DOSSIER/rhino/aliases/cmd/pipette.py

#! python3
# -*- coding: utf-8 -*-
# Pipette / Einstellungen-übernehmen: User klickt ein Source-Objekt, dessen
# Attribute werden zur aktuellen Default-Einstellung gemacht — der naechste
# gezeichnete Curve/Rectangle/etc. erbt sie automatisch.
#
# Was uebernommen wird:
#  1. Layer → wird zum Current Layer
#  2. Color (wenn per-Object Override) → wird Current Object-Color
#  3. Linetype (per-Object) → Current
#  4. PlotWeight (per-Object) → Current
#  5. Fuer DOSSIER-Elemente (wand_axis, treppe_axis, etc.) → spezifische
#     UserStrings (Dicke, Modus, Breite, Stufen etc.) werden in sticky
#     gespeichert als _last_* → nachste Create-Wand/Treppe etc. nimmt sie.
#  6. Bei Hatch-Quelle → wechselt auf den Curve dahinter (Hatch hat selten
#     direkt Sinn als Pipette-Quelle, eher der gefuellte Rahmen).
import scriptcontext as sc
import Rhino
import Rhino.Input.Custom as ric
import Rhino.DocObjects as rdoc
from Rhino.Input import GetResult


# Welche UserStrings pro DOSSIER-Type als sticky _last_* gespeichert werden,
# damit das naechste Create-Cmd sie als Default uebernimmt.
_DOSSIER_INHERIT = {
    "wand_axis": [
        ("dossier_wand_dicke",    "wand_dicke"),
        ("dossier_wand_referenz", "wand_referenz"),
        ("dossier_wand_modus",    "wand_modus"),
    ],
    "treppe_axis": [
        ("dossier_treppe_breite",   "treppe_breite"),
        ("dossier_treppe_n",        "treppe_n"),
        ("dossier_treppe_referenz", "treppe_referenz"),
        ("dossier_treppe_modus",    "treppe_modus"),
        ("dossier_treppe_lauf_d",   "treppe_lauf_d"),
        ("dossier_treppe_art",     "treppe_art"),
    ],
    "decke_outline": [
        ("dossier_decke_dicke", "decke_dicke"),
        ("dossier_decke_modus", "decke_modus"),
    ],
    "dach_outline": [
        ("dossier_dach_dicke",   "dach_dicke"),
        ("dossier_dach_neigung", "dach_neigung"),
    ],
    "stuetze_point": [
        ("dossier_trag_profil", "stuetze_profil"),
        ("dossier_trag_b",      "stuetze_b"),
        ("dossier_trag_h",      "stuetze_h"),
    ],
    "traeger_axis": [
        ("dossier_trag_profil", "traeger_profil"),
        ("dossier_trag_b",      "traeger_b"),
        ("dossier_trag_h",      "traeger_h"),
    ],
    "oeffnung_point": [
        ("dossier_oeff_breite", "oeff_breite"),
        ("dossier_oeff_hoehe",  "oeff_hoehe"),
    ],
}


def _save_sticky(key, value):
    sc.sticky["elemente_last_" + key] = value


def _find_curve_behind_hatch(doc, hatch_obj):
    """Hatches haben in DOSSIER oft eine zugeordnete Source-Curve (gestaltung
    speichert die Curve-ID auf der Hatch via 'ebenen_fill_owner')."""
    try:
        owner = hatch_obj.Attributes.GetUserString("ebenen_fill_owner") or ""
        if owner:
            import System
            cid = System.Guid(owner)
            cobj = doc.Objects.FindId(cid)
            if cobj is not None and not cobj.IsDeleted: return cobj
    except Exception: pass
    return None


def _run():
    doc = Rhino.RhinoDoc.ActiveDoc
    if doc is None: return

    go = ric.GetObject()
    go.SetCommandPrompt("Pipette: Quell-Objekt picken (Attribute uebernehmen)")
    go.GeometryFilter = (rdoc.ObjectType.Curve
                        | rdoc.ObjectType.Brep
                        | rdoc.ObjectType.Hatch
                        | rdoc.ObjectType.PointSet
                        | rdoc.ObjectType.Point
                        | rdoc.ObjectType.Annotation
                        | rdoc.ObjectType.TextDot)
    go.SubObjectSelect = False
    if go.Get() != GetResult.Object:
        print("[PIPETTE] abgebrochen"); return

    src = go.Object(0).Object()
    if src is None: return

    # Wenn Hatch gepickt, switch zur Source-Curve (gefuelltes Rechteck als
    # Pipette-Quelle ist intuitiver als die Hatch selbst)
    src_geom_type = type(src.Geometry).__name__
    if src_geom_type == "Hatch":
        cobj = _find_curve_behind_hatch(doc, src)
        if cobj is not None:
            src = cobj
            print("[PIPETTE] Hatch → zugeordnete Curve verwendet")

    sa = src.Attributes
    msgs = []

    # 1. Layer als Current setzen
    try:
        if doc.Layers.CurrentLayerIndex != sa.LayerIndex:
            doc.Layers.SetCurrentLayerIndex(sa.LayerIndex, True)
            try: lname = doc.Layers[sa.LayerIndex].FullPath
            except Exception: lname = "idx=" + str(sa.LayerIndex)
            msgs.append("Layer={}".format(lname))
    except Exception as ex:
        print("[PIPETTE] Layer-Set:", ex)

    # 2. Color
    try:
        cs = Rhino.ApplicationSettings.AppearanceSettings
        if sa.ColorSource == rdoc.ObjectColorSource.ColorFromObject:
            cs.DefaultObjectColorSource = rdoc.ObjectColorSource.ColorFromObject
            cs.DefaultObjectColor = sa.ObjectColor
            msgs.append("Color=obj")
        else:
            cs.DefaultObjectColorSource = rdoc.ObjectColorSource.ColorFromLayer
            msgs.append("Color=byLayer")
    except Exception as ex:
        print("[PIPETTE] Color-Set:", ex)

    # 3. Linetype + 4. PlotWeight — komplexer, weil Rhino keine direkten
    # AppearanceSettings dafuer hat. Wir ueberspringen bewusst, weil der
    # Layer-Wechsel die meisten Faelle abdeckt (Linetype + PlotWeight
    # kommen typisch ByLayer).

    # 5. DOSSIER-spezifische Attrs in sticky uebernehmen
    try:
        dtype = sa.GetUserString("dossier_element_type") or ""
        if dtype in _DOSSIER_INHERIT:
            inherited = []
            for us_key, sticky_key in _DOSSIER_INHERIT[dtype]:
                v = sa.GetUserString(us_key)
                if v is None or v == "": continue
                # Numerische Werte ggf. konvertieren
                if any(k in sticky_key for k in ("dicke", "breite", "hoehe",
                                                   "neigung", "lauf_d", "_b", "_h")):
                    try: v = float(v)
                    except Exception: pass
                elif "n" == sticky_key or sticky_key.endswith("_n"):
                    try: v = int(float(v))
                    except Exception: pass
                _save_sticky(sticky_key, v)
                inherited.append("{}={}".format(sticky_key, v))
            if inherited:
                msgs.append("DOSSIER " + dtype + ": " + ", ".join(inherited))
    except Exception as ex:
        print("[PIPETTE] DOSSIER-Inherit:", ex)

    if msgs:
        print("[PIPETTE] Uebernommen: " + " | ".join(msgs))
    else:
        print("[PIPETTE] Keine Aenderung (Source identisch zu Defaults)")

    # 7. Per-Object Custom-Hatch / Custom-Attrs: speichern als "pending"
    # + one-shot Listener auf AddRhinoObject — wenn naechster Curve
    # gezeichnet ist, alle Custom-Attrs auf den uebertragen.
    _setup_pending_apply(doc, src)

    # 6. Auto-Chain: passendes Draw-Command starten basierend auf
    # Source-Typ. So hat der User direkt "die richtige Tool in der Hand".
    _auto_chain(doc, src)


def _capture_source_hatch_props(doc, src_obj):
    """Wenn Source einen per-Object Custom-Hatch hat, sample dessen
    Properties (Pattern/Scale/Rotation/Color)."""
    try:
        sa = src_obj.Attributes
        fill_hid = sa.GetUserString("ebenen_fill_hatch_id") or ""
        if not fill_hid: return None
        import System
        hid = System.Guid(fill_hid)
        hobj = doc.Objects.FindId(hid)
        if hobj is None or hobj.IsDeleted: return None
        hg = hobj.Geometry
        ha = hobj.Attributes
        if not hasattr(hg, "PatternIndex"): return None
        return {
            "pattern_idx": int(hg.PatternIndex),
            "scale": float(hg.PatternScale),
            "rotation": float(hg.PatternRotation),
            "layer_idx": int(ha.LayerIndex),
            "color_source": int(ha.ColorSource),
            "color_argb": int(ha.ObjectColor.ToArgb()),
            "plot_color_source": int(ha.PlotColorSource),
            "plot_color_argb": int(ha.PlotColor.ToArgb()),
            "linetype_source": int(ha.LinetypeSource),
            "linetype_idx": int(ha.LinetypeIndex),
        }
    except Exception as ex:
        print("[PIPETTE] capture-hatch:", ex)
        return None


def _setup_pending_apply(doc, src_obj):
    """Speichert Source-Custom-Attrs in sticky + registriert one-shot
    AddRhinoObject-Listener der die Attrs (inkl. Hatch) auf den naechsten
    neuen Curve uebertraegt. Nach Apply wird Listener wieder entfernt."""
    sa = src_obj.Attributes
    # Custom-User-Strings sammeln (DOSSIER-Element-Typen + andere). Skip
    # die Fill-Tracking-Keys weil wir den Hatch neu erstellen mit neuer ID.
    skip_keys = {
        "ebenen_fill_hatch_id",  # zeigt auf alte Source-Hatch-ID
        "ebenen_fill_owner",
    }
    user_strings = {}
    try:
        for k in sa.GetUserStringKeys():
            if k in skip_keys: continue
            v = sa.GetUserString(k)
            if v is not None: user_strings[k] = v
    except Exception as ex:
        print("[PIPETTE] user-strings:", ex)

    # Source-Geometrie Closed-State erfassen — wenn Source closed war,
    # erzwingen wir nach dem Add auch auf der Kopie ein Close (Polyline
    # bleibt sonst standardmaessig offen, hatten User-Feedback dazu).
    src_closed = False
    try:
        import Rhino.Geometry as _rg
        sg = src_obj.Geometry
        if isinstance(sg, _rg.Curve) and sg.IsClosed:
            src_closed = True
    except Exception: pass

    pending = {
        "linetype_source": int(sa.LinetypeSource),
        "linetype_idx": int(sa.LinetypeIndex),
        "plot_weight_source": int(sa.PlotWeightSource),
        "plot_weight": float(sa.PlotWeight),
        "user_strings": user_strings,
        "hatch_props": _capture_source_hatch_props(doc, src_obj),
        "src_closed": src_closed,
    }
    sc.sticky["dossier_pipette_pending"] = pending

    # One-shot handler — applied beim naechsten AddRhinoObject + entfernt sich
    def _on_add(sender, e):
        try:
            obj = e.TheObject
            if obj is None or obj.IsDeleted: return
            import Rhino.Geometry as rg2
            if not isinstance(obj.Geometry, rg2.Curve): return
            _apply_pending(doc, obj, pending)
        except Exception as ex:
            print("[PIPETTE] one-shot apply:", ex)
        finally:
            try: Rhino.RhinoDoc.AddRhinoObject -= _on_add
            except Exception: pass
            sc.sticky.pop("dossier_pipette_pending", None)

    try:
        Rhino.RhinoDoc.AddRhinoObject += _on_add
    except Exception as ex:
        print("[PIPETTE] listener-install:", ex)


def _force_close_curve(crv):
    """Schliesst eine offene Polyline durch Anhaengen des Startpunkts.
    Generische Curves: MakeClosed (nur wenn Endpunkte nahe) oder Join mit
    Lueckensegment. Returns geschlossene Curve oder None bei Fehler."""
    import Rhino.Geometry as rg2
    if crv is None or crv.IsClosed: return None
    try:
        if isinstance(crv, rg2.PolylineCurve):
            ok, pl = crv.TryGetPolyline()
            if ok and pl is not None and pl.Count >= 2:
                if pl[0].DistanceTo(pl[pl.Count - 1]) > 1e-9:
                    pl.Add(pl[0])
                return rg2.PolylineCurve(pl)
            return None
        # Generic: erst MakeClosed (closed wenn Endpunkte innerhalb tol)
        try:
            if crv.MakeClosed(1e-6): return crv
        except Exception: pass
        # Fallback: Lueckensegment einfuegen + joinen
        line = rg2.LineCurve(crv.PointAtEnd, crv.PointAtStart)
        joined = rg2.Curve.JoinCurves([crv, line], 1e-6)
        if joined and len(joined) > 0 and joined[0].IsClosed:
            return joined[0]
    except Exception as ex:
        print("[PIPETTE] force-close:", ex)
    return None


def _apply_pending(doc, new_obj, pending):
    """Wendet pending state auf das neu erzeugte Objekt an."""
    import Rhino.Geometry as rg2
    import System
    # Close-Erzwingen wenn Source geschlossen war — Polyline-Command erzeugt
    # standardmaessig offene Curves; Pipette soll den Closed-State erhalten.
    if pending.get("src_closed"):
        try:
            crv = new_obj.Geometry
            if isinstance(crv, rg2.Curve) and not crv.IsClosed:
                closed = _force_close_curve(crv)
                if closed is not None:
                    if doc.Objects.Replace(new_obj.Id, closed):
                        ref = doc.Objects.FindId(new_obj.Id)
                        if ref is not None: new_obj = ref
                        print("[PIPETTE] Polyline auto-geschlossen (Source war closed)")
        except Exception as ex:
            print("[PIPETTE] close-replace:", ex)
    # Linetype + PlotWeight overrides
    try:
        na = new_obj.Attributes.Duplicate()
        if pending["linetype_source"] == int(rdoc.ObjectLinetypeSource.LinetypeFromObject):
            na.LinetypeSource = rdoc.ObjectLinetypeSource.LinetypeFromObject
            na.LinetypeIndex = pending["linetype_idx"]
        if pending["plot_weight_source"] == int(rdoc.ObjectPlotWeightSource.PlotWeightFromObject):
            na.PlotWeightSource = rdoc.ObjectPlotWeightSource.PlotWeightFromObject
            na.PlotWeight = pending["plot_weight"]
        # UserStrings 1:1 kopieren
        for k, v in pending["user_strings"].items():
            try: na.SetUserString(k, v)
            except Exception: pass
        doc.Objects.ModifyAttributes(new_obj, na, True)
    except Exception as ex:
        print("[PIPETTE] apply-attrs:", ex)

    # Per-Object Custom-Hatch: nachbauen wenn Source einen hatte UND
    # der neue Curve closed ist
    hp = pending.get("hatch_props")
    if hp is None: return
    try:
        crv = new_obj.Geometry
        if not isinstance(crv, rg2.Curve) or not crv.IsClosed: return
        tol = doc.ModelAbsoluteTolerance
        hatches = rg2.Hatch.Create(crv, hp["pattern_idx"],
                                       hp["rotation"], hp["scale"], tol)
        if not hatches or len(hatches) == 0: return
        ha = rdoc.ObjectAttributes()
        ha.LayerIndex = hp["layer_idx"]
        ha.ColorSource = rdoc.ObjectColorSource(hp["color_source"])
        ha.ObjectColor = System.Drawing.Color.FromArgb(hp["color_argb"])
        try:
            ha.PlotColorSource = rdoc.ObjectPlotColorSource(hp["plot_color_source"])
            ha.PlotColor = System.Drawing.Color.FromArgb(hp["plot_color_argb"])
        except Exception: pass
        if hp["linetype_source"] == int(rdoc.ObjectLinetypeSource.LinetypeFromObject):
            ha.LinetypeSource = rdoc.ObjectLinetypeSource.LinetypeFromObject
            ha.LinetypeIndex = hp["linetype_idx"]
        ha.SetUserString("ebenen_fill_source", "object")
        ha.SetUserString("ebenen_fill_owner", str(new_obj.Id))
        new_hid = doc.Objects.AddHatch(hatches[0], ha)
        if new_hid and new_hid != System.Guid.Empty:
            # Cross-Link: Curve speichert Hatch-ID
            ca = new_obj.Attributes.Duplicate()
            ca.SetUserString("ebenen_fill_hatch_id", str(new_hid))
            ca.SetUserString("ebenen_fill_source", "object")
            doc.Objects.ModifyAttributes(new_obj, ca, True)
            print("[PIPETTE] Per-Object Hatch uebernommen (Pattern={}, Scale={})"
                  .format(hp["pattern_idx"], hp["scale"]))
    except Exception as ex:
        print("[PIPETTE] hatch-replicate:", ex)


def _auto_chain(doc, src):
    """Startet das passende Draw-Command basierend auf Source-Typ."""
    sa = src.Attributes
    dtype = sa.GetUserString("dossier_element_type") or ""
    geom = src.Geometry
    geom_type = type(geom).__name__

    # DOSSIER-BIM: triggere den Dispatcher
    _DOSSIER_DRAW = {
        "wand_axis":    "wand",
        "treppe_axis":  "treppe",
        "decke_outline": "decke",
        "dach_outline":  "dach",
        "stuetze_point": "stuetze",
        "traeger_axis":  "traeger",
        "oeffnung_point": None,  # braucht parent-Wand-Kontext → skip auto-chain
        "raum_outline":  "raum",
    }
    if dtype in _DOSSIER_DRAW:
        action = _DOSSIER_DRAW[dtype]
        if action:
            import os
            _here = os.path.dirname(os.path.abspath(__file__))
            wrapper = os.path.join(_here, action + ".py")
            if os.path.exists(wrapper):
                Rhino.RhinoApp.RunScript(
                    '_-RunPythonScript "{}"'.format(wrapper), False)
                print("[PIPETTE] → starte DOSSIER {}".format(action))
        return

    # Standard-Rhino-Curves: detect Typ → entsprechendes Draw-Cmd
    cmd = None
    if geom_type == "LineCurve":
        cmd = "_Line"
    elif geom_type == "ArcCurve":
        # ArcCurve mit voller Sweep = Kreis
        try:
            if geom.IsClosed: cmd = "_Circle"
            else: cmd = "_Arc"
        except Exception:
            cmd = "_Arc"
    elif geom_type == "PolylineCurve":
        try:
            ok, pl = geom.TryGetPolyline()
            if ok and pl is not None and pl.IsClosed and pl.Count == 5:
                # Geschlossen + 4 Segmente → vermutlich Rectangle
                cmd = "_Rectangle"
            else:
                cmd = "_Polyline"
        except Exception:
            cmd = "_Polyline"
    elif geom_type == "NurbsCurve":
        cmd = "_Curve"
    elif geom_type == "TextEntity":
        cmd = "_Text"

    if cmd:
        Rhino.RhinoApp.RunScript(cmd, False)
        print("[PIPETTE] → starte {}".format(cmd))


_run()