Merge remote-tracking branch 'hoikas/pynodes'

9 years ago · ae3d55f4cb
10 changed files with 739 additions and 14 deletions
--- a/korman/exporter/convert.py
+++ b/korman/exporter/convert.py
@ -33,6 +33,8 @@ class Exporter:
        self._op = op # Blender export operator
        self._objects = []
        self.actors = set()
        self.node_trees_exported = set()
        self.want_node_trees = {}
    @property
    def age_name(self):
@ -66,7 +68,10 @@ class Exporter:
            # Step 3: Export all the things!
            self._export_scene_objects()
-            # Step 3.1: Now that all Plasma Objects (save Mipmaps) are exported, we do any post
+            # Step 3.1: Ensure referenced logic node trees are exported
            self._export_referenced_node_trees()
            # Step 3.2: Now that all Plasma Objects (save Mipmaps) are exported, we do any post
            #          processing that needs to inspect those objects
            self._post_process_scene_objects()
@ -212,6 +217,14 @@ class Exporter:
        else:
            print("    No material(s) on the ObData, so no drawables")
    def _export_referenced_node_trees(self):
        print("\nChecking Logic Trees...")
        need_to_export = ((name, bo, so) for name, (bo, so) in self.want_node_trees.items()
                                         if name not in self.node_trees_exported)
        for tree, bo, so in need_to_export:
            print("    NodeTree '{}'".format(tree))
            bpy.data.node_groups[tree].export(self, bo, so)
    def _harvest_actors(self):
        for bl_obj in self._objects:
            for mod in bl_obj.plasma_modifiers.modifiers:
--- a/korman/nodes/init.py
+++ b/korman/nodes/init.py
@ -23,6 +23,7 @@ from .node_avatar import *
 from .node_conditions import *
 from .node_core import *
 from .node_messages import *
 from .node_python import *
 from .node_responder import *
 class PlasmaNodeCategory(NodeCategory):
@ -42,6 +43,7 @@ _kategory_names = {
    "CONDITIONS": "Conditions",
    "LOGIC": "Logic",
    "MSG": "Message",
    "PYTHON": "Python",
 }
 # Now, generate the categories as best we can...
--- a/korman/nodes/node_conditions.py
+++ b/korman/nodes/node_conditions.py
@ -27,6 +27,9 @@ class PlasmaClickableNode(PlasmaNodeVariableInput, bpy.types.Node):
    bl_label = "Clickable"
    bl_width_default = 160
    # These are the Python attributes we can fill in
    pl_attrib = {"ptAttribActivator", "ptAttribActivatorList", "ptAttribNamedActivator"}
    clickable = StringProperty(name="Clickable",
                               description="Mesh that is clickable")
    bounds = EnumProperty(name="Bounds",
@ -38,6 +41,7 @@ class PlasmaClickableNode(PlasmaNodeVariableInput, bpy.types.Node):
        self.inputs.new("PlasmaClickableRegionSocket", "Avatar Inside Region", "region")
        self.inputs.new("PlasmaFacingTargetSocket", "Avatar Facing Target", "facing")
        self.inputs.new("PlasmaRespCommandSocket", "Local Reenable", "enable_callback")
        self.outputs.new("PlasmaPythonReferenceNodeSocket", "References", "keyref")
        self.outputs.new("PlasmaConditionSocket", "Satisfies", "satisfies")
    def draw_buttons(self, context, layout):
@ -284,6 +288,9 @@ class PlasmaVolumeSensorNode(PlasmaNodeBase, bpy.types.Node):
    bl_label = "Region Sensor"
    bl_width_default = 190
    # These are the Python attributes we can fill in
    pl_attrib = {"ptAttribActivator", "ptAttribActivatorList", "ptAttribNamedActivator"}
    # Region Mesh
    region = StringProperty(name="Region",
                            description="Object that defines the region mesh")
@ -302,6 +309,7 @@ class PlasmaVolumeSensorNode(PlasmaNodeBase, bpy.types.Node):
    def init(self, context):
        self.inputs.new("PlasmaVolumeSettingsSocketIn", "Trigger on Enter", "enter")
        self.inputs.new("PlasmaVolumeSettingsSocketIn", "Trigger on Exit", "exit")
        self.outputs.new("PlasmaPythonReferenceNodeSocket", "References", "keyref")
        self.outputs.new("PlasmaConditionSocket", "Satisfies", "satisfies")
    def draw_buttons(self, context, layout):
@ -311,29 +319,52 @@ class PlasmaVolumeSensorNode(PlasmaNodeBase, bpy.types.Node):
        layout.prop_search(self, "region", bpy.data, "objects", icon="MESH_DATA")
        layout.prop(self, "bounds")
-    def export(self, exporter, bo, so):
+    def get_key(self, exporter, parent_so):
-        interface = exporter.mgr.add_object(plInterfaceInfoModifier, name=self.key_name, so=so)
+        bo = self.region_object
        so = exporter.find_create_object(plSceneObject, bl=bo)
        rgn_enter, rgn_exit = None, None
        if self.report_enters:
            theName = "{}_{}_Enter".format(self.id_data.name, self.name)
            rgn_enter = exporter.mgr.find_create_key(plLogicModifier, name=theName, so=so)
        if self.report_exits:
            theName = "{}_{}_Exit".format(self.id_data.name, self.name)
            rgn_exit = exporter.mgr.find_create_key(plLogicModifier, name=theName, so=so)
        if rgn_enter is None:
            return rgn_exit
        elif rgn_exit is None:
            return rgn_enter
        else:
            # !!! ... !!!
            # Sorry
            #     -- Hoikas
            # !!! ... !!!
            return (rgn_enter, rgn_exit)
    def export(self, exporter, bo, parent_so):
        # We need to ensure we export to the correct SO
        region_bo = self.region_object
        region_so = exporter.mgr.find_create_object(plSceneObject, bl=region_bo)
        interface = exporter.mgr.find_create_object(plInterfaceInfoModifier, name=self.key_name, so=region_so)
        # Region Enters
        enter_simple = self.find_input_socket("enter").allow
        enter_settings = self.find_input("enter", "PlasmaVolumeReportNode")
        if enter_simple or enter_settings is not None:
-            key = self._export_volume_event(exporter, bo, so, plVolumeSensorConditionalObject.kTypeEnter, enter_settings)
+            key = self._export_volume_event(exporter, region_bo, region_so, plVolumeSensorConditionalObject.kTypeEnter, enter_settings)
            interface.addIntfKey(key)
        # Region Exits
        exit_simple = self.find_input_socket("exit").allow
        exit_settings = self.find_input("exit", "PlasmaVolumeReportNode")
        if exit_simple or exit_settings is not None:
-            key = self._export_volume_event(exporter, bo, so, plVolumeSensorConditionalObject.kTypeExit, exit_settings)
+            key = self._export_volume_event(exporter, region_bo, region_so, plVolumeSensorConditionalObject.kTypeExit, exit_settings)
            interface.addIntfKey(key)
        # Don't forget to export the physical object itself!
        # [trollface.jpg]
-        phys_bo = bpy.data.objects.get(self.region, None)
+        simIface, physical = exporter.physics.generate_physical(region_bo, region_so, self.bounds, "{}_VolumeSensor".format(region_bo.name))
        if phys_bo is None:
            self.raise_error("invalid Region object: '{}'".format(self.region))
        simIface, physical = exporter.physics.generate_physical(phys_bo, so, self.bounds, "{}_VolumeSensor".format(bo.name))
        physical.memberGroup = plSimDefs.kGroupDetector
        if "avatar" in self.report_on:
@ -378,6 +409,23 @@ class PlasmaVolumeSensorNode(PlasmaNodeBase, bpy.types.Node):
        logicmod.addCondition(volKey)
        return logicKey
    @property
    def region_object(self):
        phys_bo = bpy.data.objects.get(self.region, None)
        if phys_bo is None:
            self.raise_error("invalid Region object: '{}'".format(self.region))
        return phys_bo
    @property
    def report_enters(self):
        return (self.find_input_socket("enter").allow or
                self.find_input("enter", "PlasmaVolumeReportNode") is not None)
    @property
    def report_exits(self):
        return (self.find_input_socket("exit").allow or
                self.find_input("exit", "PlasmaVolumeReportNode") is not None)
 class PlasmaVolumeSettingsSocket(PlasmaNodeSocketBase):
    bl_color = (43.1, 24.7, 0.0, 1.0)
--- a/korman/nodes/node_core.py
+++ b/korman/nodes/node_core.py
@ -27,6 +27,9 @@ class PlasmaNodeBase:
            key = i.get_key(exporter, so)
            if key is None:
                exporter.report.warn(" '{}' Node '{}' doesn't expose a key. It won't be triggered by '{}'!".format(i.bl_idname, i.name, self.name), indent=3)
            elif isinstance(key, tuple):
                for i in key:
                    notify.addReceiver(key)
            else:
                notify.addReceiver(key)
        return notify
@ -123,6 +126,11 @@ class PlasmaNodeBase:
            out_socket = out_key
        link = self.id_data.links.new(in_socket, out_socket)
    @property
    def node_path(self):
        """Returns an absolute path to this Node. Needed because repr() uses an elipsis..."""
        return "{}.{}".format(repr(self.id_data), self.path_from_id())
    @classmethod
    def poll(cls, context):
        return (context.bl_idname == "PlasmaNodeTree")
--- a/korman/nodes/node_python.py
+++ b/korman/nodes/node_python.py
@ -0,0 +1,541 @@
 #    This file is part of Korman.
 #
 #    Korman is free software: you can redistribute it and/or modify
 #    it under the terms of the GNU General Public License as published by
 #    the Free Software Foundation, either version 3 of the License, or
 #    (at your option) any later version.
 #
 #    Korman is distributed in the hope that it will be useful,
 #    but WITHOUT ANY WARRANTY; without even the implied warranty of
 #    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 #    GNU General Public License for more details.
 #
 #    You should have received a copy of the GNU General Public License
 #    along with Korman.  If not, see <http://www.gnu.org/licenses/>.
 import bpy
 from bpy.props import *
 import os.path
 from PyHSPlasma import *
 from .node_core import *
 _single_user_attribs = {
    "ptAttribBoolean", "ptAttribInt", "ptAttribFloat", "ptAttribString", "ptAttribDropDownList",
    "ptAttribSceneobject", "ptAttribDynamicMap", "ptAttribGUIDialog", "ptAttribExcludeRegion",
    "ptAttribWaveSet", "ptAttribSwimCurrent", "ptAttribAnimation", "ptAttribBehavior",
    "ptAttribMaterial", "ptAttribMaterialAnimation", "ptAttribGUIPopUpMenu", "ptAttribGUISkin",
    "ptAttribGrassShader",
 }
 _attrib2param = {
    "ptAttribInt": plPythonParameter.kInt,
    "ptAttribFloat": plPythonParameter.kFloat,
    "ptAttribBoolean": plPythonParameter.kBoolean,
    "ptAttribString": plPythonParameter.kString,
    "ptAttribSceneobject": plPythonParameter.kSceneObject,
    "ptAttribSceneobjectList": plPythonParameter.kSceneObjectList,
    "ptAttribActivator": plPythonParameter.kActivator,
    "ptAttribActivatorList": plPythonParameter.kActivator,
    "ptAttribNamedActivator": plPythonParameter.kActivator,
    "ptAttribResponder": plPythonParameter.kResponder,
    "ptAttribResponderList": plPythonParameter.kResponder,
    "ptAttribNamedResponder": plPythonParameter.kResponder,
    "ptAttribDynamicMap": plPythonParameter.kDynamicText,
    "ptAttribGUIDialog": plPythonParameter.kGUIDialog,
    "ptAttribExcludeRegion": plPythonParameter.kExcludeRegion,
    "ptAttribAnimation": plPythonParameter.kAnimation,
    "ptAttribBehavior": plPythonParameter.kBehavior,
    "ptAttribMaterial": plPythonParameter.kMaterial,
    "ptAttribMaterialList": plPythonParameter.kMaterial,
    "ptAttribGUIPopUpMenu": plPythonParameter.kGUIPopUpMenu,
    "ptAttribGUISkin": plPythonParameter.kGUISkin,
    "ptAttribWaveSet": plPythonParameter.kWaterComponent,
    "ptAttribSwimCurrent": plPythonParameter.kSwimCurrentInterface,
    "ptAttribClusterList": plPythonParameter.kClusterComponent,
    "ptAttribMaterialAnimation": plPythonParameter.kMaterialAnimation,
    "ptAttribGrassShader": plPythonParameter.kGrassShaderComponent,
 }
 _attrib_key_types = {
    "ptAttribSceneobject": plFactory.ClassIndex("plSceneObject"),
    "ptAttribSceneobjectList": plFactory.ClassIndex("plSceneObject"),
    "ptAttribActivator": plFactory.ClassIndex("plLogicModifier"),
    "ptAttribActivatorList": plFactory.ClassIndex("plLogicModifier"),
    "ptAttribNamedActivator": plFactory.ClassIndex("plLogicModifier"),
    "ptAttribResponder": plFactory.ClassIndex("plResponderModifier"),
    "ptAttribResponderList": plFactory.ClassIndex("plResponderModifier"),
    "ptAttribNamedResponder": plFactory.ClassIndex("plResponderModifier"),
    "ptAttribDynamicMap": plFactory.ClassIndex("plDynamicTextMap"),
    "ptAttribGUIDialog": plFactory.ClassIndex("pfGUIDialogMod"),
    "ptAttribExcludeRegion": plFactory.ClassIndex("plExcludeRegionMod"),
    "ptAttribAnimation": plFactory.ClassIndex("plAGMasterMod"),
    "ptAttribBehavior": plFactory.ClassIndex("plMultistageBehMod"),
    "ptAttribMaterial": plFactory.ClassIndex("plLayer"),
    "ptAttribMaterialList": plFactory.ClassIndex("plLayer"),
    "ptAttribGUIPopUpMenu": plFactory.ClassIndex("pfGUIPopUpMenu"),
    "ptAttribGUISkin": plFactory.ClassIndex("pfGUISkin"),
    "ptAttribWaveSet": plFactory.ClassIndex("plWaveSet7"),
    "ptAttribSwimCurrent": (plFactory.ClassIndex("plSwimCircularCurrentRegion"),
                            plFactory.ClassIndex("plSwimStraightCurrentRegion")),
    "ptAttribClusterList": plFactory.ClassIndex("plClusterGroup"),
    "ptAttribMaterialAnimation": plFactory.ClassIndex("plLayerAnimation"),
    "ptAttribGrassShader": plFactory.ClassIndex("plGrassShaderMod"),
 }
 class PlasmaAttribute(bpy.types.PropertyGroup):
    attribute_id = IntProperty()
    attribute_type = StringProperty()
    attribute_name = StringProperty()
    attribute_description = StringProperty()
    # These shall be default values
    value_string = StringProperty()
    value_int = IntProperty()
    value_float = FloatProperty()
    value_bool = BoolProperty()
    _simple_attrs = {
        "ptAttribString": "value_string",
        "ptAttribInt": "value_int",
        "ptAttribFloat": "value_float",
        "ptAttribBoolean": "value_bool",
    }
    @property
    def is_simple_value(self):
        return self.attribute_type in self._simple_attrs
    def _get_simple_value(self):
        return getattr(self, self._simple_attrs[self.attribute_type])
    def _set_simple_value(self, value):
        setattr(self, self._simple_attrs[self.attribute_type], value)
    simple_value = property(_get_simple_value, _set_simple_value)
 class PlasmaPythonFileNode(PlasmaNodeBase, bpy.types.Node):
    bl_category = "PYTHON"
    bl_idname = "PlasmaPythonFileNode"
    bl_label = "Python File"
    bl_width_default = 210
    class _NoUpdate:
        def __init__(self, node):
            self._node = node
        def __enter__(self):
            self._node.no_update = True
        def __exit__(self, type, value, traceback):
            self._node.no_update = False
    def _update_pyfile(self, context):
        with self._NoUpdate(self) as _hack:
            self.attributes.clear()
            self.inputs.clear()
        bpy.ops.node.plasma_attributes_to_node(node_path=self.node_path, python_path=self.filepath)
    filename = StringProperty(name="File",
                              description="Python Filename")
    filepath = StringProperty(update=_update_pyfile,
                              options={"HIDDEN"})
    attributes = CollectionProperty(type=PlasmaAttribute, options={"HIDDEN"})
    no_update = BoolProperty(default=False, options={"HIDDEN", "SKIP_SAVE"})
    @property
    def attribute_map(self):
        return { i.attribute_id: i for i in self.attributes }
    def draw_buttons(self, context, layout):
        row = layout.row(align=True)
        if self.filename:
            row.prop(self, "filename")
            if os.path.isfile(self.filepath):
                operator = row.operator("node.plasma_attributes_to_node", icon="FILE_REFRESH", text="")
                operator.python_path = self.filepath
                operator.node_path = self.node_path
        op_text = "" if self.filename else "Select"
        operator = row.operator("file.plasma_file_picker", icon="SCRIPT", text=op_text)
        operator.filter_glob = "*.py"
        operator.data_path = self.node_path
        operator.filepath_property = "filepath"
        operator.filename_property = "filename"
    def get_key(self, exporter, so):
        return exporter.mgr.find_create_key(plPythonFileMod, name=self.key_name, so=so)
    def export(self, exporter, bo, so):
        pfm = self.get_key(exporter, so).object
        pfm.filename = os.path.splitext(self.filename)[0]
        attrib_sockets = (i for i in self.inputs if i.is_linked)
        for socket in attrib_sockets:
            attrib = socket.attribute_type
            from_node = socket.links[0].from_node
            value = from_node.value if socket.is_simple_value else from_node.get_key(exporter, so)
            if not isinstance(value, tuple):
                value = (value,)
            for i in value:
                param = plPythonParameter()
                param.id = socket.attribute_id
                param.valueType = _attrib2param[attrib]
                param.value = i
                # Key type sanity checking... Because I trust no user.
                if not socket.is_simple_value:
                    if i is None:
                        msg = "'{}' Node '{}' didn't return a key and therefore will be unavailable to Python".format(
                            self.id_data.name, from_node.name)
                        exporter.report.warn(msg, indent=3)
                    else:
                        key_type = _attrib_key_types[attrib]
                        if isinstance(key_type, tuple):
                            good_key = i.type in key_type
                        else:
                            good_key = i.type == key_type
                        if not good_key:
                            msg = "'{}' Node '{}' returned an unexpected key type '{}'".format(
                                self.id_data.name, from_node.name, plFactory.ClassName(i.type))
                            exporter.report.warn(msg, indent=3)
                pfm.addParameter(param)
    def _get_attrib_sockets(self, idx):
        for i in self.inputs:
            if i.attribute_id == idx:
                yield i
    def _make_attrib_socket(self, attrib, is_init=False):
        new_pos = len(self.inputs)
        if not is_init:
            for i, socket in enumerate(self.inputs):
                if attrib.attribute_id < socket.attribute_id:
                    new_pos = i
                    break
        old_pos = len(self.inputs)
        socket = self.inputs.new("PlasmaPythonFileNodeSocket", attrib.attribute_name)
        socket.attribute_id = attrib.attribute_id
        if not is_init and new_pos != old_pos:
            self.inputs.move(old_pos, new_pos)
    def update(self):
        if self.no_update:
            return
        with self._NoUpdate(self) as _no_recurse:
            # First, we really want to make sure our junk matches up. Yes, this does dupe what
            # happens in PlasmaAttribNodeBase, but we can link much more than those node types...
            toasty_sockets = []
            input_nodes = (i for i in self.inputs if i.is_linked and i.links)
            for i in input_nodes:
                link = i.links[0]
                allowed_attribs = getattr(link.from_node, "pl_attrib", set())
                if i.attribute_type not in allowed_attribs:
                    self.id_data.links.remove(link)
                    # Bad news, old chap... Even though we're doing this before we figure out
                    # how many socket we need, the changes won't be committed to the socket's links
                    # until later. damn. We'll have to track it manually
                    toasty_sockets.append(i)
            attribs = self.attribute_map
            empty = not self.inputs
            for idx in sorted(attribs):
                attrib = attribs[idx]
                # Delete any attribute sockets whose type changed
                for i in self._get_attrib_sockets(idx):
                    if i.attribute_type != attrib.attribute_type:
                        self.inputs.remove(i)
                # Fetch the list of sockets again because we may have nuked some
                inputs = list(self._get_attrib_sockets(idx))
                if not inputs:
                    self._make_attrib_socket(attrib, empty)
                elif attrib.attribute_type not in _single_user_attribs:
                    unconnected = [socket for socket in inputs if not socket.is_linked or socket in toasty_sockets]
                    if not unconnected:
                        self._make_attrib_socket(attrib, empty)
                    while len(unconnected) > 1:
                        self.inputs.remove(unconnected.pop())
 class PlasmaPythonFileNodeSocket(bpy.types.NodeSocket):
    attribute_id = IntProperty(options={"HIDDEN"})
    @property
    def attribute_description(self):
        return self.node.attribute_map[self.attribute_id].attribute_description
    @property
    def attribute_name(self):
        return self.node.attribute_map[self.attribute_id].attribute_name
    @property
    def attribute_type(self):
        return self.node.attribute_map[self.attribute_id].attribute_type
    def draw(self, context, layout, node, text):
        layout.alignment = "LEFT"
        layout.label("ID: {}".format(self.attribute_id))
        layout.label(self.attribute_description)
    def draw_color(self, context, node):
        return _attrib_colors.get(self.attribute_type, (0.0, 0.0, 0.0, 1.0))
    @property
    def is_simple_value(self):
        return self.node.attribute_map[self.attribute_id].is_simple_value
    @property
    def simple_value(self):
        return self.node.attribute_map[self.attribute_id].simple_value
 class PlasmaPythonAttribNodeSocket(bpy.types.NodeSocket):
    def draw(self, context, layout, node, text):
        attrib = node.to_socket
        if attrib is None:
            layout.label(text)
        else:
            layout.label("ID: {}".format(attrib.attribute_id))
    def draw_color(self, context, node):
        return _attrib_colors.get(node.pl_attrib, (0.0, 0.0, 0.0, 1.0))
 class PlasmaPythonReferenceNodeSocket(PlasmaNodeSocketBase, bpy.types.NodeSocket):
    bl_color = (0.031, 0.110, 0.290, 1.0)
 class PlasmaAttribNodeBase(PlasmaNodeBase):
    def init(self, context):
        self.outputs.new("PlasmaPythonAttribNodeSocket", "Python File", "pfm")
    @property
    def attribute_name(self):
        attr = self.to_socket
        return "Value" if attr is None else attr.attribute_name
    @property
    def to_socket(self):
        """Returns the socket linked to IF only one link has been made"""
        socket = self.outputs[0]
        if len(socket.links) == 1:
            return socket.links[0].to_socket
        return None
    @classmethod
    def register(cls):
        pl_attrib = cls.pl_attrib
        if isinstance(pl_attrib, tuple):
            color = _attrib_colors.get(pl_attrib, None)
            if color is not None:
                for i in pl_attrib:
                    _attrib_colors[i] = color
    def update(self):
        pl_id = self.pl_attrib
        socket = self.outputs[0]
        for link in socket.links:
            if link.to_node.bl_idname != "PlasmaPythonFileNode":
                self.id_data.links.remove(link)
            if isinstance(pl_id, tuple):
                if link.to_socket.attribute_type not in pl_id:
                    self.id_data.links.remove(link)
            else:
                if pl_id != link.to_socket.attribute_type:
                    self.id_data.links.remove(link)
 class PlasmaAttribBoolNode(PlasmaAttribNodeBase, bpy.types.Node):
    bl_category = "PYTHON"
    bl_idname = "PlasmaAttribBoolNode"
    bl_label = "Boolean Attribute"
    def _on_update(self, context):
        self.inited = True
    pl_attrib = "ptAttribBoolean"
    value = BoolProperty()
    inited = BoolProperty(options={"HIDDEN"})
    def draw_buttons(self, context, layout):
        layout.prop(self, "value", text=self.attribute_name)
    def update(self):
        super().update()
        attrib = self.to_socket
        if attrib is not None and not self.inited:
            self.value = attrib.simple_value
            self.inited = True
 class PlasmaAttribNumericNode(PlasmaAttribNodeBase, bpy.types.Node):
    bl_category = "PYTHON"
    bl_idname = "PlasmaAttribIntNode"
    bl_label = "Numeric Attribute"
    def _on_update_int(self, context):
        self.value_float = float(self.value_int)
        self.inited = True
    def _on_update_float(self, context):
        self.value_int = int(self.value_float)
        self.inited = True
    pl_attrib = ("ptAttribFloat", "ptAttribInt")
    value_int = IntProperty(update=_on_update_int, options={"HIDDEN"})
    value_float = FloatProperty(update=_on_update_float, options={"HIDDEN"})
    inited = BoolProperty(options={"HIDDEN"})
    def init(self, context):
        super().init(context)
        # because we're trying to be for both int and float...
        self.outputs[0].link_limit = 1
    def draw_buttons(self, context, layout):
        attrib = self.to_socket
        if attrib is None:
            layout.prop(self, "value_int", text="Value")
        elif attrib.attribute_type == "ptAttribFloat":
            layout.prop(self, "value_float", text=attrib.name)
        elif attrib.attribute_type == "ptAttribInt":
            layout.prop(self, "value_int", text=attrib.name)
        else:
            raise RuntimeError()
    def update(self):
        super().update()
        attrib = self.to_socket
        if attrib is not None and not self.inited:
            self.value = attrib.simple_value
            self.inited = True
    @property
    def value(self):
        attrib = self.to_socket
        if attrib is None or attrib.attribute_type == "ptAttribInt":
            return self.value_int
        else:
            return self.value_float
 class PlasmaAttribObjectNode(PlasmaAttribNodeBase, bpy.types.Node):
    bl_category = "PYTHON"
    bl_idname = "PlasmaAttribObjectNode"
    bl_label = "Object Attribute"
    pl_attrib = ("ptAttribSceneobject", "ptAttribSceneobjectList", "ptAttribAnimation")
    object_name = StringProperty(name="Object",
                                 description="Object containing the required data")
    def init(self, context):
        super().init(context)
        # keep the code simple
        self.outputs[0].link_limit = 1
    def draw_buttons(self, context, layout):
        layout.prop_search(self, "object_name", bpy.data, "objects", text=self.attribute_name)
    def get_key(self, exporter, so):
        attrib = self.to_socket
        if attrib is None:
            self.raise_error("must be connected to a Python File node!")
        attrib = attrib.attribute_type
        bo = bpy.data.objects.get(self.object_name, None)
        if bo is None:
            self.raise_error("invalid object specified: '{}'".format(self.object_name))
        ref_so_key = exporter.mgr.find_create_key(plSceneObject, bl=bo)
        ref_so = ref_so_key.object
        # Add your attribute type handling here...
        if attrib in {"ptAttribSceneobject", "ptAttribSceneobjectList"}:
            return ref_so_key
        elif attrib == "ptAttribAnimation":
            anim = bo.plasma_modifiers.animation
            agmod = exporter.mgr.find_create_key(plAGModifier, so=ref_so, name=anim.display_name)
            agmaster = exporter.mgr.find_create_key(plAGMasterModifier, so=ref_so, name=anim.display_name)
            return agmaster
 class PlasmaAttribStringNode(PlasmaAttribNodeBase, bpy.types.Node):
    bl_category = "PYTHON"
    bl_idname = "PlasmaAttribStringNode"
    bl_label = "String Attribute"
    pl_attrib = "ptAttribString"
    value = StringProperty()
    def draw_buttons(self, context, layout):
        layout.prop(self, "value", text=self.attribute_name)
    def update(self):
        super().update()
        attrib = self.to_socket
        if attrib is not None:
            self.value = attrib.simple_value
 class PlasmaAttribTextureNode(PlasmaAttribNodeBase, bpy.types.Node):
    bl_category = "PYTHON"
    bl_idname = "PlasmaAttribTextureNode"
    bl_label = "Texture Attribute"
    bl_width_default = 175
    pl_attrib = ("ptAttribMaterial", "ptAttribMaterialList",
                 "ptAttribDynamicMap", "ptAttribMaterialAnimation")
    material_name = StringProperty(name="Material")
    texture_name = StringProperty(name="Texture")
    def init(self, context):
        super().init(context)
        # keep the code simple
        self.outputs[0].link_limit = 1
    def draw_buttons(self, context, layout):
        layout.prop_search(self, "material_name", bpy.data, "materials")
        material = bpy.data.materials.get(self.material_name, None)
        if material is not None:
            layout.prop_search(self, "texture_name", material, "texture_slots")
    def get_key(self, exporter, so):
        material = bpy.data.materials.get(self.material_name, None)
        if material is None:
            self.raise_error("invalid Material '{}'".format(self.material_name))
        tex_slot = material.texture_slots.get(self.texture_name, None)
        if tex_slot is None:
            self.raise_error("invalid Texture '{}'".format(self.texture_name))
        attrib = self.attribute_type
        # Helpers
        texture = tex_slot.texture
        is_animated = ((material.animation_data is not None and material.animation_data.action is not None)
                       or (texture.animation_data is not None and texture.animation_data.action is not None))
        is_dyntext = texture.type == "IMAGE" and texture.image is None
        # Your attribute stuff here...
        if attrib == "ptAttribDynamicMap":
            if not is_dyntext:
                self.raise_error("Texture '{}' is not a Dynamic Text Map".format(self.texture_name))
            name = "{}_{}_DynText".format(self.material_name, self.texture_name)
            return exporter.mgr.find_create_key(plDynamicTextMap, name=name, so=so)
        elif is_animated:
            name = "{}_{}_LayerAnim".format(self.material_name, self.texture_name)
            return exporter.mgr.find_create_key(plLayerAnimation, name=name, so=so)
        else:
            name = "{}_{}".format(self.material_name, self.texture_name)
            return exporter.mgr.find_create_key(plLayer, name=name, so=so)
 _attrib_colors = {
    "ptAttribActivator": (0.031, 0.110, 0.290, 1.0),
    "ptAttribActivatorList": (0.451, 0.0, 0.263, 1.0),
    "ptAttribBoolean": (0.71, 0.706, 0.655, 1.0),
    "ptAttribResponder": (0.031, 0.110, 0.290, 1.0),
    "ptAttribResponderList": (0.031, 0.110, 0.290, 1.0),
    "ptAttribString": (0.675, 0.659, 0.494, 1.0),
    PlasmaAttribNumericNode.pl_attrib: (0.443, 0.439, 0.392, 1.0),
    PlasmaAttribObjectNode.pl_attrib: (0.565, 0.267, 0.0, 1.0),
    PlasmaAttribTextureNode.pl_attrib: (0.035, 0.353, 0.0, 1.0),
 }
--- a/korman/nodes/node_responder.py
+++ b/korman/nodes/node_responder.py
@ -26,6 +26,9 @@ class PlasmaResponderNode(PlasmaNodeVariableInput, bpy.types.Node):
    bl_label = "Responder"
    bl_width_default = 145
    # These are the Python attributes we can fill in
    pl_attrib = {"ptAttribResponder", "ptAttribResponderList", "ptAttribNamedResponder"}
    detect_trigger = BoolProperty(name="Detect Trigger",
                                  description="When notified, trigger the Responder",
                                  default=True)
@ -38,6 +41,7 @@ class PlasmaResponderNode(PlasmaNodeVariableInput, bpy.types.Node):
    def init(self, context):
        self.inputs.new("PlasmaConditionSocket", "Condition", "condition")
        self.outputs.new("PlasmaPythonReferenceNodeSocket", "References", "keyref")
        self.outputs.new("PlasmaRespStateSocket", "States", "states")
    def draw_buttons(self, context, layout):
--- a/korman/operators/init.py
+++ b/korman/operators/init.py
@ -16,6 +16,7 @@
 from . import op_export as exporter
 from . import op_lightmap as lightmap
 from . import op_modifier as modifier
 from . import op_nodes as nodes
 from . import op_toolbox as toolbox
 from . import op_world as world
--- a/korman/operators/op_nodes.py
+++ b/korman/operators/op_nodes.py
@ -0,0 +1,85 @@
 #    This file is part of Korman.
 #
 #    Korman is free software: you can redistribute it and/or modify
 #    it under the terms of the GNU General Public License as published by
 #    the Free Software Foundation, either version 3 of the License, or
 #    (at your option) any later version.
 #
 #    Korman is distributed in the hope that it will be useful,
 #    but WITHOUT ANY WARRANTY; without even the implied warranty of
 #    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 #    GNU General Public License for more details.
 #
 #    You should have received a copy of the GNU General Public License
 #    along with Korman.  If not, see <http://www.gnu.org/licenses/>.
 import bpy
 from bpy.props import *
 import itertools
 class NodeOperator:
    @classmethod
    def poll(cls, context):
        return context.scene.render.engine == "PLASMA_GAME"
 class SelectFileOperator(NodeOperator, bpy.types.Operator):
    bl_idname = "file.plasma_file_picker"
    bl_label = "Select"
    filter_glob = StringProperty(options={"HIDDEN"})
    filepath = StringProperty(subtype="FILE_PATH")
    filename = StringProperty(options={"HIDDEN"})
    data_path = StringProperty(options={"HIDDEN"})
    filepath_property = StringProperty(description="Name of property to store filepath in", options={"HIDDEN"})
    filename_property = StringProperty(description="Name of property to store filename in", options={"HIDDEN"})
    def execute(self, context):
        dest = eval(self.data_path)
        if self.filepath_property:
            setattr(dest, self.filepath_property, self.filepath)
        if self.filename_property:
            setattr(dest, self.filename_property, self.filename)
        return {"FINISHED"}
    def invoke(self, context, event):
        context.window_manager.fileselect_add(self)
        return {"RUNNING_MODAL"}
 class PlPyAttributeNodeOperator(NodeOperator, bpy.types.Operator):
    bl_idname = "node.plasma_attributes_to_node"
    bl_label = "R"
    bl_options = {"INTERNAL"}
    python_path = StringProperty(subtype="FILE_PATH")
    node_path = StringProperty()
    def execute(self, context):
        from ..plasma_attributes import get_attributes
        attribs = get_attributes(self.python_path)
        node = eval(self.node_path)
        node_attrib_map = node.attribute_map
        node_attribs = node.attributes
        # Remove any that p00fed
        for cached in node.attributes:
            if cached.attribute_id not in attribs:
                node_attribs.remove(cached)
        # Update or create
        for idx, attrib in attribs.items():
            cached = node_attrib_map.get(idx, None)
            if cached is None:
                cached = node_attribs.add()
            cached.attribute_id = idx
            cached.attribute_type = attrib["type"]
            cached.attribute_name = attrib["name"]
            cached.attribute_description = attrib["desc"]
            default = attrib.get("default", None)
            if default is not None and cached.is_simple_value:
                cached.simple_value = default
        node.update()
        return {"FINISHED"}
--- a/korman/properties/modifiers/logic.py
+++ b/korman/properties/modifiers/logic.py
@ -33,13 +33,16 @@ class PlasmaVersionedNodeTree(bpy.types.PropertyGroup):
                           default=set(list(zip(*game_versions))[0]))
    node_tree_name = StringProperty(name="Node Tree",
                                    description="Node Tree to export")
    node_name = StringProperty(name="Node Ref",
                               description="Attach a reference to this node")
    @property
    def node_tree(self):
        try:
            return bpy.data.node_groups[self.node_tree_name]
        except KeyError:
-            raise ExportError("Node Tree {} does not exist!".format(self.node_tree_name))
+            raise ExportError("Node Tree '{}' does not exist!".format(self.node_tree_name))
 class PlasmaAdvancedLogic(PlasmaModifierProperties):
    pl_id = "advanced_logic"
@ -60,7 +63,20 @@ class PlasmaAdvancedLogic(PlasmaModifierProperties):
        for i in self.logic_groups:
            our_versions = [globals()[j] for j in i.version]
            if version in our_versions:
-                i.node_tree.export(exporter, bo, so)
+                # If node_name is defined, then we're only adding a reference. We will make sure that
                # the entire node tree is exported once before the post_export step, however.
                if i.node_name:
                    exporter.want_node_trees[i.node_tree_name] = (bo, so)
                    node = i.node_tree.nodes.get(i.node_name, None)
                    if node is None:
                        raise ExportError("Node '{}' does not exist in '{}'".format(i.node_name, i.node_tree_name))
                    # We are going to assume get_key will do the adding correctly. Single modifiers
                    # should fetch the appropriate SceneObject before doing anything, so this will
                    # be a no-op in that case. Multi modifiers should accept any SceneObject, however
                    node.get_key(exporter, so)
                else:
                    exporter.node_trees_exported.add(i.node_tree_name)
                    i.node_tree.export(exporter, bo, so)
    def harvest_actors(self):
        actors = set()
@ -88,6 +104,7 @@ class PlasmaSpawnPoint(PlasmaModifierProperties):
    def requires_actor(self):
        return True
 class PlasmaMaintainersMarker(PlasmaModifierProperties):
    pl_id = "maintainersmarker"
--- a/korman/ui/modifiers/logic.py
+++ b/korman/ui/modifiers/logic.py
@ -19,6 +19,7 @@ class LogicListUI(bpy.types.UIList):
    def draw_item(self, context, layout, data, item, icon, active_data, active_property, index=0, flt_flag=0):
        layout.prop(item, "name", emboss=False, text="", icon="NODETREE")
 def advanced_logic(modifier, layout, context):
    row = layout.row()
    row.template_list("LogicListUI", "logic_groups", modifier, "logic_groups", modifier, "active_group_index",
@ -37,9 +38,14 @@ def advanced_logic(modifier, layout, context):
    # Modify the loop points
    if modifier.logic_groups:
        logic = modifier.logic_groups[modifier.active_group_index]
-        row = layout.row()
+        layout.row().prop_menu_enum(logic, "version")
-        row.prop_menu_enum(logic, "version")
+        layout.prop_search(logic, "node_tree_name", bpy.data, "node_groups", icon="NODETREE")
-        row.prop_search(logic, "node_tree_name", bpy.data, "node_groups", icon="NODETREE", text="")
+        try:
            layout.prop_search(logic, "node_name", logic.node_tree, "nodes", icon="NODE")
        except:
            row = layout.row()
            row.enabled = False
            row.prop(logic, "node_name", icon="NODE")
 def spawnpoint(modifier, layout, context):
    layout.label(text="Avatar faces negative Y.")