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DOSSIER/rhino/oberleiste.py
T
karim 3277f61ced Oeffnungen-Sublayer + Sturzlinien + Referenz-Layer + Pill-Inputs + Anordnen-Pill 
- Oeffnungen-Subtree (Rahmen/Glas/Tuerblatt/Sims/Pane/Schwung/Sturz) als
  nested Children unter WAENDE im dossier_ebenen-Tree registriert + per-Kind
  Material (Glas mit Transparenz)
- Sturzlinien bei 1:100 Tueren mit Innen/Aussen/Beide/Keine-Dropdown
- Referenzlinien-Layer (19) als eigene Ebene fuer wand_axis + oeffnung_point
- Swisstopo Patch-Terrain (Brep.CreatePatch) ersetzt das falsche Loft
- Pill-Style fuer alle Inputs zentral via index.css
- 2x2 Anordnen-Pill in der Oberleiste (BringToFront/Forward/Backward/SendToBack
  via Rhinos DisplayOrder, kein Z-Offset)
- Chevron-Verschiebung in Ebenen-Panel ohne dass Siblings shiften
- Fix: _update_ebene_field walked nur Top-Level, nested Sublayer-Style-
  Changes wurden nicht persistiert
- Fix: Sturz-Linetype wurde bei jedem Wand-Regen zurueckgesetzt

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-05-23 16:07:44 +02:00

1469 lines
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#! python 3
# -*- coding: utf-8 -*-
"""
oberleiste.py
OBERLEISTE-Panel: horizontale Top-Bar mit Architektur-Kontext-Controls.
Vereint View-Switcher, Display-Mode, Massstab, Print-View und Snap-Toggles.
Re-used massstab-Modul fuer Skala/PlotWeight-Logik — die Bridge proxiet alle
Massstab-bezogenen Nachrichten dorthin.
"""
import os
import sys
import Rhino
import scriptcontext as sc
_HERE = os.path.dirname(os.path.abspath(__file__))
if _HERE not in sys.path:
sys.path.insert(0, _HERE)
import panel_base
import massstab
import overrides
import rhinopanel
PANEL_GUID_STR = "7e1f6a5b-8e2f-4f3c-d5e6-f70819203b51"
OVERRIDES_PANEL_GUID_STR = "8f2a7b6c-9f3a-4f4d-e6f7-08192a3c4d62"
def _run(cmd):
"""Hilfsfunktion: Rhino-Befehl ausfuehren, mit Logging."""
try:
Rhino.RhinoApp.RunScript(cmd, False)
except Exception as ex:
print("[OBERLEISTE] RunScript-Fehler ({}): {}".format(cmd, ex))
# --- Window-Layout-Management + App-Settings -------------------------------
# Die Settings werden primaer vom Dossier-Launcher (Tauri-App) verwaltet, der
# nach ~/Library/Application Support/ch.gabrielevarano.Dossier/dossier_settings.json
# schreibt. Rhino liest hier nur. Fallback auf den alten RhinoPanel-Pfad fuer
# bestehende Installationen.
import json as _json
import subprocess as _subprocess
_LAUNCHER_DIR = os.path.expanduser(
"~/Library/Application Support/ch.gabrielevarano.Dossier")
_LAUNCHER_PATH = os.path.join(_LAUNCHER_DIR, "dossier_settings.json")
_LEGACY_DIR = os.path.expanduser(
"~/Library/Application Support/RhinoPanel")
_LEGACY_PATH = os.path.join(_LEGACY_DIR, "dossier_settings.json")
def _settings_paths():
"""Suchreihenfolge: Launcher zuerst, dann Legacy-RhinoPanel."""
return (_LAUNCHER_PATH, _LEGACY_PATH)
def _settings_load():
"""Laedt App-Settings aus dem Launcher-JSON (oder Legacy-Path).
Normalisiert Keys: Launcher nutzt `windowLayout`, Legacy `defaultLayout`."""
for p in _settings_paths():
try:
if os.path.isfile(p):
with open(p, "rb") as f:
data = _json.loads(f.read().decode("utf-8"))
if not isinstance(data, dict):
continue
# Normalize legacy keys -> launcher keys
if "windowLayout" not in data and "defaultLayout" in data:
data["windowLayout"] = data.get("defaultLayout") or ""
return data
except Exception as ex:
print("[OBERLEISTE] settings_load ({}):".format(p), ex)
return {}
def _settings_save(data):
"""Schreibt in den Launcher-Pfad (primary). Legacy-Pfad wird nicht mehr
beschrieben — der Launcher ist die Autoritaet."""
try:
if not os.path.isdir(_LAUNCHER_DIR):
os.makedirs(_LAUNCHER_DIR)
with open(_LAUNCHER_PATH, "wb") as f:
f.write(_json.dumps(data, ensure_ascii=False, indent=2)
.encode("utf-8"))
return True
except Exception as ex:
print("[OBERLEISTE] settings_save:", ex)
return False
def _hex_to_color(hex_str):
"""`#RRGGBB` -> System.Drawing.Color. Liefert None bei ungueltigem Input."""
if not hex_str or not isinstance(hex_str, str): return None
s = hex_str.strip().lstrip("#")
if len(s) == 3:
s = "".join(c + c for c in s)
if len(s) != 6: return None
try:
r = int(s[0:2], 16)
g = int(s[2:4], 16)
b = int(s[4:6], 16)
import System.Drawing as _sd
return _sd.Color.FromArgb(255, r, g, b)
except Exception:
return None
# Mapping Launcher-Key -> AppearanceSettings-Attribut. Ein Eintrag pro Farbe,
# damit wir leicht erweitern/disablen koennen.
_VIEWPORT_COLOR_ATTRS = (
("background", "ViewportBackgroundColor"),
("gridLine", "GridLineColor"),
("gridMajor", "GridMajorLineColor"),
("gridX", "GridXAxisLineColor"),
("gridY", "GridYAxisLineColor"),
("worldX", "WorldCoordIconXAxisColor"),
("worldY", "WorldCoordIconYAxisColor"),
("worldZ", "WorldCoordIconZAxisColor"),
)
def _apply_viewport_colors(cfg):
"""Setzt App-Appearance-Settings aus der dossier_settings.json (viewportColors).
Tolerant: nicht-existierende Felder werden uebersprungen, Plugin bricht
nicht ab. Triggert ein Redraw aller Viewports am Ende."""
colors = cfg.get("viewportColors") or {}
if not isinstance(colors, dict) or not colors: return False
try:
appset = Rhino.ApplicationSettings.AppearanceSettings
except Exception as ex:
print("[OBERLEISTE] AppearanceSettings nicht verfuegbar:", ex)
return False
applied = []
for key, attr in _VIEWPORT_COLOR_ATTRS:
hexv = colors.get(key)
col = _hex_to_color(hexv) if hexv else None
if col is None: continue
try:
setattr(appset, attr, col)
applied.append(key)
except Exception as ex:
print("[OBERLEISTE] view-color {} -> {}: {}".format(key, attr, ex))
if applied:
# Redraw aller Viewports damit die neuen Farben sofort sichtbar werden.
try:
for v in Rhino.RhinoDoc.ActiveDoc.Views: v.Redraw()
except Exception: pass
print("[OBERLEISTE] Viewport-Colors applied:", applied)
return bool(applied)
def _import_display_modes(paths):
"""Importiert eine Liste von .ini-Pfaden via Rhino.Display API.
Liefert die Anzahl erfolgreich importierter Modes."""
if not paths: return 0
count = 0
try:
DMD = Rhino.Display.DisplayModeDescription
except Exception as ex:
print("[OBERLEISTE] DisplayModeDescription nicht verfuegbar:", ex)
return 0
for p in paths:
try:
if not os.path.isfile(p):
print("[OBERLEISTE] Display-Mode-Pfad fehlt:", p); continue
res = DMD.ImportFromFile(p)
if res:
count += 1
print("[OBERLEISTE] Display-Mode importiert:", p)
else:
print("[OBERLEISTE] Display-Mode-Import lieferte False:", p)
except Exception as ex:
print("[OBERLEISTE] Display-Mode-Import-Fehler ({}): {}".format(p, ex))
if count:
# Cache invalidieren damit das Display-Dropdown die Neuen aufnimmt.
try:
global _display_modes_cache
_display_modes_cache = None
except Exception: pass
return count
_THUMB_SIZE = (480, 320) # 3:2 — kompakt fuer Launcher-Cards
def _save_thumbnail(doc):
"""Rendert den aktiven Viewport in eine PNG-Datei neben der .3dm.
Pfad: <doc.Path>.thumb.png — wird vom Launcher aufgegriffen."""
try:
if doc is None: return
doc_path = doc.Path
if not doc_path: return # noch-nicht-gespeichertes Doc
view = doc.Views.ActiveView
if view is None: return
w, h = _THUMB_SIZE
try:
import System.Drawing as _sd
size = _sd.Size(int(w), int(h))
except Exception as ex:
print("[OBERLEISTE] thumb size:", ex); return
try:
bmp = view.CaptureToBitmap(size)
except Exception as ex:
print("[OBERLEISTE] CaptureToBitmap:", ex); return
if bmp is None: return
thumb_path = doc_path + ".thumb.png"
try:
import System.Drawing.Imaging as _imaging
bmp.Save(thumb_path, _imaging.ImageFormat.Png)
print("[OBERLEISTE] Thumb gespeichert:", thumb_path)
except Exception as ex:
print("[OBERLEISTE] Thumb-Save:", ex)
finally:
try: bmp.Dispose()
except Exception: pass
except Exception as ex:
print("[OBERLEISTE] _save_thumbnail Fehler:", ex)
def _launch_dossier_app():
"""Versucht den Dossier-Launcher (Tauri-App) zu oeffnen.
Probiert mehrere Pfade — installiertes Bundle, Dev-Build, dann
'open -a Dossier' als letzte Option."""
candidates = [
"/Applications/Dossier.app",
os.path.expanduser("~/Applications/Dossier.app"),
os.path.join(_HERE, "..", "launcher", "src-tauri", "target",
"release", "bundle", "macos", "Dossier.app"),
os.path.join(_HERE, "..", "launcher", "src-tauri", "target",
"debug", "bundle", "macos", "Dossier.app"),
]
for c in candidates:
ap = os.path.abspath(c)
if os.path.isdir(ap):
try:
_subprocess.Popen(["open", ap])
print("[OBERLEISTE] Dossier-Launcher gestartet:", ap)
return True
except Exception as ex:
print("[OBERLEISTE] open Dossier-App ({}):".format(ap), ex)
# Letzter Versuch: per App-Name (sucht in /Applications)
try:
_subprocess.Popen(["open", "-a", "Dossier"])
print("[OBERLEISTE] Dossier via 'open -a Dossier' gestartet")
return True
except Exception as ex:
print("[OBERLEISTE] open -a Dossier:", ex)
return False
def _extract_layout_name_from_xml(content):
"""Liest den Display-Namen aus einer Mac-Rhino-Workspace-XML.
Primaer: name="..." Attribut am Root-<RhinoUI>-Element.
Fallback: <locale_1033>...</locale_1033>."""
if not content: return None
import re
m = re.search(r'<RhinoUI\b[^>]*\bname="([^"]+)"', content)
if m:
name = m.group(1).strip()
if name: return name
m = re.search(r'<locale_1033>([^<]+)</locale_1033>', content)
if m:
name = m.group(1).strip()
if name: return name
return None
def _list_window_layouts():
"""Liefert die Namen aller gespeicherten Window-Layouts in Rhino.
Mac Rhino 8 speichert Layouts als XML (Dateiname = GUID) in
settings/Scheme__Default/workspaces/. Display-Namen liegen im
name="..." Attribut der Root-RhinoUI-Tag.
Probiert zusaetzlich die alte API + den .rwl-Pfad als Fallback."""
out = []
# 1) API-Wege (selten erfolgreich auf Mac)
try:
from Rhino import UI as _RUI
for attr in ("LayoutNames", "GetLayoutNames", "MainWindowLayoutNames"):
try:
names = getattr(_RUI.WindowLayout, attr)()
if names:
for n in names:
if n and n not in out: out.append(str(n))
if out:
print("[OBERLEISTE] Layouts via API.{}: {}".format(attr, out))
return out
except Exception: continue
except Exception: pass
# 2) Mac-XML-Workspaces — der eigentliche Speicherort auf Mac Rhino 8.
workspaces_dir = os.path.expanduser(
"~/Library/Application Support/McNeel/Rhinoceros/8.0/"
"settings/Scheme__Default/workspaces")
try:
if os.path.isdir(workspaces_dir):
for fn in os.listdir(workspaces_dir):
if not fn.lower().endswith(".xml"): continue
fp = os.path.join(workspaces_dir, fn)
try:
with open(fp, "rb") as f:
content = f.read().decode("utf-8", errors="replace")
except Exception: continue
name = _extract_layout_name_from_xml(content)
if name and name not in out: out.append(name)
if out:
print("[OBERLEISTE] {} Layouts via XML gefunden".format(len(out)))
except Exception as ex:
print("[OBERLEISTE] workspaces-scan:", ex)
# 3) Legacy .rwl-Pfade (Windows + ggf. aeltere Rhino-Versionen)
candidate_dirs = [
os.path.expanduser(
"~/Library/Application Support/McNeel/Rhinoceros/8.0/UI/MainWindowLayouts"),
os.path.expanduser(
"~/Library/Application Support/McNeel/Rhinoceros/8.0/MainWindowLayouts"),
os.path.expanduser(
"~/Library/Application Support/McNeel/Rhinoceros/8.0/UI/Layouts"),
os.path.expanduser(
"~/AppData/Roaming/McNeel/Rhinoceros/8.0/UI/MainWindowLayouts"),
]
for d in candidate_dirs:
try:
if os.path.isdir(d):
for fn in os.listdir(d):
if fn.lower().endswith(".rwl"):
name = os.path.splitext(fn)[0]
if name and name not in out: out.append(name)
except Exception: continue
if not out:
print("[OBERLEISTE] Keine Layouts gefunden.")
return out
def _layout_name_to_guid(name):
"""Sucht in den Workspace-XMLs den Eintrag, dessen Display-Name `name`
entspricht und liefert die zugehoerige GUID (= Dateiname ohne .xml)."""
if not name: return None
workspaces_dir = os.path.expanduser(
"~/Library/Application Support/McNeel/Rhinoceros/8.0/"
"settings/Scheme__Default/workspaces")
if not os.path.isdir(workspaces_dir): return None
target = name.strip().lower()
try:
for fn in os.listdir(workspaces_dir):
if not fn.lower().endswith(".xml"): continue
fp = os.path.join(workspaces_dir, fn)
try:
with open(fp, "rb") as f:
content = f.read().decode("utf-8", errors="replace")
except Exception: continue
xn = _extract_layout_name_from_xml(content)
if xn and xn.strip().lower() == target:
return os.path.splitext(fn)[0]
except Exception as ex:
print("[OBERLEISTE] name_to_guid:", ex)
return None
def _apply_window_layout(name):
"""Wendet ein benanntes Window-Layout an. Probiert mehrere Wege weil
Mac Rhino 8 keine offizielle Python-API dafuer exponiert und die
Scripted-Commands je nach Rhino-Version variieren. STOP on success —
pruefen via RunScript-Return-Value oder via fehlerfreiem API-Call."""
if not name:
print("[OBERLEISTE] apply_window_layout: leerer Name")
return False
guid = _layout_name_to_guid(name)
print("[OBERLEISTE] apply_window_layout: name='{}' guid='{}'".format(
name, guid))
# 1) Direkt ueber Rhino.UI-API per Reflection. Wir loggen WAS gefunden
# wurde damit man bei Misserfolg sieht ob Klassen/Methoden ueberhaupt
# existieren auf der jeweiligen Rhino-Version.
try:
from Rhino import UI as _RUI
api_candidates = []
for cls_name in ("WindowLayout", "WindowLayouts", "MainWindow", "Panels"):
cls = getattr(_RUI, cls_name, None)
if cls is None: continue
for meth_name in ("Restore", "RestoreLayout", "Apply", "ApplyLayout",
"Load", "LoadLayout", "SetActive", "SetActiveLayout"):
meth = getattr(cls, meth_name, None)
if meth is not None:
api_candidates.append((cls_name, meth_name, meth))
if api_candidates:
print("[OBERLEISTE] API-Kandidaten gefunden:", len(api_candidates),
[(c, m) for c, m, _ in api_candidates])
else:
print("[OBERLEISTE] Keine Rhino.UI-API-Kandidaten (Mac Rhino "
"exposed das nicht statisch). Falle auf Scripted Commands.")
# Args zum Probieren: GUID zuerst (falls vorhanden) dann Name.
# Beide als 1-arg Tuple. Doppelte Klammern haben in der alten Version
# zu mix von String/Tuple gefuehrt — hier sauber als Liste of Tuples.
arg_variants = []
if guid: arg_variants.append((guid,))
arg_variants.append((name,))
for cls_name, meth_name, meth in api_candidates:
for arg in arg_variants:
try:
res = meth(*arg)
print("[OBERLEISTE] apply via Rhino.UI.{}.{}({!r}) -> {}".format(
cls_name, meth_name, arg[0], res))
return True
except Exception:
continue
except Exception as ex:
print("[OBERLEISTE] API-Path Fehler:", ex)
# 2) Scripted Rhino-Commands. STOP on success — RunScript liefert bool.
# Beobachtung aus Mac Rhino 8 Logs: _-WindowLayout "<name>" _Enter wirft
# KEINEN Error wenn das Layout greift; bei unbekanntem Namen kommt
# "Window layout '<name>' not found.". RunScript() liefert True wenn
# die Command-Engine die Zeile syntaktisch akzeptiert hat — das ist
# nicht == "Layout applied", aber ein Hinweis. Wir kombinieren mit der
# Beobachtung dass die naechste Command-Variante interpretiert wuerde
# als Fortsetzung der vorigen (interactive prompt) — daher ESC vorab.
def _try_cmd(cmd):
try:
# Vorab Eingabe-Buffer clearen — sonst landet die naechste
# RunScript-Zeile als Antwort in einem evtl. offenen Prompt.
try: Rhino.RhinoApp.SendKeystrokes("\x1b", False)
except Exception: pass
res = Rhino.RhinoApp.RunScript(cmd, False)
print("[OBERLEISTE] RunScript({!r}) -> {}".format(cmd, res))
return bool(res)
except Exception as ex:
print("[OBERLEISTE] RunScript-Fehler ({}): {}".format(cmd, ex))
return False
quoted = '"{}"'.format(name.replace('"', ''))
# Reihenfolge: die wahrscheinlichste Mac-Variante zuerst.
cmd_candidates = [
'_-WindowLayout {} _Enter'.format(quoted),
'_-SetActiveLayout {} _Enter'.format(quoted),
'_-WindowLayout _Restore {} _Enter'.format(quoted),
]
for cmd in cmd_candidates:
if _try_cmd(cmd):
print("[OBERLEISTE] Command erfolgreich, Stop.")
return True
print("[OBERLEISTE] apply_window_layout: kein Weg hat funktioniert. "
"Wenn das Layout im Rhino-UI bekannt ist aber hier nicht greift, "
"manuell via Window-Menue zu wechseln.")
return False
def open_settings_dialog():
"""Oeffnet ein natives Eto-Forms-Fenster mit den Dossier-Einstellungen.
Vorteil gegenueber HTML-Popover: sprengt die WebView-Bounds der Oberleiste
(Popover wuerde abgeschnitten). Aktuell nur Window-Layout-Defaults; spaeter
erweiterbar um weitere App-Settings oder Aufruf des Tauri-Launchers."""
try:
import Eto.Forms as _ef
import Eto.Drawing as _ed
except Exception as ex:
print("[OBERLEISTE] Eto-Import fehlgeschlagen:", ex); return
cfg = _settings_load()
layouts = _list_window_layouts()
dlg = _ef.Form()
dlg.Title = "Dossier — Einstellungen"
try: dlg.ClientSize = _ed.Size(380, 220)
except Exception: pass
try: dlg.Padding = _ed.Padding(12)
except Exception: pass
try: dlg.Topmost = True
except Exception: pass
# State (closures)
state = {
"defaultLayout": cfg.get("windowLayout") or cfg.get("defaultLayout") or "",
"autoApply": bool(cfg.get("autoApplyLayout", False)),
}
# --- Inhalt ---
lbl_section = _ef.Label()
lbl_section.Text = "FENSTER-LAYOUT"
try:
lbl_section.Font = _ed.Font(_ed.FontFamilies.Sans, 9,
_ed.FontStyle.Bold)
lbl_section.TextColor = _ed.Color.FromArgb(140, 140, 140, 255)
except Exception: pass
# Dropdown
lbl_default = _ef.Label()
lbl_default.Text = "Standard:"
combo = _ef.DropDown()
items = ["— (keines)"] + list(layouts or [])
for it in items: combo.Items.Add(it)
sel = 0
if state["defaultLayout"] in layouts:
sel = 1 + layouts.index(state["defaultLayout"])
combo.SelectedIndex = sel
def _on_combo(s, e):
idx = combo.SelectedIndex
state["defaultLayout"] = "" if idx <= 0 else layouts[idx - 1]
combo.SelectedIndexChanged += _on_combo
# Checkbox
chk = _ef.CheckBox()
chk.Text = "Beim Öffnen automatisch anwenden"
chk.Checked = state["autoApply"]
def _on_chk(s, e):
state["autoApply"] = bool(chk.Checked)
chk.CheckedChanged += _on_chk
# Buttons
btn_apply = _ef.Button()
btn_apply.Text = "Jetzt anwenden"
def _on_apply(s, e):
if state["defaultLayout"]:
_apply_window_layout(state["defaultLayout"])
btn_apply.Click += _on_apply
btn_save = _ef.Button()
btn_save.Text = "Speichern"
def _on_save(s, e):
new_cfg = _settings_load()
new_cfg["windowLayout"] = state["defaultLayout"]
new_cfg["autoApplyLayout"] = state["autoApply"]
# Legacy-Key entfernen damit Launcher und Rhino dieselbe Quelle haben
new_cfg.pop("defaultLayout", None)
_settings_save(new_cfg)
# Oberleiste mit-informieren damit das React-State aktualisiert
try:
b = sc.sticky.get("oberleiste_bridge")
if b is not None: b._send_settings_state()
except Exception: pass
try: dlg.Close()
except Exception: pass
btn_save.Click += _on_save
btn_close = _ef.Button()
btn_close.Text = "Schliessen"
def _on_close(s, e):
try: dlg.Close()
except Exception: pass
btn_close.Click += _on_close
# Hinweis bei keinen Layouts
hint = _ef.Label()
if not layouts:
hint.Text = ("Keine gespeicherten Layouts gefunden.\n"
"In Rhino: Window → Window Layouts → Save…")
try:
hint.TextColor = _ed.Color.FromArgb(140, 140, 140, 255)
hint.Font = _ed.Font(_ed.FontFamilies.Sans, 10,
_ed.FontStyle.Italic)
except Exception: pass
# --- Layout via StackLayout ---
layout = _ef.DynamicLayout()
try:
layout.Padding = _ed.Padding(0)
layout.Spacing = _ed.Size(6, 8)
except Exception: pass
layout.AddRow(lbl_section)
layout.AddRow(lbl_default, combo)
layout.AddRow(chk)
layout.AddRow(btn_apply)
if not layouts:
layout.AddRow(hint)
# Spacer
layout.AddRow(None)
# Save-Row rechtsbuendig
btn_row = _ef.DynamicLayout()
try: btn_row.Spacing = _ed.Size(6, 0)
except Exception: pass
btn_row.BeginHorizontal()
btn_row.Add(None, True)
btn_row.Add(btn_close)
btn_row.Add(btn_save)
btn_row.EndHorizontal()
layout.AddRow(btn_row)
dlg.Content = layout
try: dlg.Show()
except Exception as ex:
print("[OBERLEISTE] Settings-Dialog Show:", ex)
def _get_active_viewport_name():
try:
v = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView
return v.ActiveViewport.Name if v else None
except Exception:
return None
def _list_all_command_names():
"""Enumeriert alle registrierten Rhino-Commands (englische Namen).
Wird einmalig beim Bridge-Start aufgerufen und gecached."""
names = set()
# Variante 1: statische API Rhino.Commands.Command.GetCommandNames
try:
all_names = Rhino.Commands.Command.GetCommandNames(True, True)
for n in all_names:
if n and isinstance(n, str):
names.add(n)
except Exception:
pass
# Variante 2: ueber alle PlugIns iterieren (Fallback)
if not names:
try:
for guid in Rhino.Plugins.PlugIn.GetInstalledPlugIns().Keys:
try:
pi = Rhino.Plugins.PlugIn.Find(guid)
if pi is None: continue
cmds = pi.GetCommands() if hasattr(pi, "GetCommands") else []
for cmd_guid in cmds:
try:
n = Rhino.Commands.Command.GetCommandName(cmd_guid)
if n: names.add(n)
except Exception: pass
except Exception: pass
except Exception: pass
# Variante 3: minimaler Fallback fuer den Fall dass keine API greift
if not names:
for n in ("Line","Polyline","Rectangle","Circle","Arc","Curve","Text","Hatch",
"Move","Copy","Rotate","Scale","Mirror","Offset","Trim","Extend",
"Join","Explode","Fillet","Array","Box","ExtrudeCrv","BooleanUnion",
"BooleanDifference","BooleanIntersection","Cap","Section","Loft",
"Zoom","Pan","Top","Front","Right","Perspective","Undo","Redo",
"Group","Ungroup","Hide","Show","Delete","SelAll","SelNone",
"Properties","Layer","Snap","Ortho","Planar","Save","SaveAs"):
names.add(n)
out = sorted(names)
print("[OBERLEISTE] {} Rhino-Commands fuer Autocomplete enumeriert".format(len(out)))
return out
def _get_command_prompt():
"""Liefert den aktuellen Rhino-Command-Prompt oder leeren String.
Wird gepollt damit OBERLEISTE den Prompt + Optionen anzeigen kann."""
try:
p = Rhino.RhinoApp.CommandPrompt
return p if p is not None else ""
except Exception:
return ""
def _parse_command_options(prompt):
"""Extrahiert Option-Tokens aus einem Rhino-Prompt.
Beispiele:
"Line: First point ( BothSides Bisector Length Vertical Angle )"
"Polyline: Next point of polyline ( Close Helix Mode=Persistent Undo )"
Liefert Liste von dicts: [{name, value (optional), token}].
"""
import re
if not prompt: return []
# Inhalt der letzten Klammer
m = re.search(r"\(([^()]+)\)\s*$", prompt)
if not m: return []
body = m.group(1).strip()
options = []
for tok in body.split():
tok = tok.strip().rstrip(",;:")
if not tok: continue
if "=" in tok:
name, val = tok.split("=", 1)
options.append({"name": name, "value": val, "token": tok})
else:
options.append({"name": tok, "value": None, "token": tok})
return options
def _get_active_display_mode_name():
try:
v = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView
if v is None: return None
dm = v.ActiveViewport.DisplayMode
return dm.LocalName if dm else None
except Exception:
return None
_display_modes_cache = None # gecacht — Liste aendert sich pro Rhino-Session selten
def _list_display_modes():
"""Alle verfuegbaren Display-Modes (LocalName + Id-String).
Gecacht — Liste aendert sich nur wenn User Display-Modes ergaenzt/loescht.
Bei Bedarf kann _display_modes_cache von aussen auf None gesetzt werden."""
global _display_modes_cache
if _display_modes_cache is not None:
return _display_modes_cache
out = []
try:
for dm in Rhino.Display.DisplayModeDescription.GetDisplayModes():
try:
out.append({"name": dm.LocalName, "id": str(dm.Id)})
except Exception:
continue
except Exception as ex:
print("[OBERLEISTE] _list_display_modes:", ex)
_display_modes_cache = out
return out
def _set_display_mode(name):
"""Setzt Display-Mode des aktiven Viewports per Name."""
try:
v = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView
if v is None: return False
for dm in Rhino.Display.DisplayModeDescription.GetDisplayModes():
if dm.LocalName == name or dm.EnglishName == name:
v.ActiveViewport.DisplayMode = dm
v.Redraw()
print("[OBERLEISTE] Display-Mode: {}".format(name))
return True
except Exception as ex:
print("[OBERLEISTE] _set_display_mode:", ex)
return False
# --- Snap / Ortho via ModelAidSettings --------------------------------------
def _get_snap_state():
try:
s = Rhino.ApplicationSettings.ModelAidSettings
return {
"ortho": bool(s.Ortho),
"gridSnap": bool(s.GridSnap),
"osnap": bool(s.UseHorizontalDialog) if False else bool(getattr(s, "Osnap", False)) or False,
"planar": bool(getattr(s, "ProjectOsnapsToCPlane", False)),
}
except Exception:
return {"ortho": False, "gridSnap": False, "osnap": False, "planar": False}
def _set_ortho(v):
try:
Rhino.ApplicationSettings.ModelAidSettings.Ortho = bool(v)
except Exception as ex:
print("[OBERLEISTE] _set_ortho:", ex)
def _set_grid_snap(v):
try:
Rhino.ApplicationSettings.ModelAidSettings.GridSnap = bool(v)
except Exception as ex:
print("[OBERLEISTE] _set_grid_snap:", ex)
def _set_osnap_master(v):
"""Master-Toggle fuer Object-Snap (alle aktiven Snaps)."""
try:
s = Rhino.ApplicationSettings.ModelAidSettings
if hasattr(s, "Osnap"):
s.Osnap = bool(v)
elif hasattr(s, "UsePoints"):
# Fallback: einzelne Modi durch
pass
except Exception as ex:
print("[OBERLEISTE] _set_osnap_master:", ex)
# --- Bridge -----------------------------------------------------------------
class OberleisteBridge(panel_base.BaseBridge):
def __init__(self):
panel_base.BaseBridge.__init__(self, "oberleiste")
self._idle_counter = 0
self._last_prompt = ""
self._last_state_sig = None # Fingerprint des letzten Push — dedupe
self._cached_overrides = None # (enabled, count) — invalidiert bei Toggle/Update
self._cached_combinations = None # (names, active) — invalidiert bei jeder Comb-Aenderung
self._last_set_view = None # Letzte ueber Topbar gesetzte Ansicht (fuer Active-Highlight)
# Command-Liste LAZY laden — die Enumeration durchlaeuft alle Plugins
# und ist teuer (~hundert ms). Wird erst beim ersten _send_state, oder
# explizit bei Command-Input-Fokus, gebaut.
self._all_commands = None
def _ensure_commands_loaded_async(self):
"""Schedult die teure Command-Enum auf den naechsten Idle-Tick statt
sie synchron beim ersten _send_state zu laden. Cold-Start-Pfad wird
nicht geblockt; Autocomplete-Liste ist ~1 Frame spaeter da."""
if self._all_commands is not None: return
if getattr(self, "_commands_loading", False): return
self._commands_loading = True
def _load_once(s, e):
try: Rhino.RhinoApp.Idle -= _load_once
except Exception: pass
try:
self._all_commands = _list_all_command_names()
except Exception as ex:
print("[OBERLEISTE] command-enum:", ex)
self._all_commands = []
# Sofort an UI pushen (Autocomplete wird live)
try:
if not getattr(self, "_commands_sent", False):
self.send("STATE", {"allCommands": self._all_commands})
self._commands_sent = True
except Exception: pass
try: Rhino.RhinoApp.Idle += _load_once
except Exception as ex:
print("[OBERLEISTE] schedule command-load:", ex)
self._commands_loading = False
def _on_ready(self):
# Bootstrap DPI (gemeinsam mit massstab.py)
try: massstab._bootstrap_dpi()
except Exception: pass
# WebView wurde (neu) gemountet — Frontend-State ist leer, also one-shot
# Listen (displayModes, allCommands) neu mitsenden. Sonst zeigt das
# Display-Dropdown nach einem Re-Mount (z.B. Andocken, Layout-Wechsel)
# nur die "—"-Option und wirkt wie ein toter Button.
self._dm_sent = False
self._commands_sent = False
# Default-Window-Layout anwenden, wenn aktiviert und noch nicht in
# DIESER Rhino-Session geschehen (sticky-flag = process-lifetime).
# Mac Rhino persistiert die Window-Anordnung zwischen Sessions
# NICHT zuverlaessig — der Cold-Start-Apply muss jedes Mal laufen.
try:
cfg = _settings_load()
if not sc.sticky.get("_dossier_layout_applied"):
layout_name = cfg.get("windowLayout") or cfg.get("defaultLayout")
if cfg.get("autoApplyLayout") and layout_name:
sc.sticky["_dossier_layout_applied"] = True
_apply_window_layout(layout_name)
# Viewport-Colors einmalig pro Session auto-applien (wenn aktiviert)
if (cfg.get("autoApplyViewColors") and
not sc.sticky.get("_dossier_view_colors_applied")):
if _apply_viewport_colors(cfg):
sc.sticky["_dossier_view_colors_applied"] = True
except Exception as ex:
print("[OBERLEISTE] auto-apply (layout/colors):", ex)
self._send_state(force=True)
def handle(self, data):
if not isinstance(data, dict): return
t = data.get("type", "")
p = data.get("payload") or {}
if not isinstance(p, dict): p = {}
# --- Lifecycle --------------------------------------------------
if t == "READY":
self._on_ready()
elif t == "REQUEST_STATE":
self._send_state(force=True)
# --- Massstab (delegiert an massstab-Modul) ---------------------
elif t == "SET_SCALE":
doc, vp = massstab._active_vp()
try: ratio = float(p.get("ratio"))
except Exception: return
if ratio > 0 and massstab._apply_scale(doc, vp, ratio):
self._send_state(force=True)
elif t == "ZOOM_EXTENTS":
doc, vp = massstab._active_vp()
massstab._zoom_extents(doc, vp, selected_only=False)
self._send_state(force=True)
elif t == "ZOOM_SELECTION":
doc, vp = massstab._active_vp()
massstab._zoom_extents(doc, vp, selected_only=True)
self._send_state(force=True)
elif t == "SET_LINEWEIGHTS":
doc, _ = massstab._active_vp()
massstab._set_lineweights_enabled(doc, bool(p.get("enabled")))
self._send_state(force=True)
elif t == "SET_DPI":
doc, _ = massstab._active_vp()
massstab._set_dpi(doc, p.get("dpi"), source="manual")
self._send_state(force=True)
elif t == "DETECT_DPI":
massstab._force_redetect_dpi()
self._send_state(force=True)
# --- View-Switcher ----------------------------------------------
elif t == "SET_VIEW":
v = p.get("view")
try:
import kamera
vp = kamera._active_viewport()
except Exception:
vp = None
handled = False
if v == "Top":
try:
import kamera
kamera.set_top_view(vp); handled = True
except Exception as ex: print("[OBERLEISTE] top:", ex)
elif v == "Perspective":
_run("_-{} _Enter".format(v)); handled = True
elif v == "Iso":
try:
import kamera
kamera._set_iso(vp, "NE"); handled = True
except Exception as ex: print("[OBERLEISTE] iso:", ex)
elif v in ("N", "O", "S", "W"):
try:
import kamera
kamera.set_cardinal_view(vp, v); handled = True
except Exception as ex: print("[OBERLEISTE] cardinal:", ex)
elif v in ("Front", "Right", "Left", "Back", "Bottom"):
_run("_-{} _Enter".format(v)); handled = True
if handled:
self._last_set_view = v
self._send_state(force=True)
# --- Kamera-Panel oeffnen ---------------------------------------
elif t == "OPEN_KAMERA_PANEL":
try:
import kamera
kamera.open_as_window()
except Exception as ex:
print("[OBERLEISTE] open kamera:", ex)
# --- About-Fenster ----------------------------------------------
elif t == "OPEN_ABOUT":
try:
import about
about.open_as_window()
except Exception as ex:
print("[OBERLEISTE] open about:", ex)
# --- Text-Erstellung (Floating-Input) ---------------------------
elif t == "CREATE_TEXT":
try:
import text_create
text_create.create_text()
except Exception as ex:
print("[OBERLEISTE] create text:", ex)
elif t == "SET_TEXT_SETTINGS":
try:
import text_create
doc = Rhino.RhinoDoc.ActiveDoc
patch = p.get("settings") or {}
text_create.save_settings(doc, patch)
text_create.apply_settings_to_selection(doc, patch)
except Exception as ex:
print("[OBERLEISTE] text settings:", ex)
self._send_state(force=True)
elif t == "APPLY_TEXT_STYLE":
try:
import text_create
text_create.apply_style(
Rhino.RhinoDoc.ActiveDoc, p.get("id"))
except Exception as ex:
print("[OBERLEISTE] apply text style:", ex)
self._send_state(force=True)
elif t == "SAVE_TEXT_STYLE":
try:
import text_create
doc = Rhino.RhinoDoc.ActiveDoc
sid = text_create.save_style(doc, p.get("name") or "Stil")
if sid: text_create.set_active_style_id(doc, sid)
except Exception as ex:
print("[OBERLEISTE] save text style:", ex)
self._send_state(force=True)
elif t == "DELETE_TEXT_STYLE":
try:
import text_create
text_create.delete_style(
Rhino.RhinoDoc.ActiveDoc, p.get("id"))
except Exception as ex:
print("[OBERLEISTE] delete text style:", ex)
self._send_state(force=True)
# --- Masse (Mass-Style) -----------------------------------------
elif t == "SET_MASSE_ACTIVE":
try:
import mass_style
doc = Rhino.RhinoDoc.ActiveDoc
mass_style.set_active_id(doc, p.get("id"))
mass_style.regen_all_rooms(doc)
except Exception as ex:
print("[OBERLEISTE] masse active:", ex)
self._send_state(force=True)
elif t == "OPEN_MASSE_SETTINGS":
try:
import masse_settings
masse_settings.open_as_window()
except Exception as ex:
print("[OBERLEISTE] open masse:", ex)
# --- Darstellung (SIA-400 LoD globaler Override) -----------------
elif t == "SET_DARSTELLUNG":
try:
import elemente
doc = Rhino.RhinoDoc.ActiveDoc
new_v = p.get("darstellung") or ""
elemente.set_aktive_darstellung(doc, new_v)
elemente.regenerate_all_oeffnungen(doc)
except Exception as ex:
print("[OBERLEISTE] set darstellung:", ex)
self._send_state(force=True)
# --- Display-Mode -----------------------------------------------
elif t == "SET_DISPLAY_MODE":
n = p.get("name")
if n:
_set_display_mode(n)
self._send_state(force=True)
# --- Snap-Toggles -----------------------------------------------
elif t == "TOGGLE_ORTHO":
_set_ortho(bool(p.get("enabled")))
self._send_state(force=True)
elif t == "TOGGLE_GRID_SNAP":
_set_grid_snap(bool(p.get("enabled")))
self._send_state(force=True)
elif t == "TOGGLE_OSNAP":
_set_osnap_master(bool(p.get("enabled")))
self._send_state(force=True)
# --- Graphical Overrides ----------------------------------------
elif t == "TOGGLE_OVERRIDES":
doc = Rhino.RhinoDoc.ActiveDoc
overrides.set_enabled(doc, bool(p.get("enabled")))
self._cached_overrides = None # Cache invalidieren
self._send_state(force=True)
elif t == "SET_OVERRIDES_PRESET":
doc = Rhino.RhinoDoc.ActiveDoc
name = p.get("name") or None
overrides.set_active_preset(doc, name)
self._cached_overrides = None # Cache invalidieren
self._send_state(force=True)
# OVERRIDES-Panel mit-informieren: dort haben sich die Rules
# geaendert (Preset wurde reingeladen).
try:
b = sc.sticky.get("overrides_bridge")
if b is not None:
b._send_state()
except Exception as ex:
print("[OBERLEISTE] notify overrides:", ex)
elif t == "SAVE_OVERRIDES_PRESET":
# Quick-Save direkt aus der Topbar: aktuelle Doc-Rules unter
# gegebenem Namen ablegen und sofort als activePreset markieren.
# Spart dem User den Umweg ueber den grossen OVERRIDES-Editor.
doc = Rhino.RhinoDoc.ActiveDoc
name = (p.get("name") or "").strip()
if not name:
pass
else:
cfg = overrides.load_config(doc)
rules = cfg.get("rules") or []
if overrides.save_preset(name, rules):
overrides.set_active_preset(doc, name)
self._cached_overrides = None
self._send_state(force=True)
try:
b = sc.sticky.get("overrides_bridge")
if b is not None:
b._send_state()
except Exception as ex:
print("[OBERLEISTE] notify overrides:", ex)
elif t == "OPEN_OVERRIDES_PANEL":
try:
import overrides_panel
overrides_panel.open_as_window()
except Exception as ex:
print("[OBERLEISTE] open_as_window Overrides:", ex)
# --- Ebenenkombinationen ----------------------------------------
elif t == "PICK_LAYER_COMBINATION":
doc = Rhino.RhinoDoc.ActiveDoc
name = (p.get("name") or "").strip()
if name:
rhinopanel.apply_layer_preset_by_name(doc, name)
else:
# "Eigene" — kein Apply, nur active_comb_name clearen
rhinopanel.set_active_comb_name(doc, None)
self._cached_combinations = None
self._send_state(force=True)
elif t == "SAVE_LAYER_COMBINATION":
doc = Rhino.RhinoDoc.ActiveDoc
name = (p.get("name") or "").strip()
if name:
rhinopanel.save_current_as_layer_preset(doc, name)
self._cached_combinations = None
self._send_state(force=True)
elif t == "DELETE_LAYER_COMBINATION":
doc = Rhino.RhinoDoc.ActiveDoc
rhinopanel.delete_layer_preset(doc, p.get("name") or "")
self._cached_combinations = None
self._send_state(force=True)
elif t == "OPEN_LAYER_COMBINATIONS_DIALOG":
try: rhinopanel.open_layer_combinations_window()
except Exception as ex:
print("[OBERLEISTE] open layer-combinations:", ex)
# --- Anordnen (DisplayOrder Z-Stack) ----------------------------
# Nutzt Rhinos native _BringToFront / _BringForward / _SendBackward
# / _SendToBack. Diese setzen Attributes.DisplayOrder — keine
# Geometrie-Aenderung, kein Z-Offset. Selection-Check verhindert
# nervigen "Select objects"-Prompt wenn der User den Button leer
# drueckt.
elif t == "ARRANGE":
cmd = {
"front": "_BringToFront",
"forward": "_BringForward",
"backward": "_SendBackward",
"back": "_SendToBack",
}.get(p.get("dir"))
if cmd:
doc = Rhino.RhinoDoc.ActiveDoc
if doc is not None:
try:
sel = list(doc.Objects.GetSelectedObjects(False, False))
except Exception: sel = []
if sel:
try:
Rhino.RhinoApp.SendKeystrokes("\x1b", False)
Rhino.RhinoApp.RunScript(cmd, False)
except Exception as ex:
print("[OBERLEISTE] arrange {}: {}".format(cmd, ex))
# --- Command-Line Integration -----------------------------------
elif t == "RUN_COMMAND":
cmd = (p.get("cmd") or "").strip()
if cmd:
# Auto-Praefix mit "_" falls nicht vorhanden, damit auch
# lokalisierte Rhino-Installationen die EN-Namen verstehen.
if not (cmd.startswith("_") or cmd.startswith("'")):
cmd = "_" + cmd
try:
# WICHTIG: Mac Rhinos Command-Bar sammelt parallel
# User-Keystrokes (globaler Keyhook). Wenn unsere React-
# Eingabe tippt landet die da auch. ESC clearen sonst
# haben wir doppelten Text und braucht 2x Enter.
Rhino.RhinoApp.SendKeystrokes("\x1b", False)
Rhino.RhinoApp.RunScript(cmd, False)
except Exception as ex:
print("[OBERLEISTE] RunScript-Fehler:", ex)
elif t == "SEND_KEYS":
text = p.get("text") or ""
append_enter = bool(p.get("enter", True))
try:
# Ebenfalls Buffer zuerst leeren wenn User parallel mitgetippt hat
if text:
Rhino.RhinoApp.SendKeystrokes("\x1b", False)
Rhino.RhinoApp.SendKeystrokes(text, append_enter)
except Exception as ex:
print("[OBERLEISTE] SendKeystrokes-Fehler:", ex)
elif t == "CANCEL_COMMAND":
try:
# Doppel-ESC: einmal um Eingabe-Buffer zu clearen, einmal um
# aktiven Befehl abzubrechen
Rhino.RhinoApp.SendKeystrokes("\x1b", False)
Rhino.RhinoApp.SendKeystrokes("\x1b", False)
except Exception:
pass
elif t == "TOGGLE_RHINO_CMD_LINE":
# Versucht Rhinos eigene Befehlszeile/History zu togglen.
# Mehrere Wege probieren — je nach Version greift einer.
for c in (
"_-CommandPrompt _Hide _Enter",
"_CommandHistory _Toggle _Enter",
"_-Toolbar _Hide _Commands _Enter",
):
try:
Rhino.RhinoApp.RunScript(c, False)
except Exception:
pass
# --- Settings + Window-Layout -----------------------------------
elif t == "OPEN_SETTINGS":
# Primaerweg: Dossier-Launcher (Tauri-App) oeffnen, dort lebt das
# echte Settings-UI. Wenn der Launcher nicht installiert ist,
# faellt es auf den Eto-Dialog zurueck.
if not _launch_dossier_app():
open_settings_dialog()
elif t == "GET_SETTINGS":
self._send_settings_state()
elif t == "APPLY_LAYOUT":
name = (p.get("name") or "").strip()
if name: _apply_window_layout(name)
elif t == "SAVE_LAYOUT_PREF":
cfg = _settings_load()
if "windowLayout" in p:
cfg["windowLayout"] = (p.get("windowLayout") or "")
elif "defaultLayout" in p:
cfg["windowLayout"] = (p.get("defaultLayout") or "")
if "autoApplyLayout" in p:
cfg["autoApplyLayout"] = bool(p.get("autoApplyLayout"))
_settings_save(cfg)
self._send_settings_state()
def _send_settings_state(self):
"""Schickt App-Settings + verfuegbare Window-Layouts an die UI."""
cfg = _settings_load()
layout_name = cfg.get("windowLayout") or cfg.get("defaultLayout") or ""
self.send("SETTINGS_STATE", {
"layouts": _list_window_layouts(),
"windowLayout": layout_name,
"defaultLayout": layout_name, # legacy alias
"autoApplyLayout": bool(cfg.get("autoApplyLayout", False)),
})
def _send_state(self, force=False):
doc, vp = massstab._active_vp()
info = massstab._compute_scale(doc, vp)
# Massstab-State (Scale, Print-Toggle, DPI)
info["viewMode"] = _get_active_viewport_name()
info["displayMode"] = _get_active_display_mode_name()
# displayModes-Liste nur einmal initial mitsenden — aendert sich kaum
if not getattr(self, "_dm_sent", False):
info["displayModes"] = _list_display_modes()
self._dm_sent = True
# Snap-State
info.update(_get_snap_state())
# Overrides-State — cached, invalidiert bei TOGGLE_OVERRIDES und
# SET_OVERRIDES_PRESET. Bei manuellen Aenderungen via OVERRIDES-Panel
# bleibt der Cache stale bis zum naechsten Toggle — pragmatischer
# Trade-off, weil die beiden Bridges nicht direkt voneinander wissen.
if self._cached_overrides is None:
try:
cfg = overrides.load_config(doc)
presets = [item.get("name") for item in overrides.list_presets() if item.get("name")]
self._cached_overrides = (
bool(cfg.get("enabled")),
len(cfg.get("rules") or []),
cfg.get("activePreset"),
tuple(presets),
)
except Exception:
self._cached_overrides = (False, 0, None, ())
(info["overridesEnabled"],
info["overridesCount"],
info["overridesActivePreset"],
_presets_tuple) = self._cached_overrides
info["overridesPresets"] = list(_presets_tuple)
# Ebenenkombinationen — cached (Liste + active). Invalidiert bei
# PICK/SAVE/DELETE und durch Cross-Bridge-Notify aus rhinopanel.py.
if self._cached_combinations is None:
try:
names = tuple(rhinopanel.list_layer_preset_names(doc))
active = rhinopanel.get_active_comb_name(doc)
self._cached_combinations = (names, active)
except Exception:
self._cached_combinations = ((), None)
_names_tuple, _active_comb = self._cached_combinations
info["layerCombinations"] = list(_names_tuple)
info["layerCombinationActive"] = _active_comb
# Masse (Mass-Style Presets) — Liste fuer Topbar-Dropdown + aktive ID
try:
import mass_style
info["massePresets"] = mass_style.list_presets(doc)
info["masseActiveId"] = mass_style.get_active_id(doc)
except Exception:
info["massePresets"] = []
info["masseActiveId"] = None
# Text-Settings + verfuegbare Fonts + Styles. Fonts werden bei
# jedem _send_state mitgeschickt damit nach Re-Mount (z.B. Panel-
# Andocken) die Liste nicht leer ist.
try:
import text_create
info["textSettings"] = text_create.load_settings(doc)
info["textSelectionSettings"] = text_create.read_selection_settings(doc)
info["textFonts"] = text_create.available_fonts()
info["textStyles"] = text_create.list_styles(doc)
info["textStyleActiveId"] = text_create.get_active_style_id(doc)
except Exception:
info["textSettings"] = {}
info["textSelectionSettings"] = None
info["textFonts"] = []
info["textStyles"] = []
info["textStyleActiveId"] = None
# Aktive Darstellung (SIA-400 LoD globaler Override)
try:
import elemente
info["aktiveDarstellung"] = elemente.get_aktive_darstellung(doc) or ""
except Exception:
info["aktiveDarstellung"] = ""
# Norden-Rotation fuer N/O/S/W-Buttons
try:
import kamera
info["northAngle"] = kamera.get_north_angle(doc)
except Exception:
info["northAngle"] = 0
# Letzte ueber Topbar gesetzte Ansicht (fuer Active-Highlight)
info["lastSetView"] = self._last_set_view
# Command-Line State
prompt = _get_command_prompt()
info["cmdPrompt"] = prompt
info["cmdOptions"] = _parse_command_options(prompt)
# Command-Autocomplete-Liste — Lazy via Idle-Tick (statt im Bridge-
# Init blockierend). Wenn sie noch nicht da ist: einplanen. Wenn da:
# einmalig mitsenden.
if not getattr(self, "_commands_sent", False):
if self._all_commands is None:
self._ensure_commands_loaded_async()
else:
info["allCommands"] = self._all_commands
self._commands_sent = True
force = True
# Diff-Check: wenn weder Daten noch force, gar nichts schicken
# (dedupe Idle-Ticks ohne Aenderung — spart WebView-ExecuteScript Roundtrip)
sig = (
info.get("scale"),
info.get("appliedScale"),
info.get("parallel"),
info.get("viewMode"),
info.get("displayMode"),
info.get("ortho"), info.get("gridSnap"), info.get("osnap"),
info.get("showLineweights"),
info["overridesEnabled"], info["overridesCount"],
info.get("overridesActivePreset"),
tuple(info.get("overridesPresets") or ()),
_names_tuple, _active_comb,
info.get("masseActiveId"),
tuple((p.get("id"), p.get("name")) for p in (info.get("massePresets") or [])),
# textSettings + textSelectionSettings + textStyleActive im sig
# damit Aenderungen ueber Idle-Pushes nicht dedupelt werden
tuple(sorted((info.get("textSettings") or {}).items())) if info.get("textSettings") else None,
tuple(sorted((info.get("textSelectionSettings") or {}).items())) if info.get("textSelectionSettings") else None,
info.get("textStyleActiveId"),
len(info.get("textStyles") or []),
info.get("lastSetView"),
prompt,
)
if not force and sig == self._last_state_sig:
return
self._last_state_sig = sig
self.send("STATE", info)
def _check_pending_launcher_signals(self):
"""Pollt dossier_settings.json auf vom Launcher gesetzte Pending-Flags.
Aktuell: pendingApplyLayout, pendingApplyViewColors,
pendingImportDisplayModes. Loescht das jeweilige Flag nach
Verarbeitung damit es nicht jeden Idle erneut feuert."""
try:
cfg = _settings_load()
mutated = False
pend_layout = cfg.get("pendingApplyLayout")
if isinstance(pend_layout, str) and pend_layout:
# Wenn der Cold-Start-Apply (_on_ready) DIESE Session schon
# das Layout gesetzt hat (sticky=True), skippen wir den
# Re-Apply vom Launcher-Pending — sonst triggert es eine
# zweite Re-Mount-Welle ALLER Panels.
if sc.sticky.get("_dossier_layout_applied"):
print("[OBERLEISTE] pendingApplyLayout '{}' — Cold-Start "
"hat in dieser Session bereits applied, skip".format(pend_layout))
else:
print("[OBERLEISTE] pendingApplyLayout:", pend_layout)
_apply_window_layout(pend_layout)
sc.sticky["_dossier_layout_applied"] = True
cfg.pop("pendingApplyLayout", None)
mutated = True
if cfg.get("pendingApplyViewColors"):
if _apply_viewport_colors(cfg):
print("[OBERLEISTE] pendingApplyViewColors: angewendet")
cfg["pendingApplyViewColors"] = False
mutated = True
modes = cfg.get("pendingImportDisplayModes") or []
if isinstance(modes, list) and modes:
n = _import_display_modes(modes)
print("[OBERLEISTE] pendingImportDisplayModes: {} importiert".format(n))
cfg["pendingImportDisplayModes"] = []
mutated = True
if cfg.get("pendingExportEbenen"):
# User hat im Launcher "Aus laufendem Rhino importieren"
# geklickt — wir lesen die aktuelle Ebenen-Liste aus dem Doc
# und schreiben sie als layerSchema zurueck.
try:
doc = Rhino.RhinoDoc.ActiveDoc
raw = doc.Strings.GetValue("dossier_ebenen")
if raw:
ebenen = _json.loads(raw)
clean = []
for e in (ebenen or []):
if not isinstance(e, dict): continue
code = e.get("code")
name = e.get("name")
color = e.get("color")
lw = e.get("lw")
if not code or not name: continue
if color is None or lw is None: continue
clean.append({
"code": str(code),
"name": str(name),
"color": str(color),
"lw": float(lw),
})
if clean:
cfg["layerSchema"] = clean
print("[OBERLEISTE] Ebenen-Export: {} Sublayer "
"ins Launcher-Schema geschrieben".format(len(clean)))
else:
print("[OBERLEISTE] Ebenen-Export: doc.Strings hatte "
"keine gueltigen Ebenen")
else:
print("[OBERLEISTE] Ebenen-Export: doc.Strings ['dossier_ebenen'] leer")
except Exception as ex:
print("[OBERLEISTE] Ebenen-Export Fehler:", ex)
cfg["pendingExportEbenen"] = False
mutated = True
if mutated: _settings_save(cfg)
except Exception as ex:
print("[OBERLEISTE] check_pending_launcher_signals:", ex)
def tick_idle(self):
# Command-Prompt aendert sich oft schnell -> separater Pfad: wenn sich
# der Prompt seit letztem Tick geaendert hat, sofort pushen (ungedrosselt).
cur_prompt = _get_command_prompt()
if cur_prompt != self._last_prompt:
self._last_prompt = cur_prompt
self._send_state(force=True)
self._idle_counter = 0
return
# Sonst: normaler throttle fuer den restlichen State
self._idle_counter += 1
if self._idle_counter < massstab._IDLE_THROTTLE:
return
self._idle_counter = 0
# Launcher-Signale pruefen (selten genug — gepollt im normalen Throttle).
self._check_pending_launcher_signals()
self._send_state(force=False)
# --- Listener-Hookup --------------------------------------------------------
def _install_listeners(bridge):
flag = "oberleiste_listeners"
sc.sticky["oberleiste_bridge"] = bridge
if sc.sticky.get(flag):
return
def on_idle(s, e):
b = sc.sticky.get("oberleiste_bridge")
if b is not None:
try: b.tick_idle()
except Exception: pass
def on_view_change(*args):
b = sc.sticky.get("oberleiste_bridge")
if b is not None:
try: b._send_state(force=True)
except Exception: pass
def on_end_save(sender, e):
# EndSaveDocument feuert nach erfolgreichem Save. e.Document gibt
# uns den Doc. Wir generieren das Launcher-Thumbnail neben der .3dm.
try:
doc = getattr(e, "Document", None) or Rhino.RhinoDoc.ActiveDoc
_save_thumbnail(doc)
except Exception as ex:
print("[OBERLEISTE] on_end_save:", ex)
Rhino.RhinoApp.Idle += on_idle
Rhino.RhinoDoc.ActiveDocumentChanged += on_view_change
try: Rhino.RhinoDoc.EndSaveDocument += on_end_save
except Exception as ex: print("[OBERLEISTE] EndSaveDocument-Hook:", ex)
sc.sticky[flag] = True
print("[OBERLEISTE] Listener aktiv")
def _bridge_factory():
b = OberleisteBridge()
_install_listeners(b)
return b
panel_base.register_and_open("oberleiste", "Oberleiste", PANEL_GUID_STR, _bridge_factory,
icon_spec=("menu", "#2f5d54"))
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