DOSSIER Multi-Phase: C#-Plugin + Yak + Wandstile + UX-Polish
- C#-Plugin "DOSSIER" mit 23 nativen Commands (dWall, dDoor, ..., dSection)
- Native Command-Namen + Autocomplete + saubere History
- Idle-Defer + RhinoCode-API → kein _-RunPythonScript-Echo
- Yak-Paket via build.sh, Install in ~/Library/.../packages/8.0/
- Launcher (Tauri):
- dossier_init Tauri-Command + Setup-Tab in Settings
- Yak-Install + StartupCommands-XML + Window-Layout in einem Schritt
- clean-rhino.sh fuer reproduzierbare Resets
- check_dossier_initialized triggert Auto-Open-Setup beim ersten Start
- Wand-Architektur:
- Chain-Logik DEAKTIVIERT → jede Wand baut eigenes Volume (individuell
anwaehlbar, einzeln loeschbar)
- Polyline-Wand: jedes Segment = eigene Wand
- Smart-Split fuer wand_axis/decke/dach/raum/aussparung/traeger
- Auto-Group axis+volume → kein ChooseOne-Dialog, Delete loescht beides
- Stale-Mitre-Fix: Joint-Cache wird vor jedem Wand-Regen invalidiert
- T-Junction-Tolerance auf 1mm (war 1cm, lieferte falsche T-Mitres)
- Wand-Stile:
- Schema in dossier_project_settings.wand_styles (Material + Prio +
Default-Dicke + Referenz, oder Layered mit Schichten)
- dWall-Command Stil-Picker
- ProjectSettingsDialog: Sidebar-Layout (Pill-Selection) +
Wandstile-Tab mit Liste/Editor
- _wand_chain_compat benutzt style_id
- Prio-Dominanz: hoehere Prio gewinnt Eckverbindung, niedrigere wird
T-mitered (siehe _resolve_corner_miter)
- Cmd+G fuer Group (Geschoss-Up auf Alias 'gu')
- Welcome + Cheatsheet borderless mit X/Back-Buttons
- BeginCommand-Hook fuer Gestaltung-Panel-Auto-Open
- panel_base: Python.NET-Enum-Fix fuer Material-Render
This commit is contained in:
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#! python3
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# -*- coding: utf-8 -*-
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# Smart-Split: User zeichnet eine Splitlinie/Polylinie waehrend des Befehls
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# (mehrere Klicks, Enter beendet die Eingabe). Alle Curves die die Linie
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# schneidet werden gesplittet.
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# - Offene Curves: bei den Schnittpunkten in offene Segmente.
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# - GESCHLOSSENE Curves: in mehrere CLOSED Sub-Regionen via
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# Curve.CreateBooleanRegions (funktioniert auch bei multi-segment
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# Polylinien-Cuttern). Per-Object-Hatch wird auf alle Regionen repliziert.
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# DOSSIER-Source-Typen (Wand-Achse etc.) bleiben geschuetzt.
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import scriptcontext as sc
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import Rhino
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import Rhino.Input.Custom as ric
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import Rhino.Geometry as rg
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import Rhino.DocObjects as rdoc
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from Rhino.Input import GetResult
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# Was Smart-Split NIE anfasst:
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# - oeffnung_point / stuetze_point: Punkte, nicht teilbar
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# - schnitt_axis: Schnitt-Linien sollen bleiben, sonst kaputte Schnitte
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# - treppe_axis: Treppen-State (Lauflinie, Schrittmass-Lock, Wendel-Sweep)
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# waere bei einem Split inkonsistent
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# Alles andere (wand/traeger/decke/dach/raum/aussparung) DARF gesplittet werden:
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# der Add-Listener in elemente.py erkennt die Duplikat-IDs der neuen Stuecke
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# und vergibt jedem Stueck ein frisches Element-ID + Regen → BIM-Volumen
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# baut sich pro neuem Stueck neu auf.
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_PROTECTED_TYPES = {
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"treppe_axis",
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"oeffnung_point", "stuetze_point", "schnitt_axis",
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}
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def _capture_hatch_props(doc, src_obj):
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try:
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sa = src_obj.Attributes
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fill_hid = sa.GetUserString("ebenen_fill_hatch_id") or ""
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if not fill_hid: return None
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import System
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hid = System.Guid(fill_hid)
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hobj = doc.Objects.FindId(hid)
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if hobj is None or hobj.IsDeleted: return None
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hg = hobj.Geometry
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ha = hobj.Attributes
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if not hasattr(hg, "PatternIndex"): return None
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return {
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"pattern_idx": int(hg.PatternIndex),
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"scale": float(hg.PatternScale),
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"rotation": float(hg.PatternRotation),
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"layer_idx": int(ha.LayerIndex),
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"color_source": int(ha.ColorSource),
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"color_argb": int(ha.ObjectColor.ToArgb()),
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"plot_color_source": int(ha.PlotColorSource),
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"plot_color_argb": int(ha.PlotColor.ToArgb()),
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"linetype_source": int(ha.LinetypeSource),
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"linetype_idx": int(ha.LinetypeIndex),
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"fill_source": sa.GetUserString("ebenen_fill_source") or "object",
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}
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except Exception as ex:
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print("[SMART-SPLIT] capture-hatch:", ex)
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return None
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def _replicate_hatch(doc, new_obj, hp):
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if hp is None: return
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import System
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try:
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crv = new_obj.Geometry
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if not isinstance(crv, rg.Curve) or not crv.IsClosed: return
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tol = doc.ModelAbsoluteTolerance
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hatches = rg.Hatch.Create(crv, hp["pattern_idx"], hp["rotation"],
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hp["scale"], tol)
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if not hatches or len(hatches) == 0: return
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ha = rdoc.ObjectAttributes()
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ha.LayerIndex = hp["layer_idx"]
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ha.ColorSource = rdoc.ObjectColorSource(hp["color_source"])
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ha.ObjectColor = System.Drawing.Color.FromArgb(hp["color_argb"])
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try:
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ha.PlotColorSource = rdoc.ObjectPlotColorSource(hp["plot_color_source"])
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ha.PlotColor = System.Drawing.Color.FromArgb(hp["plot_color_argb"])
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except Exception: pass
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if hp["linetype_source"] == int(rdoc.ObjectLinetypeSource.LinetypeFromObject):
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ha.LinetypeSource = rdoc.ObjectLinetypeSource.LinetypeFromObject
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ha.LinetypeIndex = hp["linetype_idx"]
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ha.SetUserString("ebenen_fill_source", hp.get("fill_source", "object"))
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ha.SetUserString("ebenen_fill_owner", str(new_obj.Id))
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new_hid = doc.Objects.AddHatch(hatches[0], ha)
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if new_hid and new_hid != System.Guid.Empty:
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ca = new_obj.Attributes.Duplicate()
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ca.SetUserString("ebenen_fill_hatch_id", str(new_hid))
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ca.SetUserString("ebenen_fill_source", hp.get("fill_source", "object"))
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doc.Objects.ModifyAttributes(new_obj, ca, True)
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except Exception as ex:
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print("[SMART-SPLIT] hatch-replicate:", ex)
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def _collect_polyline_cutter(prompt_first, prompt_more):
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"""Sammelt n Punkte fuer den Cutter. Enter beendet (min. 2 Punkte).
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ESC bricht ab. Returnt Polyline oder None."""
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pts = []
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while True:
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gp = ric.GetPoint()
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if not pts:
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gp.SetCommandPrompt(prompt_first)
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else:
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gp.SetCommandPrompt(prompt_more + " (Enter zum Splitten, ESC = abbrechen)")
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gp.SetBasePoint(pts[-1], True)
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gp.DrawLineFromPoint(pts[-1], True)
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gp.AcceptNothing(True)
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res = gp.Get()
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if res == GetResult.Nothing:
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# Enter gedrueckt
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if len(pts) >= 2: return rg.Polyline(pts)
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print("[SMART-SPLIT] Mindestens 2 Punkte noetig"); return None
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if res != GetResult.Point: return None
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pts.append(gp.Point())
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def _split_closed_with_cutter(closed_crv, cutter_crv, doc):
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"""Splittet closed curve mit beliebigem cutter (Linie oder Polylinie) in
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closed Sub-Regionen via Curve.CreateBooleanRegions."""
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tol = doc.ModelAbsoluteTolerance
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try:
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# WorldXY-Plane als Default (DOSSIER ist 2D Plan-Workflow)
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plane = rg.Plane.WorldXY
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regions = rg.Curve.CreateBooleanRegions(
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[closed_crv, cutter_crv], plane, False, tol)
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if regions is None or regions.RegionCount == 0:
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return None
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out = []
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for i in range(regions.RegionCount):
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rcurves = list(regions.RegionCurves(i))
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if not rcurves: continue
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if len(rcurves) == 1:
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if rcurves[0].IsClosed:
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out.append(rcurves[0])
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else:
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# einzelne offene curve — sollte nicht passieren bei
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# Boolean-Regions, aber defensiv
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joined = rg.Curve.JoinCurves([rcurves[0]], tol)
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if joined and len(joined) > 0 and joined[0].IsClosed:
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out.append(joined[0])
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else:
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joined = rg.Curve.JoinCurves(rcurves, tol)
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if joined:
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for j in joined:
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if j.IsClosed: out.append(j)
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return out if out else None
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except Exception as ex:
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print("[SMART-SPLIT] closed-split:", ex)
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return None
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def _run():
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doc = Rhino.RhinoDoc.ActiveDoc
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if doc is None: return
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# Polylinie als Cutter sammeln
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poly = _collect_polyline_cutter(
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"Splitlinie Startpunkt",
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"Naechster Punkt")
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if poly is None or poly.Count < 2:
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return
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cutter = rg.PolylineCurve(poly)
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tol = doc.ModelAbsoluteTolerance
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pre_sel = [o for o in doc.Objects.GetSelectedObjects(False, False)
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if o is not None and not o.IsDeleted]
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if pre_sel:
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source = pre_sel
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mode_label = "selektierte ({})".format(len(pre_sel))
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else:
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s = rdoc.ObjectEnumeratorSettings()
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s.HiddenObjects = False; s.LockedObjects = False
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source = list(doc.Objects.GetObjectList(s))
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mode_label = "alle sichtbaren"
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candidates_open = []
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candidates_closed = []
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for obj in source:
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if obj is None or obj.IsDeleted: continue
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try:
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t = obj.Attributes.GetUserString("dossier_element_type") or ""
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if t in _PROTECTED_TYPES: continue
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except Exception: pass
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g = obj.Geometry
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if not isinstance(g, rg.Curve): continue
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try:
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ints = rg.Intersect.Intersection.CurveCurve(cutter, g, tol, tol)
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except Exception:
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continue
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if not ints or ints.Count == 0: continue
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if g.IsClosed:
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candidates_closed.append((obj, g))
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else:
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params = []
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for i in range(ints.Count):
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ev = ints[i]
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if ev.IsPoint:
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params.append(ev.ParameterB)
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else:
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params.append(ev.ParameterB); params.append(ev.ParameterB2)
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if params:
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params = sorted(set(round(p, 6) for p in params))
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candidates_open.append((obj, g, params))
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if not candidates_open and not candidates_closed:
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print("[SMART-SPLIT] Cutter schneidet nichts ({})".format(mode_label))
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return
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ur = doc.BeginUndoRecord("DOSSIER Smart-Split")
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n_open = 0; n_closed = 0
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try:
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# Closed: Boolean-Regions → CLOSED Sub-Regionen + Fill replicate
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for obj, crv in candidates_closed:
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try:
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regions = _split_closed_with_cutter(crv, cutter, doc)
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if not regions or len(regions) <= 1: continue
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hatch_props = _capture_hatch_props(doc, obj)
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attrs = obj.Attributes.Duplicate()
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try: attrs.SetUserString("ebenen_fill_hatch_id", "")
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except Exception: pass
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new_ids = []
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for r in regions:
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nid = doc.Objects.AddCurve(r, attrs)
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if nid: new_ids.append(nid)
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doc.Objects.Delete(obj.Id, True)
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if hatch_props is not None:
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for nid in new_ids:
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nobj = doc.Objects.FindId(nid)
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if nobj is not None:
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_replicate_hatch(doc, nobj, hatch_props)
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else:
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try:
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import gestaltung as _gmod
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for nid in new_ids:
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nobj = doc.Objects.FindId(nid)
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if nobj is not None:
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_gmod._apply_ebene_fill(doc, nobj)
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except Exception: pass
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n_closed += 1
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except Exception as ex:
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print("[SMART-SPLIT] closed-fail:", ex)
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# Open: split bei Params
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for obj, crv, params in candidates_open:
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try:
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pieces = crv.Split(params)
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if not pieces or len(pieces) <= 1: continue
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attrs = obj.Attributes.Duplicate()
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for p in pieces:
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doc.Objects.AddCurve(p, attrs)
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doc.Objects.Delete(obj.Id, True)
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n_open += 1
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except Exception as ex:
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print("[SMART-SPLIT] open-fail:", ex)
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finally:
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doc.EndUndoRecord(ur)
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doc.Views.Redraw()
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print("[SMART-SPLIT] {} closed-Regionen + {} offene Curves gesplittet "
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"({} Cutter-Punkte, {})"
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.format(n_closed, n_open, poly.Count, mode_label))
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_run()
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