Mod: track new model variables
Mod: return mesh elements Mod: update netgen conda channel Fix: some mistakes
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fba3e53bb6
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15
.vscode/launch.json
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.vscode/launch.json
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{
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"version": "0.2.0",
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"configurations": [
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{
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"name": "anisotropy compute",
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"type": "python",
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"request": "launch",
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"program": "${workspaceFolder}/anisotropy/core/cli.py",
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"args": ["compute", "-v"],
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"console": "integratedTerminal",
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"cwd": "/tmp/anisotropy",
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"preLaunchTask": "prepare"
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}
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]
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}
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.vscode/settings.json
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.vscode/settings.json
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{
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"python.pythonPath": "${env:HOME}/.local/share/mambaforge/envs/anisotropy/bin/python",
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"python.testing.pytestArgs": [
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"tests"
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],
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"python.testing.unittestEnabled": false,
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"python.testing.pytestEnabled": true,
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"python.linting.enabled": true,
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"python.linting.pylintEnabled": false,
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"python.linting.flake8Enabled": true,
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"python.linting.flake8Args": ["--ignore=E402,E251,E501", "--verbose"]
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}
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9
.vscode/tasks.json
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.vscode/tasks.json
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{
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"version": "2.0.0",
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"tasks": [{
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"label": "prepare",
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"command": "mkdir",
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"args": ["-p", "/tmp/anisotropy"],
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"type": "shell",
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}]
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}
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@ -4,7 +4,7 @@
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import click
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import ast
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import os, sys, shutil
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import os
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import logging
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@ -72,22 +72,22 @@ class Config(object):
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# Expand structures for each direction and each alpha
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for structure in self.content["structures"]:
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# ISSUE: precision error 0.06999999999999999
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structure = deepcopy(structure)
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alphaA = round(arange(
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structure["alpha"][0],
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structure["alpha"][1] + structure["alphaStep"],
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structure["alphaStep"]
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), 9)
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directionA = array(structure["directions"], dtype = float)
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structure.pop("alpha")
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structure.pop("directions")
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for direction in directionA:
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for alpha in alphaA:
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self.cases.append({
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"label": structure["label"],
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"alpha": alpha,
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"alphaStep": structure["alphaStep"],
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"direction": direction,
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"r0": structure["r0"],
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"filletsEnabled": structure["filletsEnabled"]
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**structure
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})
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def chooseParams(self, idn: int):
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@ -122,7 +122,15 @@ class DefaultConfig(Config):
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"label": label,
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"alpha": alpha,
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"alphaStep": 0.01,
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"directions": [[1, 0, 0], [0, 0, 1], [1, 1, 1]],
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"directions": [[1., 0., 0.], [0., 0., 1.], [1., 1., 1.]],
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"r0": 1,
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"filletsEnabled": True
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"filletsEnabled": True,
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"pressureInlet": 1,
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"pressureOutlet": 0,
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"pressureInternal": 0,
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"velocityInlet": [0., 0., 0.],
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"velocityOutlet": None,
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"velocityInternal": [0., 0., 0.],
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"density": 1000,
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"viscosity": 1e-3
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})
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@ -16,6 +16,7 @@ class PostProcess(object):
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self.path = path.abspath(dirpath)
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def flowRate(self, patch: str):
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# TODO: fix wrong log path
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func = "patchFlowRate(patch={})".format(patch)
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filepath = path.join(self.path, "postProcessing", func, "0", "surfaceFieldValue.dat")
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postProcess(func, cwd = self.path)
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@ -31,6 +31,7 @@ class UltimateRunner(object):
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# Database preparation
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self.database = Database(path = self.config["database"])
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self.exec_id = None
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if exec_id:
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if self.database.getExecution(exec_id):
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@ -64,7 +65,7 @@ class UltimateRunner(object):
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flow = self.database.getFlowOnephase(execution = self.exec_id, **self.config.params)
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if not flow:
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flow = T.FlowOnephase.create(mesh_id = mesh)
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flow = T.FlowOnephase.create(mesh_id = mesh, **self.config.params)
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def fill(self):
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self.config.expand()
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@ -202,6 +203,9 @@ class UltimateRunner(object):
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if not returncode:
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meshParams.meshStatus = "done"
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meshParams.edges = len(self.mesh.edges)
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meshParams.faces = len(self.mesh.faces)
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meshParams.volumes = len(self.mesh.volumes)
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else:
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logger.error(err)
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@ -225,7 +229,16 @@ class UltimateRunner(object):
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))
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timer = Timer()
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self.flow = OnePhaseFlow(params["direction"], path = self.casepath())
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flowParams.viscosityKinematic = flowParams.viscosity / flowParams.density
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with self.database:
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flowParams.save()
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self.flow = OnePhaseFlow(
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direction = params["direction"],
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**flowParams.select().dicts().get(),
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path = self.casepath()
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)
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if not self.shape:
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filename = "shape.step"
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@ -300,8 +313,6 @@ class UltimateRunner(object):
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if stage in ["postProcess", "all"]:
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self.computePostProcess()
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#logger.info("Pipeline done")
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@staticmethod
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def subrunner(*args, **kwargs):
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runner = UltimateRunner(config = kwargs["config"], exec_id = kwargs["exec_id"], typo = "worker")
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@ -11,7 +11,7 @@ from peewee import (
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TimeField, DateTimeField, Proxy
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)
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from .utils import JSONField
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#from playhouse.sqlite_ext import JSONField
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__database_proxy__ = Proxy()
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class Execution(Model):
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@ -45,9 +45,7 @@ class Shape(Model):
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volumeCell = FloatField(null = True)
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volume = FloatField(null = True)
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volumeRounded = FloatField(null = True)
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porosity = FloatField(null = True)
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porosityRounded = FloatField(null = True)
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class Meta:
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database = __database_proxy__
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@ -87,10 +85,11 @@ class FlowOnephase(Model):
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pressureInlet = FloatField(null = True)
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pressureOutlet = FloatField(null = True)
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pressureInternal = FloatField(null = True)
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velocityInlet = FloatField(null = True)
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velocityOutlet = FloatField(null = True)
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velocityInternal = FloatField(null = True)
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velocityInlet = JSONField(null = True)
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velocityOutlet = JSONField(null = True)
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velocityInternal = JSONField(null = True)
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viscosity = FloatField(null = True)
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viscosityKinematic = FloatField(null = True)
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density = FloatField(null = True)
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flowRate = FloatField(null = True)
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permeability = FloatField(null = True)
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@ -15,6 +15,7 @@ from peewee import (
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import json
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from numpy import ndarray
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class ListField(TextField):
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field_type = "list"
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@ -173,3 +174,4 @@ class JSONField(TextField):
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def tree(self):
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return fn.json_tree(self)
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@ -4,7 +4,7 @@
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from netgen.occ import OCCGeometry
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from netgen import meshing
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import numpy
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from numpy import array
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import os
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class Mesh(object):
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@ -82,9 +82,20 @@ class Mesh(object):
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def doubleExport(self):
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pass
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def volumes(self) -> numpy.array:
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# TODO: check each polyhedron
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tetras = numpy.array([ [ [ vertex for vertex in mesh[index] ] for index in element.vertices ] for element in self.mesh.Elements3D() ])
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volumes = numpy.array([ 1 / 6 * linalg.det(numpy.append(tetra.transpose(), numpy.array([[1, 1, 1, 1]]), axis = 0)) for tetra in tetras ])
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@property
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def volumes(self) -> array:
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return array(self.mesh.Elements3D())
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@property
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def faces(self) -> array:
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return array(self.mesh.Elements2D())
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@property
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def edges(self) -> array:
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# NOTE: returns zero elements for imported mesh
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return array(self.mesh.Elements1D())
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# tetras = numpy.array([ [ [ vertex for vertex in mesh[index] ] for index in element.vertices ] for element in self.mesh.Elements3D() ])
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# volumes = numpy.array([ 1 / 6 * linalg.det(numpy.append(tetra.transpose(), numpy.array([[1, 1, 1, 1]]), axis = 0)) for tetra in tetras ])
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return volumes
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@ -2,7 +2,7 @@
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# This file is part of anisotropy.
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# License: GNU GPL version 3, see the file "LICENSE" for details.
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from .shape import Shape
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from .shape import ShapeError, Shape
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from .periodic import Periodic
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from .simple import Simple
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from .faceCentered import FaceCentered
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@ -8,6 +8,7 @@ from numpy import pi, sqrt, arccos
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from .occExtended import *
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from . import Periodic
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from . import ShapeError
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class BodyCentered(Periodic):
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def __init__(
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@ -160,6 +161,13 @@ class BodyCentered(Periodic):
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# Main shape
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self.shape = self.cell - self.lattice
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if not len(self.shape.solids) == 1:
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raise ShapeError("Expected single solid shape")
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else:
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self.shape = self.shape.solids[0]
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# Boundaries (walls)
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for face in self.shape.faces:
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if face.name not in ["inlet", "outlet", *[ f"symetry{ n }" for n in range(6) ]]:
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face.name = "wall"
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@ -8,6 +8,7 @@ from numpy import pi, sqrt
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from .occExtended import *
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from . import Periodic
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from . import ShapeError
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class FaceCentered(Periodic):
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def __init__(
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@ -167,6 +168,13 @@ class FaceCentered(Periodic):
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# Main shape
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self.shape = self.cell - self.lattice
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if not len(self.shape.solids) == 1:
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raise ShapeError("Expected single solid shape")
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else:
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self.shape = self.shape.solids[0]
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# Boundaries (walls)
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for face in self.shape.faces:
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if face.name not in ["inlet", "outlet", *[ f"symetry{ n }" for n in range(6) ]]:
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face.name = "wall"
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@ -7,6 +7,11 @@ import numpy
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from numpy import linalg
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import os
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class ShapeError(Exception):
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pass
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class Shape(object):
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def __init__(self):
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self.groups = {}
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@ -8,6 +8,7 @@ from numpy import pi, sqrt
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from .occExtended import *
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from . import Periodic
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from . import ShapeError
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class Simple(Periodic):
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def __init__(
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@ -155,6 +156,13 @@ class Simple(Periodic):
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# Main shape
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self.shape = self.cell - self.lattice
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if not len(self.shape.solids) == 1:
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raise ShapeError("Expected single solid shape")
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else:
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self.shape = self.shape.solids[0]
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# Boundaries (walls)
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for face in self.shape.faces:
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if face.name not in ["inlet", "outlet", *[ f"symetry{ n }" for n in range(6) ]]:
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face.name = "wall"
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@ -11,9 +11,32 @@ import logging
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logger = logging.getLogger(__name__)
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class OnePhaseFlow(FoamCase):
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def __init__(self, direction, path: str = None):
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def __init__(
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self,
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direction: list[float] = None,
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pressureInlet: float = None,
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pressureOutlet: float = None,
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pressureInternal: float = None,
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velocityInlet: float = None,
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velocityOutlet: float = None,
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velocityInternal: float = None,
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density: float = None,
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viscosityKinematic: float = None,
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path: str = None,
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**kwargs
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):
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FoamCase.__init__(self, path = path)
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self.direction = direction
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self.pressureInlet = pressureInlet
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self.pressureOutlet = pressureOutlet
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self.pressureInternal = pressureInternal
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self.velocityInlet = velocityInlet
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self.velocityOutlet = velocityOutlet
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self.velocityInternal = velocityInternal
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self.density = density
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self.viscosityKinematic = viscosityKinematic
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controlDict = F.ControlDict()
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controlDict.update(
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startFrom = "latestTime",
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@ -27,7 +50,8 @@ class OnePhaseFlow(FoamCase):
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fvSolution = F.FvSolution()
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fvSolution["solvers"]["U"].update(
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nSweeps = 2,
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tolerance = 1e-08
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tolerance = 1e-08,
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smoother = "GaussSeidel"
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)
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fvSolution["solvers"]["Phi"] = dict(
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solver = "GAMG",
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@ -40,7 +64,7 @@ class OnePhaseFlow(FoamCase):
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relTol = 0.01
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)
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fvSolution["potentialFlow"] = dict(
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nNonOrthogonalCorrectors = 20,
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nNonOrthogonalCorrectors = 13,
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PhiRefCell = 0,
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PhiRefPoint = 0,
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PhiRefValue = 0,
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@ -48,7 +72,7 @@ class OnePhaseFlow(FoamCase):
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)
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fvSolution["cache"] = { "grad(U)": None }
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fvSolution["SIMPLE"].update(
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nNonOrthogonalCorrectors = 10,
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nNonOrthogonalCorrectors = 6,
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residualControl = dict(
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p = 1e-05,
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U = 1e-05
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@ -58,7 +82,7 @@ class OnePhaseFlow(FoamCase):
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transportProperties = F.TransportProperties()
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transportProperties.update(
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nu = 1e-06
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nu = self.viscosityKinematic
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)
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turbulenceProperties = F.TurbulenceProperties()
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@ -72,22 +96,21 @@ class OnePhaseFlow(FoamCase):
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u = F.U()
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u["boundaryField"] = {}
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# ISSUE: add proxy from geometry direction to outlet boundaryField.
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for boundary in boundaries:
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if boundary == "inlet":
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p["boundaryField"][boundary] = dict(
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type = "fixedValue",
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value = uniform(1e-3)
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value = uniform(self.pressureInlet / self.density)
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)
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u["boundaryField"][boundary] = dict(
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type = "fixedValue",
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value = uniform(array(direction) * -6e-5) # uniform([0, 0, -6e-5])
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value = uniform(array(self.direction) * -6e-5)
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)
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elif boundary == "outlet":
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p["boundaryField"][boundary] = dict(
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type = "fixedValue",
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value = uniform(0)
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value = uniform(self.pressureOutlet / self.density)
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)
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u["boundaryField"][boundary] = dict(
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type = "zeroGradient",
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@ -173,13 +196,13 @@ class OnePhaseFlow(FoamCase):
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"scale": [1e-5, 1e-5, 1e-5]
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})
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R.renumberMesh()
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R.potentialFoam()
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#R.potentialFoam()
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self.read()
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self.U["boundaryField"]["outlet"] = dict(
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self.U["boundaryField"]["inlet"] = dict(
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type = "pressureInletVelocity",
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value = uniform([0, 0, 0])
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value = uniform(self.velocityInlet)
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)
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self.write()
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@ -8,4 +8,4 @@ dependencies:
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- poetry
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- sqlite
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- occt
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- netgen
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- l-nafaryus::netgen
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