nach Verschieben/Resize: Größe und Position mit Verzögerung speichern (nur Hauptfenster)."""
if event.widget is not self:
return
if self._geometry_save_after_id:
self.after_cancel(self._geometry_save_after_id)
self._geometry_save_after_id = self.after(400, self._save_window_geometry)
def _on_paned_configure(self, event):
"""Nach Verschieben eines Teilers (Breite oder Transkript/KG-Höhe): mit Verzögerung speichern."""
if event.widget is not self.paned and event.widget is not self.paned_transcript and event.widget is not self.paned_kg:
return
if self._geometry_save_after_id:
self.after_cancel(self._geometry_save_after_id)
self._geometry_save_after_id = self.after(400, self._save_window_geometry)
def _restore_sash(self):
"""Stellt gespeicherte Sash-Positionen (Breite Transkript/KG, Höhe Transkript und KG) wieder her. Standard: Transkript 1/3 der Breite."""
# Gespeicherte PanedWindow-Positionen laden
paned_positions = load_paned_positions()
try:
w = self.winfo_width()
if w < 200:
w = 800
sash = self._saved_sash if self._saved_sash is not None else (w // 3)
sash = max(150, min(sash, w - 150))
self.paned.sashpos(0, sash)
except Exception:
pass
# Transkript vertikale Position wiederherstellen
try:
left_h = self.paned_transcript.winfo_height()
if left_h < 100:
left_h = 400
# Versuche gespeicherte Position zu laden
saved_transcript_pos = paned_positions.get("transcript_vertical")
if saved_transcript_pos is not None:
sash_v = max(80, min(saved_transcript_pos, max(80, left_h - 80)))
elif self._saved_sash_transcript is not None:
sash_v = max(80, min(self._saved_sash_transcript, max(80, left_h - 80)))
else:
sash_v = min(150, max(80, left_h - 80))
self.paned_transcript.sashpos(0, sash_v)
except Exception:
pass
# Krankengeschichte vertikale Position wiederherstellen
try:
right_h = self.paned_kg.winfo_height()
if right_h < 100:
right_h = 400
# Versuche gespeicherte Position zu laden
saved_kg_pos = paned_positions.get("kg_vertical")
if saved_kg_pos is not None:
sash_v = max(120, min(saved_kg_pos, max(120, right_h - 80)))
else:
# Standard: ca. 70% für KG Text, 30% für Buttons
sash_v = max(200, int(right_h * 0.70))
self.paned_kg.sashpos(0, sash_v)
except Exception:
pass
def _save_window_geometry(self):
self._geometry_save_after_id = None
if getattr(self, "_minimized", False):
return
try:
w, h = self.winfo_width(), self.winfo_height()
x, y = self.winfo_x(), self.winfo_y()
if w >= 400 and h >= 300:
sash = None
sash_transcript = None
try:
sash = self.paned.sashpos(0)
except Exception:
pass
try:
sash_transcript = self.paned_transcript.sashpos(0)
except Exception:
pass
save_window_geometry(w, h, x, y, sash, sash_transcript)
# Auch die vertikalen PanedWindow-Positionen speichern
paned_positions = {}
try:
paned_positions["transcript_vertical"] = self.paned_transcript.sashpos(0)
except Exception:
pass
try:
paned_positions["kg_vertical"] = self.paned_kg.sashpos(0)
except Exception:
pass
if paned_positions:
save_paned_positions(paned_positions)
except Exception:
pass
def _apply_font_scale(self, scale: float):
"""Wendet nur den Schriftgrößen-Skalierungsfaktor auf Text-Widgets an."""
try:
# Aktualisiere Text-Widgets (ScrolledText, Text, Label)
# Basis-Größe 16, damit bei Scale 0.3-0.8 die Schrift lesbar bleibt
base_size = 16
new_size = max(5, int(base_size * scale))
new_font = (self._text_font[0], new_size)
# Aktualisiere Status-Label
if hasattr(self, 'lbl_status'):
self.lbl_status.configure(font=new_font)
# Aktualisiere Text-Widgets
for txt_widget in [self.txt_transcript, self.txt_output]:
if txt_widget and txt_widget.winfo_exists():
txt_widget.configure(font=new_font)
# Skaliere Schrift in allen RoundedButtons
for widget in self.winfo_children():
self._scale_font_recursive(widget, scale)
except Exception as e:
pass
def _apply_font_scale_global(self, scale: float):
"""Wendet Schriftgrößen-Skalierung auf ALLE offenen Fenster an."""
self._apply_font_scale(scale)
for win in _ALL_WINDOWS:
try:
if win and win.winfo_exists():
scale_window_fonts(win, scale)
except Exception:
pass
def _apply_button_scale(self, scale: float):
"""Wendet nur den Button-Größen-Skalierungsfaktor an."""
try:
for widget in self.winfo_children():
self._scale_button_size_recursive(widget, scale)
except Exception:
pass
def _apply_button_scale_global(self, scale: float):
"""Wendet Button-Größen-Skalierung auf ALLE offenen Fenster an."""
self._apply_button_scale(scale)
for win in _ALL_WINDOWS:
try:
if win and win.winfo_exists():
scale_window_buttons(win, scale)
except Exception:
pass
def update_token_display(self):
"""Aktualisiert die Token-Anzeige (Budget-basiert)."""
try:
token_data = load_token_usage()
used_dollars = token_data.get("used_dollars", 0)
budget_dollars = token_data.get("budget_dollars", 50)
if budget_dollars > 0:
remaining_percent = int(((budget_dollars - used_dollars) / budget_dollars * 100))
remaining_percent = max(0, min(100, remaining_percent))
else:
remaining_percent = 100
self._token_label.configure(
text=f"📊 {remaining_percent}%",
foreground="#BD4500" if remaining_percent < 20 else ("#FF8C00" if remaining_percent < 50 else "#1a4d6d")
)
except Exception:
pass
def _fetch_and_update_usage(self):
"""Ruft echte Verbrauchs-Daten von OpenAI ab (läuft in Thread) - OHNE Statusmeldungen."""
try:
usage_data = fetch_openai_usage(self.client)
if usage_data and usage_data.get("success"):
used_dollars = usage_data.get("used_dollars", 0)
save_token_usage(used_dollars=used_dollars)
# KEINE Statusmeldung mehr - stört den Benutzer
self.after(0, self.update_token_display)
# KEINE Fehlermeldungen mehr bei API-Problemen
except Exception:
pass # Fehler still ignorieren
def _open_budget_settings(self):
"""Dialog zum Einstellen des monatlichen Budgets."""
token_data = load_token_usage()
current_budget = token_data.get("budget_dollars", 50)
new_budget = simpledialog.askfloat(
"Monatliches Budget",
"Ihr monatliches OpenAI-Budget in Dollar:\n(z.B. 50 für $50/Monat)",
initialvalue=current_budget,
minvalue=1,
maxvalue=10000
)
if new_budget:
save_token_usage(budget_dollars=new_budget)
self.update_token_display()
self.set_status(f"Budget auf ${new_budget:.2f} gesetzt.")
def _scale_font_recursive(self, widget, scale: float):
"""Rekursive Funktion zum Skalieren der Schriftgröße in RoundedButtons."""
try:
if isinstance(widget, RoundedButton):
widget.set_font_size_scale(scale)
for child in widget.winfo_children():
self._scale_font_recursive(child, scale)
except Exception:
pass
def _scale_button_size_recursive(self, widget, scale: float):
"""Rekursive Funktion zum Skalieren der Button-Größe in RoundedButtons."""
try:
if isinstance(widget, RoundedButton):
widget.set_button_size_scale(scale)
for child in widget.winfo_children():
self._scale_button_size_recursive(child, scale)
except Exception:
pass
def _scale_widget_recursive(self, widget, scale: float):
"""Legacy-Methode für Rückwärtskompatibilität."""
try:
if isinstance(widget, RoundedButton):
widget.set_font_scale(scale)
for child in widget.winfo_children():
self._scale_widget_recursive(child, scale)
except Exception:
pass
def _check_old_kg_entries(self):
"""Prüft KG-Einträge älter als 2 Wochen: bei Bestätigung löschen (oder automatisch, wenn Einstellung aktiv)."""
try:
old = get_old_kg_entries(14)
if not old:
return
auto = getattr(self, "_autotext_data", {}).get("kg_auto_delete_old", False)
if auto:
n = delete_kg_entries_older_than(14)
if n > 0:
self.set_status(f"{n} KG-Einträge älter als 2 Wochen automatisch gelöscht.")
return
if messagebox.askyesno(
"KG-Aufräumen",
f"Es gibt {len(old)} KG-Einträge älter als 2 Wochen.\n\nSollen diese gelöscht werden, um Speicher zu schonen?",
):
n = delete_kg_entries_older_than(14)
if n > 0:
self.set_status(f"{n} KG-Einträge gelöscht.")
except Exception:
pass
def _on_close(self):
"""Beim Schließen: KG/Brief/Rezept/KOGU lesen und in Ablage speichern (JSON + .txt), dann schließen."""
def _str(w):
if w is None:
return ""
if hasattr(w, "get"):
try:
s = w.get("1.0", "end")
return (s if isinstance(s, str) else str(s)).strip()
except Exception:
return ""
return (str(w)).strip()
kg_text = _str(self.txt_output)
brief_text = _str(getattr(self, "_last_brief_text", None))
rezept_text = _str(getattr(self, "_last_rezept_text", None))
kogu_text = _str(getattr(self, "_last_kogu_text", None))
try:
if kg_text:
save_to_ablage("KG", kg_text)
if brief_text:
save_to_ablage("Briefe", brief_text)
if rezept_text:
save_to_ablage("Rezepte", rezept_text)
if kogu_text:
save_to_ablage("Kostengutsprachen", kogu_text)
except Exception:
pass
self._save_window_geometry()
try:
save_button_heat()
except Exception:
pass
diktat_win = getattr(self, "_diktat_window", None)
if diktat_win is not None and diktat_win.winfo_exists():
self._main_hidden = True
self.withdraw()
return
self.destroy()
# _open_settings -> ausgelagert in Mixin-Modul
def _open_autotext_dialog(self, parent=None):
"""Dialog zum Verwalten der Autotext-Abkürzungen (Abkürzung → Ersetzung, mehrzeilig möglich)."""
aw = tk.Toplevel(self)
aw.title("Autotext verwalten")
aw.transient(parent or self)
aw.configure(bg="#B9ECFA")
aw.minsize(500, 400)
aw.attributes("-topmost", True)
self._register_window(aw)
# Fensterposition: gespeichert laden oder zentrieren
setup_window_geometry_saving(aw, "autotext", 660, 500)
add_resize_grip(aw, 500, 400)
add_font_scale_control(aw)
af = ttk.Frame(aw, padding=12)
af.pack(fill="both", expand=True)
ttk.Label(af, text="Abkürzungen: Tippen Sie z. B. „mfg“ + Leerzeichen → wird zu „mit freundlichen Grüßen“. Mehrzeilige Ersetzungen möglich.").pack(anchor="w")
list_f = ttk.Frame(af)
list_f.pack(fill="both", expand=True, pady=(8, 8))
listbox = tk.Listbox(list_f, height=8, font=("Segoe UI", 11))
listbox.pack(side="left", fill="both", expand=True)
scroll = ttk.Scrollbar(list_f, orient="vertical", command=listbox.yview)
scroll.pack(side="right", fill="y")
listbox.configure(yscrollcommand=scroll.set)
entries = dict(self._autotext_data.get("entries") or {})
def refresh_list():
listbox.delete(0, "end")
for k in sorted(entries.keys()):
listbox.insert("end", f"«{k}» → {((entries[k] or '').replace(chr(10), ' ↵ ')[:40])}…" if len((entries[k] or "").replace("\n", " ")) > 40 else f"«{k}» → {((entries[k] or '').replace(chr(10), ' ↵ '))}")
refresh_list()
edit_f = ttk.Frame(af)
edit_f.pack(fill="x", pady=(0, 8))
ttk.Label(edit_f, text="Abkürzung:").grid(row=0, column=0, sticky="w", padx=(0, 8))
abbrev_var = tk.StringVar()
ttk.Entry(edit_f, textvariable=abbrev_var, width=18).grid(row=0, column=1, sticky="w", padx=(0, 16))
ttk.Label(edit_f, text="Ersetzung (mehrzeilig möglich):").grid(row=1, column=0, sticky="nw", padx=(0, 8), pady=(4, 0))
repl_text = ScrolledText(edit_f, wrap="word", height=4, width=42, font=self._text_font, bg="#F5FCFF")
repl_text.grid(row=1, column=1, sticky="ew", pady=(4, 0))
edit_f.columnconfigure(1, weight=1)
def on_select(evt):
sel = listbox.curselection()
if not sel:
return
idx = sel[0]
keys = sorted(entries.keys())
if idx >= len(keys):
return
k = keys[idx]
abbrev_var.set(k)
repl_text.delete("1.0", "end")
repl_text.insert("1.0", entries.get(k, ""))
listbox.bind("<<ListboxSelect>>", on_select)
def do_add():
ab = abbrev_var.get().strip()
if not ab:
messagebox.showinfo("Hinweis", "Bitte eine Abkürzung eingeben.")
return
entries[ab] = repl_text.get("1.0", "end").rstrip("\n")
self._autotext_data["entries"] = entries
save_autotext(self._autotext_data)
refresh_list()
abbrev_var.set("")
repl_text.delete("1.0", "end")
self.set_status("Autotext-Eintrag hinzugefügt/aktualisiert.")
def do_delete():
sel = listbox.curselection()
if not sel:
messagebox.showinfo("Hinweis", "Bitte einen Eintrag in der Liste auswählen.")
return
keys = sorted(entries.keys())
idx = sel[0]
if idx >= len(keys):
return
k = keys[idx]
del entries[k]
self._autotext_data["entries"] = entries
save_autotext(self._autotext_data)
refresh_list()
abbrev_var.set("")
repl_text.delete("1.0", "end")
self.set_status("Autotext-Eintrag gelöscht.")
def do_diktieren():
if not self.ensure_ready():
messagebox.showwarning("Diktieren", "Kein API-Key konfiguriert. Bitte in den Einstellungen eintragen.")
return
rec_win = tk.Toplevel(aw)
rec_win.title("Autotext Diktieren")
rec_win.transient(aw)
rec_win.geometry("420x130")
rec_win.configure(bg="#B9ECFA")
rec_win.attributes("-topmost", True)
self._register_window(rec_win)
lbl = ttk.Label(rec_win, text="Aufnahme läuft… Klicken Sie „Stoppen“, wenn Sie fertig sind.")
lbl.pack(pady=(16, 8))
try:
self.recorder.start()
except Exception as e:
messagebox.showerror("Aufnahme-Fehler", str(e))
rec_win.destroy()
return
def stop_and_transcribe():
try:
wav_path = self.recorder.stop_and_save_wav()
except Exception:
rec_win.destroy()
return
rec_win.destroy()
def worker():
try:
text = self.transcribe_wav(wav_path)
try:
if os.path.exists(wav_path):
os.remove(wav_path)
except Exception:
pass
def insert_text():
if aw.winfo_exists() and repl_text.winfo_exists():
repl_text.insert(tk.INSERT, text)
self.set_status("Ersetzungstext diktiert und eingefügt.")
self.after(0, insert_text)
except Exception as e:
self.after(0, lambda: messagebox.showerror("Fehler", str(e)))
threading.Thread(target=worker, daemon=True).start()
ttk.Button(rec_win, text="Stoppen", command=stop_and_transcribe).pack(pady=(0, 16))
def do_run_as_admin():
if not _run_as_admin():
messagebox.showerror("Fehler", "Konnte nicht als Administrator starten.")
btn_row = ttk.Frame(af)
btn_row.pack(fill="x")
ttk.Button(btn_row, text="Hinzufügen / Aktualisieren", command=do_add).pack(side="left", padx=(0, 8))
ttk.Button(btn_row, text="Diktieren", command=do_diktieren).pack(side="left", padx=(0, 8))
ttk.Button(btn_row, text="Löschen", command=do_delete).pack(side="left", padx=(0, 8))
if sys.platform == "win32" and not _is_admin():
ttk.Button(btn_row, text="Als Administrator starten", command=do_run_as_admin).pack(side="left", padx=(0, 8))
ttk.Button(btn_row, text="Schließen", command=aw.destroy).pack(side="left")
@staticmethod
def _hash_password(pw: str) -> str:
"""Erzeugt einen SHA-256-Hash des Passworts."""
return hashlib.sha256(pw.encode("utf-8")).hexdigest()
def _show_login_dialog(self):
"""Zeigt beim ersten Start einen Registrierungs-Dialog, danach einen Passwort-Login."""
has_profile = bool(self._user_profile.get("name"))
if has_profile and self._user_profile.get("password_hash"):
self._show_password_login()
else:
self._show_registration_dialog()
def _show_password_login(self):
"""Passwort-Abfrage für bestehende Benutzer."""
dlg = tk.Toplevel(self)
dlg.title("🔒 Anmeldung")
dlg.configure(bg="#E8F4FA")
dlg.resizable(False, False)
dlg.geometry("380x260")
self._register_window(dlg)
dlg.attributes("-topmost", True)
dlg.grab_set()
center_window(dlg, 380, 260)
tk.Label(dlg, text="🔒 Anmeldung", font=("Segoe UI", 16, "bold"),
bg="#B9ECFA", fg="#1a4d6d").pack(fill="x", ipady=12)
user_name = self._user_profile.get("name", "Benutzer")
tk.Label(dlg, text=f"Willkommen zurück, {user_name}!",
font=("Segoe UI", 10), bg="#E8F4FA", fg="#4a8aaa").pack(fill="x", padx=16, pady=(10, 2))
form = tk.Frame(dlg, bg="#E8F4FA", padx=20, pady=8)
form.pack(fill="x")
tk.Label(form, text="Passwort:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
pw_entry = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0, show="●")
pw_entry.pack(fill="x", ipady=4, pady=(0, 6))
err_label = tk.Label(form, text="", font=("Segoe UI", 9), bg="#E8F4FA", fg="#E05050")
err_label.pack(fill="x")
def do_login(event=None):
pw = pw_entry.get()
if not pw:
err_label.configure(text="⚠ Bitte Passwort eingeben.")
return
pw_hash = self._hash_password(pw)
if pw_hash == self._user_profile.get("password_hash"):
dlg.destroy()
else:
err_label.configure(text="❌ Falsches Passwort. Bitte erneut versuchen.")
pw_entry.delete(0, "end")
pw_entry.focus_set()
pw_entry.bind("<Return>", do_login)
btn_frame = tk.Frame(dlg, bg="#E8F4FA")
btn_frame.pack(pady=8)
tk.Button(btn_frame, text="🔓 Anmelden", font=("Segoe UI", 11, "bold"),
bg="#5B8DB3", fg="white", activebackground="#4A7A9E",
relief="flat", bd=0, padx=20, pady=6, cursor="hand2",
command=do_login).pack()
dlg.protocol("WM_DELETE_WINDOW", lambda: sys.exit(0))
pw_entry.focus_set()
self.wait_window(dlg)
def _show_registration_dialog(self):
"""Erstregistrierung: Profil + Passwort festlegen."""
dlg = tk.Toplevel(self)
dlg.title("Registrierung AzA Profil")
dlg.configure(bg="#E8F4FA")
dlg.resizable(False, False)
dlg.geometry("400x480")
self._register_window(dlg)
dlg.attributes("-topmost", True)
dlg.grab_set()
center_window(dlg, 400, 480)
tk.Label(dlg, text="👤 Willkommen bei AzA", font=("Segoe UI", 16, "bold"),
bg="#B9ECFA", fg="#1a4d6d").pack(fill="x", ipady=12)
tk.Label(dlg, text="Bitte erfassen Sie Ihr Profil und legen Sie ein Passwort fest:",
font=("Segoe UI", 9), bg="#E8F4FA", fg="#4a8aaa").pack(fill="x", padx=16, pady=(8, 4))
form = tk.Frame(dlg, bg="#E8F4FA", padx=20, pady=8)
form.pack(fill="x")
tk.Label(form, text="Name / Titel:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
name_entry = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0)
name_entry.pack(fill="x", ipady=4, pady=(0, 6))
name_entry.insert(0, self._user_profile.get("name", ""))
tk.Label(form, text="Fachrichtung:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
spec_entry = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0)
spec_entry.pack(fill="x", ipady=4, pady=(0, 6))
spec_entry.insert(0, self._user_profile.get("specialty", ""))
tk.Label(form, text="Praxis / Klinik:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
clinic_entry = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0)
clinic_entry.pack(fill="x", ipady=4, pady=(0, 6))
clinic_entry.insert(0, self._user_profile.get("clinic", ""))
sep = tk.Frame(form, bg="#B9ECFA", height=1)
sep.pack(fill="x", pady=(6, 6))
tk.Label(form, text="🔒 Passwort festlegen:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
pw_entry = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0, show="●")
pw_entry.pack(fill="x", ipady=4, pady=(0, 6))
tk.Label(form, text="Passwort bestätigen:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
pw_confirm_entry = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0, show="●")
pw_confirm_entry.pack(fill="x", ipady=4, pady=(0, 6))
def do_save():
name = name_entry.get().strip()
if not name:
messagebox.showwarning("Pflichtfeld", "Bitte geben Sie Ihren Namen ein.", parent=dlg)
return
pw = pw_entry.get()
pw_confirm = pw_confirm_entry.get()
if not pw:
messagebox.showwarning("Pflichtfeld", "Bitte legen Sie ein Passwort fest.", parent=dlg)
return
if len(pw) < 4:
messagebox.showwarning("Passwort zu kurz", "Das Passwort muss mindestens 4 Zeichen lang sein.", parent=dlg)
return
if pw != pw_confirm:
messagebox.showerror("Fehler", "Die Passwörter stimmen nicht überein.", parent=dlg)
pw_confirm_entry.delete(0, "end")
pw_confirm_entry.focus_set()
return
self._user_profile = {
"name": name,
"specialty": spec_entry.get().strip(),
"clinic": clinic_entry.get().strip(),
"password_hash": self._hash_password(pw),
}
save_user_profile(self._user_profile)
dlg.destroy()
tk.Button(dlg, text="💾 Registrieren & Starten", font=("Segoe UI", 11, "bold"),
bg="#5B8DB3", fg="white", activebackground="#4A7A9E",
relief="flat", bd=0, padx=20, pady=6, cursor="hand2",
command=do_save).pack(pady=12)
dlg.protocol("WM_DELETE_WINDOW", lambda: sys.exit(0))
name_entry.focus_set()
self.wait_window(dlg)
def _show_profile_editor(self):
"""Öffnet ein Fenster zum Bearbeiten des Benutzerprofils (inkl. Passwort ändern)."""
dlg = tk.Toplevel(self)
dlg.title("Profil bearbeiten")
dlg.configure(bg="#E8F4FA")
dlg.resizable(False, False)
dlg.geometry("380x440")
dlg.attributes("-topmost", True)
self._register_window(dlg)
center_window(dlg, 380, 440)
tk.Label(dlg, text="👤 Profil bearbeiten", font=("Segoe UI", 13, "bold"),
bg="#B9ECFA", fg="#1a4d6d").pack(fill="x", ipady=8)
form = tk.Frame(dlg, bg="#E8F4FA", padx=20, pady=8)
form.pack(fill="x")
tk.Label(form, text="Name / Titel:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(8, 0))
name_e = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d", relief="flat")
name_e.pack(fill="x", ipady=4, pady=(0, 6))
name_e.insert(0, self._user_profile.get("name", ""))
tk.Label(form, text="Fachrichtung:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
spec_e = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d", relief="flat")
spec_e.pack(fill="x", ipady=4, pady=(0, 6))
spec_e.insert(0, self._user_profile.get("specialty", ""))
tk.Label(form, text="Praxis / Klinik:", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
clinic_e = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d", relief="flat")
clinic_e.pack(fill="x", ipady=4, pady=(0, 6))
clinic_e.insert(0, self._user_profile.get("clinic", ""))
sep = tk.Frame(form, bg="#B9ECFA", height=1)
sep.pack(fill="x", pady=(8, 6))
tk.Label(form, text="🔒 Passwort ändern (optional):", font=("Segoe UI", 10, "bold"),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(2, 0))
tk.Label(form, text="Leer lassen, um das Passwort beizubehalten.",
font=("Segoe UI", 8), bg="#E8F4FA", fg="#888").pack(anchor="w")
pw_old_e = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0, show="●")
pw_new_e = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0, show="●")
pw_confirm_e = tk.Entry(form, font=("Segoe UI", 11), bg="white", fg="#1a4d6d",
relief="flat", bd=0, show="●")
if self._user_profile.get("password_hash"):
tk.Label(form, text="Altes Passwort:", font=("Segoe UI", 9),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(4, 0))
pw_old_e.pack(fill="x", ipady=3, pady=(0, 4))
tk.Label(form, text="Neues Passwort:", font=("Segoe UI", 9),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(2, 0))
pw_new_e.pack(fill="x", ipady=3, pady=(0, 4))
tk.Label(form, text="Neues Passwort bestätigen:", font=("Segoe UI", 9),
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", pady=(2, 0))
pw_confirm_e.pack(fill="x", ipady=3, pady=(0, 4))
def do_save():
name = name_e.get().strip()
if not name:
messagebox.showwarning("Pflichtfeld", "Name darf nicht leer sein.", parent=dlg)
return
new_pw = pw_new_e.get()
new_pw_confirm = pw_confirm_e.get()
old_hash = self._user_profile.get("password_hash", "")
if new_pw:
if old_hash and self._hash_password(pw_old_e.get()) != old_hash:
messagebox.showerror("Fehler", "Das alte Passwort ist nicht korrekt.", parent=dlg)
return
if len(new_pw) < 4:
messagebox.showwarning("Zu kurz", "Das neue Passwort muss mindestens 4 Zeichen lang sein.", parent=dlg)
return
if new_pw != new_pw_confirm:
messagebox.showerror("Fehler", "Die neuen Passwörter stimmen nicht überein.", parent=dlg)
return
pw_hash = self._hash_password(new_pw)
else:
pw_hash = old_hash
self._user_profile = {
"name": name,
"specialty": spec_e.get().strip(),
"clinic": clinic_e.get().strip(),
"password_hash": pw_hash,
}
save_user_profile(self._user_profile)
self.set_status(f"Profil gespeichert: {name}")
dlg.destroy()
btn_row = tk.Frame(dlg, bg="#E8F4FA")
btn_row.pack(pady=10)
tk.Button(btn_row, text="💾 Speichern", font=("Segoe UI", 10, "bold"),
bg="#5B8DB3", fg="white", activebackground="#4A7A9E",
relief="flat", padx=16, pady=4, cursor="hand2",
command=do_save).pack(side="left", padx=6)
tk.Button(btn_row, text="Abbrechen", font=("Segoe UI", 10),
bg="#C8DDE6", fg="#1a4d6d", activebackground="#B8CDD6",
relief="flat", padx=12, pady=4, cursor="hand2",
command=dlg.destroy).pack(side="left", padx=6)
def _reset_window_positions(self):
"""Setzt alle gespeicherten Fensterpositionen und KG-Einstellungen zurück."""
answer = messagebox.askyesno(
"Fensterpositionen zurücksetzen",
"Alle Fensterpositionen und KG-Einstellungen zurücksetzen?\n\n"
"Beim nächsten Start werden alle Fenster\n"
"in der Bildschirmmitte geöffnet.\n"
"Die KG-Detailstufe (Kürzer/Ausführlicher)\n"
"wird auf Standard zurückgesetzt.",
parent=self,
)
if not answer:
return
deleted = reset_all_window_positions()
self._update_kg_detail_display()
self._soap_section_levels = {k: 0 for k in _SOAP_SECTIONS}
self._update_soap_section_display()
try:
reset_button_heat()
except Exception:
pass
messagebox.showinfo(
"Zurückgesetzt",
f"{deleted} Fensterposition(en) zurückgesetzt.\n"
"KG-Detailstufe und Button-Farben auf Standard zurückgesetzt.\n\n"
"Bitte starten Sie die Anwendung neu,\n"
"damit die Änderung wirksam wird.",
parent=self,
)
def _toggle_minimize(self):
"""Fenster minimieren: Neu, Brief, OP-Bericht, Diktat oben; Aufnahme unten; Transparenz unten."""
if self._minimized:
self._status_row.pack(fill="x")
self.paned.pack(fill="both", expand=True, padx=10, pady=(0, 10))
self._bottom_frame.pack(fill="x")
self._top_right.pack(side="right", anchor="n")
self._btn_row_left.pack(side="left")
if getattr(self, "_mini_frame", None) is not None:
try:
self._mini_frame.destroy()
except Exception:
pass
self._mini_frame = None
self._mini_btn_korrigieren = None
self._btn_minimize.configure(text="")
self._minimized = False
self.minsize(680, 560)
try:
g = getattr(self, "_geometry_before_minimize", None)
if g and len(g) >= 4:
self.geometry(f"{g[0]}x{g[1]}+{g[2]}+{g[3]}")
except Exception:
pass
else:
self._geometry_before_minimize = (
self.winfo_width(), self.winfo_height(), self.winfo_x(), self.winfo_y()
)
self.paned.pack_forget()
self._bottom_frame.pack_forget()
self._top_right.pack_forget()
self._btn_row_left.pack_forget()
self._btn_minimize.configure(text="□")
self._minimized = True
self.minsize(360, 120)
top = self._btn_row_left.master
self._mini_frame = ttk.Frame(top, style="TopBar.TFrame", padding=(0, 0, 0, 4))
self._mini_frame.pack(fill="x")
top_row = ttk.Frame(self._mini_frame)
top_row.pack(fill="x")
# Buttons mit aktueller Skalierung
button_scale = load_button_scale()
font_scale = load_font_scale()
self._mini_btn_start = RoundedButton(
top_row, "⏺ Start", command=self.toggle_record,
bg="#5B8DB3", fg="white", active_bg="#4A7A9E",
width=80, height=26, canvas_bg="#B9ECFA",
)
self._mini_btn_start.set_button_size_scale(button_scale)
self._mini_btn_start.set_font_size_scale(font_scale)
self._mini_btn_start.pack(side="left", padx=(0, 4), anchor="n")
if self.is_recording and getattr(self, "_recording_mode", "") == "new":
self._mini_btn_start.configure(text="⏹ Stopp")
self._mini_btn_korrigieren = RoundedButton(
top_row, "⏺ Korrig.", command=self._toggle_record_append,
bg="#5B8DB3", fg="white", active_bg="#4A7A9E",
width=65, height=26, canvas_bg="#B9ECFA",
)
self._mini_btn_korrigieren.set_button_size_scale(button_scale)
self._mini_btn_korrigieren.set_font_size_scale(font_scale)
self._mini_btn_korrigieren.pack(side="left", padx=(0, 4), anchor="n")
if self.is_recording and getattr(self, "_recording_mode", "") == "append":
self._mini_btn_korrigieren.configure(text="⏹ Stopp")
btn_diktat = RoundedButton(top_row, "Diktat", command=self.open_diktat_window, width=60, height=26, canvas_bg="#95D6ED", bg="#95D6ED", fg="#1a4d6d", active_bg="#7BC8E0")
btn_diktat.set_button_size_scale(button_scale)
btn_diktat.set_font_size_scale(font_scale)
btn_diktat.pack(side="left", padx=(0, 4), anchor="n")
btn_brief = RoundedButton(top_row, "Brief", command=self.open_brief_window, width=60, height=26, canvas_bg="#7EC8E3", bg="#7EC8E3", fg="#1a4d6d", active_bg="#6CB8D3")
btn_brief.set_button_size_scale(button_scale)
btn_brief.set_font_size_scale(font_scale)
btn_brief.pack(side="left", padx=(0, 4), anchor="n")
btn_op = RoundedButton(top_row, "OP-Bericht", command=self.open_op_bericht_window, width=90, height=26, canvas_bg="#A6E0F5", bg="#A6E0F5", fg="#1a4d6d", active_bg="#94D0E5")
btn_op.set_button_size_scale(button_scale)
btn_op.set_font_size_scale(font_scale)
btn_op.pack(side="left", padx=(0, 4), anchor="n")
btn_min = RoundedButton(top_row, "", command=self._toggle_minimize, width=28, height=26, canvas_bg="#B9ECFA")
btn_min.set_button_size_scale(button_scale)
btn_min.set_font_size_scale(font_scale)
btn_min.pack(side="left", padx=(4, 0), anchor="n")
btn_tile = RoundedButton(top_row, "⊞", command=self.arrange_windows_top, width=28, height=26, canvas_bg="#BAE8F8", bg="#BAE8F8", fg="#1a4d6d", active_bg="#A8D8E8")
btn_tile.set_button_size_scale(button_scale)
btn_tile.set_font_size_scale(font_scale)
btn_tile.pack(side="left", padx=(3, 0), anchor="n")
btn_reset_pos = RoundedButton(top_row, "↺", command=self._reset_window_positions, width=28, height=26, canvas_bg="#BAE8F8", bg="#BAE8F8", fg="#1a4d6d", active_bg="#A8D8E8")
btn_reset_pos.set_button_size_scale(button_scale)
btn_reset_pos.set_font_size_scale(font_scale)
btn_reset_pos.pack(side="left", padx=(4, 0), anchor="n")
opacity_var = tk.DoubleVar(value=round(load_opacity() * 100))
def on_opacity_change(val):
try:
alpha = float(val) / 100.0
alpha = max(MIN_OPACITY, min(1.0, alpha))
self.attributes("-alpha", alpha)
save_opacity(alpha)
except Exception:
pass
opacity_row = ttk.Frame(self._mini_frame, padding=(0, 4, 0, 0))
opacity_row.pack(fill="x")
opacity_inner = ttk.Frame(opacity_row)
opacity_inner.pack(side="left")
lbl_half = tk.Label(opacity_inner, text="◐", font=("Segoe UI", 7),
bg="#B9ECFA", fg="#7AAFC8", cursor="hand2")
lbl_half.pack(side="left", padx=(0, 1))
lbl_half.bind("<Button-1>", lambda e: (opacity_var.set(round(MIN_OPACITY * 100)),
on_opacity_change(str(MIN_OPACITY * 100))))
lbl_half.bind("<Enter>", lambda e: lbl_half.configure(fg="#1a4d6d"))
lbl_half.bind("<Leave>", lambda e: lbl_half.configure(fg="#7AAFC8"))
try:
s = ttk.Style(self)
s.configure("MiniOpacity.Horizontal.TScale", troughcolor="#c8ecf8", background="#5B8DB3")
except Exception:
pass
opacity_scale = ttk.Scale(
opacity_inner,
from_=40, to=100, variable=opacity_var,
orient="horizontal", length=50, command=on_opacity_change,
style="MiniOpacity.Horizontal.TScale",
)
opacity_scale.pack(side="left")
lbl_sun = tk.Label(opacity_inner, text="☀", font=("Segoe UI", 7),
bg="#B9ECFA", fg="#7AAFC8", cursor="hand2")
lbl_sun.pack(side="left", padx=(1, 0))
lbl_sun.bind("<Button-1>", lambda e: (opacity_var.set(100),
on_opacity_change("100")))
lbl_sun.bind("<Enter>", lambda e: lbl_sun.configure(fg="#1a4d6d"))
lbl_sun.bind("<Leave>", lambda e: lbl_sun.configure(fg="#7AAFC8"))
# Fenstergröße dynamisch basierend auf Button-Skalierung
base_width = 580
base_height = 150
scaled_width = int(base_width * button_scale)
scaled_height = int(base_height * button_scale)
self.geometry(f"{scaled_width}x{scaled_height}")
def _register_window(self, win):
"""Registriert ein AZA-Fenster im zentralen Tracker und entfernt es beim Schliessen."""
try:
if win and win.winfo_exists():
self._window_registry.add(win)
orig_protocol = None
try:
orig_protocol = win.protocol("WM_DELETE_WINDOW")
except Exception:
pass
def _on_close():
try:
self._window_registry.discard(win)
except Exception:
pass
if orig_protocol and callable(orig_protocol):
try:
orig_protocol()
return
except Exception:
pass
try:
win.destroy()
except Exception:
pass
win.protocol("WM_DELETE_WINDOW", _on_close)
except Exception:
pass
def _get_registered_windows(self):
"""Liefert alle noch lebenden registrierten Fenster (ohne self)."""
out = []
for w in list(self._window_registry):
try:
if w and w.winfo_exists() and w is not self:
out.append(w)
elif w is self:
continue
else:
self._window_registry.discard(w)
except Exception:
self._window_registry.discard(w)
return out
def _get_work_area_for_window(self, win):
"""Returns (left, top, right, bottom) of the monitor work-area containing *win*."""
try:
import ctypes
from ctypes import wintypes
user32 = ctypes.windll.user32
MONITOR_DEFAULTTONEAREST = 2
class RECT(ctypes.Structure):
_fields_ = [("left", wintypes.LONG),
("top", wintypes.LONG),
("right", wintypes.LONG),
("bottom", wintypes.LONG)]
class MONITORINFO(ctypes.Structure):
_fields_ = [("cbSize", wintypes.DWORD),
("rcMonitor", RECT),
("rcWork", RECT),
("dwFlags", wintypes.DWORD)]
hwnd = win.winfo_id()
hmon = user32.MonitorFromWindow(hwnd, MONITOR_DEFAULTTONEAREST)
mi = MONITORINFO()
mi.cbSize = ctypes.sizeof(MONITORINFO)
user32.GetMonitorInfoW(hmon, ctypes.byref(mi))
r = mi.rcWork
return (r.left, r.top, r.right, r.bottom)
except Exception:
sw = self.winfo_screenwidth()
sh = self.winfo_screenheight()
return (0, 0, sw, sh)
def _get_all_toplevels(self):
"""Alle sichtbaren Toplevel-Fenster sammeln (rekursiv)."""
result = []
def _collect(parent):
for w in parent.winfo_children():
if isinstance(w, tk.Toplevel) and w.winfo_exists() and w.winfo_viewable():
result.append(w)
_collect(w)
_collect(self)
return result
def arrange_windows_top(self):
"""
Robust:
1) Alle AZA-Fenster (inkl. Hauptfenster) in den internen Mini-Modus bringen
2) Danach (verzögert) alle Fenster oben sauber in eine Reihe positionieren
- Hauptfenster mittig
- andere rechts daneben
- keine Überlappung
Debug schreibt nach: window_tile_debug.txt
"""
import time as _tile_time
def _log(msg: str):
try:
p = os.path.join(os.path.dirname(__file__), "window_tile_debug.txt")
except Exception:
p = "window_tile_debug.txt"
try:
with open(p, "a", encoding="utf-8") as f:
f.write(f"{_tile_time.strftime('%H:%M:%S')} {msg}\n")
except Exception:
pass
try:
others = self._get_registered_windows()
wins = [self] + others
_log(f"FOUND {len(wins)} windows: " + ", ".join(
[getattr(w, "title", lambda: "?")() for w in wins if w is not None]))
for w in wins:
try:
minimize_fn = getattr(w, "_aza_minimize", None)
is_mini_fn = getattr(w, "_aza_is_minimized", None)
already = False
if is_mini_fn:
try:
already = bool(is_mini_fn())
except Exception:
already = False
if minimize_fn and not already:
minimize_fn()
except Exception as e:
_log(f"MINIMIZE ERR {w}: {e}")
def _place():
try:
try:
self.update()
except Exception:
self.update_idletasks()
wa_left, wa_top, wa_right, wa_bottom = self._get_work_area_for_window(self)
area_w = wa_right - wa_left
gap = 10
y = wa_top + 10
_log(f"WORK AREA: left={wa_left} top={wa_top} right={wa_right} "
f"bottom={wa_bottom} area_w={area_w}")
def _get_wh(win):
try:
win.update_idletasks()
except Exception:
pass
try:
ww = int(win.winfo_width())
hh = int(win.winfo_height())
except Exception:
ww, hh = 0, 0
if ww < 80:
try:
ww = int(win.winfo_reqwidth())
except Exception:
ww = 220
if hh < 60:
try:
hh = int(win.winfo_reqheight())
except Exception:
hh = 120
return ww, hh
w_main, h_main = _get_wh(self)
x_main = wa_left + max(0, (area_w - w_main) // 2)
try:
self.wm_state("normal")
except Exception:
pass
self.geometry(f"{w_main}x{h_main}+{x_main}+{y}")
try:
self.lift()
except Exception:
pass
_log(f"MAIN placed: {w_main}x{h_main}+{x_main}+{y}")
x = x_main + w_main + gap
others = [w for w in wins if w is not self]
try:
others.sort(key=lambda w: (w.title() or "", str(w)))
except Exception:
pass
for w in others:
try:
if w is None or not w.winfo_exists():
continue
try:
w.wm_state("normal")
except Exception:
pass
ww, hh = _get_wh(w)
if x + ww > wa_right - 5:
x = max(wa_left, wa_right - ww - 5)
w.geometry(f"{ww}x{hh}+{x}+{y}")
try:
w.lift()
except Exception:
pass
_log(f"WIN placed: '{getattr(w, 'title', lambda: '?')()}' "
f"{ww}x{hh}+{x}+{y}")
x += ww + gap
except Exception as e:
_log(f"PLACE ERR {w}: {e}")
except Exception as e:
_log(f"PLACE OUTER ERR: {e}")
self.after(250, _place)
except Exception as e:
_log(f"ARRANGE OUTER ERR: {e}")
def set_status(self, s: str):
self.status_var.set(s)
self.update_idletasks()
def _apply_status_color(self):
"""Wendet die gespeicherte Statusanzeige-Farbe an."""
color = self._autotext_data.get("status_color", "#BD4500")
if color == "hidden":
self._status_row.pack_forget()
else:
try:
self._status_row.pack(fill="x")
# Vor paned einordnen
self._status_row.pack(fill="x", before=self.paned)
except Exception:
self._status_row.pack(fill="x")
self.lbl_status.configure(fg=color)
def _start_timer(self, phase: str):
self._phase = phase
self._timer_sec = 0
self._timer_running = True
self._tick_timer()
def _tick_timer(self):
if not self._timer_running:
return
self._timer_sec += 1
if self._phase == "transcribe":
self.set_status("Transkribiere Audio… (%d s)" % self._timer_sec)
elif self._phase == "kg":
self.set_status("Erstelle Krankengeschichte… (%d s)" % self._timer_sec)
self.after(1000, self._tick_timer)
def _show_interaktion_window(self, meds: list, result: str) -> None:
"""Zeigt das Interaktionscheck-Ergebnis in einem Fenster."""
win = tk.Toplevel(self)
win.title("Interaktionscheck")
win.transient(self)
win.configure(bg="#B9ECFA")
win.minsize(500, 400)
win.attributes("-topmost", True)
self._register_window(win)
# Fensterposition: gespeichert laden oder zentrieren
setup_window_geometry_saving(win, "interaktionscheck", 700, 550)
add_resize_grip(win, 500, 400)
add_font_scale_control(win)
f = ttk.Frame(win, padding=12)
f.pack(fill="both", expand=True)
med_header = ttk.Frame(f)
med_header.pack(fill="x", anchor="w")
ttk.Label(med_header, text=f"Geprüfte Medikamente/Therapien: {', '.join(meds)}").pack(side="left")
txt = ScrolledText(f, wrap="word", font=self._text_font, bg="#F5FCFF", height=18)
txt.pack(fill="both", expand=True, pady=(8, 8))
add_text_font_size_control(med_header, txt, initial_size=10, bg_color="#B9ECFA", save_key="medikamenten_check")
txt.insert("1.0", result.strip())
self._bind_text_context_menu(txt)
# _show_text_window -> ausgelagert in Mixin-Modul
# _request_async_document -> ausgelagert in Mixin-Modul
# open_brief_window -> ausgelagert in Mixin-Modul
# open_rezept_window -> ausgelagert in Mixin-Modul
# open_kogu_window -> ausgelagert in Mixin-Modul
# open_diskussion_window -> ausgelagert in Mixin-Modul
# open_op_bericht_window -> ausgelagert in Mixin-Modul
def _open_uebersetzer(self):
"""Startet das Übersetzer-Programm (translate.py) Diktat, Übersetzung, Lernkarten, Gespräch mit KI als eigenständiges Fenster."""
try:
import subprocess
script_dir = os.path.dirname(os.path.abspath(__file__))
translate_path = os.path.join(script_dir, "translate.py")
if not os.path.exists(translate_path):
messagebox.showerror("Fehler", f"translate.py nicht gefunden:\n{translate_path}")
return
kwargs = {"cwd": script_dir}
if sys.platform == "win32":
kwargs["creationflags"] = subprocess.DETACHED_PROCESS | subprocess.CREATE_NEW_PROCESS_GROUP
subprocess.Popen([sys.executable, translate_path], **kwargs)
except Exception as e:
messagebox.showerror("Fehler", str(e))
def _open_email(self):
"""Startet das E-Mail-Programm (aza_email.py) als eigenständiges Fenster."""
try:
import subprocess
script_dir = os.path.dirname(os.path.abspath(__file__))
email_path = os.path.join(script_dir, "aza_email.py")
if not os.path.exists(email_path):
messagebox.showerror("Fehler", f"aza_email.py nicht gefunden:\n{email_path}")
return
# Einfacher Start ohne komplizierte Flags (funktioniert besser)
if sys.platform == "win32":
# Windows: Einfach mit pythonw.exe starten (kein Konsolenfenster)
pythonw = sys.executable.replace("python.exe", "pythonw.exe")
if os.path.exists(pythonw):
subprocess.Popen([pythonw, email_path], cwd=script_dir)
else:
subprocess.Popen([sys.executable, email_path], cwd=script_dir,
creationflags=subprocess.CREATE_NO_WINDOW)
else:
subprocess.Popen([sys.executable, email_path], cwd=script_dir)
except Exception as e:
messagebox.showerror("Fehler", f"E-Mail konnte nicht gestartet werden:\n{str(e)}")
def _open_whatsapp(self):
"""Startet das WhatsApp-Programm (aza_whatsapp.py) als eigenständiges Fenster."""
try:
import subprocess
script_dir = os.path.dirname(os.path.abspath(__file__))
whatsapp_path = os.path.join(script_dir, "aza_whatsapp.py")
if not os.path.exists(whatsapp_path):
messagebox.showerror("Fehler", f"aza_whatsapp.py nicht gefunden:\n{whatsapp_path}")
return
# Einfacher Start ohne komplizierte Flags (funktioniert besser)
if sys.platform == "win32":
# Windows: Einfach mit pythonw.exe starten (kein Konsolenfenster)
pythonw = sys.executable.replace("python.exe", "pythonw.exe")
if os.path.exists(pythonw):
subprocess.Popen([pythonw, whatsapp_path], cwd=script_dir)
else:
subprocess.Popen([sys.executable, whatsapp_path], cwd=script_dir,
creationflags=subprocess.CREATE_NO_WINDOW)
else:
subprocess.Popen([sys.executable, whatsapp_path], cwd=script_dir)
except Exception as e:
messagebox.showerror("Fehler", f"WhatsApp konnte nicht gestartet werden:\n{str(e)}")
def _open_docapp(self):
"""Startet das DocApp-Programm (aza_docapp.py) als eigenständiges Fenster."""
try:
import subprocess
script_dir = os.path.dirname(os.path.abspath(__file__))
docapp_path = os.path.join(script_dir, "aza_docapp.py")
if not os.path.exists(docapp_path):
messagebox.showerror("Fehler", f"aza_docapp.py nicht gefunden:\n{docapp_path}")
return
# Einfacher Start ohne komplizierte Flags (funktioniert besser)
if sys.platform == "win32":
# Windows: Einfach mit pythonw.exe starten (kein Konsolenfenster)
pythonw = sys.executable.replace("python.exe", "pythonw.exe")
if os.path.exists(pythonw):
subprocess.Popen([pythonw, docapp_path], cwd=script_dir)
else:
subprocess.Popen([sys.executable, docapp_path], cwd=script_dir,
creationflags=subprocess.CREATE_NO_WINDOW)
else:
subprocess.Popen([sys.executable, docapp_path], cwd=script_dir)
except Exception as e:
messagebox.showerror("Fehler", f"DocApp konnte nicht gestartet werden:\n{str(e)}")
# _open_todo_window -> ausgelagert in Mixin-Modul
def _open_lernkarten_abfrage(self):
"""Startet das Lernkarten-Abfrage-Programm Vokabeln und Sätze üben mit Lernzielkontrolle."""
try:
import subprocess
script_dir = os.path.dirname(os.path.abspath(__file__))
abfrage_path = os.path.join(script_dir, "lernkarten_abfrage.py")
if not os.path.exists(abfrage_path):
messagebox.showerror("Fehler", f"lernkarten_abfrage.py nicht gefunden:\n{abfrage_path}")
return
kwargs = {"cwd": script_dir}
if sys.platform == "win32":
kwargs["creationflags"] = subprocess.DETACHED_PROCESS | subprocess.CREATE_NEW_PROCESS_GROUP
subprocess.Popen([sys.executable, abfrage_path], **kwargs)
except Exception as e:
messagebox.showerror("Fehler", str(e))
def _open_arztzeugnis(self):
"""Öffnet ein Fenster zum Erstellen eines Arztzeugnisses mit Diktat, Drucken, E-Mail und Speichern."""
AZ_MIN_W, AZ_MIN_H = 520, 680
win = tk.Toplevel(self)
win.title("Arztzeugnis erstellen")
win.transient(self)
win.minsize(AZ_MIN_W, AZ_MIN_H)
win.configure(bg="#E8F4FA")
win.attributes("-topmost", True)
self._register_window(win)
# Fensterposition: gespeichert laden oder zentrieren
saved_geom = load_toplevel_geometry("arztzeugnis")
if saved_geom:
win.geometry(saved_geom)
else:
win.geometry(f"{AZ_MIN_W}x{AZ_MIN_H}")
center_window(win, AZ_MIN_W, AZ_MIN_H)
_az_geom_after = [None]
def _az_save_geom(event=None):
if _az_geom_after[0]:
win.after_cancel(_az_geom_after[0])
_az_geom_after[0] = win.after(400, lambda: save_toplevel_geometry("arztzeugnis", win.geometry()))
win.bind("<Configure>", _az_save_geom)
def _az_on_close():
try:
save_toplevel_geometry("arztzeugnis", win.geometry())
except Exception:
pass
win.destroy()
win.protocol("WM_DELETE_WINDOW", _az_on_close)
# ─── Header ───
header = tk.Frame(win, bg="#B9ECFA")
header.pack(fill="x")
tk.Label(header, text="Arztzeugnis", font=("Segoe UI", 14, "bold"),
bg="#B9ECFA", fg="#1a4d6d").pack(pady=10)
# ─── Formular ───
form = tk.Frame(win, bg="#E8F4FA", padx=16, pady=8)
form.pack(fill="x")
lbl_font = ("Segoe UI", 10, "bold")
ent_font = ("Segoe UI", 10)
def _add_field(parent, label_text, row):
tk.Label(parent, text=label_text, font=lbl_font, bg="#E8F4FA",
fg="#1a4d6d", anchor="w").grid(row=row, column=0, sticky="w", pady=(4, 0))
var = tk.StringVar()
ent = tk.Entry(parent, textvariable=var, font=ent_font, bg="white",
fg="#1a4d6d", relief="flat", bd=0, insertbackground="#1a4d6d")
ent.grid(row=row, column=1, sticky="ew", padx=(8, 0), pady=(4, 0), ipady=4)
return var, ent
form.columnconfigure(1, weight=1)
patient_var, patient_ent = _add_field(form, "Patient:", 0)
gebdat_var, gebdat_ent = _add_field(form, "Geb.-Datum:", 1)
datum_var, datum_ent = _add_field(form, "Datum:", 2)
datum_var.set(datetime.now().strftime("%d.%m.%Y"))
tk.Label(form, text="Diagnose:", font=lbl_font, bg="#E8F4FA",
fg="#1a4d6d", anchor="w").grid(row=3, column=0, sticky="nw", pady=(8, 0))
diagnose_text = tk.Text(form, font=ent_font, bg="white", fg="#1a4d6d",
relief="flat", bd=0, height=3, wrap="word",
insertbackground="#1a4d6d")
diagnose_text.grid(row=3, column=1, sticky="ew", padx=(8, 0), pady=(8, 0))
# ─── Beurteilung / Freitext ───
tk.Label(win, text="Beurteilung / Zeugnis-Text:", font=lbl_font,
bg="#E8F4FA", fg="#1a4d6d").pack(anchor="w", padx=16, pady=(8, 0))
text_frame = tk.Frame(win, bg="#E8F4FA", padx=16)
text_frame.pack(fill="both", expand=True, pady=(0, 4))
az_text = tk.Text(text_frame, font=("Segoe UI", 11), bg="white",
fg="#1a4d6d", relief="flat", bd=0, wrap="word",
insertbackground="#1a4d6d", padx=8, pady=6)
az_text.pack(fill="both", expand=True)
# ─── Diktat ───
az_recorder = [None]
az_is_recording = [False]
az_rec_status = tk.StringVar(value="")
def _az_toggle_record():
if az_is_recording[0]:
az_is_recording[0] = False
btn_rec.configure(text="⏺ Diktieren", bg="#5B8DB3")
az_rec_status.set("Transkribiere…")
recorder = az_recorder[0]
if recorder:
selfref = self
def _do():
try:
wav_path = recorder.stop_and_save_wav()
if wav_path:
text = selfref.transcribe_wav(wav_path)
if text:
def _insert():
if az_text.get("1.0", "end-1c").strip():
az_text.insert("insert", " " + text)
else:
az_text.insert("1.0", text)
az_rec_status.set("Diktat eingefügt.")
win.after(0, _insert)
else:
win.after(0, lambda: az_rec_status.set("Kein Text erkannt."))
else:
win.after(0, lambda: az_rec_status.set("Aufnahme fehlgeschlagen."))
except Exception as e:
win.after(0, lambda: az_rec_status.set(f"Fehler: {e}"))
threading.Thread(target=_do, daemon=True).start()
else:
az_is_recording[0] = True
btn_rec.configure(text="⏹ Stoppen", bg="#C03030")
az_rec_status.set("Aufnahme läuft…")
az_recorder[0] = AudioRecorder()
az_recorder[0].start()
rec_frame = tk.Frame(win, bg="#E8F4FA")
rec_frame.pack(fill="x", padx=16, pady=(4, 0))
btn_rec = tk.Button(rec_frame, text="⏺ Diktieren", font=("Segoe UI", 10, "bold"),
bg="#5B8DB3", fg="white", activebackground="#4A7A9E",
relief="flat", bd=0, padx=14, pady=4, cursor="hand2",
command=_az_toggle_record)
btn_rec.pack(side="left")
tk.Label(rec_frame, textvariable=az_rec_status, font=("Segoe UI", 9),
bg="#E8F4FA", fg="#4a8aaa").pack(side="left", padx=(8, 0))
# ─── Aktions-Buttons ───
action_frame = tk.Frame(win, bg="#D4EEF7", padx=16, pady=8)
action_frame.pack(fill="x", side="bottom")
def _btn_style(text, bg_color, active_color, cmd):
return tk.Button(action_frame, text=text, font=("Segoe UI", 10, "bold"),
bg=bg_color, fg="#1a4d6d", activebackground=active_color,
relief="flat", bd=0, padx=14, pady=6, cursor="hand2",
command=cmd)
def _get_az_text():
lines = []
lines.append("ARZTZEUGNIS")
lines.append("=" * 40)
if patient_var.get().strip():
lines.append(f"Patient: {patient_var.get().strip()}")
if gebdat_var.get().strip():
lines.append(f"Geb.-Datum: {gebdat_var.get().strip()}")
lines.append(f"Datum: {datum_var.get().strip()}")
diag = diagnose_text.get("1.0", "end-1c").strip()
if diag:
lines.append(f"\nDiagnose:\n{diag}")
body = az_text.get("1.0", "end-1c").strip()
if body:
lines.append(f"\nBeurteilung:\n{body}")
return "\n".join(lines)
def _az_save():
content = _get_az_text()
if not content.strip():
messagebox.showinfo("Speichern", "Kein Inhalt zum Speichern.", parent=win)
return
from tkinter import filedialog
path = filedialog.asksaveasfilename(
parent=win, title="Arztzeugnis speichern",
defaultextension=".txt",
filetypes=[("Textdatei", "*.txt"), ("Alle Dateien", "*.*")],
initialfile=f"Arztzeugnis_{patient_var.get().strip().replace(' ', '_') or 'Patient'}_{datum_var.get().strip().replace('.', '-')}.txt"
)
if path:
with open(path, "w", encoding="utf-8") as f:
f.write(content)
az_rec_status.set(f"Gespeichert: {os.path.basename(path)}")
def _az_print():
content = _get_az_text()
if not content.strip():
messagebox.showinfo("Drucken", "Kein Inhalt zum Drucken.", parent=win)
return
import tempfile, subprocess as _sp
tmp = tempfile.NamedTemporaryFile(mode="w", suffix=".txt", delete=False, encoding="utf-8")
tmp.write(content)
tmp.close()
try:
if sys.platform == "win32":
os.startfile(tmp.name, "print")
else:
_sp.Popen(["lpr", tmp.name])
az_rec_status.set("Druckauftrag gesendet.")
except Exception as e:
az_rec_status.set(f"Druckfehler: {e}")
def _az_email():
content = _get_az_text()
if not content.strip():
messagebox.showinfo("E-Mail", "Kein Inhalt zum Senden.", parent=win)
return
import urllib.parse
subject = urllib.parse.quote(f"Arztzeugnis {patient_var.get().strip()}")
body = urllib.parse.quote(content)
mailto = f"mailto:?subject={subject}&body={body}"
import webbrowser
webbrowser.open(mailto)
az_rec_status.set("E-Mail-Client geöffnet.")
_btn_style("💾 Speichern", "#B9ECFA", "#A8DCE8", _az_save).pack(side="left", padx=(0, 6))
_btn_style("🖨 Drucken", "#C8E8F0", "#B8D8E6", _az_print).pack(side="left", padx=(0, 6))
_btn_style("✉ E-Mail", "#D4EEF7", "#C4DEE8", _az_email).pack(side="left", padx=(0, 6))
# open_diktat_window -> ausgelagert in Mixin-Modul
def _toggle_addon_collapse(self, event=None):
"""Klappt die Add-on-Buttons ein/aus."""
if self._addon_collapsed:
self._addon_buttons_container.pack(fill="x")
self._addon_toggle_label.configure(text="\u25BC Add-on (provisorisch):")
self._addon_collapsed = False
else:
self._addon_buttons_container.pack_forget()
self._addon_toggle_label.configure(text="\u25B6 Add-on (provisorisch):")
self._addon_collapsed = True
def _toggle_soap_collapse(self, event=None):
"""Klappt die SOAP-Steuerung (A, S, O, B, D, T, P) ein/aus."""
if self._soap_collapsed:
self._soap_container.pack(fill="x", before=self._soap_anchor)
self._soap_toggle_label.configure(text="\u25BC SOAP:")
self._soap_collapsed = False
else:
self._soap_container.pack_forget()
self._soap_toggle_label.configure(text="\u25B6 SOAP:")
self._soap_collapsed = True
self._autotext_data["soap_collapsed"] = self._soap_collapsed
save_autotext(self._autotext_data)
def _toggle_dokumente_collapse(self, event=None):
"""Klappt die Dokumente-Buttons (Brief, Rezept, … Korrektur) ein/aus."""
if self._dokumente_collapsed:
self._dokumente_container.pack(fill="x", before=self._dokumente_anchor)
self._dokumente_toggle_label.configure(text="\u25BC Dokumente:")
self._dokumente_collapsed = False
else:
self._dokumente_container.pack_forget()
self._dokumente_toggle_label.configure(text="\u25B6 Dokumente:")
self._dokumente_collapsed = True
self._autotext_data["dokumente_collapsed"] = self._dokumente_collapsed
save_autotext(self._autotext_data)
def _toggle_textbloecke_collapse(self, event=None):
"""Klappt die Textblöcke (1, 2, 3, 4, 5) ein/aus."""
if self._textbloecke_collapsed:
# Aufklappen - VOR dem Anker einfügen!
self._textbloecke_container.pack(fill="x", before=self._textbloecke_anchor)
self._textbloecke_toggle_label.configure(text="▼ Textblöcke:")
self._textbloecke_collapsed = False
else:
# Einklappen
self._textbloecke_container.pack_forget()
self._textbloecke_toggle_label.configure(text="▶ Textblöcke:")
self._textbloecke_collapsed = True
# Speichern
self._autotext_data["textbloecke_collapsed"] = self._textbloecke_collapsed
save_autotext(self._autotext_data)
def _update_addon_buttons_visibility(self):
"""Aktualisiert die Sichtbarkeit der einzelnen Add-on-Buttons basierend auf Einstellungen."""
addon_buttons = self._autotext_data.get("addon_buttons", {})
for button_id, row in self._addon_button_rows.items():
if addon_buttons.get(button_id, True):
row.pack(fill="x")
else:
row.pack_forget()
# open_ordner_window -> ausgelagert in Mixin-Modul
def open_ki_pruefen(self):
"""Prüft den oberen Text (KG) per KI auf Logik, Zusammenhänge, Diagnose-Therapie-Passung."""
kg = self.txt_output.get("1.0", "end").strip()
if not kg:
messagebox.showinfo("KI-Kontrolle", "Bitte zuerst Text im oberen Feld (Krankengeschichte) eingeben.")
return
if not self.ensure_ready():
messagebox.showwarning("KI-Kontrolle", "Kein API-Key konfiguriert. Bitte in den Einstellungen eintragen.")
return
self.set_status("KI-Kontrolle…")
def worker():
try:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": KI_PRUEFEN_PROMPT},
{"role": "user", "content": kg},
],
)
result = resp.choices[0].message.content.strip()
self.after(0, lambda: self._show_ki_pruefen_window(result, kg))
self.after(0, lambda: self.set_status("Fertig."))
except Exception as e:
self.after(0, lambda: self.set_status("Fehler."))
self.after(0, lambda: messagebox.showerror("KI-Kontrolle", str(e)))
threading.Thread(target=worker, daemon=True).start()
def _show_ki_pruefen_window(self, result: str, original_kg: str) -> None:
"""Zeigt das KI-Prüfergebnis in einem Fenster; Button „Übernehme Korrektur“ erzeugt korrigierte KG."""
win = tk.Toplevel(self)
win.title("KI-Kontrolle Logik & Zusammenhänge")
win.transient(self)
win.configure(bg="#B9ECFA")
win.minsize(550, 450)
win.attributes("-topmost", True)
self._register_window(win)
# Fensterposition: gespeichert laden oder zentrieren
setup_window_geometry_saving(win, "ki_kontrolle", 700, 600)
add_resize_grip(win, 550, 450)
add_font_scale_control(win)
f = ttk.Frame(win, padding=12)
f.pack(fill="both", expand=True)
ki_header = ttk.Frame(f)
ki_header.pack(fill="x", anchor="w")
ttk.Label(ki_header, text="KI-Kontrolle (Logik, Diagnose/Therapie-Passung):").pack(side="left")
txt = ScrolledText(f, wrap="word", font=self._text_font, bg="#F5FCFF", height=16)
txt.pack(fill="both", expand=True, pady=(8, 8))
add_text_font_size_control(ki_header, txt, initial_size=10, bg_color="#B9ECFA", save_key="ki_kontrolle")
txt.insert("1.0", result.strip())
self._bind_text_context_menu(txt)
btn_row = ttk.Frame(win, padding=(12, 0, 12, 12))
btn_row.pack(fill="x")
def do_uebernehme_korrektur():
if not self.ensure_ready():
return
self.set_status("Erstelle korrigierte Krankengeschichte…")
prompt = """Du bist ein ärztlicher Dokumentationsassistent (Deutsch).
Es liegt eine kurze Krankengeschichte und eine Prüfkritik vor.
Aufgabe: Passe die Krankengeschichte MINIMAL an, sodass die Kritikpunkte adressiert werden. Die Korrektur muss KNAPP bleiben ähnlich kurz wie die Vorlage.
WICHTIG unbedingt einhalten:
- Ungefähr gleicher Umfang wie die ursprüngliche KG (keine langen Absätze, keine Aufblähung).
- Nur das ändern, was die Kritik ausdrücklich verlangt (z. B. ICD-Code präzisieren, fehlende Angabe ergänzen). Keine zusätzlichen Details erfinden (keine konkreten mm-Werte, keine ausformulierten ABCDE-Scores, keine langen Aufklärungs- oder Wundmanagement-Texte, wenn sie nicht in der Vorlage standen).
- Struktur der Vorlage beibehalten (gleiche Überschriften, Stichpunkte). Keine neuen Abschnitte erfinden, nur vorhandene präzisieren.
- Ausgabe NUR die korrigierte KG keine Sterne, keine Meta-Kommentare, keine Wiederholung der Kritik. Diagnosen mit ICD-10-GM in Klammern."""
def worker():
try:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
user_content = (
"AKTUELLE KRANKENGESCHICHTE:\n" + (original_kg or "") + "\n\n"
"KRITIK / HINWEISE DER KI-PRÜFUNG:\n" + (result or "").strip()
)
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": prompt},
{"role": "user", "content": user_content},
],
)
corrected = resp.choices[0].message.content.strip()
corrected = re.sub(r"\*+", "", corrected)
corrected = re.sub(r"#+", "", corrected)
for prefix in ("Aktuelle Krankengeschichte:", "Aktuelle Krankengeschichte", "Korrigierte Krankengeschichte:", "Korrigierte Krankengeschichte"):
if corrected.startswith(prefix):
corrected = corrected[len(prefix):].strip()
break
self.after(0, lambda: _apply_corrected(corrected))
self.after(0, lambda: self.set_status("Korrektur übernommen."))
except Exception as e:
self.after(0, lambda: self.set_status("Fehler."))
self.after(0, lambda: messagebox.showerror("KI-Kontrolle", str(e)))
def _apply_corrected(text):
try:
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", text)
except (tk.TclError, AttributeError):
pass
import threading
threading.Thread(target=worker, daemon=True).start()
RoundedButton(
btn_row, "Übernehme Korrektur",
command=do_uebernehme_korrektur,
width=180, height=28, canvas_bg="#B9ECFA",
).pack(side="left")
def open_pruefen_window(self):
"""Öffnet das Korrektur-Fenster mit Korrekturen und Interaktionscheck."""
kg = self.txt_output.get("1.0", "end").strip()
transcript = self.txt_transcript.get("1.0", "end").strip()
raw = ""
if kg:
raw += "KRANKENGESCHICHTE:\n" + kg + "\n\n"
if transcript:
raw += "TRANSKRIPT:\n" + transcript + "\n\n"
raw = raw.strip() or "(Kein Text zum Prüfen)"
korrekturen = load_korrekturen()
corrected, applied = apply_korrekturen(raw, korrekturen)
display_text = extract_diagnosen_therapie_procedere(corrected)
win = tk.Toplevel(self)
win.title("Korrektur Korrekturen & Interaktionscheck")
win.transient(self)
win.attributes("-topmost", True)
self._register_window(win)
default_pruefen_w, default_pruefen_h = 480, 550
# Fensterposition: gespeichert laden oder zentrieren
pruefen_geo = load_pruefen_geometry()
if pruefen_geo:
if len(pruefen_geo) >= 4:
w0, h0, x0, y0 = pruefen_geo[0], pruefen_geo[1], pruefen_geo[2], pruefen_geo[3]
win.geometry(f"{max(default_pruefen_w, w0)}x{max(default_pruefen_h, h0)}+{x0}+{y0}")
else:
w0, h0 = pruefen_geo[0], pruefen_geo[1]
win.geometry(f"{max(default_pruefen_w, w0)}x{max(default_pruefen_h, h0)}")
center_window(win, max(default_pruefen_w, w0), max(default_pruefen_h, h0))
else:
# Keine gespeicherte Position → zentrieren
win.geometry(f"{default_pruefen_w}x{default_pruefen_h}")
center_window(win, default_pruefen_w, default_pruefen_h)
win.minsize(520, 560)
win.configure(bg="#B9ECFA")
def save_pruefen_size():
try:
w, h = win.winfo_width(), win.winfo_height()
x, y = win.winfo_x(), win.winfo_y()
if w > 200 and h > 150:
save_pruefen_geometry(w, h, x, y)
except Exception:
pass
win.bind("<Configure>", lambda e: win.after(500, save_pruefen_size) if e.widget is win else None)
add_resize_grip(win, 520, 560)
add_font_scale_control(win)
main_f = ttk.Frame(win, padding=12)
main_f.pack(fill="both", expand=True)
full_corrected = [corrected]
inter_header = ttk.Frame(main_f)
inter_header.pack(fill="x", anchor="w")
ttk.Label(inter_header, text="Geprüfter Text (Diagnosen, Procedere, Therapie):").pack(side="left")
txt = ScrolledText(main_f, wrap="word", font=self._text_font, bg="#F5FCFF", height=6)
txt.pack(fill="both", expand=True, pady=(0, 8))
add_text_font_size_control(inter_header, txt, initial_size=10, bg_color="#B9ECFA", save_key="interaktionscheck")
txt.insert("1.0", display_text)
self._bind_text_context_menu(txt)
listbox_corrections = []
def refresh_all_list():
k = load_korrekturen()
listbox.delete(0, "end")
listbox_corrections.clear()
for cat in ("medikamente", "diagnosen"):
for f, r in (k.get(cat) or {}).items():
listbox.insert("end", f"«{f}» → «{r}» ({cat})")
listbox_corrections.append((f, r, cat))
def refresh_display():
new_text, _ = apply_korrekturen(raw, load_korrekturen())
full_corrected[0] = new_text
disp = extract_diagnosen_therapie_procedere(new_text)
txt.delete("1.0", "end")
txt.insert("1.0", disp)
refresh_all_list()
ttk.Label(main_f, text="Alle gespeicherten Korrekturen (werden automatisch bei neuer KG angewendet):").pack(anchor="w", pady=(4, 0))
list_f = ttk.Frame(main_f)
list_f.pack(fill="x", pady=(0, 8))
listbox = tk.Listbox(list_f, height=4, font=("Segoe UI", 10))
listbox.pack(side="left", fill="both", expand=True)
refresh_all_list()
editing_entry = [None]
def on_listbox_double_click(evt):
sel = listbox.curselection()
if not sel or sel[0] >= len(listbox_corrections):
return
f, r, cat = listbox_corrections[sel[0]]
wrong_inline.set(f)
right_inline.set(r)
editing_entry[0] = (f, cat)
listbox.bind("<Double-Button-1>", on_listbox_double_click)
btn_row = ttk.Frame(main_f)
btn_row.pack(fill="x", pady=8)
def do_export():
from tkinter import filedialog
dest = filedialog.asksaveasfilename(
title="Korrekturen exportieren",
defaultextension=".json",
filetypes=[("JSON", "*.json"), ("Alle", "*.*")],
)
if not dest:
return
try:
with open(dest, "w", encoding="utf-8") as f:
json.dump(load_korrekturen(), f, ensure_ascii=False, indent=2)
self.set_status(f"Exportiert: {dest}")
messagebox.showinfo("Export", f"Korrekturen exportiert nach:\n{dest}")
except Exception as e:
messagebox.showerror("Export fehlgeschlagen", str(e))
def do_import():
from tkinter import filedialog
p = filedialog.askopenfilename(
title="Korrekturen importieren",
filetypes=[("JSON", "*.json"), ("Alle", "*.*")],
)
if not p:
return
try:
with open(p, "r", encoding="utf-8") as f:
data = json.load(f)
if isinstance(data, dict):
existing = load_korrekturen()
for cat, mapping in data.items():
if isinstance(mapping, dict) and cat in existing:
existing[cat].update(mapping)
elif isinstance(mapping, dict):
existing[cat] = mapping
save_korrekturen(existing)
refresh_display()
self.set_status("Importiert.")
messagebox.showinfo("Import", "Korrekturen importiert.")
else:
messagebox.showerror("Import", "Ungültiges Format.")
except Exception as e:
messagebox.showerror("Import fehlgeschlagen", str(e))
def extract_meds_from_text(text: str):
meds = []
stopwords = ("dass", "diese", "oder", "und", "eine", "der", "die", "das", "therapie", "procedere", "diagnose", "keine", "sowie")
for m in re.findall(r"[A-Za-zÄÖÜäöüß][A-Za-zÄÖÜäöüß0-9\-]{3,}", text):
w = m.strip()
if w.lower() not in stopwords and not w.isdigit():
meds.append(w)
return list(dict.fromkeys(meds))[:12]
def do_interaktion():
text = full_corrected[0]
meds = extract_meds_from_text(text)
if not meds:
messagebox.showinfo("Interaktionscheck", "Keine Medikamentennamen erkannt. Bitte manuell prüfen.")
return
if not self.ensure_ready():
import webbrowser
q = "+".join(meds[:6]) + "+Interaktion"
webbrowser.open(f"https://www.google.com/search?q={q}")
self.set_status("Websuche geöffnet (kein API-Key).")
return
self.set_status("Prüfe Interaktionen…")
def worker():
try:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
med_list = ", ".join(meds)
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": INTERACTION_PROMPT},
{"role": "user", "content": f"Medikamente/Therapien: {med_list}"},
],
)
result = resp.choices[0].message.content.strip()
self.after(0, lambda: self._show_interaktion_window(meds, result))
self.after(0, lambda: self.set_status("Fertig."))
except Exception as e:
self.after(0, lambda: self.set_status("Fehler Websuche als Fallback."))
self.after(0, lambda: messagebox.showwarning("Interaktionscheck", f"KI-Prüfung fehlgeschlagen.\n{str(e)}\n\nWebsuche wird geöffnet."))
self.after(0, lambda: _fallback_google(meds))
def _fallback_google(meds):
import webbrowser
q = "+".join(meds[:6]) + "+Interaktion"
webbrowser.open(f"https://www.google.com/search?q={q}")
self.set_status("Websuche geöffnet (Fallback).")
threading.Thread(target=worker, daemon=True).start()
def do_korrigieren():
t = full_corrected[0]
if "KRANKENGESCHICHTE:" in t:
kg_part = t.split("TRANSKRIPT:")[0].replace("KRANKENGESCHICHTE:", "").strip()
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", kg_part)
self.set_status("Korrekturen in KG übernommen.")
elif "TRANSKRIPT:" in t:
trans_part = t.split("TRANSKRIPT:")[1].split("VORSICHT:")[0].strip()
self.txt_transcript.delete("1.0", "end")
self.txt_transcript.insert("1.0", trans_part)
self.set_status("Korrekturen in Transkript übernommen.")
elif t and t != "(Kein Text zum Prüfen)":
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", t)
self.set_status("Korrekturen in KG übernommen.")
RoundedButton(btn_row, "Korrigieren", command=do_korrigieren, width=100, height=28, canvas_bg="#B9ECFA").pack(side="left", padx=(0, 8))
RoundedButton(btn_row, "Interaktionscheck", command=do_interaktion, width=140, height=28, canvas_bg="#B9ECFA").pack(side="left")
btn_row2 = ttk.Frame(main_f, padding=(0, 4, 0, 0))
btn_row2.pack(fill="x")
RoundedButton(btn_row2, "Export", command=do_export, width=80, height=26, canvas_bg="#B9ECFA").pack(side="left", padx=(0, 8))
RoundedButton(btn_row2, "Import", command=do_import, width=80, height=26, canvas_bg="#B9ECFA").pack(side="left")
bottom_add = ttk.Frame(win, padding=(12, 0, 12, 12))
bottom_add.pack(fill="x")
ttk.Label(bottom_add, text="Falsch:").pack(side="left", padx=(0, 4))
wrong_inline = tk.StringVar()
ttk.Entry(bottom_add, textvariable=wrong_inline, width=22).pack(side="left", padx=(0, 12))
ttk.Label(bottom_add, text="→ Richtig:").pack(side="left", padx=4)
right_inline = tk.StringVar()
ttk.Entry(bottom_add, textvariable=right_inline, width=22).pack(side="left", padx=(0, 12))
def add_inline_and_update():
w, r = wrong_inline.get().strip(), right_inline.get().strip()
if not w or not r:
messagebox.showinfo("Hinweis", "Bitte Falsch- und Richtig-Feld ausfüllen.", parent=win)
return
k = load_korrekturen()
if "medikamente" not in k:
k["medikamente"] = {}
if "diagnosen" not in k:
k["diagnosen"] = {}
if editing_entry[0]:
old_f, cat = editing_entry[0]
if cat in k and old_f in k[cat]:
del k[cat][old_f]
k[cat][w] = r
editing_entry[0] = None
else:
k["diagnosen"][w] = r
save_korrekturen(k)
# Korrekturen neu anwenden (auf den Originaltext)
corrected_text, _ = apply_korrekturen(raw, k)
full_corrected[0] = corrected_text
# Anzeige im Korrektur-Fenster aktualisieren
disp = extract_diagnosen_therapie_procedere(corrected_text)
txt.delete("1.0", "end")
txt.insert("1.0", disp)
# Liste aktualisieren
refresh_all_list()
# Direkt in Hauptfenster-KG und Transkript übernehmen
t = corrected_text
if "KRANKENGESCHICHTE:" in t:
parts = t.split("TRANSKRIPT:")
kg_part = parts[0].replace("KRANKENGESCHICHTE:", "").strip()
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", kg_part)
if "TRANSKRIPT:" in t:
trans_part = t.split("TRANSKRIPT:")[1].split("VORSICHT:")[0].strip()
self.txt_transcript.delete("1.0", "end")
self.txt_transcript.insert("1.0", trans_part)
if t and "KRANKENGESCHICHTE:" not in t and "TRANSKRIPT:" not in t and t != "(Kein Text zum Prüfen)":
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", t)
wrong_inline.set("")
right_inline.set("")
self.set_status(f"Korrektur gespeichert: «{w}» → «{r}» direkt in KG angewendet.")
btn_save = RoundedButton(
bottom_add, "Speichern und anwenden",
command=add_inline_and_update,
width=200, height=30, canvas_bg="#7EC8E3"
)
btn_save.pack(side="left", padx=(12, 0))
def _next_phase(self, phase: str):
self._phase = phase
self._timer_sec = 0
def _stop_timer(self):
self._timer_running = False
def _autocopy_kg(self, text: str):
if not text or not text.strip():
return
if not _win_clipboard_set(text):
self.clipboard_clear()
self.clipboard_append(text)
def _fill_transcript(self, transcript: str):
korrekturen = load_korrekturen()
corrected_transcript, _ = apply_korrekturen(transcript, korrekturen)
self.txt_transcript.delete("1.0", "end")
self.txt_transcript.insert("1.0", corrected_transcript)
if corrected_transcript and corrected_transcript.strip():
try:
save_to_ablage("Diktat", corrected_transcript.strip())
except Exception:
pass
def _fill_kg_and_finish(self, kg: str):
self._stop_timer()
self.set_status("Fertig.")
korrekturen = load_korrekturen()
kg_corrected, _ = apply_korrekturen(kg, korrekturen)
cleaned_kg, comments_text = extract_kg_comments(kg_corrected)
cleaned_kg = strip_kg_warnings(cleaned_kg)
if cleaned_kg and cleaned_kg.strip():
try:
save_to_ablage("KG", cleaned_kg)
self.set_status("Fertig. KG automatisch gespeichert.")
except Exception:
pass
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", cleaned_kg)
self._autocopy_kg(cleaned_kg)
def _diktat_into_widget(self, parent_win, text_widget, status_callback=None):
"""Öffnet kleines Aufnahme-Fenster, transkribiert und fügt Text an Cursorposition in text_widget ein."""
if not self.ensure_ready():
return
rec_win = tk.Toplevel(parent_win)
rec_win.title("Diktat an Cursorposition einfügen")
rec_win.transient(parent_win)
rec_win.geometry("420x150")
rec_win.configure(bg="#B9ECFA")
rec_win.minsize(350, 130)
rec_win.attributes("-topmost", True)
self._register_window(rec_win)
add_resize_grip(rec_win, 350, 130)
apply_initial_scaling_to_window(rec_win)
rf = ttk.Frame(rec_win, padding=16)
rf.pack(fill="both", expand=True)
status_var = tk.StringVar(value="Bereit. Cursor im Text setzen, dann Aufnahme starten.")
ttk.Label(rf, textvariable=status_var).pack(pady=(0, 12))
diktat_rec = [None]
is_rec = [False]
def toggle_rec():
if not diktat_rec[0]:
diktat_rec[0] = AudioRecorder()
rec = diktat_rec[0]
if not is_rec[0]:
try:
rec.start()
is_rec[0] = True
btn_rec.configure(text="⏹ Stoppen")
status_var.set("Aufnahme läuft…")
except Exception as e:
messagebox.showerror("Aufnahme-Fehler", str(e))
rec_win.destroy()
else:
is_rec[0] = False
btn_rec.configure(text="⏺ Aufnahme starten")
status_var.set("Transkribiere…")
def worker():
try:
wav_path = rec.stop_and_save_wav()
transcript_text = self.transcribe_wav(wav_path)
transcript_text = self._diktat_apply_punctuation(transcript_text)
try:
if os.path.exists(wav_path):
os.remove(wav_path)
except Exception:
pass
self.after(0, lambda: _insert_done(transcript_text))
except Exception as e:
self.after(0, lambda: messagebox.showerror("Fehler", str(e)))
self.after(0, lambda: rec_win.destroy())
def _insert_done(text):
diktat_rec[0] = None
if text:
idx = text_widget.index(tk.INSERT)
text_widget.insert(idx, text)
if status_callback:
status_callback("Diktat an Cursorposition eingefügt.")
status_var.set("Fertig.")
rec_win.destroy()
threading.Thread(target=worker, daemon=True).start()
btn_rec = RoundedButton(
rf, "⏺ Aufnahme starten", command=toggle_rec,
width=160, height=32, canvas_bg="#B9ECFA",
)
btn_rec.pack()
def ensure_ready(self):
if not self.client:
messagebox.showerror(
"API-Key fehlt",
"OPENAI_API_KEY ist nicht gesetzt.\n\n"
"Lege eine '.env' Datei an (im gleichen Ordner wie dieses Script):\n"
"OPENAI_API_KEY=sk-...\n"
)
return False
return True
def toggle_record(self):
if not self.ensure_ready():
return
if not self.is_recording:
self._new_session()
try:
self.recorder.start()
self.is_recording = True
self._recording_mode = "new"
self.btn_record.configure(text="⏹ Stopp")
self.btn_record_append.configure(text="⏺ Korrigieren")
mini_start = getattr(self, "_mini_btn_start", None)
if mini_start:
try:
if mini_start.winfo_exists():
mini_start.configure(text="⏹ Stopp")
except Exception:
pass
mini_korr = getattr(self, "_mini_btn_korrigieren", None)
if mini_korr:
try:
if mini_korr.winfo_exists():
mini_korr.configure(text="⏺ Korrigieren")
except Exception:
pass
self.set_status("Aufnahme läuft… (sprich jetzt)")
except Exception as e:
messagebox.showerror("Aufnahme-Fehler", str(e))
self.set_status("Bereit.")
else:
self._stop_and_process_recording()
def _toggle_record_append(self):
"""Aufnahme korrigieren: ergänzt die bestehende KG, ohne sie zu löschen."""
if not self.ensure_ready():
return
if not self.is_recording:
try:
self.recorder.start()
self.is_recording = True
self._recording_mode = "append"
self.btn_record_append.configure(text="⏹ Stopp")
self.btn_record.configure(text="⏺ Start")
mini_korr = getattr(self, "_mini_btn_korrigieren", None)
if mini_korr:
try:
if mini_korr.winfo_exists():
mini_korr.configure(text="⏹ Stopp")
except Exception:
pass
mini_start = getattr(self, "_mini_btn_start", None)
if mini_start:
try:
if mini_start.winfo_exists():
mini_start.configure(text="⏺ Start")
except Exception:
pass
self.set_status("Korrektur-Aufnahme läuft… (sprich jetzt)")
except Exception as e:
messagebox.showerror("Aufnahme-Fehler", str(e))
self.set_status("Bereit.")
else:
self._stop_and_process_recording()
def _stop_and_process_recording(self):
"""Stoppt die Aufnahme und verarbeitet sie (neu oder Korrektur)."""
self.is_recording = False
mode = getattr(self, "_recording_mode", "new")
self.btn_record.configure(text="⏺ Start")
self.btn_record_append.configure(text="⏺ Korrigieren")
mini_start = getattr(self, "_mini_btn_start", None)
if mini_start:
try:
if mini_start.winfo_exists():
mini_start.configure(text="⏺ Start")
except Exception:
pass
mini = getattr(self, "_mini_btn_korrigieren", None)
if mini:
try:
if mini.winfo_exists():
mini.configure(text="⏺ Korrigieren")
except Exception:
pass
self.set_status("Stoppe Aufnahme…")
existing_transcript = self.txt_transcript.get("1.0", "end").strip()
existing_kg = self.txt_output.get("1.0", "end").strip()
def worker():
def _safe_after(fn):
try:
if self.winfo_exists():
self.after(0, fn)
except Exception:
pass
try:
wav_path = self.recorder.stop_and_save_wav()
self.last_wav_path = wav_path
new_transcript = self.transcribe_wav(wav_path)
_safe_after(lambda: self._next_phase("kg"))
if mode == "append" and existing_transcript:
full_transcript = existing_transcript + "\n\n" + new_transcript
if existing_kg:
kg = strip_kg_warnings(self.merge_kg(existing_kg, full_transcript))
else:
kg = strip_kg_warnings(self.summarize_text(full_transcript))
else:
full_transcript = new_transcript
kg = strip_kg_warnings(self.summarize_text(full_transcript))
_safe_after(lambda: self._fill_transcript(full_transcript))
_safe_after(lambda: self._fill_kg_and_finish(kg))
except Exception as e:
_safe_after(lambda: self._stop_timer())
_safe_after(lambda: self.set_status(f"Fehler: {e}" if e else "Bereit."))
finally:
try:
if self.last_wav_path and os.path.exists(self.last_wav_path):
os.remove(self.last_wav_path)
except Exception:
pass
self.last_wav_path = None
self._start_timer("transcribe")
threading.Thread(target=worker, daemon=True).start()
_WHISPER_MEDICAL_PROMPT = (
"Medizinische Dokumentation auf Deutsch. "
"Capillitium, Fotodynamische Therapie, PDT, Basalzellkarzinom, Plattenepithelkarzinom, "
"Spinaliom, Spinaliom der Haut, Spinalzellkarzinom, "
"Melanom, Exzision, Biopsie, Kryotherapie, Kürettage, Histologie, Dermatoskopie, "
# Nävi / Muttermale
"Nävus, Nävi, Naevus, Naevi, Nävuszellnävus, dysplastischer Nävus, "
"Compound-Nävus, junktionaler Nävus, dermaler Nävus, Spitz-Nävus, "
# Effloreszenzen
"Erythem, Papel, Pustel, Makula, Plaque, Nodulus, Nodus, "
"Vesikel, Bulla, Erosion, Ulkus, Rhagade, Kruste, Squama, "
"Effloreszenzen, Lichenifikation, Exkoriation, "
# Häufige Diagnosen Dermatologie
"seborrhoische Keratose, Fibrom, Lipom, Atherom, Epidermoidzyste, "
"Verruca vulgaris, Verrucae, Kondylome, Molluscum contagiosum, "
"Hämangiom, Angiom, Keloid, hypertrophe Narbe, "
"Tinea, Mykose, Onychomykose, Herpes simplex, Herpes zoster, "
"Erysipel, Impetigo, Abszess, Phlegmone, Skabies, "
"Pemphigus, Pemphigoid, Lichen ruber, Lichen sclerosus, "
"Vitiligo, Pruritus, Prurigo, Mykosis fungoides, "
# Eingriffe / Befunde
"Shave-Biopsie, Stanzbiopsie, Inzisionsbiopsie, "
"Breslow-Dicke, Clark-Level, Sentinel-Lymphknoten, "
"Auflichtmikroskopie, Phototherapie, UVB, PUVA, "
# Allgemeinmedizin
"Anamnese, Diagnose, Therapie, Procedere, subjektiv, objektiv, "
"Abdomen, Thorax, Extremitäten, zervikal, lumbal, thorakal, sakral, "
"Sonographie, Röntgen, MRI, CT, EKG, Laborwerte, Blutbild, "
"Hypertonie, Diabetes mellitus, Hypercholesterinämie, Hypothyreose, "
"Antikoagulation, Thrombozytenaggregationshemmer, NSAR, ACE-Hemmer, "
"Immunsuppression, Kortikosteroide, Biologika, Methotrexat, "
"Psoriasis, Ekzem, Dermatitis, Urtikaria, Alopezie, Akne, Rosazea, "
"Aktinische Keratose, Morbus Bowen, Lentigo maligna, "
"Januar 2026, Februar 2026, März 2026, April 2026, Mai 2026, "
"Status nach, Z.n., s/p, i.v., p.o., s.c., "
"ICD-10, SOAP, Krankengeschichte, Kostengutsprache, Arztbrief."
)
_WHISPER_PROMPT_PREFIX = "Medizinische Dokumentation auf Deutsch"
def _transcribe_local(self, wav_path: str) -> str:
"""Lokale OpenAI-Transkription."""
with open(wav_path, "rb") as f:
is_gpt_transcribe = "gpt-" in TRANSCRIBE_MODEL
params = dict(model=TRANSCRIBE_MODEL, file=f, language="de")
if is_gpt_transcribe:
params["prompt"] = self._WHISPER_MEDICAL_PROMPT
else:
params["prompt"] = self._WHISPER_MEDICAL_PROMPT
params["temperature"] = 0.0
resp = self.client.audio.transcriptions.create(**params)
text = getattr(resp, "text", "")
if text is None:
text = ""
if text.strip().startswith(self._WHISPER_PROMPT_PREFIX):
text = ""
estimated_tokens = len(text) // 4
add_token_usage(estimated_tokens)
self.after(0, self.update_token_display)
return text
@staticmethod
def _read_backend_url_file():
try:
path = os.path.join(os.path.dirname(__file__), "backend_url.txt")
with open(path, "r", encoding="utf-8") as f:
url = f.read().strip()
return url if url else None
except Exception:
return None
BACKEND_URL = os.getenv("MEDWORK_BACKEND_URL") or _read_backend_url_file.__func__() or "http://127.0.0.1:8001"
_TRANSCRIBE_BACKEND_TIMEOUT = 8
def _read_backend_token_file():
try:
path = os.path.join(os.path.dirname(__file__), "backend_token.txt")
with open(path, "r", encoding="utf-8") as f:
token = f.read().strip()
return token if token else None
except Exception:
return None
_BACKEND_API_TOKEN = (
os.getenv("MEDWORK_API_TOKEN")
or _read_backend_token_file()
or ""
)
def transcribe_file_via_backend_with_fallback(self, audio_path: str) -> str:
"""Backend-Transkription (8s Timeout) mit Silent Fallback auf lokal.
Wird aus Worker-Threads aufgerufen, blockiert UI nie."""
if not self._BACKEND_API_TOKEN:
return self._transcribe_local(audio_path)
try:
headers = {"X-Api-Token": self._BACKEND_API_TOKEN}
with open(audio_path, "rb") as f:
r = _requests.post(
f"{self.BACKEND_URL}/v1/transcribe",
files={"file": (os.path.basename(audio_path), f, "audio/wav")},
data={"language": "de"},
headers=headers,
timeout=self._TRANSCRIBE_BACKEND_TIMEOUT,
)
if not r.ok:
raise RuntimeError(f"HTTP {r.status_code}")
try:
data = r.json()
except ValueError:
raise RuntimeError("Ungültige JSON-Antwort")
if not data.get("success"):
raise RuntimeError("success != true")
text = data.get("transcript", "").strip()
if not text:
raise RuntimeError("Leeres Transkript")
estimated_tokens = len(text) // 4
add_token_usage(estimated_tokens)
try:
self.after(0, self.update_token_display)
except Exception:
pass
dur = data.get("duration_ms", "?")
try:
self.after(0, lambda: self.set_status(
f"Transkription via Backend ({dur} ms)"))
except Exception:
pass
return text
except Exception:
try:
self.after(0, lambda: self.set_status(
"Server nicht erreichbar \u2013 lokales Diktat aktiv."))
except Exception:
pass
return self._transcribe_local(audio_path)
def transcribe_wav(self, wav_path: str) -> str:
return self.transcribe_file_via_backend_with_fallback(wav_path)
def call_chat_completion(self, **kwargs):
"""Wrapper für chat.completions.create mit automatischem Token-Tracking."""
resp = self.client.chat.completions.create(**kwargs)
if hasattr(resp, 'usage'):
total_tokens = getattr(resp.usage, 'total_tokens', 0)
if total_tokens > 0:
add_token_usage(total_tokens)
self.after(0, self.update_token_display)
return resp
@staticmethod
def _diktat_apply_punctuation(text: str) -> str:
"""Ersetzt gesprochene Satzzeichen/Anweisungen durch echte Zeichen (nur im Diktat-Fenster)."""
if not text or not text.strip():
return text
t = text
# Zeilenumbrüche / Absätze zuerst
t = re.sub(r"\s+neuer\s+Absatz\s*", "\n\n", t, flags=re.IGNORECASE)
t = re.sub(r"\s+neue\s+Zeile\s*", "\n", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Zeilenumbruch\s*", "\n", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Absatz\s+", "\n\n", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Absatz\s*$", "\n\n", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Absatzzeichen\s*", "\n\n", t, flags=re.IGNORECASE)
# Satzzeichen (werden nicht ausgeschrieben, sondern als Zeichen eingefügt)
t = re.sub(r"\s+Punkt\s+", ". ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Punkt\s*$", ".", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Komma\s+", ", ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Komma\s*$", ",", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Semikolon\s+", "; ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Semikolon\s*$", ";", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Strichpunkt\s+", "; ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Strichpunkt\s*$", ";", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Doppelpunkt\s+", ": ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Doppelpunkt\s*$", ":", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Fragezeichen\s+", "? ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Fragezeichen\s*$", "?", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Ausrufezeichen\s+", "! ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Ausrufezeichen\s*$", "!", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Gedankenstrich\s+", " ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Gedankenstrich\s*$", " ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Bindestrich\s+", "-", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Schrägstrich\s+", "/", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Klammer\s+auf\s+", " (", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Klammer\s+zu\s+", ") ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Auslassungspunkte\s+", "… ", t, flags=re.IGNORECASE)
t = re.sub(r"\s+Auslassungspunkte\s*$", "…", t, flags=re.IGNORECASE)
# Ordinalzahlen: erstens → 1., zweitens → 2., usw.
ord_map = [
(r"\b(erstens)\b", "1."),
(r"\b(zweitens)\b", "2."),
(r"\b(drittens)\b", "3."),
(r"\b(viertens)\b", "4."),
(r"\b(f\u00fcnftens)\b", "5."),
(r"\b(sechstens)\b", "6."),
(r"\b(siebtens)\b", "7."),
(r"\b(achtens)\b", "8."),
(r"\b(neuntens)\b", "9."),
(r"\b(zehntens)\b", "10."),
]
for pat, repl in ord_map:
t = re.sub(pat, repl, t, flags=re.IGNORECASE)
# Gesprochene Jahreszahlen in Ziffern umwandeln
_year_words = {
"zweitausendzwanzig": "2020", "zweitausendeinundzwanzig": "2021",
"zweitausendzweiundzwanzig": "2022", "zweitausenddreiundzwanzig": "2023",
"zweitausendvierundzwanzig": "2024", "zweitausendf\u00fcnfundzwanzig": "2025",
"zweitausendsechsundzwanzig": "2026", "zweitausendsiebenundzwanzig": "2027",
"zweitausendachtundzwanzig": "2028", "zweitausendneunundzwanzig": "2029",
"zweitausenddreissig": "2030", "zweitausenddrei\u00dfig": "2030",
"neunzehnhundertneunzig": "1990",
"zweitausend": "2000",
}
for word, year in sorted(_year_words.items(), key=lambda x: -len(x[0])):
t = re.sub(r"\b" + word + r"\b", year, t, flags=re.IGNORECASE)
# Gesprochene Tageszahlen vor Monaten: "den dritten Januar" → "den 3. Januar"
_day_words = {
"ersten": "1.", "zweiten": "2.", "dritten": "3.", "vierten": "4.",
"f\u00fcnften": "5.", "sechsten": "6.", "siebten": "7.", "achten": "8.",
"neunten": "9.", "zehnten": "10.", "elften": "11.", "zw\u00f6lften": "12.",
"dreizehnten": "13.", "vierzehnten": "14.", "f\u00fcnfzehnten": "15.",
"sechzehnten": "16.", "siebzehnten": "17.", "achtzehnten": "18.",
"neunzehnten": "19.", "zwanzigsten": "20.", "einundzwanzigsten": "21.",
"zweiundzwanzigsten": "22.", "dreiundzwanzigsten": "23.",
"vierundzwanzigsten": "24.", "f\u00fcnfundzwanzigsten": "25.",
"sechsundzwanzigsten": "26.", "siebenundzwanzigsten": "27.",
"achtundzwanzigsten": "28.", "neunundzwanzigsten": "29.",
"dreissigsten": "30.", "drei\u00dfigsten": "30.", "einunddreissigsten": "31.",
"einunddrei\u00dfigsten": "31.",
}
_months = (r"(?:Januar|Februar|M\u00e4rz|April|Mai|Juni|Juli|August|"
r"September|Oktober|November|Dezember)")
for word, day in sorted(_day_words.items(), key=lambda x: -len(x[0])):
t = re.sub(r"\b" + word + r"\s+" + _months,
lambda m: day + " " + m.group(0).split()[-1], t, flags=re.IGNORECASE)
return t
def _build_system_prompt(self, base_prompt: str) -> str:
"""Baut den System-Prompt zusammen: Vorlage (höchste Priorität) + Detail-Level + Basis-Prompt."""
template = load_templates_text().strip()
detail_level = load_kg_detail_level()
detail_instr = get_kg_detail_instruction(detail_level)
parts = []
if template:
parts.append(
"ZWINGENDE VORLAGE DES ARZTES (hat höchste Priorität, MUSS vollständig eingehalten werden):\n"
"Die folgende Vorlage definiert verbindlich, wie die Krankengeschichte aufgebaut und formuliert werden soll. "
"Struktur, Reihenfolge, Stil und alle Vorgaben aus dieser Vorlage haben Vorrang vor allen anderen Anweisungen. "
"Baue die Krankengeschichte ZUERST nach dieser Vorlage auf, dann ergänze fehlende Standardabschnitte.\n\n"
f"{template}"
)
parts.append(base_prompt)
if detail_instr:
parts.append(detail_instr)
soap_levels = load_soap_section_levels()
soap_instr = get_soap_section_instruction(soap_levels)
if soap_instr:
parts.append(soap_instr)
soap_visibility = load_soap_visibility()
soap_order = load_soap_order()
order_instr = get_soap_order_instruction(soap_order, soap_visibility)
if order_instr:
parts.append(order_instr)
vis_instr = get_soap_visibility_instruction(soap_visibility)
if vis_instr:
parts.append(vis_instr)
return "\n\n".join(parts)
def summarize_text(self, transcript: str) -> str:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
system_content = self._build_system_prompt(SYSTEM_PROMPT)
user_text = f"""TRANSKRIPT:
{transcript}
"""
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": system_content},
{"role": "user", "content": user_text},
],
)
return resp.choices[0].message.content
def merge_kg(self, existing_kg: str, full_transcript: str) -> str:
"""Ergänzt die bestehende KG um neue Informationen aus dem Transkript."""
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
system_content = self._build_system_prompt(MERGE_PROMPT)
user_text = f"""BESTEHENDE KRANKENGESCHICHTE:
{existing_kg}
VOLLSTÄNDIGES TRANSKRIPT (bisher + Ergänzung):
{full_transcript}
Aktualisiere die KG: neue Informationen aus dem Transkript in die passenden Abschnitte einfügen, gleiche Überschriften beibehalten."""
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": system_content},
{"role": "user", "content": user_text},
],
)
return resp.choices[0].message.content
def make_kg_from_text(self):
if not self.ensure_ready():
return
transcript = self.txt_transcript.get("1.0", "end").strip()
if not transcript:
messagebox.showinfo("Hinweis", "Bitte zuerst diktieren oder Text in das Transkript-Feld einfügen.")
return
self._start_timer("kg")
def worker():
try:
kg = strip_kg_warnings(self.summarize_text(transcript))
self.after(0, lambda: self._stop_timer())
self.after(0, lambda: self.set_status("Fertig."))
def _save_kg_and_show(k):
if k and str(k).strip():
try:
save_to_ablage("KG", str(k).strip())
except Exception:
pass
self._show_text_window("KG erneut erstellen", k, buttons="kg")
self.after(0, lambda k=kg: _save_kg_and_show(k))
except Exception as e:
self.after(0, lambda: self._stop_timer())
self.after(0, lambda: self.set_status("Fehler."))
self.after(0, lambda: messagebox.showerror("Fehler", str(e)))
threading.Thread(target=worker, daemon=True).start()
# ─── KG bearbeiten: Kürzer / Ausführlicher / Vorlage ───
def _update_kg_detail_display(self):
"""Aktualisiert die Anzeige des Detail-Levels auf den Buttons."""
level = load_kg_detail_level()
if level < 0:
self.btn_kg_kuerzer.configure(text=f"Kürzer ({level})")
self.btn_kg_ausfuehrlicher.configure(text="Ausführlicher")
elif level > 0:
self.btn_kg_kuerzer.configure(text="Kürzer")
self.btn_kg_ausfuehrlicher.configure(text=f"Ausführlicher (+{level})")
else:
self.btn_kg_kuerzer.configure(text="Kürzer")
self.btn_kg_ausfuehrlicher.configure(text="Ausführlicher")
def _rebuild_soap_section_controls(self):
"""Baut die SOAP-Section-Controls neu auf (Reihenfolge + Sichtbarkeit aus Vorlage)."""
soap_inner = self._soap_inner
bg = self._soap_bg
for w in soap_inner.winfo_children():
w.destroy()
self._soap_section_labels.clear()
order = load_soap_order()
visibility = load_soap_visibility()
_FG = "#1a4d6d"
_ARROW_FG = "#7AAFC8"
_ARROW_HOVER = "#1a4d6d"
for sec_key in order:
if not visibility.get(sec_key, True):
continue
sec_frame = tk.Frame(soap_inner, bg=bg)
sec_frame.pack(side="left", padx=(0, 14))
lv = self._soap_section_levels.get(sec_key, 0)
lbl_text = sec_key if lv == 0 else f"{sec_key} {lv:+d}"
sec_label = tk.Label(sec_frame, text=lbl_text, font=("Segoe UI", 9, "bold"),
bg=bg, fg=_FG, anchor="center", width=4, pady=1)
sec_label.pack(side="left")
self._soap_section_labels[sec_key] = sec_label
btn_up = tk.Label(sec_frame, text="\u25B2", font=("Segoe UI", 8),
bg=bg, fg=_ARROW_FG, cursor="hand2",
bd=0, highlightthickness=0, padx=0, pady=0)
btn_up.pack(side="left", padx=(1, 0))
btn_down = tk.Label(sec_frame, text="\u25BC", font=("Segoe UI", 8),
bg=bg, fg=_ARROW_FG, cursor="hand2",
bd=0, highlightthickness=0, padx=0, pady=0)
btn_down.pack(side="left", padx=(0, 0))
def make_adjust(key, delta):
return lambda e: self._adjust_soap_section(key, delta)
btn_up.bind("<Button-1>", make_adjust(sec_key, +1))
btn_down.bind("<Button-1>", make_adjust(sec_key, -1))
def make_hover(w, enter_fg, leave_fg):
w.bind("<Enter>", lambda e, ww=w, c=enter_fg: ww.configure(fg=c))
w.bind("<Leave>", lambda e, ww=w, c=leave_fg: ww.configure(fg=c))
make_hover(btn_up, _ARROW_HOVER, _ARROW_FG)
make_hover(btn_down, _ARROW_HOVER, _ARROW_FG)
def make_reset(key):
return lambda e: self._adjust_soap_section(key, 0, reset=True)
sec_label.bind("<Double-Button-1>", make_reset(sec_key))
sec_label.configure(cursor="hand2")
reset_lbl = tk.Label(soap_inner, text=" \u21BA ", font=("Segoe UI", 10),
bg=bg, fg="#7AAFC8", cursor="hand2")
reset_lbl.pack(side="left", padx=(10, 0))
reset_lbl.bind("<Button-1>", lambda e: self._reset_all_soap_sections())
reset_lbl.bind("<Enter>", lambda e: reset_lbl.configure(fg="#1a4d6d"))
reset_lbl.bind("<Leave>", lambda e: reset_lbl.configure(fg="#7AAFC8"))
def _update_soap_section_display(self):
"""Aktualisiert die Anzeige aller SOAP-Section-Labels."""
for key in _SOAP_SECTIONS:
lbl = self._soap_section_labels.get(key)
if lbl:
lv = self._soap_section_levels.get(key, 0)
lbl.configure(text=key if lv == 0 else f"{key} {lv:+d}")
def _adjust_soap_section(self, key: str, delta: int, reset: bool = False):
"""Passt eine SOAP-Abschnitts-Detailstufe an und wendet optional sofort auf die aktuelle KG an."""
if reset:
self._soap_section_levels[key] = 0
else:
old = self._soap_section_levels.get(key, 0)
self._soap_section_levels[key] = max(-3, min(3, old + delta))
save_soap_section_levels(self._soap_section_levels)
self._update_soap_section_display()
lv = self._soap_section_levels[key]
name = _SOAP_LABELS[key]
if reset:
self.set_status(f"{name}: zurückgesetzt auf Standard.")
elif lv == 0:
self.set_status(f"{name}: Standard-Länge.")
else:
direction = "kürzer" if lv < 0 else "ausführlicher"
self.set_status(f"{name}: Stufe {lv:+d} ({direction}) wird bei jeder KG-Erstellung berücksichtigt.")
# Sofort auf aktuelle KG anwenden, wenn vorhanden
kg_text = self.txt_output.get("1.0", "end").strip()
if kg_text and not reset:
self._apply_soap_section_edit(key, delta)
def _reset_all_soap_sections(self):
"""Setzt alle SOAP-Section-Levels auf 0 zurück."""
self._soap_section_levels = {k: 0 for k in _SOAP_SECTIONS}
save_soap_section_levels(self._soap_section_levels)
self._update_soap_section_display()
self.set_status("Alle SOAP-Abschnittsstufen zurückgesetzt.")
def _apply_soap_section_edit(self, key: str, delta: int):
"""Wendet eine Kürzung/Erweiterung auf einen einzelnen SOAP-Abschnitt der aktuellen KG an."""
kg_text = self.txt_output.get("1.0", "end").strip()
if not kg_text:
return
if not self.ensure_ready():
return
name = _SOAP_LABELS[key]
action = "gekürzt" if delta < 0 else "erweitert"
self.set_status(f"{name} wird {action}…")
def worker():
try:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
other_sections = ", ".join(
n for k, n in _SOAP_LABELS.items() if k != key)
if delta < 0:
task = (
f"Kürze LEICHT NUR den Abschnitt '{name}' in der folgenden Krankengeschichte. "
f"Formuliere die vorhandenen Punkte knapper gleiche Fakten, kürzere Wortwahl. "
f"Stil beibehalten (Stichpunkte bleiben Stichpunkte). Nur eine kleine Reduktion. "
f"Alle anderen Abschnitte ({other_sections}) bleiben WORT FÜR WORT UNVERÄNDERT. "
f"Gib die KOMPLETTE Krankengeschichte aus."
)
else:
task = (
f"Formuliere NUR den Abschnitt '{name}' in der folgenden Krankengeschichte LEICHT ausführlicher. "
f"Vorhandene Stichpunkte in vollständigere Sätze umformulieren. "
f"WICHTIG: NUR die bereits vorhandenen Informationen ausführlicher formulieren "
f"KEINE neuen Fakten, Befunde, Werte oder Details erfinden! "
f"Nichts hinzufügen, was nicht bereits im Text steht. "
f"Alle anderen Abschnitte ({other_sections}) bleiben WORT FÜR WORT UNVERÄNDERT. "
f"Gib die KOMPLETTE Krankengeschichte aus."
)
template = load_templates_text().strip()
sys_parts = []
if template:
sys_parts.append(
"ZWINGENDE VORLAGE DES ARZTES (höchste Priorität):\n" + template)
sys_parts.append(
"Du bist ein ärztlicher Dokumentationsassistent (Deutsch).\n" + task +
"\nDiagnosen mit ICD-10-GM-Codes in eckigen Klammern beibehalten. "
"Verwende \u2022 statt - als Aufzählungszeichen. "
"Jeder Aufzählungspunkt mit 3 Leerzeichen eingerückt. "
"Überschriften OHNE Doppelpunkt, OHNE Einrückung. "
"Nach JEDER Abschnittsüberschrift folgt EINE Leerzeile, dann die eingerückten Aufzählungspunkte. "
"Zwischen den Aufzählungspunkten innerhalb eines Abschnitts KEINE Leerzeile die Punkte folgen direkt untereinander. "
"Zwischen dem letzten Punkt eines Abschnitts und der nächsten Überschrift EINE Leerzeile. "
"Keine Sternchen (*). "
"Keine Meta-Kommentare. Ausgabe: nur die komplette KG."
)
soap_levels = load_soap_section_levels()
soap_instr = get_soap_section_instruction(soap_levels)
if soap_instr:
sys_parts.append(soap_instr)
_vis = load_soap_visibility()
_vis_instr = get_soap_visibility_instruction(_vis)
if _vis_instr:
sys_parts.append(_vis_instr)
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": "\n\n".join(sys_parts)},
{"role": "user", "content": kg_text},
],
)
result = strip_kg_warnings(resp.choices[0].message.content)
self.after(0, lambda: self._apply_kg_edit(result, f"{name} {action}"))
except Exception as e:
self.after(0, lambda: self.set_status("Fehler."))
self.after(0, lambda: messagebox.showerror("Fehler", str(e), parent=self))
threading.Thread(target=worker, daemon=True).start()
def _kg_kuerzer(self):
"""Kürzt die aktuelle KG UND speichert die Stufe dauerhaft für zukünftige KG-Erstellungen."""
level = load_kg_detail_level()
new_level = max(-3, level - 1)
save_kg_detail_level(new_level)
self._update_kg_detail_display()
kg_text = self.txt_output.get("1.0", "end").strip()
if not kg_text:
self.set_status(f"KG-Stil gespeichert: Stufe {new_level} (kürzer). Nächste KG wird kürzer erstellt.")
return
if not self.ensure_ready():
return
self.set_status(f"KG wird gekürzt… (Stufe {new_level})")
def worker():
try:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
template = load_templates_text().strip()
sys_parts = []
if template:
sys_parts.append(
"ZWINGENDE VORLAGE DES ARZTES (höchste Priorität, MUSS eingehalten werden):\n" + template)
sys_parts.append(
"Du bist ein ärztlicher Dokumentationsassistent (Deutsch).\n"
"Kürze die folgende Krankengeschichte deutlich. "
"Fasse Stichpunkte zusammen, entferne Wiederholungen und "
"reduziere auf das Wesentliche. Behalte die SOAP-Struktur bei "
"(Anamnese, Subjektiv, Objektiv, Beurteilung, Diagnose mit ICD-10-GM, Therapie, Procedere). "
"Diagnosen mit ICD-10-Codes in eckigen Klammern beibehalten. "
"Verwende \u2022 statt - als Aufzählungszeichen. "
"Jeder Aufzählungspunkt mit 3 Leerzeichen eingerückt. "
"Überschriften OHNE Doppelpunkt, OHNE Einrückung. "
"Nach JEDER Abschnittsüberschrift folgt EINE Leerzeile, dann die eingerückten Aufzählungspunkte. "
"Zwischen den Aufzählungspunkten innerhalb eines Abschnitts KEINE Leerzeile die Punkte folgen direkt untereinander. "
"Zwischen dem letzten Punkt eines Abschnitts und der nächsten Überschrift EINE Leerzeile. "
"Keine Sternchen (*). "
"Keine Meta-Kommentare. Ausgabe: nur die gekürzte KG."
)
soap_levels = load_soap_section_levels()
soap_instr = get_soap_section_instruction(soap_levels)
if soap_instr:
sys_parts.append(soap_instr)
_vis = load_soap_visibility()
_vis_instr = get_soap_visibility_instruction(_vis)
if _vis_instr:
sys_parts.append(_vis_instr)
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": "\n\n".join(sys_parts)},
{"role": "user", "content": kg_text},
],
)
result = strip_kg_warnings(resp.choices[0].message.content)
self.after(0, lambda: self._apply_kg_edit(result, f"Gekürzt (Stufe {new_level})"))
except Exception as e:
self.after(0, lambda: self.set_status("Fehler."))
self.after(0, lambda: messagebox.showerror("Fehler", str(e), parent=self))
threading.Thread(target=worker, daemon=True).start()
def _kg_ausfuehrlicher(self):
"""Macht die aktuelle KG ausführlicher UND speichert die Stufe dauerhaft für zukünftige KG-Erstellungen."""
level = load_kg_detail_level()
new_level = min(3, level + 1)
save_kg_detail_level(new_level)
self._update_kg_detail_display()
kg_text = self.txt_output.get("1.0", "end").strip()
transcript = self.txt_transcript.get("1.0", "end").strip()
if not kg_text:
self.set_status(f"KG-Stil gespeichert: Stufe +{new_level} (ausführlicher). Nächste KG wird ausführlicher erstellt.")
return
if not self.ensure_ready():
return
self.set_status(f"KG wird ausführlicher… (Stufe +{new_level})")
def worker():
try:
model = self.model_var.get().strip() or DEFAULT_SUMMARY_MODEL
if model not in ALLOWED_SUMMARY_MODELS:
model = DEFAULT_SUMMARY_MODEL
template = load_templates_text().strip()
sys_parts = []
if template:
sys_parts.append(
"ZWINGENDE VORLAGE DES ARZTES (höchste Priorität, MUSS eingehalten werden):\n" + template)
sys_parts.append(
"Du bist ein ärztlicher Dokumentationsassistent (Deutsch).\n"
"Formuliere die folgende Krankengeschichte ausführlicher. "
"Wandle vorhandene Stichpunkte in vollständige Sätze um. "
"STRIKT NUR vorhandene Informationen ausführlicher ausformulieren "
"KEINE neuen Fakten, Befunde, Werte, Mengenangaben oder klinische Details erfinden! "
"Nichts hinzufügen, was nicht bereits im Text steht. "
"Behalte die SOAP-Struktur bei "
"(Anamnese, Subjektiv, Objektiv, Beurteilung, Diagnose mit ICD-10-GM, Therapie, Procedere). "
"Diagnosen mit ICD-10-Codes in eckigen Klammern beibehalten. "
"Verwende \u2022 statt - als Aufzählungszeichen. "
"Jeder Aufzählungspunkt mit 3 Leerzeichen eingerückt. "
"Überschriften OHNE Doppelpunkt, OHNE Einrückung. "
"Nach JEDER Abschnittsüberschrift folgt EINE Leerzeile, dann die eingerückten Aufzählungspunkte. "
"Zwischen den Aufzählungspunkten innerhalb eines Abschnitts KEINE Leerzeile die Punkte folgen direkt untereinander. "
"Zwischen dem letzten Punkt eines Abschnitts und der nächsten Überschrift EINE Leerzeile. "
"Keine Sternchen (*). "
"Keine Meta-Kommentare. Ausgabe: nur die ausführlichere KG."
)
soap_levels = load_soap_section_levels()
soap_instr = get_soap_section_instruction(soap_levels)
if soap_instr:
sys_parts.append(soap_instr)
_vis = load_soap_visibility()
_vis_instr = get_soap_visibility_instruction(_vis)
if _vis_instr:
sys_parts.append(_vis_instr)
user_content = f"KRANKENGESCHICHTE:\n{kg_text}"
if transcript:
user_content += f"\n\nORIGINAL-TRANSKRIPT (als Quelle für Details):\n{transcript}"
resp = self.call_chat_completion(
model=model,
messages=[
{"role": "system", "content": "\n\n".join(sys_parts)},
{"role": "user", "content": user_content},
],
)
result = strip_kg_warnings(resp.choices[0].message.content)
self.after(0, lambda: self._apply_kg_edit(result, f"Ausführlicher (Stufe +{new_level})"))
except Exception as e:
self.after(0, lambda: self.set_status("Fehler."))
self.after(0, lambda: messagebox.showerror("Fehler", str(e), parent=self))
threading.Thread(target=worker, daemon=True).start()
def _apply_kg_edit(self, new_kg: str, label: str):
"""Wendet eine KG-Bearbeitung an (Kürzer/Ausführlicher) und zeigt das Ergebnis."""
if new_kg and new_kg.strip():
self.txt_output.delete("1.0", "end")
self.txt_output.insert("1.0", new_kg.strip())
try:
save_to_ablage("KG", new_kg.strip())
except Exception:
pass
self.set_status(f"KG {label}.")
else:
self.set_status("Keine Änderung erhalten.")
def _open_kg_vorlage(self):
"""Öffnet ein Fenster, in dem der Arzt eine Vorlage für die KG-Erstellung definieren kann."""
VOR_W, VOR_H = 540, 620
win = tk.Toplevel(self)
win.title("Vorlage KG-Erstellung")
win.transient(self)
win.minsize(420, 500)
win.configure(bg="#E8F4FA")
win.attributes("-topmost", True)
self._register_window(win)
saved_geom = load_toplevel_geometry("kg_vorlage")
if saved_geom:
win.geometry(saved_geom)
else:
win.geometry(f"{VOR_W}x{VOR_H}")
center_window(win, VOR_W, VOR_H)
def _on_close():
try:
save_toplevel_geometry("kg_vorlage", win.geometry())
except Exception:
pass
win.destroy()
win.protocol("WM_DELETE_WINDOW", _on_close)
win.bind("<Configure>", lambda e: save_toplevel_geometry("kg_vorlage", win.geometry()))
# Header
header = tk.Frame(win, bg="#C8E8C8")
header.pack(fill="x")
tk.Label(header, text="📋 Vorlage für KG-Erstellung", font=("Segoe UI", 12, "bold"),
bg="#C8E8C8", fg="#2A5A2A").pack(padx=12, pady=8)
# ─── SOAP-Reihenfolge mit Profilen ───
order_frame = tk.LabelFrame(win, text=" Abschnitts-Reihenfolge ", font=("Segoe UI", 9, "bold"),
bg="#E8F4FA", fg="#1a4d6d", padx=10, pady=6)
order_frame.pack(fill="x", padx=14, pady=(10, 4))
presets_data = load_soap_presets()
active_preset_idx = [presets_data.get("active", 0)]
profile_bar = tk.Frame(order_frame, bg="#E8F4FA")
profile_bar.pack(fill="x", pady=(0, 4))
_profile_btns = []
_PROF_ACTIVE = {"bg": "#1a4d6d", "fg": "white", "font": ("Segoe UI", 9, "bold")}
_PROF_INACTIVE = {"bg": "#D4EEF7", "fg": "#1a4d6d", "font": ("Segoe UI", 9)}
order_list = []
current_visibility = {}
visibility_vars = {}
row_widgets = []
drag_info = {"active": False, "src_idx": -1, "num_labels": []}
list_frame = tk.Frame(order_frame, bg="#E8F4FA")
list_frame.pack(fill="x")
def _load_preset(idx):
active_preset_idx[0] = idx
preset = presets_data["presets"][idx]
order_list.clear()
order_list.extend(preset.get("order", list(DEFAULT_SOAP_ORDER)))
current_visibility.clear()
vis = preset.get("visibility", {})
current_visibility.update({k: vis.get(k, True) for k in DEFAULT_SOAP_ORDER})
for k in DEFAULT_SOAP_ORDER:
if k in visibility_vars:
visibility_vars[k].set(current_visibility.get(k, True))
else:
visibility_vars[k] = tk.BooleanVar(value=current_visibility.get(k, True))
for i, btn in enumerate(_profile_btns):
btn.configure(**(_PROF_ACTIVE if i == idx else _PROF_INACTIVE))
_rebuild_order_ui()
def _save_current_to_preset():
idx = active_preset_idx[0]
presets_data["presets"][idx]["order"] = list(order_list)
presets_data["presets"][idx]["visibility"] = dict(current_visibility)
presets_data["active"] = idx
for pi in range(NUM_SOAP_PRESETS):
style = _PROF_ACTIVE if pi == active_preset_idx[0] else _PROF_INACTIVE
btn = tk.Label(profile_bar, text=f" Profil {pi+1} ", cursor="hand2",
padx=10, pady=3, **style)
btn.pack(side="left", padx=(0, 4))
btn.bind("<Button-1>", lambda e, i=pi: _load_preset(i))
btn.bind("<Enter>", lambda e, b=btn, i=pi: b.configure(
bg="#2a6a8d" if i == active_preset_idx[0] else "#B8DDE8"))
btn.bind("<Leave>", lambda e, b=btn, i=pi: b.configure(
**(_PROF_ACTIVE if i == active_preset_idx[0] else _PROF_INACTIVE)))
_profile_btns.append(btn)
tk.Label(order_frame, text="Drag-and-Drop · Häkchen = in KG anzeigen · nur aktives Profil wird verwendet:",
font=("Segoe UI", 8), bg="#E8F4FA", fg="#4a8aaa").pack(anchor="w", pady=(0, 4))
def _on_visibility_toggle(key):
current_visibility[key] = visibility_vars[key].get()
_rebuild_order_ui()
def _drag_start(event, idx):
drag_info["active"] = True
drag_info["src_idx"] = idx
row_widgets[idx].configure(highlightbackground="#FFA500", highlightthickness=2)
def _drag_motion(event):
if not drag_info["active"]:
return
src = drag_info["src_idx"]
y = event.y_root
target = src
for i, row in enumerate(row_widgets):
try:
ry = row.winfo_rooty()
rh = row.winfo_height()
if ry <= y < ry + rh:
target = i
break
except Exception:
pass
if target == src:
return
item = order_list.pop(src)
order_list.insert(target, item)
row = row_widgets.pop(src)
row_widgets.insert(target, row)
nlbl = drag_info["num_labels"].pop(src)
drag_info["num_labels"].insert(target, nlbl)
for w in row_widgets:
w.pack_forget()
for i, w in enumerate(row_widgets):
w.pack(fill="x", pady=1)
for i, lbl in enumerate(drag_info["num_labels"]):
lbl.configure(text=f"{i + 1}.")
for w in row_widgets:
w.configure(highlightbackground="#B0D4E8", highlightthickness=1)
row_widgets[target].configure(highlightbackground="#FFA500", highlightthickness=2)
drag_info["src_idx"] = target
def _drag_end(event):
if drag_info["active"]:
drag_info["active"] = False
_rebuild_order_ui()
def _rebuild_order_ui():
for w in list_frame.winfo_children():
w.destroy()
row_widgets.clear()
drag_info["num_labels"] = []
for idx, key in enumerate(order_list):
vis = visibility_vars.get(key, tk.BooleanVar(value=True)).get()
row_bg = "white" if vis else "#F0F0F0"
fg_color = "#1a4d6d" if vis else "#AAAAAA"
row = tk.Frame(list_frame, bg=row_bg, highlightbackground="#B0D4E8",
highlightthickness=1, padx=4, pady=2)
row.pack(fill="x", pady=1)
handle = tk.Label(row, text="☰", font=("Segoe UI", 10),
bg=row_bg, fg="#B0D4E8", cursor="fleur", padx=2)
handle.pack(side="left", padx=(2, 4))
cb = tk.Checkbutton(row, variable=visibility_vars.get(key),
bg=row_bg, activebackground=row_bg,
command=lambda k=key: _on_visibility_toggle(k))
cb.pack(side="left", padx=(0, 0))
num_lbl = tk.Label(row, text=f"{idx + 1}.", font=("Segoe UI", 10, "bold"),
bg=row_bg, fg=fg_color, width=2)
num_lbl.pack(side="left", padx=(2, 2))
drag_info["num_labels"].append(num_lbl)
name_lbl = tk.Label(row, text=f"{key} {_SOAP_LABELS.get(key, key)}",
font=("Segoe UI", 10), bg=row_bg, fg=fg_color, anchor="w")
name_lbl.pack(side="left", fill="x", expand=True, padx=4)
for widget in (handle, name_lbl, num_lbl, row):
widget.bind("<ButtonPress-1>", lambda e, i=idx: _drag_start(e, i))
widget.bind("<B1-Motion>", _drag_motion)
widget.bind("<ButtonRelease-1>", _drag_end)
handle.bind("<Enter>", lambda e, h=handle: h.configure(fg="#1a4d6d"))
handle.bind("<Leave>", lambda e, h=handle: h.configure(fg="#B0D4E8"))
row_widgets.append(row)
_load_preset(active_preset_idx[0])
def _reset_order():
order_list.clear()
order_list.extend(DEFAULT_SOAP_ORDER)
for k in visibility_vars:
visibility_vars[k].set(True)
current_visibility[k] = True
_rebuild_order_ui()
reset_order_btn = tk.Label(order_frame, text="↺ Standard-Reihenfolge", font=("Segoe UI", 8),
bg="#E8F4FA", fg="#7EC8E3", cursor="hand2")
reset_order_btn.pack(anchor="e", pady=(4, 0))
reset_order_btn.bind("<Button-1>", lambda e: _reset_order())
reset_order_btn.bind("<Enter>", lambda e: reset_order_btn.configure(fg="#1a4d6d"))
reset_order_btn.bind("<Leave>", lambda e: reset_order_btn.configure(fg="#7EC8E3"))
# ─── Freitext-Vorlage ───
tk.Label(win, text="Zusätzliche Anweisungen für die KI (optional):",
font=("Segoe UI", 9, "bold"), bg="#E8F4FA", fg="#1a4d6d"
).pack(anchor="w", padx=14, pady=(8, 2))
example_frame = tk.Frame(win, bg="#F5FBF5", padx=10, pady=4)
example_frame.pack(fill="x", padx=14, pady=(0, 4))
tk.Label(example_frame,
text="z.B. «Fachrichtung: Dermatologie» · «Procedere immer mit Kontrolltermin» · «Kurz und stichpunktartig»",
font=("Segoe UI", 7), bg="#F5FBF5", fg="#4A7A4A",
wraplength=460, justify="left").pack(anchor="w")
txt_frame = tk.Frame(win, bg="#E8F4FA", padx=14)
txt_frame.pack(fill="both", expand=True, pady=(0, 4))
vorlage_text = tk.Text(txt_frame, font=("Segoe UI", 11), bg="white",
fg="#1a4d6d", relief="flat", bd=0, wrap="word",
insertbackground="#1a4d6d", padx=8, pady=6, height=5)
vorlage_text.pack(fill="both", expand=True)
current = load_templates_text()
if current:
vorlage_text.insert("1.0", current)
status_var = tk.StringVar(value="")
# Buttons
btn_frame = tk.Frame(win, bg="#D4EEF7", padx=14, pady=8)
btn_frame.pack(fill="x")
def _save():
text = vorlage_text.get("1.0", "end-1c").strip()
save_templates_text(text)
_save_current_to_preset()
save_soap_presets(presets_data)
self._rebuild_soap_section_controls()
status_var.set(f"✓ Profil {active_preset_idx[0]+1} + Vorlage gespeichert.")
def _clear():
vorlage_text.delete("1.0", "end")
save_templates_text("")
_reset_order()
_save_current_to_preset()
save_soap_presets(presets_data)
self._rebuild_soap_section_controls()
status_var.set("Alles zurückgesetzt Standard-Format wird verwendet.")
def _save_and_close():
_save()
_on_close()
save_btn = tk.Button(btn_frame, text="💾 Speichern", font=("Segoe UI", 11, "bold"),
bg="#5BDB7B", fg="#1a4d6d", activebackground="#4BCB6B",
relief="flat", bd=0, padx=20, pady=6, cursor="hand2",
command=_save)
save_btn.pack(side="left", padx=(0, 6))
tk.Button(btn_frame, text="Speichern & Schliessen", font=("Segoe UI", 9),
bg="#7EC8E3", fg="#1a4d6d", activebackground="#6CB8D3",
relief="flat", bd=0, padx=12, pady=4, cursor="hand2",
command=_save_and_close).pack(side="left", padx=(0, 6))
tk.Button(btn_frame, text="Zurücksetzen", font=("Segoe UI", 9),
bg="#E0E0E0", fg="#666", activebackground="#D0D0D0",
relief="flat", bd=0, padx=10, pady=4, cursor="hand2",
command=_clear).pack(side="left", padx=(0, 6))
tk.Button(btn_frame, text="Schliessen", font=("Segoe UI", 9),
bg="#C8DDE6", fg="#1a4d6d", activebackground="#B8CDD6",
relief="flat", bd=0, padx=10, pady=4, cursor="hand2",
command=_on_close).pack(side="right")
tk.Label(win, textvariable=status_var, font=("Segoe UI", 8, "bold"),
bg="#E8F4FA", fg="#2A7A2A").pack(fill="x", padx=14, pady=(0, 4))
def _rebuild_textblock_buttons(self):
"""Erstellt die Textblock-Buttons neu basierend auf _textbloecke_data."""
for w in self._textbloecke_rows_frame.winfo_children():
w.destroy()
self._textbloecke_buttons = []
slots = sorted(self._textbloecke_data.keys(), key=int)
for i in range(0, len(slots), 2):
row_slots = slots[i : i + 2]
block_row = ttk.Frame(self._textbloecke_rows_frame, padding=(0, 4, 0, 0))
block_row.pack(fill="x")
block_inner = ttk.Frame(block_row)
block_inner.pack(anchor="center")
for slot_str in row_slots:
btn = RoundedButton(
block_inner, self._textblock_label(slot_str),
command=None,
bg="#e1f6fc", fg="#1a4d6d", active_bg="#B8E8F4", width=70, height=26, canvas_bg="#B9ECFA",
radius=0,
)
btn._textblock_slot = slot_str
def make_click(s):
return lambda: self._copy_textblock(s)
btn.configure(command=make_click(slot_str))
def on_btn_press(e, s):
self._textblock_copy_to_clipboard(s)
btn.bind("<ButtonPress-1>", lambda e, s=slot_str: on_btn_press(e, s), add="+")
btn.pack(side="left", padx=(0, 4))
def make_ctx(s):
return lambda e: self._textblock_context(e, s)
def make_save_sel(s):
return lambda e: self._save_selection_to_textblock(e, s)
btn.bind("<Button-3>", make_ctx(slot_str))
btn.bind("<Shift-Button-1>", make_save_sel(slot_str))
self._textbloecke_buttons.append((slot_str, btn))
def _add_textblock(self):
"""Fügt einen Textblock hinzu wenn vorher mit - entfernt, wird der gespeicherte Inhalt wiederhergestellt."""
slots = sorted(self._textbloecke_data.keys(), key=int)
next_num = int(slots[-1]) + 1 if slots else 1
slot_str = str(next_num)
if self._removed_textbloecke:
restored = self._removed_textbloecke.pop()
self._textbloecke_data[slot_str] = {"name": restored.get("name", f"Textblock {slot_str}"), "content": restored.get("content", "")}
else:
self._textbloecke_data[slot_str] = {"name": f"Textblock {slot_str}", "content": ""}
save_textbloecke(self._textbloecke_data)
self._rebuild_textblock_buttons()
self.set_status(f"Textblock {slot_str} hinzugefügt.")
def _remove_textblock(self):
"""Entfernt den letzten Textblock. Inhalt wird gespeichert für spätere Wiederverwendung mit +."""
slots = sorted(self._textbloecke_data.keys(), key=int)
if len(slots) <= 2:
self.set_status("Mindestens 2 Textblöcke müssen bestehen bleiben.")
return
last = slots[-1]
self._removed_textbloecke.append(dict(self._textbloecke_data[last]))
del self._textbloecke_data[last]
save_textbloecke(self._textbloecke_data)
self._rebuild_textblock_buttons()
self.set_status(f"Textblock {last} entfernt (Inhalt für + gespeichert).")
def _textblock_label(self, slot: str) -> str:
"""Anzeigetext für einen Textblock-Button (Name oder gekürzter Inhalt)."""
d = self._textbloecke_data.get(slot) or {"name": "", "content": ""}
name = (d.get("name") or "").strip()
content = (d.get("content") or "").strip()
max_len = 12
if name and name != f"Textblock {slot}":
return (name[:max_len] + "…") if len(name) > max_len else name
if content:
return (content[:max_len] + "…") if len(content) > max_len else content
return f"Textblock {slot}"
def _refresh_textblock_button(self, slot: str):
"""Aktualisiert den angezeigten Text eines Textblock-Buttons."""
for s, btn in self._textbloecke_buttons:
if s == slot:
btn.configure(text=self._textblock_label(slot))
break
# Typische SOAP-/KG-Überschriften für Abschnitts-Kopieren (Doppelklick)
_KG_SECTION_HEADERS = (
"subjektiv", "objektiv", "diagnose", "diagnosen", "beurteilung",
"therapie", "procedere", "anlass", "befunde", "empfehlung",
"assessment", "plan", "befund", "verlauf", "medikation",
)
def _get_kg_section_at_cursor(self, text_widget):
"""Wenn Cursor auf einer Abschnittsüberschrift steht: (start, end, text) des Abschnitts, sonst None."""
try:
insert = text_widget.index(tk.INSERT)
line_no = int(insert.split(".")[0])
line_start = f"{line_no}.0"
line_end = f"{line_no}.end"
line_text = (text_widget.get(line_start, line_end) or "").strip()
if not line_text:
return None
line_lower = line_text.lower()
if line_lower.endswith(":"):
head = line_lower.rstrip(":").strip()
elif "." in line_lower and line_lower.split(".", 1)[0].strip().isdigit():
head = line_lower.split(".", 1)[1].strip().rstrip(":").strip()
else:
return None
if not any(h == head or head.startswith(h + " ") or head.startswith(h + ":") or h in head for h in self._KG_SECTION_HEADERS):
return None
content = text_widget.get("1.0", "end")
lines = content.split("\n")
start_line = line_no
end_line = len(lines)
def _is_section_header(ln_text):
"""Prüft ob eine Zeile eine bekannte SOAP-/KG-Abschnittsüberschrift ist."""
lt = (ln_text or "").strip().lower()
if not lt:
return False
if lt.endswith(":"):
h2 = lt.rstrip(":").strip()
elif "." in lt and lt.split(".", 1)[0].strip().isdigit():
h2 = lt.split(".", 1)[1].strip().rstrip(":").strip()
else:
return False
return any(k == h2 or h2.startswith(k + " ") or h2.startswith(k + ":") or k in h2 for k in self._KG_SECTION_HEADERS)
for i in range(start_line + 1, len(lines) + 1):
if i > len(lines):
break
if _is_section_header(lines[i - 1]):
end_line = i - 1
break
while end_line > start_line and not (lines[end_line - 1] or "").strip():
end_line -= 1
section_text = "\n".join(lines[start_line - 1 : end_line]).rstrip()
if not section_text:
return None
start_idx = f"{start_line}.0"
end_idx = f"{end_line}.end"
return (start_idx, end_idx, section_text)
except (tk.TclError, AttributeError, ValueError, IndexError):
return None
def _bind_kg_section_copy(self, text_widget):
"""Doppelklick auf eine SOAP-Überschrift: ganzen Abschnitt in Zwischenablage kopieren."""
def on_double_click(event):
result = self._get_kg_section_at_cursor(text_widget)
if result:
_, _, section_text = result
try:
if not _win_clipboard_set(section_text):
self.clipboard_clear()
self.clipboard_append(section_text)
self.set_status("Abschnitt kopiert.")
except (tk.TclError, AttributeError):
pass
text_widget.bind("<Double-Button-1>", on_double_click, add="+")
def _bind_text_context_menu(self, text_widget):
"""Rechtsklick-Menü: Kopieren, Einfügen, Markierung in Textblock speichern."""
def on_right_click(event):
menu = tk.Menu(text_widget, tearoff=0)
menu.add_command(
label="Kopieren",
command=lambda: _do_copy(),
)
menu.add_command(
label="Einfügen",
command=lambda: _do_paste(),
)
slots = sorted(getattr(self, "_textbloecke_data", {}).keys())
if slots:
save_menu = tk.Menu(menu, tearoff=0)
for slot in slots:
lbl = self._textblock_label(slot)
save_menu.add_command(
label=lbl,
command=lambda s=slot, w=text_widget: _do_save_to_textblock(s, w),
)
menu.add_cascade(label="Markierung in Textblock speichern", menu=save_menu)
try:
menu.tk_popup(event.x_root, event.y_root)
finally:
menu.grab_release()
def _do_copy():
try:
if hasattr(text_widget, "selection_present") and text_widget.selection_present():
sel = text_widget.get(tk.SEL_FIRST, tk.SEL_LAST)
if not _win_clipboard_set(sel):
self.clipboard_clear()
self.clipboard_append(sel)
self.set_status("Kopiert.")
except (tk.TclError, AttributeError):
pass
def _do_paste():
try:
text = self.clipboard_get()
if isinstance(text, str):
text_widget.insert(tk.INSERT, text)
self.set_status("Eingefügt.")
except (tk.TclError, AttributeError):
pass
def _do_save_to_textblock(slot, w):
try:
if hasattr(w, "selection_present") and w.selection_present():
text = w.get(tk.SEL_FIRST, tk.SEL_LAST)
else:
text = self._get_selection_from_focus()
except (tk.TclError, AttributeError):
text = ""
if not (text or "").strip():
self.set_status("Keine Markierung zuerst Text markieren.")
return
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["content"] = text
self._refresh_textblock_button(slot)
self.set_status("Auswahl in Textblock gespeichert.")
text_widget.bind("<Button-3>", on_right_click)
def _bind_textblock_pending(self, text_widget):
"""Wie textbloecke.py: ButtonPress-1 = Auswahl für Drag; Cursorposition ständig aktualisieren für Einfügen."""
if not hasattr(self, "_textblock_drag_data"):
self._textblock_drag_data = {"text": None, "active": False}
self._bind_text_context_menu(text_widget)
def _save_as_last():
"""Speichert Widget + Cursorposition wird vor Klick auf Textblock-Button gesichert."""
try:
if text_widget.winfo_exists():
self._last_focused_text_widget = text_widget
self._last_insert_index = text_widget.index(tk.INSERT)
except (tk.TclError, AttributeError):
pass
text_widget.bind("<FocusIn>", lambda e: _save_as_last(), add="+")
text_widget.bind("<FocusOut>", lambda e: _save_as_last(), add="+")
text_widget.bind("<KeyRelease>", lambda e: _save_as_last(), add="+")
text_widget.bind("<ButtonRelease-1>", lambda e: _save_as_last(), add="+")
def get_selection_from_widget(w):
"""Wie textbloecke.py get_selection(): Auswahl per tag_nextrange('sel')."""
try:
sel = w.tag_nextrange("sel", "1.0")
if sel:
return w.get(*sel)
except (tk.TclError, AttributeError):
pass
try:
if hasattr(w, "selection_present") and w.selection_present():
return w.get(tk.SEL_FIRST, tk.SEL_LAST)
except (tk.TclError, AttributeError):
pass
return None
def start_drag(event):
"""Bei gedrückter Maustaste im Textfeld: Auswahl sichern (wie textbloecke.py start_drag)."""
s = get_selection_from_widget(text_widget)
if s and (s or "").strip():
self._textblock_drag_data["text"] = s
self._textblock_drag_data["active"] = False
else:
self._textblock_drag_data["text"] = None
self._textblock_drag_data["active"] = False
text_widget.bind("<ButtonPress-1>", start_drag, add="+")
text_widget.bind("<B1-Motion>", self._textblock_on_drag_motion, add="+")
text_widget.bind("<ButtonRelease-1>", self._on_global_drag_release, add="+")
self._bind_autotext(text_widget)
def _check_autotext_focus_out(self):
"""Prüft, ob der Fokus noch in unserer App ist (Hauptfenster oder Toplevel)."""
try:
w = self.focus_get()
if w is None:
self._autotext_focus_in_app[0] = False
return
top = w.winfo_toplevel()
if top == self:
self._autotext_focus_in_app[0] = True
return
if hasattr(top, "master") and top.master == self:
self._autotext_focus_in_app[0] = True
return
self._autotext_focus_in_app[0] = False
except (tk.TclError, AttributeError):
self._autotext_focus_in_app[0] = False
def _bind_autotext(self, text_widget):
"""Ersetzt Abkürzungen durch Autotext nach Leerzeichen/Zeilenumbruch etc. (dauerhaft gespeichert, wenn aktiviert)."""
AUTOTEXT_TERMINATORS = " \n\t,.;:!?)\"]"
def on_focus_in(event):
self._autotext_focus_in_app[0] = True
def on_focus_out(event):
self.after(50, self._check_autotext_focus_out)
text_widget.bind("<FocusIn>", on_focus_in, add="+")
text_widget.bind("<FocusOut>", on_focus_out, add="+")
def on_keyrelease(event):
if not getattr(self, "_autotext_data", {}).get("enabled", True):
return
entries = (self._autotext_data.get("entries") or {})
if not entries:
return
try:
text_widget.update_idletasks()
insert = text_widget.index(tk.INSERT)
text_before = text_widget.get("1.0", insert)
if not text_before:
return
last_char = text_before[-1]
if last_char not in AUTOTEXT_TERMINATORS:
return
word_end = len(text_before) - 1
i = word_end - 1
while i >= 0 and text_before[i] not in AUTOTEXT_TERMINATORS:
i -= 1
word_start = i + 1
word = text_before[word_start:word_end]
if not word or word not in entries:
return
expansion = entries[word]
start_idx = text_widget.index(f"{insert} - {len(word) + 1} chars")
text_widget.delete(start_idx, insert)
text_widget.insert(start_idx, expansion + last_char)
except (tk.TclError, AttributeError, IndexError):
pass
text_widget.bind("<KeyRelease>", lambda e: self.after(80, lambda: on_keyrelease(e)), add="+")
def _run_global_autotext_listener(self):
"""Hintergrund-Thread: Globaler Tastatur-Hook (Windows). Ersetzung in Worker-Thread mit Verzögerung, damit der Listener nicht blockiert."""
if not _HAS_PYNPUT:
return
AUTOTEXT_TERMINATORS = " \n\t,.;:!?)\"]"
controller = KbdController()
buffer = self._autotext_global_buffer
replace_queue = []
queue_lock = threading.Lock()
REPLACE_DELAY = 0.2
def key_to_char(key):
try:
if key == Key.space:
return " "
if key == Key.enter:
return "\n"
if key == Key.tab:
return "\t"
if hasattr(key, "char") and key.char:
return key.char
except Exception:
pass
return None
def key_to_terminator_char(key):
try:
if key == Key.space:
return " "
if key == Key.enter:
return "\n"
if key == Key.tab:
return "\t"
if hasattr(key, "vk") and key.vk == 13:
return "\n"
if hasattr(key, "char") and key.char and key.char in AUTOTEXT_TERMINATORS:
return key.char
except Exception:
pass
return None
def worker():
while True:
time.sleep(0.02)
with queue_lock:
if not replace_queue:
continue
n_back, text = replace_queue.pop(0)
injecting_ref = getattr(self, "_autotext_injecting", [False])
injecting_ref[0] = True
time.sleep(REPLACE_DELAY)
try:
data = load_autotext()
if not data.get("enabled", True):
injecting_ref[0] = False
continue
saved = _win_clipboard_get()
if not _win_clipboard_set(text):
injecting_ref[0] = False
continue
for _ in range(n_back):
controller.press(Key.backspace)
controller.release(Key.backspace)
time.sleep(0.1)
with controller.pressed(Key.ctrl):
controller.tap(KeyCode.from_char("v"))
time.sleep(0.05)
if saved:
_win_clipboard_set(saved)
except Exception:
pass
injecting_ref[0] = False
threading.Thread(target=worker, daemon=True).start()
def on_press(key):
if getattr(self, "_autotext_injecting", [False])[0]:
return
try:
if key == Key.backspace:
if buffer:
buffer.pop()
else:
ch = key_to_char(key)
if ch:
buffer.append(ch)
if len(buffer) > 200:
buffer.pop(0)
except Exception:
pass
def on_release(key):
if getattr(self, "_autotext_injecting", [False])[0]:
return
if getattr(self, "_autotext_focus_in_app", [False])[0]:
return
terminator_char = key_to_terminator_char(key)
if terminator_char is None:
return
try:
data = load_autotext()
if not data.get("enabled", True):
return
entries = data.get("entries") or {}
if not entries or len(buffer) < 2:
return
i = len(buffer) - 2
while i >= 0 and buffer[i] not in AUTOTEXT_TERMINATORS:
i -= 1
word = "".join(buffer[i + 1 : -1])
if not word:
return
expansion = entries.get(word)
if expansion is None:
for k, v in entries.items():
if k.lower() == word.lower():
expansion = v
break
if not expansion:
return
n_back = len(word) + 1
text = expansion + terminator_char
with queue_lock:
replace_queue.append((n_back, text))
del buffer[-(len(word) + 1) :]
buffer.extend(list(expansion + terminator_char))
while len(buffer) > 200:
buffer.pop(0)
except Exception:
pass
try:
with KbdListener(on_press=on_press, on_release=on_release) as listener:
listener.join()
except Exception:
pass
def _textblock_slot_at(self, x_root: int, y_root: int):
"""Wie textbloecke.py button_index_at: Slot ('1''4') des Buttons unter (x_root, y_root) per Rechteck-Test."""
if not hasattr(self, "_textbloecke_buttons"):
return None
try:
for slot, btn in self._textbloecke_buttons:
bx = btn.winfo_rootx()
by = btn.winfo_rooty()
bw = max(1, btn.winfo_width())
bh = max(1, btn.winfo_height())
if bx <= x_root <= bx + bw and by <= y_root <= by + bh:
return slot
except (tk.TclError, AttributeError):
pass
return None
def _textblock_on_drag_motion(self, event):
"""Wie textbloecke.py on_drag_motion: Sobald Maus sich bewegt und wir Text haben → Drag aktiv."""
d = getattr(self, "_textblock_drag_data", None)
if d is not None and d.get("text"):
d["active"] = True
def _on_global_drag_release(self, event):
"""Wie textbloecke.py on_release: Maus losgelassen wenn Drag aktiv und über Button → dort speichern; sonst in Zwischenablage für externes Einfügen."""
d = getattr(self, "_textblock_drag_data", None)
if d is None:
return
if not d.get("active") or not d.get("text"):
d["text"] = None
d["active"] = False
return
slot = self._textblock_slot_at(event.x_root, event.y_root)
if slot:
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["content"] = d["text"] or ""
save_textbloecke(self._textbloecke_data)
self._refresh_textblock_button(slot)
self.set_status("Text in Textblock gezogen und gespeichert.")
self._just_dropped_on_textblock = True
else:
try:
t = (d["text"] or "").strip()
if not _win_clipboard_set(t):
self.clipboard_clear()
self.clipboard_append(t)
self.set_status("Text in Zwischenablage in Editor/andere App mit Strg+V einfügen.")
except (tk.TclError, AttributeError):
pass
d["text"] = None
d["active"] = False
def _on_focus_out_for_external_paste(self, event):
"""Wenn unser Fenster den Fokus verliert: externes Fenster merken, Cursor-Ziel bei uns verwerfen."""
if event.widget is not self:
return
self._last_focused_text_widget = None
self.after(120, self._store_last_external_window)
def _store_last_external_window(self):
"""Unter Windows: merkt sich das aktuell aktive Fenster (externes Programm)."""
if _user32 is None:
return
try:
hwnd = _user32.GetForegroundWindow()
if hwnd and hwnd != self.winfo_id():
self._last_external_hwnd = hwnd
except Exception:
pass
def _paste_to_external_window(self):
"""Unter Windows: aktiviert das zuletzt gespeicherte externe Fenster und sendet Strg+V."""
if _user32 is None:
return False
hwnd = getattr(self, "_last_external_hwnd", None)
if not hwnd:
return False
try:
_user32.SetForegroundWindow(hwnd)
self.after(80, self._send_ctrl_v)
return True
except Exception:
return False
def _send_ctrl_v(self):
"""Sendet Strg+V (Einfügen) an das aktive Fenster."""
if _user32 is None:
return
try:
VK_CONTROL = 0x11
VK_V = 0x56
_user32.keybd_event(VK_CONTROL, 0, 0, 0)
_user32.keybd_event(VK_V, 0, 0, 0)
_user32.keybd_event(VK_V, 0, 2, 0)
_user32.keybd_event(VK_CONTROL, 0, 2, 0)
except Exception:
pass
def _textblock_copy_to_clipboard(self, slot: str):
"""Kopiert den Textblock-Inhalt in die Zwischenablage (z. B. beim Drücken/Ziehen in anderen Editor)."""
content = (self._textbloecke_data.get(slot) or {}).get("content") or ""
if not content.strip():
return
try:
if not _win_clipboard_set(content):
self.clipboard_clear()
self.clipboard_append(content)
except (tk.TclError, AttributeError):
pass
def _copy_textblock(self, slot: str):
"""Klick auf Button: Text dort einfügen, wo der Cursor ist bei uns im Hauptfenster oder im externen Programm."""
if getattr(self, "_just_dropped_on_textblock", False):
self._just_dropped_on_textblock = False
return
content = (self._textbloecke_data.get(slot) or {}).get("content") or ""
if not content.strip():
self.set_status("Textblock ist leer. Rechtsklick → 'Aus Zwischenablage speichern' oder Text auf Button ziehen.")
return
try:
if not _win_clipboard_set(content):
self.clipboard_clear()
self.clipboard_append(content)
except (tk.TclError, AttributeError):
pass
w = getattr(self, "_last_focused_text_widget", None)
try:
if w is not None and w.winfo_exists() and hasattr(w, "insert"):
w.focus_set()
w.insert(tk.INSERT, content)
w.see(tk.INSERT)
self.set_status("Textblock an Cursorposition eingefügt.")
return
except (tk.TclError, AttributeError):
pass
if sys.platform == "win32" and _user32 and getattr(self, "_last_external_hwnd", None):
if self._paste_to_external_window():
self.set_status("Textblock in externes Programm (Word/Notepad) eingefügt.")
return
if hasattr(self, "txt_output"):
try:
w2 = self.txt_output
if w2.winfo_exists() and hasattr(w2, "insert"):
w2.focus_set()
w2.insert(tk.INSERT, content)
w2.see(tk.INSERT)
self.set_status("Textblock an Cursorposition eingefügt.")
return
except (tk.TclError, AttributeError):
pass
self.set_status("Textblock in Zwischenablage Cursor setzen, dann Strg+V.")
def _get_selection_from_focus(self) -> str:
"""Liefert die aktuelle Auswahl aus einem Text-Widget (Transkript, KG, Diktat, Brief etc.)."""
def find_text_with_selection(widget):
try:
if widget.winfo_class() == "Text" and hasattr(widget, "selection_present") and widget.selection_present():
return widget.get(tk.SEL_FIRST, tk.SEL_LAST)
for c in widget.winfo_children():
r = find_text_with_selection(c)
if r:
return r
except (tk.TclError, AttributeError):
pass
return ""
w = self.focus_get()
try:
if w is not None and hasattr(w, "selection_present") and w.selection_present():
return w.get(tk.SEL_FIRST, tk.SEL_LAST)
except (tk.TclError, AttributeError):
pass
return find_text_with_selection(self) or ""
def _save_selection_to_textblock(self, event, slot: str):
"""Speichert die aktuelle Textauswahl (aus beliebigem Feld) in den Textblock. Shift+Klick oder Menü."""
text = self._get_selection_from_focus()
if not text.strip():
self.set_status("Keine Auswahl Text markieren oder Rechtsklick → Aus Zwischenablage speichern.")
return
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["content"] = text
save_textbloecke(self._textbloecke_data)
self._refresh_textblock_button(slot)
self.set_status("Auswahl in Textblock gespeichert.")
def _textblock_context(self, event, slot: str):
"""Rechtsklick-Menü: Einfügen, Speichern (Auswahl/Zwischenablage), Umbenennen, Löschen."""
menu = tk.Menu(self, tearoff=0)
content = (self._textbloecke_data.get(slot) or {}).get("content") or ""
if content.strip():
menu.add_command(
label="An Cursorposition einfügen",
command=lambda: self._textblock_insert_at_cursor(slot),
)
menu.add_separator()
menu.add_command(
label="Aus Zwischenablage speichern",
command=lambda: self._textblock_save_from_clipboard(slot),
)
menu.add_command(
label="Markierung speichern",
command=lambda: self._textblock_save_from_selection(slot),
)
menu.add_separator()
menu.add_command(
label="Umbenennen",
command=lambda: self._textblock_rename(slot),
)
menu.add_command(
label="Textblock leeren",
command=lambda: self._textblock_clear(slot),
)
try:
menu.tk_popup(event.x_root, event.y_root)
finally:
menu.grab_release()
def _textblock_insert_at_cursor(self, slot: str):
"""Fügt den Textblock-Inhalt an der Cursorposition ein (oder in Zwischenablage)."""
content = (self._textbloecke_data.get(slot) or {}).get("content") or ""
if not content.strip():
self.set_status("Textblock ist leer.")
return
w = getattr(self, "_last_focused_text_widget", None)
if w is None and hasattr(self, "txt_output"):
w = self.txt_output
try:
if w is not None and w.winfo_exists() and hasattr(w, "insert"):
w.focus_set()
w.insert(tk.INSERT, content)
w.see(tk.INSERT)
self.set_status("Textblock an Cursorposition eingefügt.")
return
except (tk.TclError, AttributeError):
pass
try:
if not _win_clipboard_set(content):
self.clipboard_clear()
self.clipboard_append(content)
except (tk.TclError, AttributeError):
pass
self.set_status("Textblock in Zwischenablage mit Strg+V einfügen.")
def _textblock_clear(self, slot: str):
"""Löscht den Inhalt (und optional den Namen) des Textblocks."""
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["content"] = ""
save_textbloecke(self._textbloecke_data)
self._refresh_textblock_button(slot)
self.set_status("Textblock gelöscht.")
def _textblock_save_from_selection(self, slot: str):
"""Speichert die Auswahl des fokussierten Textfelds in den Textblock."""
text = self._get_selection_from_focus()
if not text.strip():
messagebox.showinfo("Hinweis", "Bitte zuerst Text markieren (z. B. im Transkript, in der KG oder im Diktat-Fenster).")
return
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["content"] = text
save_textbloecke(self._textbloecke_data)
self._refresh_textblock_button(slot)
self.set_status("Auswahl in Textblock gespeichert.")
def _textblock_save_from_clipboard(self, slot: str):
"""Speichert den Inhalt der Zwischenablage in den Textblock (überschreibt)."""
try:
text = self.clipboard_get()
except Exception:
text = ""
if isinstance(text, str):
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["content"] = text
save_textbloecke(self._textbloecke_data)
self._refresh_textblock_button(slot)
self.set_status("Textblock gespeichert.")
else:
self.set_status("Kein Text in Zwischenablage.")
def _textblock_rename(self, slot: str):
"""Umbenennen direkt am Button: Entry überlagert den Button, kein neues Fenster."""
def _do_rename():
btn = None
for s, b in self._textbloecke_buttons:
if s == slot:
btn = b
break
if not btn or not btn.winfo_exists():
return
d = self._textbloecke_data.get(slot) or {"name": "", "content": ""}
current = (d.get("name") or "").strip() or f"Textblock {slot}"
parent = btn.nametowidget(btn.winfo_parent())
entry = ttk.Entry(parent, width=12, font=("Segoe UI", 11))
entry.insert(0, current)
entry.select_range(0, tk.END)
parent.update_idletasks()
entry.place(x=btn.winfo_x(), y=btn.winfo_y(), width=btn.winfo_width(), height=btn.winfo_height())
entry.focus_set()
def finish(save: bool):
if save:
new_name = entry.get().strip()
self._textbloecke_data.setdefault(slot, {"name": "", "content": ""})["name"] = new_name or f"Textblock {slot}"
save_textbloecke(self._textbloecke_data)
self._refresh_textblock_button(slot)
self.set_status("Button umbenannt.")
entry.place_forget()
entry.destroy()
entry.bind("<Return>", lambda e: finish(True))
entry.bind("<Escape>", lambda e: finish(False))
self.after(150, _do_rename)
def _new_session(self):
# Vor dem Leeren: KG und (falls vorhanden) Brief/Rezept/KOGU zuverlässig in Ablage speichern (JSON + .txt)
def get_str(widget_or_str):
if widget_or_str is None:
return ""
if hasattr(widget_or_str, "get"):
try:
s = widget_or_str.get("1.0", "end")
return (s if isinstance(s, str) else str(s)).strip()
except Exception:
return ""
return (str(widget_or_str)).strip()
kg_text = get_str(self.txt_output)
brief_text = get_str(self._last_brief_text)
rezept_text = get_str(self._last_rezept_text)
kogu_text = get_str(self._last_kogu_text)
try:
if kg_text:
save_to_ablage("KG", kg_text)
if brief_text:
save_to_ablage("Briefe", brief_text)
if rezept_text:
save_to_ablage("Rezepte", rezept_text)
if kogu_text:
save_to_ablage("Kostengutsprachen", kogu_text)
except Exception as e:
try:
messagebox.showerror("Speichern bei Neu", str(e))
except Exception:
pass
self._last_brief_text = ""
self._last_rezept_text = ""
self._last_kogu_text = ""
self.txt_transcript.delete("1.0", "end")
self.txt_output.delete("1.0", "end")
self.set_status("Bereit.")
def copy_output(self):
text = self.txt_output.get("1.0", "end").strip()
if not text:
messagebox.showinfo("Hinweis", "Keine Krankengeschichte zum Kopieren.")
return
if not _win_clipboard_set(text):
self.clipboard_clear()
self.clipboard_append(text)
self.set_status("KG kopiert.")
def copy_transcript(self):
text = self.txt_transcript.get("1.0", "end").strip()
if not text:
messagebox.showinfo("Hinweis", "Kein Transkript zum Kopieren.")
return
if not _win_clipboard_set(text):
self.clipboard_clear()
self.clipboard_append(text)
self.set_status("Transkript kopiert.")
if __name__ == "__main__":
load_dotenv()
# Windows DPI fix (optional)
try:
import ctypes
ctypes.windll.shcore.SetProcessDpiAwareness(1)
except Exception:
pass
try:
from keygen_license import show_license_dialog_and_exit_if_invalid
show_license_dialog_and_exit_if_invalid("KG-Diktat")
except ImportError:
pass
app = KGDesktopApp()
app.mainloop()
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