Volume 

_{Blender reference : GeometryNodeBoundBox, Node ‘Bounding Box’}

from geonodes import nodes
nodes.BoundingBox(geometry=self, label=f"{self.node_chain_label}.bound_box")

property box

Geometry node [Bounding Box].

Returns: Sockets [bounding_box (Geometry), min (Vector), max (Vector)]

Node creation

_{Blender reference : GeometryNodeBoundBox, Node ‘Bounding Box’}

from geonodes import nodes
nodes.BoundingBox(geometry=self, label=f"{self.node_chain_label}.box")

property box_max

Geometry node [Bounding Box].

Returns: Sockets [bounding_box (Geometry), min (Vector), max (Vector)]

Node creation

_{Blender reference : GeometryNodeBoundBox, Node ‘Bounding Box’}

from geonodes import nodes
nodes.BoundingBox(geometry=self, label=f"{self.node_chain_label}.box_max")

property box_min

Geometry node [Bounding Box].

Returns: Sockets [bounding_box (Geometry), min (Vector), max (Vector)]

Node creation

_{Blender reference : GeometryNodeBoundBox, Node ‘Bounding Box’}

from geonodes import nodes
nodes.BoundingBox(geometry=self, label=f"{self.node_chain_label}.box_min")

bsocket: The wrapped geometry node socket

capture_attribute(value=None, data_type='FLOAT', domain='POINT', node_label=None, node_color=None)

Geometry node [Capture Attribute].

Parameters

value – Float
data_type (str) – ‘FLOAT’ in [FLOAT, INT, FLOAT_VECTOR, FLOAT_COLOR, BOOLEAN]
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Sockets [geometry (Geometry), attribute (data_type dependant)]

Node creation

Node CaptureAttribute

_{Blender reference : GeometryNodeCaptureAttribute, Node ‘Capture Attribute’}

from geonodes import nodes
nodes.CaptureAttribute(geometry=self, value=value, data_type=data_type, domain=domain, label=node_label, node_color=node_color)

property component_OLD

Component in (‘MESH’, ‘POINTCLOUD’, ‘CURVE’, ‘INSTANCES’, ‘VOLUME’)

return ‘GEOMETRY’ if not determined

components(selection=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Separate Geometry].

Parameters

selection – Boolean
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Sockets [selection (Geometry), inverted (Geometry)]

Node creation

Node SeparateGeometry

_{Blender reference : GeometryNodeSeparateGeometry, Node ‘Separate Geometry’}

from geonodes import nodes
nodes.SeparateGeometry(geometry=self, selection=selection, domain=domain, label=node_label, node_color=node_color)

connected_sockets(): Returns the list of Socket instances linked to this socket.

convex_hull(node_label=None, node_color=None)

Geometry node [Convex Hull].

Parameters

node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node ConvexHull

_{Blender reference : GeometryNodeConvexHull, Node ‘Convex Hull’}

from geonodes import nodes
nodes.ConvexHull(geometry=self, label=node_label, node_color=node_color)

property curve_component

Geometry node [Separate Components].

Returns: Sockets [mesh (Mesh), point_cloud (Geometry), curve (Curve), volume (Volume), instances (Instances)]

Node creation

_{Blender reference : GeometryNodeSeparateComponents, Node ‘Separate Components’}

from geonodes import nodes
nodes.SeparateComponents(geometry=self, label=f"{self.node_chain_label}.curve_component")

data_socket: Used by domain

delete_geometry(selection=None, domain='POINT', mode='ALL', node_label=None, node_color=None)

Geometry node [Delete Geometry].

Parameters

selection – Boolean
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CURVE, INSTANCE]
mode (str) – ‘ALL’ in [ALL, EDGE_FACE, ONLY_FACE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node DeleteGeometry

_{Blender reference : GeometryNodeDeleteGeometry, Node ‘Delete Geometry’}

from geonodes import nodes
nodes.DeleteGeometry(geometry=self, selection=selection, domain=domain, mode=mode, label=node_label, node_color=node_color)

static domain_data_type(value)

Returns the domain to which the socket belongs

Parameters: value (bpy.types.NodeSocket, Socket) – The socket
Returns: Domain code in [‘BOOLEAN’, ‘INT’, ‘FLOAT’, ‘FLOAT_VECTOR’, ‘FLOAT_COLOR’]
Return type: str

Correspondance table
Socket bl_idname	Domain code
NodeSocketBool	‘BOOLEAN’
NodeSocketInt	‘INT’
NodeSocketIntUnsigned	‘INT’
NodeSocketFloat	‘FLOAT’
NodeSocketFloatFactor	‘FLOAT’
NodeSocketFloatAngle	‘FLOAT’
NodeSocketFloatDistance	‘FLOAT’
NodeSocketVector	‘FLOAT_VECTOR’
NodeSocketVectorEuler	‘FLOAT_VECTOR’
NodeSocketVectorXYZ	‘FLOAT_VECTOR’
NodeSocketVectorTranslation	‘FLOAT_VECTOR’
NodeSocketColor	‘FLOAT_COLOR’
NodeSocketString	‘FLOAT_COLOR’

duplicate(count=10, realize=True)

Duplicate the geometry

Parameters

count (int) – Number of instances to create
realize (bool) – True to realize the instances

Returns

Instances or Geometry

The duplication is performed by instantiating the geometry along the vertices of a Mesh Line initialized with count points.

The operator * can be used to operate this method with realize = True:

curves = curve * 10

# is equivalent to

curves = curve.duplicate(10, realize=True)

duplicate_elements(selection=None, amount=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Duplicate Elements].

Parameters

selection – Boolean
amount – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, SPLINE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Sockets [geometry (Geometry), duplicate_index (Integer)]

Node creation

Node DuplicateElements

_{Blender reference : GeometryNodeDuplicateElements, Node ‘Duplicate Elements’}

from geonodes import nodes
nodes.DuplicateElements(geometry=self, selection=selection, amount=amount, domain=domain, label=node_label, node_color=node_color)

duplicate_points(selection=None, amount=None, node_label=None, node_color=None)

Geometry node [Duplicate Elements].

Parameters

selection – Boolean
amount – Integer
node_label (str) – Node label
node_color (color) – Node background color

Returns

Sockets [geometry (Geometry), duplicate_index (Integer)]

Node creation

Node DuplicateElements

domain = ‘POINT’

_{Blender reference : GeometryNodeDuplicateElements, Node ‘Duplicate Elements’}

from geonodes import nodes
nodes.DuplicateElements(geometry=self, selection=selection, amount=amount, domain='POINT', label=node_label, node_color=node_color)

field_of: Used by field to implement transfer attribute mechanism. This property is set to all node output sockets.

static get_bl_idname(class_name)

Get the node socket bl_idname name from the Socket class

Parameters: class_name (str) – The class name
Returns: The bl_idname associated to this class name
Return type: str

Used to create a new group input socket. Called in DataClass.Input method to determine which socket type must be created.

Note that here the class_name argument accepts additional values which correspond to sub classes:

Unsigned	Integer sub class (NodeSocketIntUnsigned)
Factor	Float sub class (NodeSocketFloatFactor)
Angle	Float sub class (NodeSocketFloatAngle)
Distance	Float sub class (NodeSocketFloatDistance)
Rotation	Vector sub class (NodeSocketVectorEuler)
xyz	Vector sub class (NodeSocketVectorXYZ)
Translation	Vector sub class (NodeSocketVectorTranslation)

These additional values allow to enter angle, distance, factor… as group input values.

get_blender_socket()

Returns the property bsocket.

Returns: self.bsocket
Return type: bpy.types.NodeSocket

static get_class_name(socket, with_sub_class=False)

Get the DataSocket class name corresponding to the socket type and name.

Parameters

socket – The socket to determine the class of
with_sub_class (bool) – Return the sub class if True

Typ socket

bpy.types.NodeSocket, Socket

Returns

The name of the class associated to the bl_idname of the socket

Return type

str

Correspondance table
NodeSocket	class name	sub class name
NodeSocketBool	‘Boolean’
NodeSocketInt	‘Integer’
NodeSocketIntUnsigned	‘Integer’	‘Unsigned’
NodeSocketFloat	‘Float’
NodeSocketFloatFactor	‘Float’	‘Factor’
NodeSocketFloatAngle	‘Float’	‘Angle’
NodeSocketFloatDistance	‘Float’	‘Distance’
NodeSocketVector	‘Vector’
NodeSocketVectorEuler	‘Vector’	‘Rotation’
NodeSocketVectorXYZ	‘Vector’	‘xyz’
NodeSocketVectorTranslation	‘Vector’	‘Translation’
NodeSocketColor	‘Color’
NodeSocketString’	‘String’
NodeSocketCollection	‘Collection’
NodeSocketImage	‘Image’
NodeSocketMaterial	‘Material’
NodeSocketObject	‘Object’
NodeSocketTexture	‘Texture’
NodeSocketGeometry	‘Geometry’

If the name of the socket is in [‘Mesh’, ‘Points’, ‘Instances’, ‘Volume’, ‘Spline’, ‘Curve’], the name is chosen as the class name.

static gives_bsocket(value)

Test if the argument provides a valid output socket.

Parameters: value (any) – The value to test
Returns: True if value is or wraps a socket
Return type: bool

Returns True if value is:

A Blender Geometry Node Socket
An instance of Socket

init_domains()

Initialize the geometry domains

To be overloaded by sub classes.

init_socket()

Complementary init

Called at the end of initialization for further operations.

property instances_component

Geometry node [Separate Components].

Returns: Sockets [mesh (Mesh), point_cloud (Geometry), curve (Curve), volume (Volume), instances (Instances)]

Node creation

_{Blender reference : GeometryNodeSeparateComponents, Node ‘Separate Components’}

from geonodes import nodes
nodes.SeparateComponents(geometry=self, label=f"{self.node_chain_label}.instances_component")

property is_multi_input: Shortcut for self.bsocket.is_multi_output

property is_output: Shortcut for self.bsocket.is_output

static is_socket(value)

An alternative to isinstance(value, Socket)

Parameters: value (any) – The value to test
Returns: True if value is an instance of Socket
Return type: bool

static is_viewport(node_label=None, node_color=None)

Geometry node [Is Viewport].

Parameters

node_label (str) – Node label
node_color (color) – Node background color

Returns

Boolean

Node creation

Node IsViewport

_{Blender reference : GeometryNodeIsViewport, Node ‘Is Viewport’}

from geonodes import nodes
nodes.IsViewport(label=node_label, node_color=node_color)

join(*geometry, node_label=None, node_color=None)

Geometry node [Join Geometry].

Parameters

node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node JoinGeometry

_{Blender reference : GeometryNodeJoinGeometry, Node ‘Join Geometry’}

from geonodes import nodes
nodes.JoinGeometry(self, *geometry, label=node_label, node_color=node_color)

property links: Shortcut for self.bsocket.links

merge_by_distance(selection=None, distance=None, mode='ALL', node_label=None, node_color=None)

Geometry node [Merge by Distance].

Parameters

selection – Boolean
distance – Float
mode (str) – ‘ALL’ in [ALL, CONNECTED]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node MergeByDistance

_{Blender reference : GeometryNodeMergeByDistance, Node ‘Merge by Distance’}

from geonodes import nodes
nodes.MergeByDistance(geometry=self, selection=selection, distance=distance, mode=mode, label=node_label, node_color=node_color)

property mesh_component

Geometry node [Separate Components].

Returns: Sockets [mesh (Mesh), point_cloud (Geometry), curve (Curve), volume (Volume), instances (Instances)]

Node creation

_{Blender reference : GeometryNodeSeparateComponents, Node ‘Separate Components’}

from geonodes import nodes
nodes.SeparateComponents(geometry=self, label=f"{self.node_chain_label}.mesh_component")

property name: Shortcut for self.bsocket.name

node: The owning node

property node_chain_label: Shortcut for self.node.chain_label

plug(*values)

Plug values in the socket (input sockets only)

Parameters: values (array of bpy.types.NodeSocket, Socket, values) – The output sockets. More than one values can be passed if the input socket is multi input.

see plug_bsocket()

static plug_bsocket(bsocket, *values)

Plug the values to the input Blender socket.

Parameters

bsocket (bpy.types.NodeSocket, Socket) – The input socket to plug into
values (array of bpy.types.NodeSocket, Socket, values) – The output sockets. More than one values can be passed if the input socket is multi input.

Warning

bsocket must be an input socket and values must be output sockets-like.

This static method is called by the DataClass method plug().

This method is the one which links an output socket of a node to the input socket of another one.

If the socket is multi input, the plug method is called once per provided value. If a value is None, nothing happens.

A not None value can be:

either a valid value for the socket (eg: 123 for Integer socket)
or an output socket of another Node

When it is a socket, it can be a Blender socket or a DataSocket

property points_component

Geometry node [Separate Components].

Returns: Sockets [mesh (Mesh), point_cloud (Geometry), curve (Curve), volume (Volume), instances (Instances)]

Node creation

_{Blender reference : GeometryNodeSeparateComponents, Node ‘Separate Components’}

from geonodes import nodes
nodes.SeparateComponents(geometry=self, label=f"{self.node_chain_label}.points_component")

proximity(source_position=None, target_element='FACES', node_label=None, node_color=None)

Geometry node [Geometry Proximity].

Parameters

source_position – Vector
target_element (str) – ‘FACES’ in [POINTS, EDGES, FACES]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Sockets [position (Vector), distance (Float)]

Node creation

Node GeometryProximity

_{Blender reference : GeometryNodeProximity, Node ‘Geometry Proximity’}

from geonodes import nodes
nodes.GeometryProximity(target=self, source_position=source_position, target_element=target_element, label=node_label, node_color=node_color)

remove_named_attribute(name=None, node_label=None, node_color=None)

Geometry node [Remove Named Attribute].

Parameters

name – String
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node RemoveNamedAttribute

_{Blender reference : GeometryNodeRemoveAttribute, Node ‘Remove Named Attribute’}

from geonodes import nodes
nodes.RemoveNamedAttribute(geometry=self, name=name, label=node_label, node_color=node_color)

replace_material(old=None, new=None, node_label=None, node_color=None)

Geometry node [Replace Material].

Parameters

old – Material
new – Material
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node ReplaceMaterial

_{Blender reference : GeometryNodeReplaceMaterial, Node ‘Replace Material’}

from geonodes import nodes
nodes.ReplaceMaterial(geometry=self, old=old, new=new, label=node_label, node_color=node_color)

reroute(): Reroute all output links

reset_properties()

Reset the properties

Properties such as components are cached.

After a node is called, the wrapped socket changes and this makes the cache obsolete. After a change, the cache is erased.

Example

class Vector(...):
    def __init__(self, ...):
         ...
         self.reset_properties()
         ...

     def reset_properties(self):
         super().reset_properties()
         self.separate_ = None      # Created by property self.seperate() with node SeparateXyz

scale_elements(selection=None, scale=None, center=None, axis=None, domain='FACE', scale_mode='UNIFORM', node_label=None, node_color=None)

Geometry node [Scale Elements].

Parameters

selection – Boolean
scale – Float
center – Vector
axis – Vector
domain (str) – ‘FACE’ in [FACE, EDGE]
scale_mode (str) – ‘UNIFORM’ in [UNIFORM, SINGLE_AXIS]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node ScaleElements

_{Blender reference : GeometryNodeScaleElements, Node ‘Scale Elements’}

from geonodes import nodes
nodes.ScaleElements(geometry=self, selection=selection, scale=scale, center=center, axis=axis, domain=domain, scale_mode=scale_mode, label=node_label, node_color=node_color)

set_ID(selection=None, ID=None, node_label=None, node_color=None)

Geometry node [Set ID].

Parameters

selection – Boolean
ID – Integer
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node SetID

_{Blender reference : GeometryNodeSetID, Node ‘Set ID’}

from geonodes import nodes
nodes.SetID(geometry=self, selection=selection, ID=ID, label=node_label, node_color=node_color)

set_material(selection=None, material=None, node_label=None, node_color=None)

Geometry node [Set Material].

Parameters

selection – Boolean
material – Material
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node SetMaterial

_{Blender reference : GeometryNodeSetMaterial, Node ‘Set Material’}

from geonodes import nodes
nodes.SetMaterial(geometry=self, selection=selection, material=material, label=node_label, node_color=node_color)

set_material_index(selection=None, material_index=None, node_label=None, node_color=None)

Geometry node [Set Material Index].

Parameters

selection – Boolean
material_index – Integer
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node SetMaterialIndex

_{Blender reference : GeometryNodeSetMaterialIndex, Node ‘Set Material Index’}

from geonodes import nodes
nodes.SetMaterialIndex(geometry=self, selection=selection, material_index=material_index, label=node_label, node_color=node_color)

set_position(selection=None, position=None, offset=None, node_label=None, node_color=None)

Geometry node [Set Position].

Parameters

selection – Boolean
position – Vector
offset – Vector
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node SetPosition

_{Blender reference : GeometryNodeSetPosition, Node ‘Set Position’}

from geonodes import nodes
nodes.SetPosition(geometry=self, selection=selection, position=position, offset=offset, label=node_label, node_color=node_color)

set_shade_smooth(selection=None, shade_smooth=None, node_label=None, node_color=None)

Geometry node [Set Shade Smooth].

Parameters

selection – Boolean
shade_smooth – Boolean
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node SetShadeSmooth

_{Blender reference : GeometryNodeSetShadeSmooth, Node ‘Set Shade Smooth’}

from geonodes import nodes
nodes.SetShadeSmooth(geometry=self, selection=selection, shade_smooth=shade_smooth, label=node_label, node_color=node_color)

show_handles()

Generate a mesh and cloud points to visualize the control points and handles

Returns: The geometry can be joined to the output
Return type: Geometry

Example

curve = ... # Curve initialization

visu = curve.show_handles()

tree.output_geometry = curve + visu

property socket_index

Return the index of the socket within the list of node sockets.

Depending on the _is_output_ property, the socket belongs either to node.inputs or node.outputs.

stack(node)

Change the wrapped socket

Parameters: node (Node) – The new node owning the output socket to wrap
Returns: self

Methods are implemented in two modes:

Creation
Transformation

In creation mode, the node is considered as creating new data. The result is a new instance of DataSocket.

In transformation mode, the node is considered as transforming data which is kept in the result of the method. After the method returns, the calling DataSocket instance refers to a new Blender output socket. The stack method changes the socket the instance refers to and reinitialize properties

# 1. Creation mode
#
# to_mesh method creates a new mesh from a curve.
# The curve instance refers to the same output node socket
# We need to get the result of the method in a new variable

new_mesh = curve.to_mesh(profile_curve=circle)

# 2. Transformation mode
#
# set_shade_smooth method transforms the mesh.
# After the call, the mesh instance refers to the output socket of the
# newly created node "Set Shade Smooth". There is no need to get the result
# of the method.

mesh.set_shade_smooth()

# Note that a transformation method returns self and so, the following line
# is equivallent:

mesh = mesh.set_shade_smooth()

store_named_attribute(name=None, value=None, data_type='FLOAT', domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Float
data_type (str) – ‘FLOAT’ in [FLOAT, INT, FLOAT_VECTOR, FLOAT_COLOR, BYTE_COLOR, BOOLEAN]
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type=data_type, domain=domain, label=node_label, node_color=node_color)

store_named_boolean(name=None, value=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Boolean
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

data_type = ‘BOOLEAN’

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type='BOOLEAN', domain=domain, label=node_label, node_color=node_color)

store_named_byte_color(name=None, value=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Color
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

data_type = ‘BYTE_COLOR’

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type='BYTE_COLOR', domain=domain, label=node_label, node_color=node_color)

store_named_color(name=None, value=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Color
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

data_type = ‘FLOAT_COLOR’

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type='FLOAT_COLOR', domain=domain, label=node_label, node_color=node_color)

store_named_float(name=None, value=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Float
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

data_type = ‘FLOAT’

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type='FLOAT', domain=domain, label=node_label, node_color=node_color)

store_named_integer(name=None, value=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

data_type = ‘INT’

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type='INT', domain=domain, label=node_label, node_color=node_color)

store_named_vector(name=None, value=None, domain='POINT', node_label=None, node_color=None)

Geometry node [Store Named Attribute].

Parameters

name – String
value – Vector
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

data_type = ‘FLOAT_VECTOR’

_{Blender reference : GeometryNodeStoreNamedAttribute, Node ‘Store Named Attribute’}

from geonodes import nodes
nodes.StoreNamedAttribute(geometry=self, name=name, value=value, data_type='FLOAT_VECTOR', domain=domain, label=node_label, node_color=node_color)

switch(switch=None, true=None, node_label=None, node_color=None)

Geometry node [Switch].

Parameters

switch – Boolean
true – Geometry
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node Switch

input_type = ‘GEOMETRY’

_{Blender reference : GeometryNodeSwitch, Node ‘Switch’}

from geonodes import nodes
nodes.Switch(false=self, switch=switch, true=true, input_type='GEOMETRY', label=node_label, node_color=node_color)

to_instance(*geometry, node_label=None, node_color=None)

Geometry node [Geometry to Instance].

Parameters

node_label (str) – Node label
node_color (color) – Node background color

Returns

Instances

Node creation

Node GeometryToInstance

_{Blender reference : GeometryNodeGeometryToInstance, Node ‘Geometry to Instance’}

from geonodes import nodes
nodes.GeometryToInstance(self, *geometry, label=node_label, node_color=node_color)

to_mesh(voxel_size=None, voxel_amount=None, threshold=None, adaptivity=None, resolution_mode='GRID', node_label=None, node_color=None)

Geometry node [Volume to Mesh].

Parameters

voxel_size – Float
voxel_amount – Float
threshold – Float
adaptivity – Float
resolution_mode (str) – ‘GRID’ in [GRID, VOXEL_AMOUNT, VOXEL_SIZE]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Mesh

Node creation

Node VolumeToMesh

_{Blender reference : GeometryNodeVolumeToMesh, Node ‘Volume to Mesh’}

from geonodes import nodes
nodes.VolumeToMesh(volume=self, voxel_size=voxel_size, voxel_amount=voxel_amount, threshold=threshold, adaptivity=adaptivity, resolution_mode=resolution_mode, label=node_label, node_color=node_color)

to_output(name=None)

Plug the data socket to the group output

Parameters: name (str) – The name to give to the modifier output

The socket is added to the outputs of the geometry nodes tree.

Note

To define a data socket as the result geometry of the tree, use tree.output_geometry = my_geometry.

transfer_boolean(attribute=None, source_position=None, index=None, domain='POINT', mapping='NEAREST_FACE_INTERPOLATED', node_label=None, node_color=None)

Geometry node [Transfer Attribute].

Parameters

attribute – Boolean
source_position – Vector
index – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
mapping (str) – ‘NEAREST_FACE_INTERPOLATED’ in [NEAREST_FACE_INTERPOLATED, NEAREST, INDEX]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Boolean

Node creation

data_type = ‘BOOLEAN’

_{Blender reference : GeometryNodeAttributeTransfer, Node ‘Transfer Attribute’}

from geonodes import nodes
nodes.TransferAttribute(source=self, attribute=attribute, source_position=source_position, index=index, data_type='BOOLEAN', domain=domain, mapping=mapping, label=node_label, node_color=node_color)

transfer_color(attribute=None, source_position=None, index=None, domain='POINT', mapping='NEAREST_FACE_INTERPOLATED', node_label=None, node_color=None)

Geometry node [Transfer Attribute].

Parameters

attribute – Color
source_position – Vector
index – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
mapping (str) – ‘NEAREST_FACE_INTERPOLATED’ in [NEAREST_FACE_INTERPOLATED, NEAREST, INDEX]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Color

Node creation

data_type = ‘FLOAT_COLOR’

_{Blender reference : GeometryNodeAttributeTransfer, Node ‘Transfer Attribute’}

from geonodes import nodes
nodes.TransferAttribute(source=self, attribute=attribute, source_position=source_position, index=index, data_type='FLOAT_COLOR', domain=domain, mapping=mapping, label=node_label, node_color=node_color)

transfer_float(attribute=None, source_position=None, index=None, domain='POINT', mapping='NEAREST_FACE_INTERPOLATED', node_label=None, node_color=None)

Geometry node [Transfer Attribute].

Parameters

attribute – Float
source_position – Vector
index – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
mapping (str) – ‘NEAREST_FACE_INTERPOLATED’ in [NEAREST_FACE_INTERPOLATED, NEAREST, INDEX]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Float

Node creation

data_type = ‘FLOAT’

_{Blender reference : GeometryNodeAttributeTransfer, Node ‘Transfer Attribute’}

from geonodes import nodes
nodes.TransferAttribute(source=self, attribute=attribute, source_position=source_position, index=index, data_type='FLOAT', domain=domain, mapping=mapping, label=node_label, node_color=node_color)

transfer_integer(attribute=None, source_position=None, index=None, domain='POINT', mapping='NEAREST_FACE_INTERPOLATED', node_label=None, node_color=None)

Geometry node [Transfer Attribute].

Parameters

attribute – Integer
source_position – Vector
index – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
mapping (str) – ‘NEAREST_FACE_INTERPOLATED’ in [NEAREST_FACE_INTERPOLATED, NEAREST, INDEX]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Integer

Node creation

data_type = ‘INT’

_{Blender reference : GeometryNodeAttributeTransfer, Node ‘Transfer Attribute’}

from geonodes import nodes
nodes.TransferAttribute(source=self, attribute=attribute, source_position=source_position, index=index, data_type='INT', domain=domain, mapping=mapping, label=node_label, node_color=node_color)

transfer_vector(attribute=None, source_position=None, index=None, domain='POINT', mapping='NEAREST_FACE_INTERPOLATED', node_label=None, node_color=None)

Geometry node [Transfer Attribute].

Parameters

attribute – Vector
source_position – Vector
index – Integer
domain (str) – ‘POINT’ in [POINT, EDGE, FACE, CORNER, CURVE, INSTANCE]
mapping (str) – ‘NEAREST_FACE_INTERPOLATED’ in [NEAREST_FACE_INTERPOLATED, NEAREST, INDEX]
node_label (str) – Node label
node_color (color) – Node background color

Returns

Vector

Node creation

data_type = ‘FLOAT_VECTOR’

_{Blender reference : GeometryNodeAttributeTransfer, Node ‘Transfer Attribute’}

from geonodes import nodes
nodes.TransferAttribute(source=self, attribute=attribute, source_position=source_position, index=index, data_type='FLOAT_VECTOR', domain=domain, mapping=mapping, label=node_label, node_color=node_color)

transform(translation=None, rotation=None, scale=None, node_label=None, node_color=None)

Geometry node [Transform].

Parameters

translation – Vector
rotation – Vector
scale – Vector
node_label (str) – Node label
node_color (color) – Node background color

Returns

Geometry

Node creation

Node Transform

_{Blender reference : GeometryNodeTransform, Node ‘Transform’}

from geonodes import nodes
nodes.Transform(geometry=self, translation=translation, rotation=rotation, scale=scale, label=node_label, node_color=node_color)

view()

Link the data socket to the viewer

If the data socket is a geometry (Curve, Mesh…) it is linked to the geometry input of the viewer.

If it ias a value (Integer, Float,…) it is linked to the value socket and the viewer is configured accordingly.

property volume_component

Geometry node [Separate Components].

Returns: Sockets [mesh (Mesh), point_cloud (Geometry), curve (Curve), volume (Volume), instances (Instances)]

Node creation