feat: Feature-parity with past.

We've added enough nodes to run simulations, and there is now only an
"air gap" remaining between the math nodes and the sim design nodes.

Of particular importance right now are:
- Finalizing the exporter w/Sim Data output.
- Finishing the plane wave, as well as other key source nodes (TFSF,
  Gaussian Beam, Plane Wave stand out in particular).
- Reduce node, as we need to be able to reconstruct total flux
  through a field monitor, as well as generally do statistics.
- Transform node, particularly w/pure-InfoFlow reindexing (we need to be
  able to reindex frequency -> vacwl), fourier transform (we need to be
  able to cast a time-domain field recording to frequency domain).
- Finish debugging the basic structures, in particular the Cylinder
  primitive, but also the generic GeoNodes node, so we can build the
  membrane properly.
- Ah yes, also, the grid definition. To satisfy the naysayers!
Sofus Albert Høgsbro Rose 2024-05-03 00:19:02 +02:00
parent 9df0d20c68
commit 22daa6c603
Signed by: so-rose
GPG Key ID: AD901CB0F3701434
33 changed files with 709 additions and 604 deletions

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@ -1,7 +1,7 @@
# Working TODO # Working TODO
- [x] Wave Constant - [x] Wave Constant
- Sources - Sources
- [ ] Temporal Shapes / Continuous Wave Temporal Shape - [x] Temporal Shapes / Continuous Wave Temporal Shape
- [ ] Temporal Shapes / Symbolic Temporal Shape - [ ] Temporal Shapes / Symbolic Temporal Shape
- [ ] Plane Wave Source - [ ] Plane Wave Source
- [ ] TFSF Source - [ ] TFSF Source
@ -149,9 +149,10 @@
## Sources ## Sources
- [x] Temporal Shapes / Gaussian Pulse Temporal Shape - [x] Temporal Shapes / Gaussian Pulse Temporal Shape
- [x] Temporal Shapes / Continuous Wave Temporal Shape - [x] Temporal Shapes / Continuous Wave Temporal Shape
- [ ] Merge Gaussian Pulse and Continuous Wave w/a socket set thing, since the I/O is effectively identical.
- [ ] Temporal Shapes / Expr Temporal Shape - [ ] Temporal Shapes / Expr Temporal Shape
- [ ] Specify a Sympy function / data to generate appropriate array based on - [ ] Specify a Sympy function / data to generate envelope data.
- [ ] Temporal Shapes / Data Temporal Shape - [ ] Merge with the above.
- [x] Point Dipole Source - [x] Point Dipole Source
- [ ] Use a viz mesh, not empty (empty doesn't play well with alpha hashing). - [ ] Use a viz mesh, not empty (empty doesn't play well with alpha hashing).

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@ -24,3 +24,10 @@ class OperatorType(enum.StrEnum):
# Node: Tidy3DWebImporter # Node: Tidy3DWebImporter
NodeLoadCloudSim = enum.auto() NodeLoadCloudSim = enum.auto()
# Node: Tidy3DWebExporter
NodeUploadSimulation = enum.auto()
NodeRunSimulation = enum.auto()
NodeReloadTrackedTask = enum.auto()
NodeEstCostTrackedTask = enum.auto()
ReleaseTrackedTask = enum.auto()

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@ -40,7 +40,7 @@ from .flow_signals import FlowSignal
from .icons import Icon from .icons import Icon
from .mobj_types import ManagedObjType from .mobj_types import ManagedObjType
from .node_types import NodeType from .node_types import NodeType
from .sim_types import BoundCondType, SimSpaceAxis from .sim_types import BoundCondType, SimSpaceAxis, manual_amp_time
from .socket_colors import SOCKET_COLORS from .socket_colors import SOCKET_COLORS
from .socket_types import SocketType from .socket_types import SocketType
from .tree_types import TreeType from .tree_types import TreeType
@ -80,6 +80,7 @@ __all__ = [
'NodeType', 'NodeType',
'BoundCondType', 'BoundCondType',
'SimSpaceAxis', 'SimSpaceAxis',
'manual_amp_time',
'NodeCategory', 'NodeCategory',
'NODE_CAT_LABELS', 'NODE_CAT_LABELS',
'ManagedObjType', 'ManagedObjType',

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@ -5,11 +5,13 @@ import typing as typ
import bpy import bpy
import sympy as sp import sympy as sp
from blender_maxwell.utils import blender_type_enum
from blender_maxwell.utils import extra_sympy_units as spux from blender_maxwell.utils import extra_sympy_units as spux
from blender_maxwell.utils import logger
from .socket_types import SocketType from .socket_types import SocketType
log = logger.get(__name__)
BL_SOCKET_DESCR_ANNOT_STRING = ':: ' BL_SOCKET_DESCR_ANNOT_STRING = ':: '
@ -190,13 +192,14 @@ class BLSocketType(enum.StrEnum):
return { return {
BLST.Color: S.Vec4, BLST.Color: S.Vec4,
BLST.Rotation: S.Vec3, BLST.Rotation: S.Vec3,
BLST.Vector: S.Vec3,
BLST.VectorAcceleration: S.Vec3, BLST.VectorAcceleration: S.Vec3,
BLST.VectorDirection: S.Vec3, BLST.VectorDirection: S.Vec3,
BLST.VectorEuler: S.Vec3, BLST.VectorEuler: S.Vec3,
BLST.VectorTranslation: S.Vec3, BLST.VectorTranslation: S.Vec3,
BLST.VectorVelocity: S.Vec3, BLST.VectorVelocity: S.Vec3,
BLST.VectorXYZ: S.Vec3, BLST.VectorXYZ: S.Vec3,
}.get(self, {S.Scalar}) }.get(self, S.Scalar)
@property @property
def unambiguous_physical_type(self) -> spux.PhysicalType | None: def unambiguous_physical_type(self) -> spux.PhysicalType | None:

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@ -111,7 +111,10 @@ class CapabilitiesFlow:
for name in self.must_match for name in self.must_match
) )
# ∀b (b ∈ A) Constraint # ∀b (b ∈ A) Constraint
and self.present_any.issubset(other.allow_any) and (
self.present_any & other.allow_any
or (not self.present_any and not self.allow_any)
)
) )
@ -777,7 +780,7 @@ class ParamsFlow:
raise ValueError(msg) raise ValueError(msg)
return [ return [
spux.convert_to_unit_system(arg, unit_system, use_jax_array=True) spux.scale_to_unit_system(arg, unit_system, use_jax_array=True)
if arg not in symbol_values if arg not in symbol_values
else symbol_values[arg] else symbol_values[arg]
for arg in self.func_args for arg in self.func_args

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@ -3,11 +3,45 @@
import enum import enum
import typing as typ import typing as typ
import jax.numpy as jnp
import tidy3d as td import tidy3d as td
def manual_amp_time(self, time: float) -> complex:
"""Copied implementation of `pulse.amp_time` for `tidy3d` temporal shapes, which replaces use of `numpy` with `jax.numpy` for `jit`-ability.
Since the function is detached from the method, `self` is not implicitly available. It should be pre-defined from a real source time object using `functools.partial`, before `jax.jit`ing.
## License
**This function is directly copied from `tidy3d`**.
As such, it should be considered available under the `tidy3d` license (as of writing, LGPL 2.1): <https://github.com/flexcompute/tidy3d/blob/develop/LICENSE>
## Reference
Permalink to GitHub source code: <https://github.com/flexcompute/tidy3d/blob/3ee34904eb6687a86a5fb3f4ed6d3295c228cd83/tidy3d/components/source.py#L143C1-L163C25>
"""
twidth = 1.0 / (2 * jnp.pi * self.fwidth)
omega0 = 2 * jnp.pi * self.freq0
time_shifted = time - self.offset * twidth
offset = jnp.exp(1j * self.phase)
oscillation = jnp.exp(-1j * omega0 * time)
amp = jnp.exp(-(time_shifted**2) / 2 / twidth**2) * self.amplitude
pulse_amp = offset * oscillation * amp
# subtract out DC component
if self.remove_dc_component:
pulse_amp = pulse_amp * (1j + time_shifted / twidth**2 / omega0)
else:
# 1j to make it agree in large omega0 limit
pulse_amp = pulse_amp * 1j
return pulse_amp
## TODO: Sim Domain type, w/pydantic checks! ## TODO: Sim Domain type, w/pydantic checks!
class SimSpaceAxis(enum.StrEnum): class SimSpaceAxis(enum.StrEnum):
"""The axis labels of the global simulation coordinate system.""" """The axis labels of the global simulation coordinate system."""
@ -61,13 +95,13 @@ class BoundCondType(enum.StrEnum):
Attributes: Attributes:
Pml: "Perfectly Matched Layer" models infinite free space. Pml: "Perfectly Matched Layer" models infinite free space.
**Should be placed sufficiently far** (ex. $\frac{\lambda}{2}) from any active structures to mitigate divergence. **Should be placed sufficiently far** (ex. $\frac{\lambda}{2}) from any active structures to mitigate divergence.
Periodic: Denotes Bloch-basedrepetition Periodic: Denotes naive Bloch boundaries (aka. periodic w/phase shift of 0).
Pec: "Perfect Electrical Conductor" models a surface that perfectly reflects electric fields. Pec: "Perfect Electrical Conductor" models a surface that perfectly reflects electric fields.
Pmc: "Perfect Magnetic Conductor" models a surface that perfectly reflects the magnetic fields. Pmc: "Perfect Magnetic Conductor" models a surface that perfectly reflects the magnetic fields.
""" """
Pml = enum.auto() Pml = enum.auto()
Periodic = enum.auto() NaiveBloch = enum.auto()
Pec = enum.auto() Pec = enum.auto()
Pmc = enum.auto() Pmc = enum.auto()
@ -86,7 +120,7 @@ class BoundCondType(enum.StrEnum):
BCT.Pml: 'PML', BCT.Pml: 'PML',
BCT.Pec: 'PEC', BCT.Pec: 'PEC',
BCT.Pmc: 'PMC', BCT.Pmc: 'PMC',
BCT.Periodic: 'Periodic', BCT.NaiveBloch: 'NaiveBloch',
}[v] }[v]
@staticmethod @staticmethod
@ -115,5 +149,5 @@ class BoundCondType(enum.StrEnum):
BCT.Pml: td.PML(), BCT.Pml: td.PML(),
BCT.Pec: td.PECBoundary(), BCT.Pec: td.PECBoundary(),
BCT.Pmc: td.PMCBoundary(), BCT.Pmc: td.PMCBoundary(),
BCT.Periodic: td.Periodic(), BCT.NaiveBloch: td.Periodic(),
}[self] }[self]

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@ -5,10 +5,9 @@ from . import (
mediums, mediums,
monitors, monitors,
outputs, outputs,
# simulations, simulations,
sources, sources,
# structures, structures,
# utilities,
) )
BL_REGISTER = [ BL_REGISTER = [
@ -17,11 +16,10 @@ BL_REGISTER = [
*outputs.BL_REGISTER, *outputs.BL_REGISTER,
*sources.BL_REGISTER, *sources.BL_REGISTER,
*mediums.BL_REGISTER, *mediums.BL_REGISTER,
# *structures.BL_REGISTER, *structures.BL_REGISTER,
*bounds.BL_REGISTER, *bounds.BL_REGISTER,
*monitors.BL_REGISTER, *monitors.BL_REGISTER,
# *simulations.BL_REGISTER, *simulations.BL_REGISTER,
# *utilities.BL_REGISTER,
] ]
BL_NODES = { BL_NODES = {
**analysis.BL_NODES, **analysis.BL_NODES,
@ -29,9 +27,8 @@ BL_NODES = {
**outputs.BL_NODES, **outputs.BL_NODES,
**sources.BL_NODES, **sources.BL_NODES,
**mediums.BL_NODES, **mediums.BL_NODES,
# **structures.BL_NODES, **structures.BL_NODES,
**bounds.BL_NODES, **bounds.BL_NODES,
**monitors.BL_NODES, **monitors.BL_NODES,
# **simulations.BL_NODES, **simulations.BL_NODES,
# **utilities.BL_NODES,
} }

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@ -45,7 +45,7 @@ class ExtractDataNode(base.MaxwellSimNode):
} }
output_socket_sets: typ.ClassVar = { output_socket_sets: typ.ClassVar = {
'Sim Data': {'Monitor Data': sockets.MaxwellMonitorDataSocketDef()}, 'Sim Data': {'Monitor Data': sockets.MaxwellMonitorDataSocketDef()},
'Monitor Data': {'Expr': sockets.ExprSocketDef()}, 'Monitor Data': {'Expr': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array)},
} }
#################### ####################
@ -409,7 +409,7 @@ class ExtractDataNode(base.MaxwellSimNode):
#################### ####################
@events.computes_output_socket( @events.computes_output_socket(
# Trigger # Trigger
'Data', 'Expr',
kind=ct.FlowKind.Info, kind=ct.FlowKind.Info,
# Loaded # Loaded
props={'monitor_data_type', 'extract_filter'}, props={'monitor_data_type', 'extract_filter'},

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@ -110,10 +110,10 @@ class FilterMathNode(base.MaxwellSimNode):
bl_label = 'Filter Math' bl_label = 'Filter Math'
input_sockets: typ.ClassVar = { input_sockets: typ.ClassVar = {
'Expr': sockets.ExprSocketDef(), 'Expr': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array),
} }
output_sockets: typ.ClassVar = { output_sockets: typ.ClassVar = {
'Expr': sockets.ExprSocketDef(), 'Expr': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array),
} }
#################### ####################
@ -187,7 +187,6 @@ class FilterMathNode(base.MaxwellSimNode):
def draw_props(self, _: bpy.types.Context, layout: bpy.types.UILayout) -> None: def draw_props(self, _: bpy.types.Context, layout: bpy.types.UILayout) -> None:
layout.prop(self, self.blfields['operation'], text='') layout.prop(self, self.blfields['operation'], text='')
if self.active_socket_set == 'Dimensions':
if self.operation in [FilterOperation.PinLen1, FilterOperation.Pin]: if self.operation in [FilterOperation.PinLen1, FilterOperation.Pin]:
layout.prop(self, self.blfields['dim_0'], text='') layout.prop(self, self.blfields['dim_0'], text='')
@ -292,7 +291,7 @@ class FilterMathNode(base.MaxwellSimNode):
return lazy_value_func.compose_within( return lazy_value_func.compose_within(
operation.jax_func(axis_0, axis_1), operation.jax_func(axis_0, axis_1),
enclosing_func_args=[int] if operation == 'PIN' else [], enclosing_func_args=[int] if operation == FilterOperation.Pin else [],
supports_jax=True, supports_jax=True,
) )
return ct.FlowSignal.FlowPending return ct.FlowSignal.FlowPending
@ -383,7 +382,7 @@ class FilterMathNode(base.MaxwellSimNode):
pinned_value = input_sockets['Value'] pinned_value = input_sockets['Value']
has_pinned_value = not ct.FlowSignal.check(pinned_value) has_pinned_value = not ct.FlowSignal.check(pinned_value)
if props['operation'] == 'PIN' and has_pinned_value: if props['operation'] == FilterOperation.Pin and has_pinned_value:
nearest_idx_to_value = info.dim_idx[dim_0].nearest_idx_of( nearest_idx_to_value = info.dim_idx[dim_0].nearest_idx_of(
pinned_value, require_sorted=True pinned_value, require_sorted=True
) )

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@ -56,11 +56,11 @@ class OperateMathNode(base.MaxwellSimNode):
bl_label = 'Operate Math' bl_label = 'Operate Math'
input_sockets: typ.ClassVar = { input_sockets: typ.ClassVar = {
'Expr L': sockets.ExprSocketDef(), 'Expr L': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array),
'Expr R': sockets.ExprSocketDef(), 'Expr R': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array),
} }
output_sockets: typ.ClassVar = { output_sockets: typ.ClassVar = {
'Expr': sockets.ExprSocketDef(), 'Expr': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array),
} }
#################### ####################

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@ -477,6 +477,7 @@ class MaxwellSimNode(bpy.types.Node):
for socket_name, socket_def in created_sockets.items(): for socket_name, socket_def in created_sockets.items():
socket_def.preinit(all_bl_sockets[socket_name]) socket_def.preinit(all_bl_sockets[socket_name])
socket_def.init(all_bl_sockets[socket_name]) socket_def.init(all_bl_sockets[socket_name])
socket_def.postinit(all_bl_sockets[socket_name])
def _sync_sockets(self) -> None: def _sync_sockets(self) -> None:
"""Synchronize the node's sockets with the active sockets. """Synchronize the node's sockets with the active sockets.

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@ -208,7 +208,7 @@ class BlochBoundCondNode(base.MaxwellSimNode):
return td.Periodic() return td.Periodic()
# Source-Derived # Source-Derived
if props['active_socket_set'] == 'Naive': if props['active_socket_set'] == 'Source-Derived':
sim_domain = input_sockets['Sim Domain'] sim_domain = input_sockets['Sim Domain']
valid_sim_axis = props['valid_sim_axis'] valid_sim_axis = props['valid_sim_axis']

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@ -301,15 +301,16 @@ class LibraryMediumNode(base.MaxwellSimNode):
#################### ####################
@events.on_show_plot( @events.on_show_plot(
managed_objs={'plot'}, managed_objs={'plot'},
props={'material'}, props={'medium'},
stop_propagation=True, stop_propagation=True,
) )
def on_show_plot( def on_show_plot(
self, self,
managed_objs: dict, managed_objs,
props,
): ):
managed_objs['plot'].mpl_plot_to_image( managed_objs['plot'].mpl_plot_to_image(
lambda ax: self.medium.plot(self.medium.frequency_range, ax=ax), lambda ax: self.medium.plot(props['medium'].frequency_range, ax=ax),
bl_select=True, bl_select=True,
) )
## TODO: Plot based on Wl, not freq. ## TODO: Plot based on Wl, not freq.

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@ -1,13 +1,13 @@
# from . import file_exporters, viewer, web_exporters # from . import file_exporters, viewer, web_exporters
from . import viewer from . import viewer, web_exporters
BL_REGISTER = [ BL_REGISTER = [
*viewer.BL_REGISTER, *viewer.BL_REGISTER,
# *file_exporters.BL_REGISTER, # *file_exporters.BL_REGISTER,
#*web_exporters.BL_REGISTER, *web_exporters.BL_REGISTER,
] ]
BL_NODES = { BL_NODES = {
**viewer.BL_NODES, **viewer.BL_NODES,
# **file_exporters.BL_NODES, # **file_exporters.BL_NODES,
#**web_exporters.BL_NODES, **web_exporters.BL_NODES,
} }

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@ -1,16 +1,23 @@
import bpy import typing as typ
import bpy
import tidy3d as td
from blender_maxwell.services import tdcloud
from blender_maxwell.utils import bl_cache, logger
from ......services import tdcloud
from .... import contracts as ct from .... import contracts as ct
from .... import sockets from .... import sockets
from ... import base, events from ... import base, events
log = logger.get(__name__)
#################### ####################
# - Web Uploader / Loader / Runner / Releaser # - Web Uploader / Loader / Runner / Releaser
#################### ####################
class UploadSimulation(bpy.types.Operator): class UploadSimulation(bpy.types.Operator):
bl_idname = 'blender_maxwell.nodes__upload_simulation' bl_idname = ct.OperatorType.NodeUploadSimulation
bl_label = 'Upload Tidy3D Simulation' bl_label = 'Upload Tidy3D Simulation'
bl_description = 'Upload the attached (locked) simulation, such that it is ready to run on the Tidy3D cloud' bl_description = 'Upload the attached (locked) simulation, such that it is ready to run on the Tidy3D cloud'
@ -23,7 +30,7 @@ class UploadSimulation(bpy.types.Operator):
and context.node.lock_tree and context.node.lock_tree
and tdcloud.IS_AUTHENTICATED and tdcloud.IS_AUTHENTICATED
and not context.node.tracked_task_id and not context.node.tracked_task_id
and context.node.inputs['FDTD Sim'].is_linked and context.node.inputs['Sim'].is_linked
) )
def execute(self, context): def execute(self, context):
@ -33,7 +40,7 @@ class UploadSimulation(bpy.types.Operator):
class RunSimulation(bpy.types.Operator): class RunSimulation(bpy.types.Operator):
bl_idname = 'blender_maxwell.nodes__run_simulation' bl_idname = ct.OperatorType.NodeRunSimulation
bl_label = 'Run Tracked Tidy3D Sim' bl_label = 'Run Tracked Tidy3D Sim'
bl_description = 'Run the currently tracked simulation task' bl_description = 'Run the currently tracked simulation task'
@ -61,7 +68,7 @@ class RunSimulation(bpy.types.Operator):
class ReloadTrackedTask(bpy.types.Operator): class ReloadTrackedTask(bpy.types.Operator):
bl_idname = 'blender_maxwell.nodes__reload_tracked_task' bl_idname = ct.OperatorType.NodeReloadTrackedTask
bl_label = 'Reload Tracked Tidy3D Cloud Task' bl_label = 'Reload Tracked Tidy3D Cloud Task'
bl_description = 'Reload the currently tracked simulation task' bl_description = 'Reload the currently tracked simulation task'
@ -86,7 +93,7 @@ class ReloadTrackedTask(bpy.types.Operator):
class EstCostTrackedTask(bpy.types.Operator): class EstCostTrackedTask(bpy.types.Operator):
bl_idname = 'blender_maxwell.nodes__est_cost_tracked_task' bl_idname = ct.OperatorType.NodeEstCostTrackedTask
bl_label = 'Est Cost of Tracked Tidy3D Cloud Task' bl_label = 'Est Cost of Tracked Tidy3D Cloud Task'
bl_description = 'Reload the currently tracked simulation task' bl_description = 'Reload the currently tracked simulation task'
@ -113,7 +120,7 @@ class EstCostTrackedTask(bpy.types.Operator):
class ReleaseTrackedTask(bpy.types.Operator): class ReleaseTrackedTask(bpy.types.Operator):
bl_idname = 'blender_maxwell.nodes__release_tracked_task' bl_idname = ct.OperatorType.ReleaseTrackedTask
bl_label = 'Release Tracked Tidy3D Cloud Task' bl_label = 'Release Tracked Tidy3D Cloud Task'
bl_description = 'Release the currently tracked simulation task' bl_description = 'Release the currently tracked simulation task'
@ -140,92 +147,60 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
node_type = ct.NodeType.Tidy3DWebExporter node_type = ct.NodeType.Tidy3DWebExporter
bl_label = 'Tidy3D Web Exporter' bl_label = 'Tidy3D Web Exporter'
input_sockets = { input_sockets: typ.ClassVar = {
'FDTD Sim': sockets.MaxwellFDTDSimSocketDef(), 'Sim': sockets.MaxwellFDTDSimSocketDef(),
'Cloud Task': sockets.Tidy3DCloudTaskSocketDef( 'Cloud Task': sockets.Tidy3DCloudTaskSocketDef(
should_exist=False, should_exist=False,
), ),
} }
output_sockets: typ.ClassVar = {
'Sim Data': sockets.Tidy3DCloudTaskSocketDef(
should_exist=True,
),
'Cloud Task': sockets.Tidy3DCloudTaskSocketDef(
should_exist=True,
),
}
#################### ####################
# - Properties # - Properties
#################### ####################
lock_tree: bpy.props.BoolProperty( lock_tree: bool = bl_cache.BLField(False, prop_ui=True)
name='Whether to lock the attached tree', tracked_task_id: str = bl_cache.BLField('', prop_ui=True)
description='Whether or not to lock the attached tree',
default=False,
update=lambda self, context: self.sync_lock_tree(context),
)
tracked_task_id: bpy.props.StringProperty(
name='Tracked Task ID',
description='The currently tracked task ID',
default='',
update=lambda self, context: self.sync_tracked_task_id(context),
)
# Cache
cache_total_monitor_data: bpy.props.FloatProperty(
name='(Cached) Total Monitor Data',
description='Required storage space by all monitors',
default=0.0,
)
cache_est_cost: bpy.props.FloatProperty(
name='(Cached) Estimated Total Cost',
description='Est. Cost in FlexCompute units',
default=-1.0,
)
#################### ####################
# - Sync Methods # - Computed
#################### ####################
def sync_lock_tree(self, context): @bl_cache.cached_bl_property(persist=False)
if self.lock_tree: def sim(self) -> td.Simulation | None:
self.trigger_event(ct.FlowEvent.EnableLock) sim = self._compute_input('Sim')
self.locked = False has_sim = not ct.FlowSignal.check(sim)
for bl_socket in self.inputs:
if bl_socket.name == 'FDTD Sim':
continue
bl_socket.locked = False
else:
self.trigger_event(ct.FlowEvent.DisableLock)
self.on_prop_changed('lock_tree', context)
def sync_tracked_task_id(self, context):
# Select Tracked Task
if self.tracked_task_id:
cloud_task = tdcloud.TidyCloudTasks.task(self.tracked_task_id)
task_info = tdcloud.TidyCloudTasks.task_info(self.tracked_task_id)
self.loose_output_sockets = {
'Cloud Task': sockets.Tidy3DCloudTaskSocketDef(
should_exist=True,
),
}
self.inputs['Cloud Task'].locked = True
# Release Tracked Task
else:
self.cache_est_cost = -1.0
self.loose_output_sockets = {}
self.inputs['Cloud Task'].on_prepare_new_task()
self.inputs['Cloud Task'].locked = False
self.on_prop_changed('tracked_task_id', context)
####################
# - Output Socket Callbacks
####################
def validate_sim(self):
if (sim := self._compute_input('FDTD Sim')) is None:
msg = 'Tried to validate simulation, but none is attached'
raise ValueError(msg)
if has_sim:
sim.validate_pre_upload(source_required=True) sim.validate_pre_upload(source_required=True)
return sim
return None
@bl_cache.cached_bl_property(persist=False)
def total_monitor_data(self) -> float:
if self.sim is not None:
return sum(self.sim.monitors_data_size.values())
return 0.0
@bl_cache.cached_bl_property(persist=False)
def est_cost(self) -> float | None:
if self.tracked_task_id != '':
task_info = tdcloud.TidyCloudTasks.task_info(self.tracked_task_id)
if task_info is not None:
return task_info.cost_est()
return None
####################
# - Methods
####################
def upload_sim(self): def upload_sim(self):
if (sim := self._compute_input('FDTD Sim')) is None: if self.sim is None:
msg = 'Tried to upload simulation, but none is attached' msg = 'Tried to upload simulation, but none is attached'
raise ValueError(msg) raise ValueError(msg)
@ -242,7 +217,7 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
cloud_task = tdcloud.TidyCloudTasks.mk_task( cloud_task = tdcloud.TidyCloudTasks.mk_task(
task_name=new_task[0], task_name=new_task[0],
cloud_folder=new_task[1], cloud_folder=new_task[1],
sim=sim, sim=self.sim,
verbose=True, verbose=True,
) )
@ -271,22 +246,24 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
# Row: Upload Sim Buttons # Row: Upload Sim Buttons
row = layout.row(align=True) row = layout.row(align=True)
row.operator( row.operator(
UploadSimulation.bl_idname, ct.OperatorType.NodeUploadSimulation,
text='Upload', text='Upload',
) )
tree_lock_icon = 'LOCKED' if self.lock_tree else 'UNLOCKED' tree_lock_icon = 'LOCKED' if self.lock_tree else 'UNLOCKED'
row.prop(self, 'lock_tree', toggle=True, icon=tree_lock_icon, text='') row.prop(
self, self.blfields['lock_tree'], toggle=True, icon=tree_lock_icon, text=''
)
# Row: Run Sim Buttons # Row: Run Sim Buttons
row = layout.row(align=True) row = layout.row(align=True)
row.operator( row.operator(
RunSimulation.bl_idname, ct.OperatorType.NodeRunSimulation,
text='Run', text='Run',
) )
if self.tracked_task_id: if self.tracked_task_id:
tree_lock_icon = 'LOOP_BACK' tree_lock_icon = 'LOOP_BACK'
row.operator( row.operator(
ReleaseTrackedTask.bl_idname, ct.OperatorType.ReleaseTrackedTask,
icon='LOOP_BACK', icon='LOOP_BACK',
text='', text='',
) )
@ -313,7 +290,7 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
col.label(icon=conn_icon) col.label(icon=conn_icon)
# Simulation Info # Simulation Info
if self.inputs['FDTD Sim'].is_linked: if self.inputs['Sim'].is_linked:
row = layout.row() row = layout.row()
row.alignment = 'CENTER' row.alignment = 'CENTER'
row.label(text='Sim Info') row.label(text='Sim Info')
@ -327,7 +304,7 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
## Split: Right Column ## Split: Right Column
col = split.column(align=False) col = split.column(align=False)
col.alignment = 'RIGHT' col.alignment = 'RIGHT'
col.label(text=f'{self.cache_total_monitor_data / 1_000_000:.2f}MB') col.label(text=f'{self.total_monitor_data / 1_000_000:.2f}MB')
# Cloud Task Info # Cloud Task Info
if self.tracked_task_id and tdcloud.IS_AUTHENTICATED: if self.tracked_task_id and tdcloud.IS_AUTHENTICATED:
@ -348,12 +325,12 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
text=f'Status: {task_info.status.capitalize()}', text=f'Status: {task_info.status.capitalize()}',
) )
row.operator( row.operator(
ReloadTrackedTask.bl_idname, ct.OperatorType.NodeReloadTrackedTask,
text='', text='',
icon='FILE_REFRESH', icon='FILE_REFRESH',
) )
row.operator( row.operator(
EstCostTrackedTask.bl_idname, ct.OperatorType.NodeEstCostTrackedTask,
text='', text='',
icon='SORTTIME', icon='SORTTIME',
) )
@ -369,9 +346,7 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
col.label(text='Real Cost') col.label(text='Real Cost')
## Split: Right Column ## Split: Right Column
cost_est = ( cost_est = f'{self.est_cost:.2f}' if self.est_cost >= 0 else 'TBD'
f'{self.cache_est_cost:.2f}' if self.cache_est_cost >= 0 else 'TBD'
)
cost_real = ( cost_real = (
f'{task_info.cost_real:.2f}' f'{task_info.cost_real:.2f}'
if task_info.cost_real is not None if task_info.cost_real is not None
@ -386,9 +361,37 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
# Connection Information # Connection Information
####################
# - Events
####################
@events.on_value_changed(prop_name='lock_tree', props={'lock_tree'})
def on_lock_tree_changed(self, props):
if props['lock_tree']:
self.trigger_event(ct.FlowEvent.EnableLock)
self.locked = False
for bl_socket in self.inputs:
if bl_socket.name == 'Sim':
continue
bl_socket.locked = False
else:
self.trigger_event(ct.FlowEvent.DisableLock)
@events.on_value_changed(prop_name='tracked_task_id', props={'tracked_task_id'})
def on_tracked_task_id_changed(self, props):
if props['tracked_task_id']:
self.inputs['Cloud Task'].locked = True
else:
self.total_monitor_data = bl_cache.Signal.InvalidateCache
self.est_cost = bl_cache.Signal.InvalidateCache
self.inputs['Cloud Task'].on_prepare_new_task()
self.inputs['Cloud Task'].locked = False
#################### ####################
# - Output Methods # - Output Methods
#################### ####################
## TODO: Retrieve simulation data if/when the simulation is done
@events.computes_output_socket( @events.computes_output_socket(
'Cloud Task', 'Cloud Task',
input_sockets={'Cloud Task'}, input_sockets={'Cloud Task'},
@ -399,21 +402,6 @@ class Tidy3DWebExporterNode(base.MaxwellSimNode):
return None return None
####################
# - Output Methods
####################
@events.on_value_changed(
socket_name='FDTD Sim',
input_sockets={'FDTD Sim'},
)
def on_value_changed__fdtd_sim(self, input_sockets):
if (sim := self._compute_input('FDTD Sim')) is None:
self.cache_total_monitor_data = 0
return
sim.validate_pre_upload(source_required=True)
self.cache_total_monitor_data = sum(sim.monitors_data_size.values())
#################### ####################
# - Blender Registration # - Blender Registration

View File

@ -1,14 +1,16 @@
# from . import sim_grid # from . import sim_grid
# from . import sim_grid_axes # from . import sim_grid_axes
from . import fdtd_sim, sim_domain from . import fdtd_sim, sim_domain, combine
BL_REGISTER = [ BL_REGISTER = [
*combine.BL_REGISTER,
*sim_domain.BL_REGISTER, *sim_domain.BL_REGISTER,
# *sim_grid.BL_REGISTER, # *sim_grid.BL_REGISTER,
# *sim_grid_axes.BL_REGISTER, # *sim_grid_axes.BL_REGISTER,
*fdtd_sim.BL_REGISTER, *fdtd_sim.BL_REGISTER,
] ]
BL_NODES = { BL_NODES = {
**combine.BL_NODES,
**sim_domain.BL_NODES, **sim_domain.BL_NODES,
# **sim_grid.BL_NODES, # **sim_grid.BL_NODES,
# **sim_grid_axes.BL_NODES, # **sim_grid_axes.BL_NODES,

View File

@ -1,8 +1,9 @@
import typing as typ import typing as typ
import bpy
import sympy as sp import sympy as sp
from blender_maxwell.utils import bl_cache
from ... import contracts as ct from ... import contracts as ct
from ... import sockets from ... import sockets
from .. import base, events from .. import base, events
@ -19,24 +20,8 @@ class CombineNode(base.MaxwellSimNode):
'Maxwell Sources': {}, 'Maxwell Sources': {},
'Maxwell Structures': {}, 'Maxwell Structures': {},
'Maxwell Monitors': {}, 'Maxwell Monitors': {},
'Real 3D Vector': {f'x_{i}': sockets.RealNumberSocketDef() for i in range(3)},
# "Point 3D": {
# axis: sockets.PhysicalLengthSocketDef()
# for i, axis in zip(
# range(3),
# ["x", "y", "z"]
# )
# },
# "Size 3D": {
# axis_key: sockets.PhysicalLengthSocketDef()
# for i, axis_key, axis_label in zip(
# range(3),
# ["x_size", "y_size", "z_size"],
# ["X Size", "Y Size", "Z Size"],
# )
# },
} }
output_socket_sets = { output_socket_sets: typ.ClassVar = {
'Maxwell Sources': { 'Maxwell Sources': {
'Sources': sockets.MaxwellSourceSocketDef( 'Sources': sockets.MaxwellSourceSocketDef(
is_list=True, is_list=True,
@ -52,43 +37,69 @@ class CombineNode(base.MaxwellSimNode):
is_list=True, is_list=True,
), ),
}, },
'Real 3D Vector': {
'Real 3D Vector': sockets.Real3DVectorSocketDef(),
},
# "Point 3D": {
# "3D Point": sockets.PhysicalPoint3DSocketDef(),
# },
# "Size 3D": {
# "3D Size": sockets.PhysicalSize3DSocketDef(),
# },
} }
amount: bpy.props.IntProperty( ####################
name='# Objects to Combine', # - Draw
description='Amount of Objects to Combine', ####################
default=1, amount: int = bl_cache.BLField(2, abs_min=1, prop_ui=True)
min=1,
# max=MAX_AMOUNT,
update=lambda self, context: self.on_prop_changed('amount', context),
)
#################### ####################
# - Draw # - Draw
#################### ####################
def draw_props(self, context, layout): def draw_props(self, context, layout):
layout.prop(self, 'amount', text='#') layout.prop(self, self.blfields['amount'], text='')
####################
# - Events
####################
@events.on_value_changed(
# Trigger
prop_name={'active_socket_set', 'amount'},
props={'active_socket_set', 'amount'},
run_on_init=True,
)
def on_inputs_changed(self, props):
if props['active_socket_set'] == 'Maxwell Sources':
if (
not self.loose_input_sockets
or not next(iter(self.loose_input_sockets)).startswith('Source')
or len(self.loose_input_sockets) != props['amount']
):
self.loose_input_sockets = {
f'Source #{i}': sockets.MaxwellSourceSocketDef()
for i in range(props['amount'])
}
elif props['active_socket_set'] == 'Maxwell Structures':
if (
not self.loose_input_sockets
or not next(iter(self.loose_input_sockets)).startswith('Structure')
or len(self.loose_input_sockets) != props['amount']
):
self.loose_input_sockets = {
f'Structure #{i}': sockets.MaxwellStructureSocketDef()
for i in range(props['amount'])
}
elif props['active_socket_set'] == 'Maxwell Monitors':
if (
not self.loose_input_sockets
or not next(iter(self.loose_input_sockets)).startswith('Monitor')
or len(self.loose_input_sockets) != props['amount']
):
self.loose_input_sockets = {
f'Monitor #{i}': sockets.MaxwellMonitorSocketDef()
for i in range(props['amount'])
}
elif self.loose_input_sockets:
self.loose_input_sockets = {}
#################### ####################
# - Output Socket Computation # - Output Socket Computation
#################### ####################
@events.computes_output_socket(
'Real 3D Vector', input_sockets={'x_0', 'x_1', 'x_2'}
)
def compute_real_3d_vector(self, input_sockets) -> sp.Expr:
return sp.Matrix([input_sockets[f'x_{i}'] for i in range(3)])
@events.computes_output_socket( @events.computes_output_socket(
'Sources', 'Sources',
kind=ct.FlowKind.Array,
all_loose_input_sockets=True, all_loose_input_sockets=True,
props={'amount'}, props={'amount'},
) )
@ -97,6 +108,7 @@ class CombineNode(base.MaxwellSimNode):
@events.computes_output_socket( @events.computes_output_socket(
'Structures', 'Structures',
kind=ct.FlowKind.Array,
all_loose_input_sockets=True, all_loose_input_sockets=True,
props={'amount'}, props={'amount'},
) )
@ -105,45 +117,13 @@ class CombineNode(base.MaxwellSimNode):
@events.computes_output_socket( @events.computes_output_socket(
'Monitors', 'Monitors',
kind=ct.FlowKind.Array,
all_loose_input_sockets=True, all_loose_input_sockets=True,
props={'amount'}, props={'amount'},
) )
def compute_monitors(self, loose_input_sockets, props) -> sp.Expr: def compute_monitors(self, loose_input_sockets, props) -> sp.Expr:
return [loose_input_sockets[f'Monitor #{i}'] for i in range(props['amount'])] return [loose_input_sockets[f'Monitor #{i}'] for i in range(props['amount'])]
####################
# - Input Socket Compilation
####################
@events.on_value_changed(
prop_name='active_socket_set',
props={'active_socket_set', 'amount'},
run_on_init=True,
)
def on_value_changed__active_socket_set(self, props):
if props['active_socket_set'] == 'Maxwell Sources':
self.loose_input_sockets = {
f'Source #{i}': sockets.MaxwellSourceSocketDef()
for i in range(props['amount'])
}
elif props['active_socket_set'] == 'Maxwell Structures':
self.loose_input_sockets = {
f'Structure #{i}': sockets.MaxwellStructureSocketDef()
for i in range(props['amount'])
}
elif props['active_socket_set'] == 'Maxwell Monitors':
self.loose_input_sockets = {
f'Monitor #{i}': sockets.MaxwellMonitorSocketDef()
for i in range(props['amount'])
}
else:
self.loose_input_sockets = {}
@events.on_value_changed(
prop_name='amount',
)
def on_value_changed__amount(self):
self.on_value_changed__active_socket_set()
#################### ####################
# - Blender Registration # - Blender Registration
@ -151,4 +131,4 @@ class CombineNode(base.MaxwellSimNode):
BL_REGISTER = [ BL_REGISTER = [
CombineNode, CombineNode,
] ]
BL_NODES = {ct.NodeType.Combine: (ct.NodeCategory.MAXWELLSIM_UTILITIES)} BL_NODES = {ct.NodeType.Combine: (ct.NodeCategory.MAXWELLSIM_SIMS)}

View File

@ -1,3 +1,5 @@
import typing as typ
import sympy as sp import sympy as sp
import tidy3d as td import tidy3d as td
@ -13,9 +15,9 @@ class FDTDSimNode(base.MaxwellSimNode):
#################### ####################
# - Sockets # - Sockets
#################### ####################
input_sockets = { input_sockets: typ.ClassVar = {
'Domain': sockets.MaxwellSimDomainSocketDef(),
'BCs': sockets.MaxwellBoundCondsSocketDef(), 'BCs': sockets.MaxwellBoundCondsSocketDef(),
'Domain': sockets.MaxwellSimDomainSocketDef(),
'Sources': sockets.MaxwellSourceSocketDef( 'Sources': sockets.MaxwellSourceSocketDef(
is_list=True, is_list=True,
), ),
@ -26,32 +28,33 @@ class FDTDSimNode(base.MaxwellSimNode):
is_list=True, is_list=True,
), ),
} }
output_sockets = { output_sockets: typ.ClassVar = {
'FDTD Sim': sockets.MaxwellFDTDSimSocketDef(), 'Sim': sockets.MaxwellFDTDSimSocketDef(),
} }
#################### ####################
# - Output Socket Computation # - Output Socket Computation
#################### ####################
@events.computes_output_socket( @events.computes_output_socket(
'FDTD Sim', 'Sim',
kind=ct.FlowKind.Value, kind=ct.FlowKind.Value,
input_sockets={'Sources', 'Structures', 'Domain', 'BCs', 'Monitors'}, input_sockets={'Sources', 'Structures', 'Domain', 'BCs', 'Monitors'},
input_socket_kinds={
'Sources': ct.FlowKind.Array,
'Structures': ct.FlowKind.Array,
'Domain': ct.FlowKind.Value,
'BCs': ct.FlowKind.Value,
'Monitors': ct.FlowKind.Array,
},
) )
def compute_fdtd_sim(self, input_sockets: dict) -> sp.Expr: def compute_fdtd_sim(self, input_sockets: dict) -> sp.Expr:
## TODO: Visualize the boundary conditions on top of the sim domain
sim_domain = input_sockets['Domain'] sim_domain = input_sockets['Domain']
sources = input_sockets['Sources'] sources = input_sockets['Sources']
structures = input_sockets['Structures'] structures = input_sockets['Structures']
bounds = input_sockets['BCs'] bounds = input_sockets['BCs']
monitors = input_sockets['Monitors'] monitors = input_sockets['Monitors']
# if not isinstance(sources, list):
# sources = [sources]
# if not isinstance(structures, list):
# structures = [structures]
# if not isinstance(monitors, list):
# monitors = [monitors]
return td.Simulation( return td.Simulation(
**sim_domain, ## run_time=, size=, grid=, medium= **sim_domain, ## run_time=, size=, grid=, medium=
structures=structures, structures=structures,

View File

@ -4,11 +4,15 @@ import sympy as sp
import sympy.physics.units as spu import sympy.physics.units as spu
from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes
from blender_maxwell.utils import extra_sympy_units as spux
from blender_maxwell.utils import logger
from ... import contracts as ct from ... import contracts as ct
from ... import managed_objs, sockets from ... import managed_objs, sockets
from .. import base, events from .. import base, events
log = logger.get(__name__)
class SimDomainNode(base.MaxwellSimNode): class SimDomainNode(base.MaxwellSimNode):
node_type = ct.NodeType.SimDomain node_type = ct.NodeType.SimDomain
@ -16,12 +20,27 @@ class SimDomainNode(base.MaxwellSimNode):
use_sim_node_name = True use_sim_node_name = True
input_sockets: typ.ClassVar = { input_sockets: typ.ClassVar = {
'Duration': sockets.PhysicalTimeSocketDef( 'Duration': sockets.ExprSocketDef(
default_value=5 * spu.ps, physical_type=spux.PhysicalType.Time,
default_unit=spu.ps, default_unit=spu.picosecond,
default_value=5,
abs_min=0,
),
'Center': sockets.ExprSocketDef(
shape=(3,),
mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_unit=spu.micrometer,
default_value=sp.Matrix([0, 0, 0]),
),
'Size': sockets.ExprSocketDef(
shape=(3,),
mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_unit=spu.micrometer,
default_value=sp.Matrix([1, 1, 1]),
abs_min=0.001,
), ),
'Center': sockets.PhysicalPoint3DSocketDef(),
'Size': sockets.PhysicalSize3DSocketDef(),
'Grid': sockets.MaxwellSimGridSocketDef(), 'Grid': sockets.MaxwellSimGridSocketDef(),
'Ambient Medium': sockets.MaxwellMediumSocketDef(), 'Ambient Medium': sockets.MaxwellMediumSocketDef(),
} }
@ -34,44 +53,6 @@ class SimDomainNode(base.MaxwellSimNode):
'modifier': managed_objs.ManagedBLModifier, 'modifier': managed_objs.ManagedBLModifier,
} }
####################
# - Events
####################
@events.on_value_changed(
socket_name={'Center', 'Size'},
prop_name='preview_active',
run_on_init=True,
props={'preview_active'},
input_sockets={'Center', 'Size'},
managed_objs={'mesh', 'modifier'},
unit_systems={'BlenderUnits': ct.UNITS_BLENDER},
scale_input_sockets={
'Center': 'BlenderUnits',
},
)
def on_input_changed(
self,
props: dict,
managed_objs: dict,
input_sockets: dict,
unit_systems: dict,
):
# Push Input Values to GeoNodes Modifier
managed_objs['modifier'].bl_modifier(
managed_objs['mesh'].bl_object(location=input_sockets['Center']),
'NODES',
{
'node_group': import_geonodes(GeoNodes.SimulationSimDomain),
'unit_system': unit_systems['BlenderUnits'],
'inputs': {
'Size': input_sockets['Size'],
},
},
)
# Push Preview State
if props['preview_active']:
managed_objs['mesh'].show_preview()
#################### ####################
# - Outputs # - Outputs
#################### ####################
@ -94,6 +75,59 @@ class SimDomainNode(base.MaxwellSimNode):
'medium': input_sockets['Ambient Medium'], 'medium': input_sockets['Ambient Medium'],
} }
####################
# - Preview
####################
@events.on_value_changed(
prop_name='preview_active',
run_on_init=True,
props={'preview_active'},
managed_objs={'mesh'},
)
def on_preview_changed(self, props, managed_objs) -> None:
mesh = managed_objs['mesh']
# Push Preview State to Managed Mesh
if props['preview_active']:
mesh.show_preview()
else:
mesh.hide_preview()
@events.on_value_changed(
## Trigger
socket_name={'Center', 'Size'},
run_on_init=True,
# Loaded
input_sockets={'Center', 'Size'},
managed_objs={'mesh', 'modifier'},
unit_systems={'BlenderUnits': ct.UNITS_BLENDER},
scale_input_sockets={
'Center': 'BlenderUnits',
},
)
def on_input_changed(
self,
managed_objs,
input_sockets,
unit_systems,
):
mesh = managed_objs['mesh']
modifier = managed_objs['modifier']
center = input_sockets['Center']
size = input_sockets['Size']
unit_system = unit_systems['BlenderUnits']
# Push Loose Input Values to GeoNodes Modifier
modifier.bl_modifier(
mesh.bl_object(location=center),
'NODES',
{
'node_group': import_geonodes(GeoNodes.SimulationSimDomain),
'inputs': {'Size': size},
'unit_system': unit_system,
},
)
#################### ####################
# - Blender Registration # - Blender Registration

View File

@ -2,7 +2,7 @@ from . import (
# astigmatic_gaussian_beam_source, # astigmatic_gaussian_beam_source,
# gaussian_beam_source, # gaussian_beam_source,
# plane_wave_source, # plane_wave_source,
# point_dipole_source, point_dipole_source,
temporal_shapes, temporal_shapes,
# tfsf_source, # tfsf_source,
# uniform_current_source, # uniform_current_source,
@ -10,7 +10,7 @@ from . import (
BL_REGISTER = [ BL_REGISTER = [
*temporal_shapes.BL_REGISTER, *temporal_shapes.BL_REGISTER,
#*point_dipole_source.BL_REGISTER, *point_dipole_source.BL_REGISTER,
# *uniform_current_source.BL_REGISTER, # *uniform_current_source.BL_REGISTER,
# *plane_wave_source.BL_REGISTER, # *plane_wave_source.BL_REGISTER,
# *gaussian_beam_source.BL_REGISTER, # *gaussian_beam_source.BL_REGISTER,
@ -19,7 +19,7 @@ BL_REGISTER = [
] ]
BL_NODES = { BL_NODES = {
**temporal_shapes.BL_NODES, **temporal_shapes.BL_NODES,
#**point_dipole_source.BL_NODES, **point_dipole_source.BL_NODES,
# **uniform_current_source.BL_NODES, # **uniform_current_source.BL_NODES,
# **plane_wave_source.BL_NODES, # **plane_wave_source.BL_NODES,
# **gaussian_beam_source.BL_NODES, # **gaussian_beam_source.BL_NODES,

View File

@ -1,64 +1,62 @@
import typing as typ import typing as typ
import bpy import bpy
import sympy as sp
import tidy3d as td import tidy3d as td
from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes
from blender_maxwell.utils import bl_cache, logger
from blender_maxwell.utils import extra_sympy_units as spux
from ... import contracts as ct from ... import contracts as ct
from ... import managed_objs, sockets from ... import managed_objs, sockets
from .. import base, events from .. import base, events
log = logger.get(__name__)
class PointDipoleSourceNode(base.MaxwellSimNode): class PointDipoleSourceNode(base.MaxwellSimNode):
node_type = ct.NodeType.PointDipoleSource node_type = ct.NodeType.PointDipoleSource
bl_label = 'Point Dipole Source' bl_label = 'Point Dipole Source'
use_sim_node_name = True
#################### ####################
# - Sockets # - Sockets
#################### ####################
input_sockets = { input_sockets: typ.ClassVar = {
'Temporal Shape': sockets.MaxwellTemporalShapeSocketDef(), 'Temporal Shape': sockets.MaxwellTemporalShapeSocketDef(),
'Center': sockets.PhysicalPoint3DSocketDef(), 'Center': sockets.ExprSocketDef(
shape=(3,),
mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_value=sp.Matrix([0, 0, 0]),
),
'Interpolate': sockets.BoolSocketDef( 'Interpolate': sockets.BoolSocketDef(
default_value=True, default_value=True,
), ),
} }
output_sockets = { output_sockets: typ.ClassVar = {
'Source': sockets.MaxwellSourceSocketDef(), 'Source': sockets.MaxwellSourceSocketDef(),
} }
managed_obj_types = { managed_obj_types: typ.ClassVar = {
'mesh': managed_objs.ManagedBLMesh, 'mesh': managed_objs.ManagedBLMesh,
'modifier': managed_objs.ManagedBLModifier,
} }
#################### ####################
# - Properties # - Properties
#################### ####################
pol_axis: bpy.props.EnumProperty( pol_axis: ct.SimSpaceAxis = bl_cache.BLField(ct.SimSpaceAxis.X, prop_ui=True)
name='Polarization Axis',
description='Polarization Axis',
items=[
('EX', 'Ex', 'Electric field in x-dir'),
('EY', 'Ey', 'Electric field in y-dir'),
('EZ', 'Ez', 'Electric field in z-dir'),
],
default='EX',
update=(lambda self, context: self.on_prop_changed('pol_axis', context)),
)
#################### ####################
# - UI # - UI
#################### ####################
def draw_props(self, context, layout): def draw_props(self, _: bpy.types.Context, layout: bpy.types.UILayout):
split = layout.split(factor=0.6) layout.prop(self, self.blfields['pol_axis'], expand=True)
col = split.column()
col.label(text='Pol Axis')
col = split.column()
col.prop(self, 'pol_axis', text='')
#################### ####################
# - Output Socket Computation # - Outputs
#################### ####################
@events.computes_output_socket( @events.computes_output_socket(
'Source', 'Source',
@ -76,9 +74,9 @@ class PointDipoleSourceNode(base.MaxwellSimNode):
unit_systems: dict, unit_systems: dict,
) -> td.PointDipole: ) -> td.PointDipole:
pol_axis = { pol_axis = {
'EX': 'Ex', ct.SimSpaceAxis.X: 'Ex',
'EY': 'Ey', ct.SimSpaceAxis.Y: 'Ey',
'EZ': 'Ez', ct.SimSpaceAxis.Z: 'Ez',
}[props['pol_axis']] }[props['pol_axis']]
return td.PointDipole( return td.PointDipole(
@ -88,39 +86,59 @@ class PointDipoleSourceNode(base.MaxwellSimNode):
polarization=pol_axis, polarization=pol_axis,
) )
##################### ####################
## - Preview # - Preview
##################### ####################
# @events.on_value_changed( @events.on_value_changed(
# socket_name='Center', prop_name='preview_active',
# input_sockets={'Center'}, run_on_init=True,
# managed_objs={'sphere_empty'}, props={'preview_active'},
# ) managed_objs={'mesh'},
# def on_value_changed__center( )
# self, def on_preview_changed(self, props, managed_objs) -> None:
# input_sockets: dict, """Enables/disables previewing of the GeoNodes-driven mesh, regardless of whether a particular GeoNodes tree is chosen."""
# managed_objs: dict[str, ct.schemas.ManagedObj], mesh = managed_objs['mesh']
# ):
# _center = input_sockets['Center']
# center = tuple(spu.convert_to(_center, spu.um) / spu.um)
# ## TODO: Preview unit system?? Presume um for now
# mobj = managed_objs['sphere_empty'] # Push Preview State to Managed Mesh
# bl_object = mobj.bl_object('EMPTY') if props['preview_active']:
# bl_object.location = center # tuple([float(el) for el in center]) mesh.show_preview()
else:
mesh.hide_preview()
# @events.on_show_preview( @events.on_value_changed(
# managed_objs={'sphere_empty'}, socket_name={'Center'},
# ) prop_name='pol_axis',
# def on_show_preview( run_on_init=True,
# self, # Pass Data
# managed_objs: dict[str, ct.schemas.ManagedObj], managed_objs={'mesh', 'modifier'},
# ): props={'pol_axis'},
# managed_objs['sphere_empty'].show_preview( input_sockets={'Center'},
# 'EMPTY', unit_systems={'BlenderUnits': ct.UNITS_BLENDER},
# empty_display_type='SPHERE', scale_input_sockets={'Center': 'BlenderUnits'},
# ) )
# managed_objs['sphere_empty'].bl_object('EMPTY').empty_display_size = 0.2 def on_inputs_changed(
self, managed_objs, props, input_sockets, unit_systems
) -> None:
mesh = managed_objs['mesh']
modifier = managed_objs['modifier']
center = input_sockets['Center']
unit_system = unit_systems['BlenderUnits']
axis = {
ct.SimSpaceAxis.X: 0,
ct.SimSpaceAxis.Y: 1,
ct.SimSpaceAxis.Z: 2,
}[props['pol_axis']]
# Push Loose Input Values to GeoNodes Modifier
modifier.bl_modifier(
mesh.bl_object(location=center),
'NODES',
{
'node_group': import_geonodes(GeoNodes.SourcePointDipole),
'inputs': {'Axis': axis},
'unit_system': unit_system,
},
)
#################### ####################

View File

@ -1,13 +1,13 @@
# from . import expr_temporal_shape, pulse_temporal_shape, wave_temporal_shape # from . import expr_temporal_shape, pulse_temporal_shape, wave_temporal_shape
from . import pulse_temporal_shape from . import pulse_temporal_shape, wave_temporal_shape
BL_REGISTER = [ BL_REGISTER = [
*pulse_temporal_shape.BL_REGISTER, *pulse_temporal_shape.BL_REGISTER,
# *wave_temporal_shape.BL_REGISTER, *wave_temporal_shape.BL_REGISTER,
# *expr_temporal_shape.BL_REGISTER, # *expr_temporal_shape.BL_REGISTER,
] ]
BL_NODES = { BL_NODES = {
**pulse_temporal_shape.BL_NODES, **pulse_temporal_shape.BL_NODES,
# **wave_temporal_shape.BL_NODES, **wave_temporal_shape.BL_NODES,
# **expr_temporal_shape.BL_NODES, # **expr_temporal_shape.BL_NODES,
} }

View File

@ -4,7 +4,6 @@ import functools
import typing as typ import typing as typ
import bpy import bpy
import jax.numpy as jnp
import sympy as sp import sympy as sp
import sympy.physics.units as spu import sympy.physics.units as spu
import tidy3d as td import tidy3d as td
@ -16,38 +15,6 @@ from .... import managed_objs, sockets
from ... import base, events from ... import base, events
def _manual_amp_time(self, time: float) -> complex:
"""Copied implementation of `pulse.amp_time` for `tidy3d` temporal shapes, which replaces use of `numpy` with `jax.numpy` for `jit`-ability.
Since the function is detached from the method, `self` is not implicitly available. It should be pre-defined from a real source time object using `functools.partial`, before `jax.jit`ing.
## License
**This function is directly copied from `tidy3d`**.
As such, it should be considered available under the `tidy3d` license (as of writing, LGPL 2.1): <https://github.com/flexcompute/tidy3d/blob/develop/LICENSE>
## Reference
Permalink to GitHub source code: <https://github.com/flexcompute/tidy3d/blob/3ee34904eb6687a86a5fb3f4ed6d3295c228cd83/tidy3d/components/source.py#L143C1-L163C25>
"""
twidth = 1.0 / (2 * jnp.pi * self.fwidth)
omega0 = 2 * jnp.pi * self.freq0
time_shifted = time - self.offset * twidth
offset = jnp.exp(1j * self.phase)
oscillation = jnp.exp(-1j * omega0 * time)
amp = jnp.exp(-(time_shifted**2) / 2 / twidth**2) * self.amplitude
pulse_amp = offset * oscillation * amp
# subtract out DC component
if self.remove_dc_component:
pulse_amp = pulse_amp * (1j + time_shifted / twidth**2 / omega0)
else:
# 1j to make it agree in large omega0 limit
pulse_amp = pulse_amp * 1j
return pulse_amp
class PulseTemporalShapeNode(base.MaxwellSimNode): class PulseTemporalShapeNode(base.MaxwellSimNode):
node_type = ct.NodeType.PulseTemporalShape node_type = ct.NodeType.PulseTemporalShape
bl_label = 'Gaussian Pulse Temporal Shape' bl_label = 'Gaussian Pulse Temporal Shape'
@ -145,7 +112,7 @@ class PulseTemporalShapeNode(base.MaxwellSimNode):
) )
def compute_time_to_efield_lazy(self, output_sockets) -> td.GaussianPulse: def compute_time_to_efield_lazy(self, output_sockets) -> td.GaussianPulse:
temporal_shape = output_sockets['Temporal Shape'] temporal_shape = output_sockets['Temporal Shape']
jax_amp_time = functools.partial(_manual_amp_time, temporal_shape) jax_amp_time = functools.partial(ct.manual_amp_time, temporal_shape)
## TODO: Don't just partial() it up, do it property in the ParamsFlow! ## TODO: Don't just partial() it up, do it property in the ParamsFlow!
## -> Right now it's recompiled every time. ## -> Right now it's recompiled every time.

View File

@ -1,75 +1,156 @@
"""Implements the `WaveTemporalShapeNode`."""
import functools
import typing as typ
import bpy
import sympy as sp
import sympy.physics.units as spu import sympy.physics.units as spu
import tidy3d as td import tidy3d as td
from .... import contracts, sockets from blender_maxwell.utils import extra_sympy_units as spux
from .... import contracts as ct
from .... import managed_objs, sockets
from ... import base, events from ... import base, events
class ContinuousWaveTemporalShapeNode(base.MaxwellSimTreeNode): class WaveTemporalShapeNode(base.MaxwellSimNode):
node_type = contracts.NodeType.ContinuousWaveTemporalShape node_type = ct.NodeType.WaveTemporalShape
bl_label = 'Continuous Wave Temporal Shape' bl_label = 'Continuous Wave Temporal Shape'
# bl_icon = ...
#################### ####################
# - Sockets # - Sockets
#################### ####################
input_sockets: typ.ClassVar = {
'max E': sockets.ExprSocketDef(
mathtype=spux.MathType.Complex,
physical_type=spux.PhysicalType.EField,
default_value=1 + 0j,
),
'μ Freq': sockets.ExprSocketDef(
physical_type=spux.PhysicalType.Freq,
default_unit=spux.THz,
default_value=500,
),
'σ Freq': sockets.ExprSocketDef(
physical_type=spux.PhysicalType.Freq,
default_unit=spux.THz,
default_value=200,
),
'Offset Time': sockets.ExprSocketDef(default_value=5, abs_min=2.5),
}
output_sockets: typ.ClassVar = {
'Temporal Shape': sockets.MaxwellTemporalShapeSocketDef(),
'E(t)': sockets.ExprSocketDef(active_kind=ct.FlowKind.Array),
}
managed_obj_types: typ.ClassVar = {
'plot': managed_objs.ManagedBLImage,
}
####################
# - UI
####################
def draw_info(self, _: bpy.types.Context, layout: bpy.types.UILayout) -> None:
box = layout.box()
row = box.row()
row.alignment = 'CENTER'
row.label(text='Parameter Scale')
# Split
split = box.split(factor=0.3, align=False)
## LHS: Parameter Names
col = split.column()
col.alignment = 'RIGHT'
col.label(text='Off t:')
## RHS: Parameter Units
col = split.column()
col.label(text='1 / 2π·σ(𝑓)')
####################
# - FlowKind: Value
####################
@events.computes_output_socket(
'Temporal Shape',
input_sockets={ input_sockets={
# "amplitude": sockets.RealNumberSocketDef( 'max E',
# label="Temporal Shape", 'μ Freq',
# ), ## Should have a unit of some kind... 'σ Freq',
'phase': sockets.PhysicalAngleSocketDef( 'Offset Time',
label='Phase', },
), unit_systems={'Tidy3DUnits': ct.UNITS_TIDY3D},
'freq_center': sockets.PhysicalFreqSocketDef( scale_input_sockets={
label='Freq Center', 'max E': 'Tidy3DUnits',
), 'μ Freq': 'Tidy3DUnits',
'freq_std': sockets.PhysicalFreqSocketDef( 'σ Freq': 'Tidy3DUnits',
label='Freq STD', },
),
'time_delay_rel_ang_freq': sockets.RealNumberSocketDef(
label='Time Delay rel. Ang. Freq',
default_value=5.0,
),
}
output_sockets = {
'temporal_shape': sockets.MaxwellTemporalShapeSocketDef(
label='Temporal Shape',
),
}
####################
# - Output Socket Computation
####################
@events.computes_output_socket('temporal_shape')
def compute_source(self: contracts.NodeTypeProtocol) -> td.PointDipole:
_phase = self.compute_input('phase')
_freq_center = self.compute_input('freq_center')
_freq_std = self.compute_input('freq_std')
time_delay_rel_ang_freq = self.compute_input('time_delay_rel_ang_freq')
cheating_amplitude = 1.0
phase = spu.convert_to(_phase, spu.radian) / spu.radian
freq_center = spu.convert_to(_freq_center, spu.hertz) / spu.hertz
freq_std = spu.convert_to(_freq_std, spu.hertz) / spu.hertz
return td.ContinuousWave(
amplitude=cheating_amplitude,
phase=phase,
freq0=freq_center,
fwidth=freq_std,
offset=time_delay_rel_ang_freq,
) )
def compute_temporal_shape(self, input_sockets, unit_systems) -> td.GaussianPulse:
return td.ContinuousWave(
amplitude=sp.re(input_sockets['max E']),
phase=sp.im(input_sockets['max E']),
freq0=input_sockets['μ Freq'],
fwidth=input_sockets['σ Freq'],
offset=input_sockets['Offset Time'],
)
####################
# - FlowKind: LazyValueFunc / Info / Params
####################
@events.computes_output_socket(
'E(t)',
kind=ct.FlowKind.LazyValueFunc,
output_sockets={'Temporal Shape'},
)
def compute_time_to_efield_lazy(self, output_sockets) -> td.GaussianPulse:
temporal_shape = output_sockets['Temporal Shape']
jax_amp_time = functools.partial(ct.manual_amp_time, temporal_shape)
## TODO: Don't just partial() it up, do it property in the ParamsFlow!
## -> Right now it's recompiled every time.
return ct.LazyValueFuncFlow(
func=jax_amp_time,
func_args=[spux.PhysicalType.Time],
supports_jax=True,
)
@events.computes_output_socket(
'E(t)',
kind=ct.FlowKind.Info,
)
def compute_time_to_efield_info(self) -> td.GaussianPulse:
return ct.InfoFlow(
dim_names=['t'],
dim_idx={
't': ct.LazyArrayRangeFlow(
start=sp.S(0), stop=sp.oo, steps=0, unit=spu.second
)
},
output_name='E',
output_shape=None,
output_mathtype=spux.MathType.Complex,
output_unit=spu.volt / spu.um,
)
@events.computes_output_socket(
'E(t)',
kind=ct.FlowKind.Params,
)
def compute_time_to_efield_params(self) -> td.GaussianPulse:
sym_time = sp.Symbol('t', real=True, nonnegative=True)
return ct.ParamsFlow(func_args=[sym_time], symbols={sym_time})
#################### ####################
# - Blender Registration # - Blender Registration
#################### ####################
BL_REGISTER = [ BL_REGISTER = [
ContinuousWaveTemporalShapeNode, WaveTemporalShapeNode,
] ]
BL_NODES = { BL_NODES = {
contracts.NodeType.ContinuousWaveTemporalShape: ( ct.NodeType.WaveTemporalShape: (ct.NodeCategory.MAXWELLSIM_SOURCES_TEMPORALSHAPES)
contracts.NodeCategory.MAXWELLSIM_SOURCES_TEMPORALSHAPES
)
} }

View File

@ -1,8 +1,12 @@
import typing as typ import typing as typ
import sympy as sp
import sympy.physics.units as spu
import tidy3d as td import tidy3d as td
from blender_maxwell.utils import bl_cache, logger from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes
from blender_maxwell.utils import extra_sympy_units as spux
from blender_maxwell.utils import logger
from ... import bl_socket_map, managed_objs, sockets from ... import bl_socket_map, managed_objs, sockets
from ... import contracts as ct from ... import contracts as ct
@ -22,7 +26,13 @@ class GeoNodesStructureNode(base.MaxwellSimNode):
input_sockets: typ.ClassVar = { input_sockets: typ.ClassVar = {
'GeoNodes': sockets.BlenderGeoNodesSocketDef(), 'GeoNodes': sockets.BlenderGeoNodesSocketDef(),
'Medium': sockets.MaxwellMediumSocketDef(), 'Medium': sockets.MaxwellMediumSocketDef(),
'Center': sockets.PhysicalPoint3DSocketDef(), 'Center': sockets.ExprSocketDef(
shape=(3,),
mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_unit=spu.micrometer,
default_value=sp.Matrix([0, 0, 0]),
),
} }
output_sockets: typ.ClassVar = { output_sockets: typ.ClassVar = {
'Structure': sockets.MaxwellStructureSocketDef(), 'Structure': sockets.MaxwellStructureSocketDef(),
@ -34,7 +44,7 @@ class GeoNodesStructureNode(base.MaxwellSimNode):
} }
#################### ####################
# - Output # - Outputs
#################### ####################
@events.computes_output_socket( @events.computes_output_socket(
'Structure', 'Structure',
@ -43,14 +53,10 @@ class GeoNodesStructureNode(base.MaxwellSimNode):
) )
def compute_structure( def compute_structure(
self, self,
input_sockets: dict, input_sockets,
managed_objs: dict, managed_objs,
) -> td.Structure: ) -> td.Structure:
"""Computes a triangle-mesh based Tidy3D structure, by manually copying mesh data from Blender to a `td.TriangleMesh`.""" """Computes a triangle-mesh based Tidy3D structure, by manually copying mesh data from Blender to a `td.TriangleMesh`."""
# Simulate Input Value Change
## This ensures that the mesh has been re-computed.
self.on_input_socket_changed()
## TODO: mesh_as_arrays might not take the Center into account. ## TODO: mesh_as_arrays might not take the Center into account.
## - Alternatively, Tidy3D might have a way to transform? ## - Alternatively, Tidy3D might have a way to transform?
mesh_as_arrays = managed_objs['mesh'].mesh_as_arrays mesh_as_arrays = managed_objs['mesh'].mesh_as_arrays
@ -68,20 +74,12 @@ class GeoNodesStructureNode(base.MaxwellSimNode):
@events.on_value_changed( @events.on_value_changed(
prop_name='preview_active', prop_name='preview_active',
props={'preview_active'}, props={'preview_active'},
input_sockets={'Center'},
managed_objs={'mesh'}, managed_objs={'mesh'},
) )
def on_preview_changed(self, props, input_sockets) -> None: def on_preview_changed(self, props) -> None:
"""Enables/disables previewing of the GeoNodes-driven mesh, regardless of whether a particular GeoNodes tree is chosen.""" """Enables/disables previewing of the GeoNodes-driven mesh, regardless of whether a particular GeoNodes tree is chosen."""
mesh = managed_objs['mesh'] mesh = managed_objs['mesh']
# No Mesh: Create Empty Object
## Ensures that when there is mesh data, it'll be correctly previewed.
## Bit of a workaround - the idea is usually to make the MObj as needed.
if not mesh.exists:
center = input_sockets['Center']
_ = mesh.bl_object(location=center)
# Push Preview State to Managed Mesh # Push Preview State to Managed Mesh
if props['preview_active']: if props['preview_active']:
mesh.show_preview() mesh.show_preview()
@ -139,8 +137,8 @@ class GeoNodesStructureNode(base.MaxwellSimNode):
) )
def on_input_changed( def on_input_changed(
self, self,
managed_objs: dict, managed_objs,
input_sockets: dict, input_sockets,
) -> None: ) -> None:
"""Declares new loose input sockets in response to a new GeoNodes tree (if any).""" """Declares new loose input sockets in response to a new GeoNodes tree (if any)."""
geonodes = input_sockets['GeoNodes'] geonodes = input_sockets['GeoNodes']

View File

@ -5,11 +5,15 @@ import sympy.physics.units as spu
import tidy3d as td import tidy3d as td
from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes
from blender_maxwell.utils import extra_sympy_units as spux
from blender_maxwell.utils import logger
from .... import contracts as ct from .... import contracts as ct
from .... import managed_objs, sockets from .... import managed_objs, sockets
from ... import base, events from ... import base, events
log = logger.get(__name__)
class BoxStructureNode(base.MaxwellSimNode): class BoxStructureNode(base.MaxwellSimNode):
node_type = ct.NodeType.BoxStructure node_type = ct.NodeType.BoxStructure
@ -21,9 +25,20 @@ class BoxStructureNode(base.MaxwellSimNode):
#################### ####################
input_sockets: typ.ClassVar = { input_sockets: typ.ClassVar = {
'Medium': sockets.MaxwellMediumSocketDef(), 'Medium': sockets.MaxwellMediumSocketDef(),
'Center': sockets.PhysicalPoint3DSocketDef(), 'Center': sockets.ExprSocketDef(
'Size': sockets.PhysicalSize3DSocketDef( shape=(3,),
default_value=sp.Matrix([500, 500, 500]) * spu.nm mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_unit=spu.micrometer,
default_value=sp.Matrix([0, 0, 0]),
),
'Size': sockets.ExprSocketDef(
shape=(3,),
mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_unit=spu.nanometer,
default_value=sp.Matrix([500, 500, 500]),
abs_min=0.001,
), ),
} }
output_sockets: typ.ClassVar = { output_sockets: typ.ClassVar = {
@ -36,7 +51,7 @@ class BoxStructureNode(base.MaxwellSimNode):
} }
#################### ####################
# - Event Methods # - Outputs
#################### ####################
@events.computes_output_socket( @events.computes_output_socket(
'Structure', 'Structure',
@ -47,7 +62,7 @@ class BoxStructureNode(base.MaxwellSimNode):
'Size': 'Tidy3DUnits', 'Size': 'Tidy3DUnits',
}, },
) )
def compute_structure(self, input_sockets: dict, unit_systems: dict) -> td.Box: def compute_structure(self, input_sockets, unit_systems) -> td.Box:
return td.Structure( return td.Structure(
geometry=td.Box( geometry=td.Box(
center=input_sockets['Center'], center=input_sockets['Center'],
@ -56,11 +71,27 @@ class BoxStructureNode(base.MaxwellSimNode):
medium=input_sockets['Medium'], medium=input_sockets['Medium'],
) )
####################
# - Preview
####################
@events.on_value_changed( @events.on_value_changed(
socket_name={'Center', 'Size'},
prop_name='preview_active', prop_name='preview_active',
run_on_init=True, run_on_init=True,
props={'preview_active'}, props={'preview_active'},
managed_objs={'mesh'},
)
def on_preview_changed(self, props, managed_objs) -> None:
mesh = managed_objs['mesh']
# Push Preview State to Managed Mesh
if props['preview_active']:
mesh.show_preview()
else:
mesh.hide_preview()
@events.on_value_changed(
socket_name={'Center', 'Size'},
run_on_init=True,
input_sockets={'Center', 'Size'}, input_sockets={'Center', 'Size'},
managed_objs={'mesh', 'modifier'}, managed_objs={'mesh', 'modifier'},
unit_systems={'BlenderUnits': ct.UNITS_BLENDER}, unit_systems={'BlenderUnits': ct.UNITS_BLENDER},
@ -70,26 +101,26 @@ class BoxStructureNode(base.MaxwellSimNode):
) )
def on_inputs_changed( def on_inputs_changed(
self, self,
props: dict, managed_objs,
managed_objs: dict, input_sockets,
input_sockets: dict, unit_systems,
unit_systems: dict,
): ):
# Push Input Values to GeoNodes Modifier mesh = managed_objs['mesh']
managed_objs['modifier'].bl_modifier( modifier = managed_objs['modifier']
managed_objs['mesh'].bl_object(location=input_sockets['Center']), center = input_sockets['Center']
size = input_sockets['Size']
unit_system = unit_systems['BlenderUnits']
# Push Loose Input Values to GeoNodes Modifier
modifier.bl_modifier(
mesh.bl_object(location=center),
'NODES', 'NODES',
{ {
'node_group': import_geonodes(GeoNodes.StructurePrimitiveBox), 'node_group': import_geonodes(GeoNodes.StructurePrimitiveBox),
'unit_system': unit_systems['BlenderUnits'], 'inputs': {'Size': size},
'inputs': { 'unit_system': unit_system,
'Size': input_sockets['Size'],
},
}, },
) )
# Push Preview State
if props['preview_active']:
managed_objs['mesh'].show_preview()
#################### ####################

View File

@ -1,14 +1,19 @@
import typing as typ import typing as typ
import sympy as sp
import sympy.physics.units as spu import sympy.physics.units as spu
import tidy3d as td import tidy3d as td
from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes from blender_maxwell.assets.geonodes import GeoNodes, import_geonodes
from blender_maxwell.utils import extra_sympy_units as spux
from blender_maxwell.utils import logger
from .... import contracts as ct from .... import contracts as ct
from .... import managed_objs, sockets from .... import managed_objs, sockets
from ... import base, events from ... import base, events
log = logger.get(__name__)
class SphereStructureNode(base.MaxwellSimNode): class SphereStructureNode(base.MaxwellSimNode):
node_type = ct.NodeType.SphereStructure node_type = ct.NodeType.SphereStructure
@ -20,9 +25,17 @@ class SphereStructureNode(base.MaxwellSimNode):
#################### ####################
input_sockets: typ.ClassVar = { input_sockets: typ.ClassVar = {
'Medium': sockets.MaxwellMediumSocketDef(), 'Medium': sockets.MaxwellMediumSocketDef(),
'Center': sockets.PhysicalPoint3DSocketDef(), 'Center': sockets.ExprSocketDef(
'Radius': sockets.PhysicalLengthSocketDef( shape=(3,),
default_value=150 * spu.nm, mathtype=spux.MathType.Real,
physical_type=spux.PhysicalType.Length,
default_unit=spu.micrometer,
default_value=sp.Matrix([0, 0, 0]),
),
'Radius': sockets.ExprSocketDef(
physical_type=spux.PhysicalType.Length,
default_unit=spu.nanometer,
default_value=150,
), ),
} }
output_sockets: typ.ClassVar = { output_sockets: typ.ClassVar = {
@ -35,7 +48,7 @@ class SphereStructureNode(base.MaxwellSimNode):
} }
#################### ####################
# - Output Socket Computation # - Outputs
#################### ####################
@events.computes_output_socket( @events.computes_output_socket(
'Structure', 'Structure',
@ -46,7 +59,7 @@ class SphereStructureNode(base.MaxwellSimNode):
'Radius': 'Tidy3DUnits', 'Radius': 'Tidy3DUnits',
}, },
) )
def compute_structure(self, input_sockets: dict) -> td.Box: def compute_structure(self, input_sockets, unit_systems) -> td.Box:
return td.Structure( return td.Structure(
geometry=td.Sphere( geometry=td.Sphere(
radius=input_sockets['Radius'], radius=input_sockets['Radius'],
@ -56,43 +69,55 @@ class SphereStructureNode(base.MaxwellSimNode):
) )
#################### ####################
# - Preview - Changes to Input Sockets # - Preview
#################### ####################
@events.on_value_changed( @events.on_value_changed(
socket_name={'Center', 'Radius'},
prop_name='preview_active', prop_name='preview_active',
run_on_init=True, run_on_init=True,
props={'preview_active'}, props={'preview_active'},
managed_objs={'mesh'},
)
def on_preview_changed(self, props, managed_objs) -> None:
mesh = managed_objs['mesh']
# Push Preview State to Managed Mesh
if props['preview_active']:
mesh.show_preview()
else:
mesh.hide_preview()
@events.on_value_changed(
socket_name={'Center', 'Radius'},
run_on_init=True,
input_sockets={'Center', 'Radius'}, input_sockets={'Center', 'Radius'},
managed_objs={'mesh', 'modifier'}, managed_objs={'mesh', 'modifier'},
unit_systems={'BlenderUnits': ct.UNITS_BLENDER}, unit_systems={'BlenderUnits': ct.UNITS_BLENDER},
scale_input_sockets={ scale_input_sockets={
'Center': 'Tidy3DUnits', 'Center': 'BlenderUnits',
'Radius': 'Tidy3DUnits',
}, },
) )
def on_inputs_changed( def on_inputs_changed(
self, self,
props: dict, managed_objs,
managed_objs: dict, input_sockets,
input_sockets: dict, unit_systems,
unit_systems: dict,
): ):
# Push Input Values to GeoNodes Modifier mesh = managed_objs['mesh']
managed_objs['modifier'].bl_modifier( modifier = managed_objs['modifier']
managed_objs['mesh'].bl_object(location=input_sockets['Center']), center = input_sockets['Center']
radius = input_sockets['Radius']
unit_system = unit_systems['BlenderUnits']
# Push Loose Input Values to GeoNodes Modifier
modifier.bl_modifier(
mesh.bl_object(location=center),
'NODES', 'NODES',
{ {
'node_group': import_geonodes(GeoNodes.StructurePrimitiveSphere), 'node_group': import_geonodes(GeoNodes.StructurePrimitiveSphere),
'unit_system': unit_systems['BlenderUnits'], 'inputs': {'Radius': radius},
'inputs': { 'unit_system': unit_system,
'Radius': input_sockets['Radius'],
},
}, },
) )
# Push Preview State
if props['preview_active']:
managed_objs['mesh'].show_preview()
#################### ####################

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@ -1,5 +0,0 @@
####################
# - Blender Registration
####################
BL_REGISTER = []
BL_NODES = {}

View File

@ -1,80 +0,0 @@
import scipy as sc
import sympy as sp
import sympy.physics.units as spu
from .... import contracts, sockets
from ... import base, events
class WaveConverterNode(base.MaxwellSimTreeNode):
node_type = contracts.NodeType.WaveConverter
bl_label = 'Wave Converter'
# bl_icon = ...
####################
# - Sockets
####################
input_sockets = {}
input_socket_sets = {
'freq_to_vacwl': {
'freq': sockets.PhysicalFreqSocketDef(
label='Freq',
),
},
'vacwl_to_freq': {
'vacwl': sockets.PhysicalVacWLSocketDef(
label='Vac WL',
),
},
}
output_sockets = {}
output_socket_sets = {
'freq_to_vacwl': {
'vacwl': sockets.PhysicalVacWLSocketDef(
label='Vac WL',
),
},
'vacwl_to_freq': {
'freq': sockets.PhysicalFreqSocketDef(
label='Freq',
),
},
}
####################
# - Output Socket Computation
####################
@events.computes_output_socket('freq')
def compute_freq(self: contracts.NodeTypeProtocol) -> sp.Expr:
vac_speed_of_light = sc.constants.speed_of_light * spu.meter / spu.second
vacwl = self.compute_input('vacwl')
return spu.convert_to(
vac_speed_of_light / vacwl,
spu.hertz,
)
@events.computes_output_socket('vacwl')
def compute_vacwl(self: contracts.NodeTypeProtocol) -> sp.Expr:
vac_speed_of_light = sc.constants.speed_of_light * spu.meter / spu.second
freq = self.compute_input('freq')
return spu.convert_to(
vac_speed_of_light / freq,
spu.meter,
)
####################
# - Blender Registration
####################
BL_REGISTER = [
WaveConverterNode,
]
BL_NODES = {
contracts.NodeType.WaveConverter: (
contracts.NodeCategory.MAXWELLSIM_UTILITIES_CONVERTERS
)
}

View File

@ -38,6 +38,14 @@ class SocketDef(pyd.BaseModel, abc.ABC):
""" """
bl_socket.reset_instance_id() bl_socket.reset_instance_id()
def postinit(self, bl_socket: bpy.types.NodeSocket) -> None:
"""Pre-initialize a real Blender node socket from this socket definition.
Parameters:
bl_socket: The Blender node socket to alter using data from this SocketDef.
"""
bl_socket.initializing = False
@abc.abstractmethod @abc.abstractmethod
def init(self, bl_socket: bpy.types.NodeSocket) -> None: def init(self, bl_socket: bpy.types.NodeSocket) -> None:
"""Initializes a real Blender node socket from this socket definition. """Initializes a real Blender node socket from this socket definition.
@ -195,6 +203,9 @@ class MaxwellSimSocket(bpy.types.NodeSocket):
## Identifiers ## Identifiers
cls.bl_idname: str = str(cls.socket_type.value) cls.bl_idname: str = str(cls.socket_type.value)
cls.set_prop('instance_id', bpy.props.StringProperty, no_update=True) cls.set_prop('instance_id', bpy.props.StringProperty, no_update=True)
cls.set_prop(
'initializing', bpy.props.BoolProperty, default=True, no_update=True
)
## Special States ## Special States
cls.set_prop('locked', bpy.props.BoolProperty, no_update=True, default=False) cls.set_prop('locked', bpy.props.BoolProperty, no_update=True, default=False)
@ -249,6 +260,10 @@ class MaxwellSimSocket(bpy.types.NodeSocket):
Attributes: Attributes:
prop_name: The name of the property that was changed. prop_name: The name of the property that was changed.
""" """
## TODO: Evaluate this properly
if self.initializing:
return
if hasattr(self, prop_name): if hasattr(self, prop_name):
# Invalidate UI BLField Caches # Invalidate UI BLField Caches
if prop_name in self.ui_blfields: if prop_name in self.ui_blfields:
@ -537,7 +552,7 @@ class MaxwellSimSocket(bpy.types.NodeSocket):
msg = f'Socket {self.bl_label} {self.socket_type}): Tried to set "ct.FlowKind.Value", but socket does not define it' msg = f'Socket {self.bl_label} {self.socket_type}): Tried to set "ct.FlowKind.Value", but socket does not define it'
raise NotImplementedError(msg) raise NotImplementedError(msg)
# ValueArray # Array
@property @property
def array(self) -> ct.ArrayFlow: def array(self) -> ct.ArrayFlow:
"""Throws a descriptive error. """Throws a descriptive error.

View File

@ -1,4 +1,3 @@
from ... import contracts as ct from ... import contracts as ct
from .. import base from .. import base

View File

@ -1,4 +1,3 @@
from ... import contracts as ct from ... import contracts as ct
from .. import base from .. import base
@ -18,7 +17,7 @@ class MaxwellStructureSocketDef(base.SocketDef):
def init(self, bl_socket: MaxwellStructureBLSocket) -> None: def init(self, bl_socket: MaxwellStructureBLSocket) -> None:
if self.is_list: if self.is_list:
bl_socket.active_kind = ct.FlowKind.ValueArray bl_socket.active_kind = ct.FlowKind.Array
#################### ####################