1berry/blender
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity
blender/release/scripts/startup/nodeitems_builtins.py
Jeroen Bakker d49e7b82da Compositor: Redesign Cryptomatte node for better usability 
In the current implementation, cryptomatte passes are connected to the node
and elements are picked by using the eyedropper tool on a special pick channel.

This design has two disadvantages - both connecting all passes individually
and always having to switch to the picker channel are tedious.

With the new design, the user selects the RenderLayer or Image from which the
Cryptomatte layers are directly loaded (the type of pass is determined by an
enum). This allows the node to automatically detect all relevant passes.

Then, when using the eyedropper tool, the operator looks up the selected
coordinates from the picked Image, Node backdrop or Clip and reads the picked
object directly from the Renderlayer/Image, therefore allowing to pick in any
context (e.g. by clicking on the Combined pass in the Image Viewer). The
sampled color is looked up in the metadata and the actual name is stored
in the cryptomatte node. This also allows to remove a hash by just removing
the name from the matte id.

Technically there is some loss of flexibility because the Cryptomatte pass
inputs can no longer be connected to other nodes, but since any compositing
done on them is likely to break the Cryptomatte system anyways, this isn't
really a concern in practise.

In the future, this would also allow to automatically translate values to names
by looking up the value in the associated metadata of the input, or to get a
better visualization of overlapping areas in the Pick output since we could
blend colors now that the output doesn't have to contain the exact value.

Idea + Original patch: Lucas Stockner
Reviewed By: Brecht van Lommel

Differential Revision: https://developer.blender.org/D3959
2021-03-16 07:43:17 +01:00

576 lines
22 KiB
Python
Raw Blame History

# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program 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 2
# of the License, or (at your option) any later version.
#
# This program 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 this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8 compliant>
import bpy
import nodeitems_utils
from nodeitems_utils import (
NodeCategory,
NodeItem,
NodeItemCustom,
)
# Subclasses for standard node types
class SortedNodeCategory(NodeCategory):
def __init__(self, identifier, name, description="", items=None):
# for builtin nodes the convention is to sort by name
if isinstance(items, list):
items = sorted(items, key=lambda item: item.label.lower())
super().__init__(identifier, name, description, items)
class CompositorNodeCategory(SortedNodeCategory):
@classmethod
def poll(cls, context):
return (context.space_data.type == 'NODE_EDITOR' and
context.space_data.tree_type == 'CompositorNodeTree')
class ShaderNodeCategory(SortedNodeCategory):
@classmethod
def poll(cls, context):
return (context.space_data.type == 'NODE_EDITOR' and
context.space_data.tree_type == 'ShaderNodeTree')
class TextureNodeCategory(SortedNodeCategory):
@classmethod
def poll(cls, context):
return (context.space_data.type == 'NODE_EDITOR' and
context.space_data.tree_type == 'TextureNodeTree')
class GeometryNodeCategory(SortedNodeCategory):
@classmethod
def poll(cls, context):
return (context.space_data.type == 'NODE_EDITOR' and
context.space_data.tree_type == 'GeometryNodeTree')
# menu entry for node group tools
def group_tools_draw(self, layout, context):
layout.operator("node.group_make")
layout.operator("node.group_ungroup")
layout.separator()
# maps node tree type to group node type
node_tree_group_type = {
'CompositorNodeTree': 'CompositorNodeGroup',
'ShaderNodeTree': 'ShaderNodeGroup',
'TextureNodeTree': 'TextureNodeGroup',
'GeometryNodeTree': 'GeometryNodeGroup',
}
# generic node group items generator for shader, compositor, geometry and texture node groups
def node_group_items(context):
if context is None:
return
space = context.space_data
if not space:
return
ntree = space.edit_tree
if not ntree:
return
yield NodeItemCustom(draw=group_tools_draw)
yield NodeItem("NodeGroupInput", poll=group_input_output_item_poll)
yield NodeItem("NodeGroupOutput", poll=group_input_output_item_poll)
yield NodeItemCustom(draw=lambda self, layout, context: layout.separator())
def contains_group(nodetree, group):
if nodetree == group:
return True
else:
for node in nodetree.nodes:
if node.bl_idname in node_tree_group_type.values() and node.node_tree is not None:
if contains_group(node.node_tree, group):
return True
return False
for group in context.blend_data.node_groups:
if group.bl_idname != ntree.bl_idname:
continue
# filter out recursive groups
if contains_group(group, ntree):
continue
# filter out hidden nodetrees
if group.name.startswith('.'):
continue
yield NodeItem(node_tree_group_type[group.bl_idname],
group.name,
{"node_tree": "bpy.data.node_groups[%r]" % group.name})
# only show input/output nodes inside node groups
def group_input_output_item_poll(context):
space = context.space_data
if space.edit_tree in bpy.data.node_groups.values():
return True
return False
# only show input/output nodes when editing line style node trees
def line_style_shader_nodes_poll(context):
snode = context.space_data
return (snode.tree_type == 'ShaderNodeTree' and
snode.shader_type == 'LINESTYLE')
# only show nodes working in world node trees
def world_shader_nodes_poll(context):
snode = context.space_data
return (snode.tree_type == 'ShaderNodeTree' and
snode.shader_type == 'WORLD')
# only show nodes working in object node trees
def object_shader_nodes_poll(context):
snode = context.space_data
return (snode.tree_type == 'ShaderNodeTree' and
snode.shader_type == 'OBJECT')
def cycles_shader_nodes_poll(context):
return context.engine == 'CYCLES'
def eevee_shader_nodes_poll(context):
return context.engine == 'BLENDER_EEVEE'
def eevee_cycles_shader_nodes_poll(context):
return (cycles_shader_nodes_poll(context) or
eevee_shader_nodes_poll(context))
def object_cycles_shader_nodes_poll(context):
return (object_shader_nodes_poll(context) and
cycles_shader_nodes_poll(context))
def object_eevee_shader_nodes_poll(context):
return (object_shader_nodes_poll(context) and
eevee_shader_nodes_poll(context))
def object_eevee_cycles_shader_nodes_poll(context):
return (object_shader_nodes_poll(context) and
eevee_cycles_shader_nodes_poll(context))
# All standard node categories currently used in nodes.
shader_node_categories = [
# Shader Nodes (Cycles and Eevee)
ShaderNodeCategory("SH_NEW_INPUT", "Input", items=[
NodeItem("ShaderNodeTexCoord"),
NodeItem("ShaderNodeAttribute"),
NodeItem("ShaderNodeLightPath"),
NodeItem("ShaderNodeFresnel"),
NodeItem("ShaderNodeLayerWeight"),
NodeItem("ShaderNodeRGB"),
NodeItem("ShaderNodeValue"),
NodeItem("ShaderNodeTangent"),
NodeItem("ShaderNodeNewGeometry"),
NodeItem("ShaderNodeWireframe"),
NodeItem("ShaderNodeBevel"),
NodeItem("ShaderNodeAmbientOcclusion"),
NodeItem("ShaderNodeObjectInfo"),
NodeItem("ShaderNodeHairInfo"),
NodeItem("ShaderNodeVolumeInfo"),
NodeItem("ShaderNodeParticleInfo"),
NodeItem("ShaderNodeCameraData"),
NodeItem("ShaderNodeUVMap"),
NodeItem("ShaderNodeVertexColor"),
NodeItem("ShaderNodeUVAlongStroke", poll=line_style_shader_nodes_poll),
]),
ShaderNodeCategory("SH_NEW_OUTPUT", "Output", items=[
NodeItem("ShaderNodeOutputMaterial", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeOutputLight", poll=object_cycles_shader_nodes_poll),
NodeItem("ShaderNodeOutputAOV"),
NodeItem("ShaderNodeOutputWorld", poll=world_shader_nodes_poll),
NodeItem("ShaderNodeOutputLineStyle", poll=line_style_shader_nodes_poll),
]),
ShaderNodeCategory("SH_NEW_SHADER", "Shader", items=[
NodeItem("ShaderNodeMixShader", poll=eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeAddShader", poll=eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfDiffuse", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfPrincipled", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfGlossy", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfTransparent", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfRefraction", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfGlass", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfTranslucent", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfAnisotropic", poll=object_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfVelvet", poll=object_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfToon", poll=object_cycles_shader_nodes_poll),
NodeItem("ShaderNodeSubsurfaceScattering", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeEmission", poll=eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBsdfHair", poll=object_cycles_shader_nodes_poll),
NodeItem("ShaderNodeBackground", poll=world_shader_nodes_poll),
NodeItem("ShaderNodeHoldout", poll=object_eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeVolumeAbsorption", poll=eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeVolumeScatter", poll=eevee_cycles_shader_nodes_poll),
NodeItem("ShaderNodeVolumePrincipled"),
NodeItem("ShaderNodeEeveeSpecular", poll=object_eevee_shader_nodes_poll),
NodeItem("ShaderNodeBsdfHairPrincipled", poll=object_cycles_shader_nodes_poll)
]),
ShaderNodeCategory("SH_NEW_TEXTURE", "Texture", items=[
NodeItem("ShaderNodeTexImage"),
NodeItem("ShaderNodeTexEnvironment"),
NodeItem("ShaderNodeTexSky"),
NodeItem("ShaderNodeTexNoise"),
NodeItem("ShaderNodeTexWave"),
NodeItem("ShaderNodeTexVoronoi"),
NodeItem("ShaderNodeTexMusgrave"),
NodeItem("ShaderNodeTexGradient"),
NodeItem("ShaderNodeTexMagic"),
NodeItem("ShaderNodeTexChecker"),
NodeItem("ShaderNodeTexBrick"),
NodeItem("ShaderNodeTexPointDensity"),
NodeItem("ShaderNodeTexIES"),
NodeItem("ShaderNodeTexWhiteNoise"),
]),
ShaderNodeCategory("SH_NEW_OP_COLOR", "Color", items=[
NodeItem("ShaderNodeMixRGB"),
NodeItem("ShaderNodeRGBCurve"),
NodeItem("ShaderNodeInvert"),
NodeItem("ShaderNodeLightFalloff"),
NodeItem("ShaderNodeHueSaturation"),
NodeItem("ShaderNodeGamma"),
NodeItem("ShaderNodeBrightContrast"),
]),
ShaderNodeCategory("SH_NEW_OP_VECTOR", "Vector", items=[
NodeItem("ShaderNodeMapping"),
NodeItem("ShaderNodeBump"),
NodeItem("ShaderNodeDisplacement"),
NodeItem("ShaderNodeVectorDisplacement"),
NodeItem("ShaderNodeNormalMap"),
NodeItem("ShaderNodeNormal"),
NodeItem("ShaderNodeVectorCurve"),
NodeItem("ShaderNodeVectorRotate"),
NodeItem("ShaderNodeVectorTransform"),
]),
ShaderNodeCategory("SH_NEW_CONVERTOR", "Converter", items=[
NodeItem("ShaderNodeMapRange"),
NodeItem("ShaderNodeClamp"),
NodeItem("ShaderNodeMath"),
NodeItem("ShaderNodeValToRGB"),
NodeItem("ShaderNodeRGBToBW"),
NodeItem("ShaderNodeShaderToRGB", poll=object_eevee_shader_nodes_poll),
NodeItem("ShaderNodeVectorMath"),
NodeItem("ShaderNodeSeparateRGB"),
NodeItem("ShaderNodeCombineRGB"),
NodeItem("ShaderNodeSeparateXYZ"),
NodeItem("ShaderNodeCombineXYZ"),
NodeItem("ShaderNodeSeparateHSV"),
NodeItem("ShaderNodeCombineHSV"),
NodeItem("ShaderNodeWavelength"),
NodeItem("ShaderNodeBlackbody"),
]),
ShaderNodeCategory("SH_NEW_SCRIPT", "Script", items=[
NodeItem("ShaderNodeScript"),
]),
ShaderNodeCategory("SH_NEW_GROUP", "Group", items=node_group_items),
ShaderNodeCategory("SH_NEW_LAYOUT", "Layout", items=[
NodeItem("NodeFrame"),
NodeItem("NodeReroute"),
]),
]
compositor_node_categories = [
# Compositor Nodes
CompositorNodeCategory("CMP_INPUT", "Input", items=[
NodeItem("CompositorNodeRLayers"),
NodeItem("CompositorNodeImage"),
NodeItem("CompositorNodeMovieClip"),
NodeItem("CompositorNodeMask"),
NodeItem("CompositorNodeRGB"),
NodeItem("CompositorNodeValue"),
NodeItem("CompositorNodeTexture"),
NodeItem("CompositorNodeBokehImage"),
NodeItem("CompositorNodeTime"),
NodeItem("CompositorNodeTrackPos"),
]),
CompositorNodeCategory("CMP_OUTPUT", "Output", items=[
NodeItem("CompositorNodeComposite"),
NodeItem("CompositorNodeViewer"),
NodeItem("CompositorNodeSplitViewer"),
NodeItem("CompositorNodeOutputFile"),
NodeItem("CompositorNodeLevels"),
]),
CompositorNodeCategory("CMP_OP_COLOR", "Color", items=[
NodeItem("CompositorNodeMixRGB"),
NodeItem("CompositorNodeAlphaOver"),
NodeItem("CompositorNodeInvert"),
NodeItem("CompositorNodeCurveRGB"),
NodeItem("CompositorNodeHueSat"),
NodeItem("CompositorNodeColorBalance"),
NodeItem("CompositorNodeHueCorrect"),
NodeItem("CompositorNodeBrightContrast"),
NodeItem("CompositorNodeGamma"),
NodeItem("CompositorNodeExposure"),
NodeItem("CompositorNodeColorCorrection"),
NodeItem("CompositorNodeTonemap"),
NodeItem("CompositorNodeZcombine"),
]),
CompositorNodeCategory("CMP_CONVERTOR", "Converter", items=[
NodeItem("CompositorNodeMath"),
NodeItem("CompositorNodeValToRGB"),
NodeItem("CompositorNodeSetAlpha"),
NodeItem("CompositorNodePremulKey"),
NodeItem("CompositorNodeIDMask"),
NodeItem("CompositorNodeRGBToBW"),
NodeItem("CompositorNodeSepRGBA"),
NodeItem("CompositorNodeCombRGBA"),
NodeItem("CompositorNodeSepHSVA"),
NodeItem("CompositorNodeCombHSVA"),
NodeItem("CompositorNodeSepYUVA"),
NodeItem("CompositorNodeCombYUVA"),
NodeItem("CompositorNodeSepYCCA"),
NodeItem("CompositorNodeCombYCCA"),
NodeItem("CompositorNodeSwitchView"),
]),
CompositorNodeCategory("CMP_OP_FILTER", "Filter", items=[
NodeItem("CompositorNodeBlur"),
NodeItem("CompositorNodeBilateralblur"),
NodeItem("CompositorNodeDilateErode"),
NodeItem("CompositorNodeDespeckle"),
NodeItem("CompositorNodeFilter"),
NodeItem("CompositorNodeBokehBlur"),
NodeItem("CompositorNodeVecBlur"),
NodeItem("CompositorNodeDefocus"),
NodeItem("CompositorNodeGlare"),
NodeItem("CompositorNodeInpaint"),
NodeItem("CompositorNodeDBlur"),
NodeItem("CompositorNodePixelate"),
NodeItem("CompositorNodeSunBeams"),
NodeItem("CompositorNodeDenoise"),
]),
CompositorNodeCategory("CMP_OP_VECTOR", "Vector", items=[
NodeItem("CompositorNodeNormal"),
NodeItem("CompositorNodeMapValue"),
NodeItem("CompositorNodeMapRange"),
NodeItem("CompositorNodeNormalize"),
NodeItem("CompositorNodeCurveVec"),
]),
CompositorNodeCategory("CMP_MATTE", "Matte", items=[
NodeItem("CompositorNodeKeying"),
NodeItem("CompositorNodeKeyingScreen"),
NodeItem("CompositorNodeChannelMatte"),
NodeItem("CompositorNodeColorSpill"),
NodeItem("CompositorNodeBoxMask"),
NodeItem("CompositorNodeEllipseMask"),
NodeItem("CompositorNodeLumaMatte"),
NodeItem("CompositorNodeDiffMatte"),
NodeItem("CompositorNodeDistanceMatte"),
NodeItem("CompositorNodeChromaMatte"),
NodeItem("CompositorNodeColorMatte"),
NodeItem("CompositorNodeDoubleEdgeMask"),
NodeItem("CompositorNodeCryptomatte"),
NodeItem("CompositorNodeCryptomatteV2"),
]),
CompositorNodeCategory("CMP_DISTORT", "Distort", items=[
NodeItem("CompositorNodeScale"),
NodeItem("CompositorNodeLensdist"),
NodeItem("CompositorNodeMovieDistortion"),
NodeItem("CompositorNodeTranslate"),
NodeItem("CompositorNodeRotate"),
NodeItem("CompositorNodeFlip"),
NodeItem("CompositorNodeCrop"),
NodeItem("CompositorNodeDisplace"),
NodeItem("CompositorNodeMapUV"),
NodeItem("CompositorNodeTransform"),
NodeItem("CompositorNodeStabilize"),
NodeItem("CompositorNodePlaneTrackDeform"),
NodeItem("CompositorNodeCornerPin"),
]),
CompositorNodeCategory("CMP_GROUP", "Group", items=node_group_items),
CompositorNodeCategory("CMP_LAYOUT", "Layout", items=[
NodeItem("NodeFrame"),
NodeItem("NodeReroute"),
NodeItem("CompositorNodeSwitch"),
]),
]
texture_node_categories = [
# Texture Nodes
TextureNodeCategory("TEX_INPUT", "Input", items=[
NodeItem("TextureNodeCurveTime"),
NodeItem("TextureNodeCoordinates"),
NodeItem("TextureNodeTexture"),
NodeItem("TextureNodeImage"),
]),
TextureNodeCategory("TEX_OUTPUT", "Output", items=[
NodeItem("TextureNodeOutput"),
NodeItem("TextureNodeViewer"),
]),
TextureNodeCategory("TEX_OP_COLOR", "Color", items=[
NodeItem("TextureNodeMixRGB"),
NodeItem("TextureNodeCurveRGB"),
NodeItem("TextureNodeInvert"),
NodeItem("TextureNodeHueSaturation"),
NodeItem("TextureNodeCompose"),
NodeItem("TextureNodeDecompose"),
]),
TextureNodeCategory("TEX_PATTERN", "Pattern", items=[
NodeItem("TextureNodeChecker"),
NodeItem("TextureNodeBricks"),
]),
TextureNodeCategory("TEX_TEXTURE", "Textures", items=[
NodeItem("TextureNodeTexNoise"),
NodeItem("TextureNodeTexDistNoise"),
NodeItem("TextureNodeTexClouds"),
NodeItem("TextureNodeTexBlend"),
NodeItem("TextureNodeTexVoronoi"),
NodeItem("TextureNodeTexMagic"),
NodeItem("TextureNodeTexMarble"),
NodeItem("TextureNodeTexWood"),
NodeItem("TextureNodeTexMusgrave"),
NodeItem("TextureNodeTexStucci"),
]),
TextureNodeCategory("TEX_CONVERTOR", "Converter", items=[
NodeItem("TextureNodeMath"),
NodeItem("TextureNodeValToRGB"),
NodeItem("TextureNodeRGBToBW"),
NodeItem("TextureNodeValToNor"),
NodeItem("TextureNodeDistance"),
]),
TextureNodeCategory("TEX_DISTORT", "Distort", items=[
NodeItem("TextureNodeScale"),
NodeItem("TextureNodeTranslate"),
NodeItem("TextureNodeRotate"),
NodeItem("TextureNodeAt"),
]),
TextureNodeCategory("TEX_GROUP", "Group", items=node_group_items),
TextureNodeCategory("TEX_LAYOUT", "Layout", items=[
NodeItem("NodeFrame"),
NodeItem("NodeReroute"),
]),
]
def not_implemented_node(idname):
NodeType = getattr(bpy.types, idname)
name = NodeType.bl_rna.name
label = "%s (mockup)" % name
return NodeItem(idname, label=label)
geometry_node_categories = [
# Geometry Nodes
GeometryNodeCategory("GEO_ATTRIBUTE", "Attribute", items=[
NodeItem("GeometryNodeAttributeRandomize"),
NodeItem("GeometryNodeAttributeMath"),
NodeItem("GeometryNodeAttributeCompare"),
NodeItem("GeometryNodeAttributeConvert"),
NodeItem("GeometryNodeAttributeFill"),
NodeItem("GeometryNodeAttributeMix"),
NodeItem("GeometryNodeAttributeProximity"),
NodeItem("GeometryNodeAttributeColorRamp"),
NodeItem("GeometryNodeAttributeVectorMath"),
NodeItem("GeometryNodeAttributeSampleTexture"),
NodeItem("GeometryNodeAttributeCombineXYZ"),
NodeItem("GeometryNodeAttributeSeparateXYZ"),
NodeItem("GeometryNodeAttributeRemove"),
]),
GeometryNodeCategory("GEO_COLOR", "Color", items=[
NodeItem("ShaderNodeValToRGB"),
NodeItem("ShaderNodeSeparateRGB"),
NodeItem("ShaderNodeCombineRGB"),
]),
GeometryNodeCategory("GEO_GEOMETRY", "Geometry", items=[
NodeItem("GeometryNodeTransform"),
NodeItem("GeometryNodeJoinGeometry"),
]),
GeometryNodeCategory("GEO_INPUT", "Input", items=[
NodeItem("GeometryNodeObjectInfo"),
NodeItem("GeometryNodeCollectionInfo"),
NodeItem("FunctionNodeRandomFloat"),
NodeItem("ShaderNodeValue"),
NodeItem("FunctionNodeInputString"),
NodeItem("FunctionNodeInputVector"),
NodeItem("GeometryNodeIsViewport"),
]),
GeometryNodeCategory("GEO_MESH", "Mesh", items=[
NodeItem("GeometryNodeBoolean"),
NodeItem("GeometryNodeTriangulate"),
NodeItem("GeometryNodeEdgeSplit"),
NodeItem("GeometryNodeSubdivideSmooth"),
NodeItem("GeometryNodeSubdivide"),
]),
GeometryNodeCategory("GEO_POINT", "Point", items=[
NodeItem("GeometryNodePointDistribute"),
NodeItem("GeometryNodePointInstance"),
NodeItem("GeometryNodePointSeparate"),
NodeItem("GeometryNodePointScale"),
NodeItem("GeometryNodePointTranslate"),
NodeItem("GeometryNodeRotatePoints"),
NodeItem("GeometryNodeAlignRotationToVector"),
]),
GeometryNodeCategory("GEO_VOLUME", "Volume", items=[
NodeItem("GeometryNodePointsToVolume"),
NodeItem("GeometryNodeVolumeToMesh"),
]),
GeometryNodeCategory("GEO_UTILITIES", "Utilities", items=[
NodeItem("ShaderNodeMapRange"),
NodeItem("ShaderNodeClamp"),
NodeItem("ShaderNodeMath"),
NodeItem("FunctionNodeBooleanMath"),
NodeItem("FunctionNodeFloatCompare"),
]),
GeometryNodeCategory("GEO_VECTOR", "Vector", items=[
NodeItem("ShaderNodeSeparateXYZ"),
NodeItem("ShaderNodeCombineXYZ"),
NodeItem("ShaderNodeVectorMath"),
NodeItem("ShaderNodeVectorRotate"),
]),
GeometryNodeCategory("GEO_GROUP", "Group", items=node_group_items),
GeometryNodeCategory("GEO_LAYOUT", "Layout", items=[
NodeItem("NodeFrame"),
NodeItem("NodeReroute"),
]),
# NodeItem("FunctionNodeCombineStrings"),
# NodeItem("FunctionNodeGroupInstanceID"),
]
def register():
nodeitems_utils.register_node_categories('SHADER', shader_node_categories)
nodeitems_utils.register_node_categories('COMPOSITING', compositor_node_categories)
nodeitems_utils.register_node_categories('TEXTURE', texture_node_categories)
nodeitems_utils.register_node_categories('GEOMETRY', geometry_node_categories)
def unregister():
nodeitems_utils.unregister_node_categories('SHADER')
nodeitems_utils.unregister_node_categories('COMPOSITING')
nodeitems_utils.unregister_node_categories('TEXTURE')
nodeitems_utils.unregister_node_categories('GEOMETRY')
if __name__ == "__main__":
register()
Reference in New Issue View Git Blame Copy Permalink