karim
ae80185064
Neuer Pill-Button in Row 3 neben "Zur Kamera": setzt TextEntity.AnnotationScalingEnabled. Property-Name wird in mehreren Varianten probiert (Rhino 8 API hat das je nach Build leicht anders benannt). Zustand wird zusaetzlich als UserString "dossier_text_scaled" persistiert, sodass open_for_edit den Toggle auch dann korrekt restored wenn die API-Property nicht gelesen werden kann. Default = an (entspricht aktuellem Verhalten: Text skaliert mit der Annotation-Scale des Layouts). Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
610 lines
24 KiB
Python
610 lines
24 KiB
Python
#! python 3
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# -*- coding: utf-8 -*-
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"""
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text_editor.py
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React-WYSIWYG-Editor in Satellite-WebView (Topmost). User picked Frame
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in create_text(), dann oeffnet sich dieser Editor neben dem Frame.
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TextEditorBridge haelt Frame-Daten + Settings, auf COMMIT erstellt es
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die TextEntity und schliesst das Fenster.
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"""
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import os
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import sys
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import Rhino
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import Rhino.Geometry as rg
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import scriptcontext as sc
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_HERE = os.path.dirname(os.path.abspath(__file__))
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if _HERE not in sys.path:
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sys.path.insert(0, _HERE)
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import panel_base
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import text_create
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# ---------------------------------------------------------------------------
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# Doppelklick-Hook: wenn User auf einen DOSSIER-Text doppelklickt, oeffnet
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# sich UNSER Editor statt Rhinos Standard-TextEdit.
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class _DossierTextDoubleClickHook(Rhino.UI.MouseCallback):
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def OnMouseDoubleClick(self, e):
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try:
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doc = Rhino.RhinoDoc.ActiveDoc
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if doc is None: return
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# Welches Objekt ist gerade selektiert? (Rhino's einfache
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# Single-Click hat es ausgewaehlt bevor wir hier sind.)
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target = None
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for obj in doc.Objects.GetSelectedObjects(False, False):
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try:
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if isinstance(obj.Geometry, rg.TextEntity):
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if obj.Attributes.GetUserString("dossier_text") == "1":
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target = obj; break
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except Exception: pass
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if target is not None:
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e.Cancel = True # Rhinos eigener TextEdit-Dialog wird geblockt
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# Defer auf naechsten Idle-Tick — Eto-Form aus MouseCallback
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# heraus zu oeffnen kann zu Re-Entrancy-Problemen fuehren
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sc.sticky["dossier_pending_text_edit"] = str(target.Id)
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except Exception as ex:
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print("[TEXT-HOOK] OnDoubleClick:", ex)
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_hook_instance = None
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def _ensure_double_click_hook():
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"""Installiert MouseCallback einmalig pro Rhino-Session."""
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global _hook_instance
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if _hook_instance is not None: return
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try:
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_hook_instance = _DossierTextDoubleClickHook()
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_hook_instance.Enabled = True
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# Idle-Handler einmalig registrieren fuer das deferred Opening
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if not sc.sticky.get("dossier_text_idle_registered"):
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Rhino.RhinoApp.Idle += _on_idle_check_pending_edit
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sc.sticky["dossier_text_idle_registered"] = True
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print("[TEXT-HOOK] Doppelklick-Hook installiert")
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except Exception as ex:
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print("[TEXT-HOOK] install:", ex)
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def _on_idle_check_pending_edit(sender, e):
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pid = sc.sticky.get("dossier_pending_text_edit")
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if not pid: return
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sc.sticky["dossier_pending_text_edit"] = None
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doc = Rhino.RhinoDoc.ActiveDoc
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if doc is None: return
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try:
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import System
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obj = doc.Objects.FindId(System.Guid(pid))
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if obj is None: return
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open_for_edit(obj)
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except Exception as ex:
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print("[TEXT-HOOK] open for edit:", ex)
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class TextEditorBridge(panel_base.BaseBridge):
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def __init__(self, frame_data, settings, fonts,
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edit_obj_id=None, initial_text="", initial_runs=None):
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panel_base.BaseBridge.__init__(self, "text_editor")
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self._frame = frame_data # (origin, width, height, p1, p2)
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self._initial_settings = settings
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self._fonts = fonts
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self._form_ref = None
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self._edit_obj_id = edit_obj_id # bei Doppelklick-Edit gesetzt
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self._initial_text = initial_text
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self._initial_runs = initial_runs # rich-format-Runs falls vorhanden
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def set_form(self, form):
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self._form_ref = form
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def _on_ready(self):
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doc = Rhino.RhinoDoc.ActiveDoc
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styles = []
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try: styles = text_create.list_styles(doc)
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except Exception: pass
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self.send("INIT", {
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"settings": self._initial_settings,
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"fonts": self._fonts,
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"styles": styles,
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"initialText": self._initial_text,
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"initialRuns": self._initial_runs,
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"editMode": bool(self._edit_obj_id),
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})
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def handle(self, data):
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if not isinstance(data, dict): return
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t = data.get("type", "")
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p = data.get("payload") or {}
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if t == "READY":
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self._on_ready()
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elif t == "COMMIT":
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self._commit(p)
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try: self._form_ref.Close()
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except Exception: pass
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elif t == "CANCEL":
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try: self._form_ref.Close()
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except Exception: pass
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def _commit(self, payload):
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import System
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import math
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doc = Rhino.RhinoDoc.ActiveDoc
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if doc is None or self._frame is None: return
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text = (payload.get("text") or "").strip()
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if not text: return
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st = payload.get("settings") or {}
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runs = payload.get("runs") # Phase 2: rich-text runs (oder None)
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origin, width, height, _p1, _p2 = self._frame
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try:
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te = rg.TextEntity()
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# Plane mit optionaler Rotation um Z
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rot_deg = 0.0
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try: rot_deg = float(st.get("rotation") or 0)
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except Exception: pass
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plane = rg.Plane(origin, rg.Vector3d.ZAxis)
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if abs(rot_deg) > 1e-6:
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try:
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plane.Rotate(math.radians(rot_deg), rg.Vector3d.ZAxis, origin)
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except Exception: pass
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te.Plane = plane
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# RichText (Phase 2) erzeugen wenn Runs nontrivial sind.
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rtf = _runs_to_rtf(
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runs,
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st.get("font") or "Helvetica",
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base_size_m=float(st.get("size") or 0.2)) if runs else None
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if rtf:
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print("[TEXT-EDITOR] RTF len={} preview={!r}".format(
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len(rtf), rtf[:300]))
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# Defaults (Height + Align gelten immer)
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try: te.TextHeight = float(st.get("size") or 0.2)
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except Exception: pass
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text_create._apply_align(te, st.get("align") or "left")
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text_create._apply_valign(te, st.get("valign") or "top")
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# Content. Bei RichText KEIN _apply_font — sonst ueberschreibt
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# te.Font die per-Run-Fonts aus der RTF. Stattdessen lassen
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# wir RichText/SetRichText das selber regeln.
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if rtf:
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te.PlainText = text # Initial-Content (RichText ueberschreibt)
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# Bevorzugt SetRichText(rtf, dimstyle) — robusteres API
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applied = False
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try:
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ds = doc.DimStyles.Current
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te.SetRichText(rtf, ds)
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applied = True
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print("[TEXT-EDITOR] SetRichText OK")
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except Exception as ex1:
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print("[TEXT-EDITOR] SetRichText fail:", ex1)
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if not applied:
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try:
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te.RichText = rtf
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applied = True
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print("[TEXT-EDITOR] te.RichText = OK")
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except Exception as ex2:
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print("[TEXT-EDITOR] te.RichText = fail:", ex2)
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if not applied:
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# Letzter Fallback: ohne RTF, mit Toolbar-Defaults
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text_create._apply_font(
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te, st.get("font") or "Helvetica",
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st.get("bold"), st.get("italic"),
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st.get("underline"))
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else:
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te.PlainText = text
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text_create._apply_font(
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te, st.get("font") or "Helvetica",
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st.get("bold"), st.get("italic"),
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st.get("underline"))
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# 3. Text-Wrap im Frame — NACH dem Content damit es nicht
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# durch RichText-Set zurueckgesetzt wird. Beide Setter
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# versuchen (verschiedene Rhino-Versions-APIs).
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applied_w = None
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for attr in ("FormatWidth", "TextWidth", "MaskWidth"):
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try:
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setattr(te, attr, width)
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applied_w = attr
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break
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except Exception: pass
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try: te.TextIsWrapped = True
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except Exception:
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try: te.TextWrap = True
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except Exception: pass
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print("[TEXT-EDITOR] wrap: width={} applied_attr={}".format(
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width, applied_w))
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# 4. Frame um den Text + Mask-Margin
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frame_kind = (st.get("frame") or "none").lower()
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try:
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MF = Rhino.DocObjects.TextMaskFrame
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te.MaskFrame = (
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MF.RectFrame if frame_kind == "rect" else
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MF.CapsuleFrame if frame_kind == "capsule" else
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MF.NoFrame
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)
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except Exception as ex:
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print("[TEXT-EDITOR] frame:", ex)
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# Mask: Type entscheidet ob/wie maskiert wird. Margin gilt
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# nur wenn Maske aktiv. Solid-Color erst dann setzen wenn
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# Type=solid (sonst dominiert Viewport-Color).
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try:
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mask_type = (st.get("maskType") or "none").lower()
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mask_m = float(st.get("maskMargin") or 0)
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if mask_type == "none":
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te.MaskEnabled = False
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else:
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te.MaskEnabled = True
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te.MaskOffset = mask_m
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if mask_type == "solid":
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te.MaskUsesViewportColor = False
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mc = st.get("maskColor") or [255, 255, 255]
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try:
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te.MaskColor = System.Drawing.Color.FromArgb(
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int(mc[0]), int(mc[1]), int(mc[2]))
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except Exception as ex:
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print("[TEXT-EDITOR] mask color:", ex)
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else:
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te.MaskUsesViewportColor = True
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except Exception as ex:
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print("[TEXT-EDITOR] mask:", ex)
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# 5. Horizontal-to-view (DrawForward)
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try:
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te.DrawForward = bool(st.get("horizontalToView"))
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except Exception: pass
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# 6. Annotation-Scaling (Masstaeblich) — Rhino 8 hat das pro
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# Annotation-Objekt. Property-Name variiert je nach Build,
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# deshalb mehrere Varianten versuchen.
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scale_flag = bool(st.get("scaleWithModel", True))
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applied_scale = None
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for prop in ("AnnotationScalingEnabled",
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"IsAnnotationScalingEnabled",
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"ModelSpaceScalingEnabled"):
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try:
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setattr(te, prop, scale_flag)
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applied_scale = prop
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break
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except Exception: pass
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if applied_scale is None:
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print("[TEXT-EDITOR] AnnotationScaling-Property nicht gefunden")
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attrs = Rhino.DocObjects.ObjectAttributes()
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col = st.get("color") # [r,g,b] oder None
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if col is not None and len(col) >= 3:
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try:
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attrs.ColorSource = Rhino.DocObjects.ObjectColorSource.ColorFromObject
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attrs.ObjectColor = System.Drawing.Color.FromArgb(
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int(col[0]), int(col[1]), int(col[2]))
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except Exception as ex:
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print("[TEXT-EDITOR] color:", ex)
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attrs.SetUserString("dossier_text", "1")
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attrs.SetUserString("dossier_text_scaled", "1" if scale_flag else "0")
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# Runs als JSON persistieren — beim Re-Open kann der Editor
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# die ganze Struktur (Fonts/Sizes/Styles pro Segment) wieder
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# herstellen statt nur PlainText zu zeigen.
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if runs:
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try:
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import json
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attrs.SetUserString("dossier_text_runs", json.dumps(runs))
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except Exception as ex:
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print("[TEXT-EDITOR] runs persist:", ex)
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# Edit-Mode: bestehenden TextEntity ersetzen statt neu hinzu
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if self._edit_obj_id is not None:
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try:
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old = doc.Objects.FindId(self._edit_obj_id)
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if old is not None:
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# Plane vom Original uebernehmen wenn nicht rotiert
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# explizit gewuenscht (sonst wandert der Text)
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if abs(rot_deg) < 1e-6:
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te.Plane = old.Geometry.Plane
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doc.Objects.Replace(self._edit_obj_id, te)
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doc.Objects.ModifyAttributes(self._edit_obj_id, attrs, True)
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else:
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doc.Objects.AddText(te, attrs)
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except Exception as ex:
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print("[TEXT-EDITOR] replace:", ex)
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doc.Objects.AddText(te, attrs)
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else:
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doc.Objects.AddText(te, attrs)
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doc.Views.Redraw()
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# Defaults speichern (ohne color/rotation/frame — die sind
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# situativ, nicht zu uebernehmen)
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text_create.save_settings(doc, {
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"font": st.get("font"),
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"size": st.get("size"),
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"bold": st.get("bold"),
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"italic": st.get("italic"),
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"underline": st.get("underline"),
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"align": st.get("align"),
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})
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except Exception as ex:
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print("[TEXT-EDITOR] commit:", ex)
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# ---------------------------------------------------------------------------
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# Phase 2: Rich-Text-Runs (vom Frontend HTML-parsing) → Rhino-RTF.
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def _parse_color_to_rgb(c):
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"""CSS-Farbe ('rgb(r,g,b)' | '#rrggbb' | '#rgb') → (r,g,b) Ints 0-255."""
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if not c: return (0, 0, 0)
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c = c.strip()
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if c.startswith("rgb"):
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import re
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m = re.search(r"(\d+)\D+(\d+)\D+(\d+)", c)
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if m: return (int(m.group(1)), int(m.group(2)), int(m.group(3)))
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if c.startswith("#"):
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h = c.lstrip("#")
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if len(h) == 3: h = "".join(ch * 2 for ch in h)
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if len(h) == 6:
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return (int(h[0:2], 16), int(h[2:4], 16), int(h[4:6], 16))
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return (0, 0, 0)
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def _rtf_escape(s):
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"""RTF-Escape: \\, {, }, sowie non-ASCII via \\u-Notation."""
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out = []
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for ch in s:
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cp = ord(ch)
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if ch == "\\": out.append("\\\\")
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elif ch == "{": out.append("\\{")
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elif ch == "}": out.append("\\}")
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elif ch == "\n": out.append("\\par\n")
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elif cp < 128: out.append(ch)
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else:
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# Signed 16-bit → Rhinos RTF erwartet das so
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v = cp if cp < 0x8000 else cp - 0x10000
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out.append("\\u{}?".format(v))
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return "".join(out)
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def _runs_to_rtf(runs, default_font, base_size_m=0.20):
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"""Konvertiert Format-Runs in Rhinos RTF-Dialekt. Runs ist Liste von
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dicts mit Keys text/font/bold/italic/underline/sup/sub/color/fontSizePx.
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base_size_m: TextEntity.TextHeight (in m). Frontend rendert 1m = 100px,
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also entspricht base_size_m * 100 dem "Standard" \\fs20 in RTF."""
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if not runs: return None
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# Triviale Runs (alle plain, ein Font) → kein RTF noetig
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nontrivial = False
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for r in runs:
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if r.get("bold") or r.get("italic") or r.get("underline") \
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or r.get("sup") or r.get("sub") or r.get("color") \
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or r.get("fontSizePx") \
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or (r.get("font") and r["font"] != default_font):
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nontrivial = True; break
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if not nontrivial: return None
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# ────────────────────────────────────────────────────────────────
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# PASS 1: Runs verarbeiten + Fonts/Colors sammeln + RTF-Bodies bauen
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# ────────────────────────────────────────────────────────────────
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fonts = [default_font]
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colors = []
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def font_idx(f):
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if not f: return 0
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if f not in fonts: fonts.append(f)
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return fonts.index(f)
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def color_idx(c):
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if not c: return 0
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rgb = _parse_color_to_rgb(c)
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if rgb in colors: return colors.index(rgb) + 1
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colors.append(rgb)
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return len(colors)
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BASE_PX = max(1.0, base_size_m * 100.0)
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def _escape_no_par(s):
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out = []
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for ch in s:
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cp = ord(ch)
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if ch == "\\": out.append("\\\\")
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elif ch == "{": out.append("\\{")
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elif ch == "}": out.append("\\}")
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elif ch == "\n": out.append("\n")
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elif cp < 128: out.append(ch)
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else:
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v = cp if cp < 0x8000 else cp - 0x10000
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out.append("\\u{}?".format(v))
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return "".join(out)
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# Ansatz: jedes Text-Segment in eigene {}-Group mit lokalen Codes.
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# Zwischen Segmenten (und ueber Run-Grenzen hinweg) \\par fuer
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# Paragraph-Breaks. So bleibt Per-Run-Formatting (Groups isolieren
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# State) UND Mehrzeiligkeit (\\par ist Rhinos echter Linebreak).
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body_parts = []
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pending_pars = 0 # Wieviele \\par muessen noch vor naechstem Segment
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def _emit_group(run, seg):
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codes = []
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codes.append("\\f{}".format(font_idx(run.get("font") or default_font)))
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ci = color_idx(run.get("color")) if run.get("color") else 0
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codes.append("\\cf{}".format(ci) if ci > 0 else "\\cf0")
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fsp = run.get("fontSizePx")
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if fsp and abs(fsp - BASE_PX) > 0.1:
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rtf_fs = max(2, int(round(20.0 * fsp / BASE_PX)))
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codes.append("\\fs{}".format(rtf_fs))
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else:
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codes.append("\\fs20")
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codes.append("\\b" if run.get("bold") else "\\b0")
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codes.append("\\i" if run.get("italic") else "\\i0")
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codes.append("\\ul" if run.get("underline") else "\\ulnone")
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if run.get("sup"): codes.append("\\super")
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elif run.get("sub"): codes.append("\\sub")
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else: codes.append("\\nosupersub")
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body_parts.append("{{{} {}}}".format("".join(codes), _escape_no_par(seg)))
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def _flush_pars(n):
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# 1 \\par = einfacher Zeilenumbruch. N>1 \\par hintereinander
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# wuerde Rhino zu einem einzigen Umbruch collapsen — fuer
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# jede zusaetzliche Leerzeile schieben wir einen Space-Group
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# dazwischen, damit der leere Paragraph Inhalt hat.
|
|
if n <= 0: return
|
|
body_parts.append("\\par ")
|
|
for _ in range(n - 1):
|
|
body_parts.append("{ }\\par ")
|
|
|
|
first_emitted = False
|
|
for run in runs:
|
|
raw = run.get("text") or ""
|
|
segments = raw.split("\n")
|
|
for i, seg in enumerate(segments):
|
|
if i > 0:
|
|
pending_pars += 1
|
|
if seg:
|
|
if first_emitted:
|
|
_flush_pars(pending_pars)
|
|
pending_pars = 0
|
|
_emit_group(run, seg)
|
|
first_emitted = True
|
|
if first_emitted and pending_pars > 0:
|
|
_flush_pars(pending_pars)
|
|
|
|
# ────────────────────────────────────────────────────────────────
|
|
# PASS 2: RTF-Header mit JETZT vollstaendigen Tables + Body
|
|
# ────────────────────────────────────────────────────────────────
|
|
parts = ["{\\rtf1\\ansi\\ansicpg1252\\deff0"]
|
|
parts.append("{\\fonttbl")
|
|
for i, f in enumerate(fonts):
|
|
parts.append("{{\\f{}\\fnil\\fcharset0 {};}}".format(i, f))
|
|
parts.append("}")
|
|
if colors:
|
|
parts.append("{\\colortbl;")
|
|
for r, g, b in colors:
|
|
parts.append("\\red{}\\green{}\\blue{};".format(r, g, b))
|
|
parts.append("}")
|
|
parts.append("\\pard")
|
|
parts.extend(body_parts)
|
|
parts.append("}")
|
|
return "".join(parts)
|
|
|
|
|
|
def open_with_frame(p1, p2, origin, width, height):
|
|
"""Frame-Pick-Workflow → Editor oeffnen, neuer Text erstellt."""
|
|
_ensure_double_click_hook()
|
|
doc = Rhino.RhinoDoc.ActiveDoc
|
|
settings = text_create.load_settings(doc)
|
|
fonts = text_create.available_fonts()
|
|
bridge = TextEditorBridge((origin, width, height, p1, p2),
|
|
settings, fonts)
|
|
sc.sticky["text_editor_bridge"] = bridge
|
|
|
|
form = panel_base.open_satellite_window(
|
|
"text_editor",
|
|
title="Dossier Text",
|
|
size=(640, 480),
|
|
bridge=bridge,
|
|
topmost=True)
|
|
if form is not None:
|
|
bridge.set_form(form)
|
|
|
|
|
|
def open_for_edit(obj):
|
|
"""Bei Doppelklick auf einen DOSSIER-Text: Editor mit den
|
|
bestehenden Settings + Text-Inhalt oeffnen. COMMIT macht REPLACE."""
|
|
_ensure_double_click_hook()
|
|
doc = Rhino.RhinoDoc.ActiveDoc
|
|
if doc is None or obj is None: return
|
|
te = obj.Geometry
|
|
if not isinstance(te, rg.TextEntity): return
|
|
|
|
# Settings aus dem bestehenden Text lesen
|
|
settings = text_create.load_settings(doc)
|
|
try: settings["size"] = float(te.TextHeight)
|
|
except Exception: pass
|
|
try:
|
|
if te.Font:
|
|
settings["font"] = te.Font.QuartetName
|
|
settings["bold"] = bool(te.Font.Bold)
|
|
settings["italic"] = bool(te.Font.Italic)
|
|
try: settings["underline"] = bool(te.Font.Underlined)
|
|
except Exception: pass
|
|
except Exception: pass
|
|
try:
|
|
h = te.TextHorizontalAlignment
|
|
if h == Rhino.DocObjects.TextHorizontalAlignment.Center:
|
|
settings["align"] = "center"
|
|
elif h == Rhino.DocObjects.TextHorizontalAlignment.Right:
|
|
settings["align"] = "right"
|
|
else: settings["align"] = "left"
|
|
except Exception: pass
|
|
try:
|
|
flag = obj.Attributes.GetUserString("dossier_text_scaled")
|
|
if flag in ("0", "1"):
|
|
settings["scaleWithModel"] = (flag == "1")
|
|
else:
|
|
for prop in ("AnnotationScalingEnabled",
|
|
"IsAnnotationScalingEnabled",
|
|
"ModelSpaceScalingEnabled"):
|
|
if hasattr(te, prop):
|
|
settings["scaleWithModel"] = bool(getattr(te, prop))
|
|
break
|
|
except Exception: pass
|
|
try:
|
|
v = te.TextVerticalAlignment
|
|
VA = Rhino.DocObjects.TextVerticalAlignment
|
|
if v == VA.Middle: settings["valign"] = "middle"
|
|
elif v == VA.Bottom: settings["valign"] = "bottom"
|
|
else: settings["valign"] = "top"
|
|
except Exception: pass
|
|
try:
|
|
if te.MaskEnabled:
|
|
settings["maskType"] = "solid" if not te.MaskUsesViewportColor else "viewport"
|
|
try: settings["maskMargin"] = float(te.MaskOffset)
|
|
except Exception: pass
|
|
try:
|
|
mc = te.MaskColor
|
|
settings["maskColor"] = [mc.R, mc.G, mc.B]
|
|
except Exception: pass
|
|
else:
|
|
settings["maskType"] = "none"
|
|
except Exception: pass
|
|
|
|
initial_text = ""
|
|
try: initial_text = te.PlainText or ""
|
|
except Exception: pass
|
|
# Runs aus UserString lesen (gespeichert beim letzten Save)
|
|
initial_runs = None
|
|
try:
|
|
import json
|
|
rj = obj.Attributes.GetUserString("dossier_text_runs")
|
|
if rj: initial_runs = json.loads(rj)
|
|
except Exception as ex:
|
|
print("[TEXT-EDITOR] read runs:", ex)
|
|
|
|
# Frame aus dem Text-BBox ableiten (fuer Dialog-Positionierung)
|
|
p1 = te.Plane.Origin
|
|
try:
|
|
bb = te.GetBoundingBox(False)
|
|
if bb.IsValid:
|
|
p2 = rg.Point3d(bb.Max.X, bb.Min.Y, p1.Z)
|
|
origin = rg.Point3d(bb.Min.X, bb.Max.Y, p1.Z)
|
|
width = bb.Max.X - bb.Min.X
|
|
height = bb.Max.Y - bb.Min.Y
|
|
else:
|
|
p2 = p1
|
|
origin = p1
|
|
width = 1.0; height = 0.5
|
|
except Exception:
|
|
p2 = p1; origin = p1; width = 1.0; height = 0.5
|
|
|
|
fonts = text_create.available_fonts()
|
|
bridge = TextEditorBridge(
|
|
(origin, width, height, p1, p2),
|
|
settings, fonts,
|
|
edit_obj_id=obj.Id,
|
|
initial_text=initial_text,
|
|
initial_runs=initial_runs)
|
|
sc.sticky["text_editor_bridge"] = bridge
|
|
|
|
form = panel_base.open_satellite_window(
|
|
"text_editor",
|
|
title="Dossier Text (Bearbeiten)",
|
|
size=(640, 480),
|
|
bridge=bridge,
|
|
topmost=True)
|
|
if form is not None:
|
|
bridge.set_form(form)
|