Mod: track new model variables

Mod: return mesh elements
Mod: update netgen conda channel
Fix: some mistakes
This commit is contained in:
L-Nafaryus 2021-12-25 01:02:28 +05:00
parent fba3e53bb6
commit 9d4aac4652
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GPG Key ID: C76D8DCD2727DBB7
17 changed files with 159 additions and 39 deletions

15
.vscode/launch.json vendored Normal file
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@ -0,0 +1,15 @@
{
"version": "0.2.0",
"configurations": [
{
"name": "anisotropy compute",
"type": "python",
"request": "launch",
"program": "${workspaceFolder}/anisotropy/core/cli.py",
"args": ["compute", "-v"],
"console": "integratedTerminal",
"cwd": "/tmp/anisotropy",
"preLaunchTask": "prepare"
}
]
}

12
.vscode/settings.json vendored Normal file
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@ -0,0 +1,12 @@
{
"python.pythonPath": "${env:HOME}/.local/share/mambaforge/envs/anisotropy/bin/python",
"python.testing.pytestArgs": [
"tests"
],
"python.testing.unittestEnabled": false,
"python.testing.pytestEnabled": true,
"python.linting.enabled": true,
"python.linting.pylintEnabled": false,
"python.linting.flake8Enabled": true,
"python.linting.flake8Args": ["--ignore=E402,E251,E501", "--verbose"]
}

9
.vscode/tasks.json vendored Normal file
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@ -0,0 +1,9 @@
{
"version": "2.0.0",
"tasks": [{
"label": "prepare",
"command": "mkdir",
"args": ["-p", "/tmp/anisotropy"],
"type": "shell",
}]
}

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@ -4,7 +4,7 @@
import click
import ast
import os, sys, shutil
import os
import logging

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@ -72,22 +72,22 @@ class Config(object):
# Expand structures for each direction and each alpha
for structure in self.content["structures"]:
# ISSUE: precision error 0.06999999999999999
structure = deepcopy(structure)
alphaA = round(arange(
structure["alpha"][0],
structure["alpha"][1] + structure["alphaStep"],
structure["alphaStep"]
), 9)
directionA = array(structure["directions"], dtype = float)
structure.pop("alpha")
structure.pop("directions")
for direction in directionA:
for alpha in alphaA:
self.cases.append({
"label": structure["label"],
"alpha": alpha,
"alphaStep": structure["alphaStep"],
"direction": direction,
"r0": structure["r0"],
"filletsEnabled": structure["filletsEnabled"]
**structure
})
def chooseParams(self, idn: int):
@ -122,7 +122,15 @@ class DefaultConfig(Config):
"label": label,
"alpha": alpha,
"alphaStep": 0.01,
"directions": [[1, 0, 0], [0, 0, 1], [1, 1, 1]],
"directions": [[1., 0., 0.], [0., 0., 1.], [1., 1., 1.]],
"r0": 1,
"filletsEnabled": True
"filletsEnabled": True,
"pressureInlet": 1,
"pressureOutlet": 0,
"pressureInternal": 0,
"velocityInlet": [0., 0., 0.],
"velocityOutlet": None,
"velocityInternal": [0., 0., 0.],
"density": 1000,
"viscosity": 1e-3
})

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@ -16,6 +16,7 @@ class PostProcess(object):
self.path = path.abspath(dirpath)
def flowRate(self, patch: str):
# TODO: fix wrong log path
func = "patchFlowRate(patch={})".format(patch)
filepath = path.join(self.path, "postProcessing", func, "0", "surfaceFieldValue.dat")
postProcess(func, cwd = self.path)

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@ -31,6 +31,7 @@ class UltimateRunner(object):
# Database preparation
self.database = Database(path = self.config["database"])
self.exec_id = None
if exec_id:
if self.database.getExecution(exec_id):
@ -64,7 +65,7 @@ class UltimateRunner(object):
flow = self.database.getFlowOnephase(execution = self.exec_id, **self.config.params)
if not flow:
flow = T.FlowOnephase.create(mesh_id = mesh)
flow = T.FlowOnephase.create(mesh_id = mesh, **self.config.params)
def fill(self):
self.config.expand()
@ -202,6 +203,9 @@ class UltimateRunner(object):
if not returncode:
meshParams.meshStatus = "done"
meshParams.edges = len(self.mesh.edges)
meshParams.faces = len(self.mesh.faces)
meshParams.volumes = len(self.mesh.volumes)
else:
logger.error(err)
@ -225,7 +229,16 @@ class UltimateRunner(object):
))
timer = Timer()
self.flow = OnePhaseFlow(params["direction"], path = self.casepath())
flowParams.viscosityKinematic = flowParams.viscosity / flowParams.density
with self.database:
flowParams.save()
self.flow = OnePhaseFlow(
direction = params["direction"],
**flowParams.select().dicts().get(),
path = self.casepath()
)
if not self.shape:
filename = "shape.step"
@ -300,8 +313,6 @@ class UltimateRunner(object):
if stage in ["postProcess", "all"]:
self.computePostProcess()
#logger.info("Pipeline done")
@staticmethod
def subrunner(*args, **kwargs):
runner = UltimateRunner(config = kwargs["config"], exec_id = kwargs["exec_id"], typo = "worker")

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@ -11,7 +11,7 @@ from peewee import (
TimeField, DateTimeField, Proxy
)
from .utils import JSONField
#from playhouse.sqlite_ext import JSONField
__database_proxy__ = Proxy()
class Execution(Model):
@ -45,9 +45,7 @@ class Shape(Model):
volumeCell = FloatField(null = True)
volume = FloatField(null = True)
volumeRounded = FloatField(null = True)
porosity = FloatField(null = True)
porosityRounded = FloatField(null = True)
class Meta:
database = __database_proxy__
@ -87,10 +85,11 @@ class FlowOnephase(Model):
pressureInlet = FloatField(null = True)
pressureOutlet = FloatField(null = True)
pressureInternal = FloatField(null = True)
velocityInlet = FloatField(null = True)
velocityOutlet = FloatField(null = True)
velocityInternal = FloatField(null = True)
velocityInlet = JSONField(null = True)
velocityOutlet = JSONField(null = True)
velocityInternal = JSONField(null = True)
viscosity = FloatField(null = True)
viscosityKinematic = FloatField(null = True)
density = FloatField(null = True)
flowRate = FloatField(null = True)
permeability = FloatField(null = True)

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@ -15,6 +15,7 @@ from peewee import (
import json
from numpy import ndarray
class ListField(TextField):
field_type = "list"
@ -173,3 +174,4 @@ class JSONField(TextField):
def tree(self):
return fn.json_tree(self)

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@ -4,7 +4,7 @@
from netgen.occ import OCCGeometry
from netgen import meshing
import numpy
from numpy import array
import os
class Mesh(object):
@ -82,9 +82,20 @@ class Mesh(object):
def doubleExport(self):
pass
def volumes(self) -> numpy.array:
# TODO: check each polyhedron
tetras = numpy.array([ [ [ vertex for vertex in mesh[index] ] for index in element.vertices ] for element in self.mesh.Elements3D() ])
volumes = numpy.array([ 1 / 6 * linalg.det(numpy.append(tetra.transpose(), numpy.array([[1, 1, 1, 1]]), axis = 0)) for tetra in tetras ])
@property
def volumes(self) -> array:
return array(self.mesh.Elements3D())
@property
def faces(self) -> array:
return array(self.mesh.Elements2D())
@property
def edges(self) -> array:
# NOTE: returns zero elements for imported mesh
return array(self.mesh.Elements1D())
# tetras = numpy.array([ [ [ vertex for vertex in mesh[index] ] for index in element.vertices ] for element in self.mesh.Elements3D() ])
# volumes = numpy.array([ 1 / 6 * linalg.det(numpy.append(tetra.transpose(), numpy.array([[1, 1, 1, 1]]), axis = 0)) for tetra in tetras ])
return volumes

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@ -2,7 +2,7 @@
# This file is part of anisotropy.
# License: GNU GPL version 3, see the file "LICENSE" for details.
from .shape import Shape
from .shape import ShapeError, Shape
from .periodic import Periodic
from .simple import Simple
from .faceCentered import FaceCentered

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@ -8,6 +8,7 @@ from numpy import pi, sqrt, arccos
from .occExtended import *
from . import Periodic
from . import ShapeError
class BodyCentered(Periodic):
def __init__(
@ -160,6 +161,13 @@ class BodyCentered(Periodic):
# Main shape
self.shape = self.cell - self.lattice
if not len(self.shape.solids) == 1:
raise ShapeError("Expected single solid shape")
else:
self.shape = self.shape.solids[0]
# Boundaries (walls)
for face in self.shape.faces:
if face.name not in ["inlet", "outlet", *[ f"symetry{ n }" for n in range(6) ]]:
face.name = "wall"

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@ -8,6 +8,7 @@ from numpy import pi, sqrt
from .occExtended import *
from . import Periodic
from . import ShapeError
class FaceCentered(Periodic):
def __init__(
@ -167,6 +168,13 @@ class FaceCentered(Periodic):
# Main shape
self.shape = self.cell - self.lattice
if not len(self.shape.solids) == 1:
raise ShapeError("Expected single solid shape")
else:
self.shape = self.shape.solids[0]
# Boundaries (walls)
for face in self.shape.faces:
if face.name not in ["inlet", "outlet", *[ f"symetry{ n }" for n in range(6) ]]:
face.name = "wall"

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@ -7,6 +7,11 @@ import numpy
from numpy import linalg
import os
class ShapeError(Exception):
pass
class Shape(object):
def __init__(self):
self.groups = {}

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@ -8,6 +8,7 @@ from numpy import pi, sqrt
from .occExtended import *
from . import Periodic
from . import ShapeError
class Simple(Periodic):
def __init__(
@ -155,6 +156,13 @@ class Simple(Periodic):
# Main shape
self.shape = self.cell - self.lattice
if not len(self.shape.solids) == 1:
raise ShapeError("Expected single solid shape")
else:
self.shape = self.shape.solids[0]
# Boundaries (walls)
for face in self.shape.faces:
if face.name not in ["inlet", "outlet", *[ f"symetry{ n }" for n in range(6) ]]:
face.name = "wall"

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@ -11,9 +11,32 @@ import logging
logger = logging.getLogger(__name__)
class OnePhaseFlow(FoamCase):
def __init__(self, direction, path: str = None):
def __init__(
self,
direction: list[float] = None,
pressureInlet: float = None,
pressureOutlet: float = None,
pressureInternal: float = None,
velocityInlet: float = None,
velocityOutlet: float = None,
velocityInternal: float = None,
density: float = None,
viscosityKinematic: float = None,
path: str = None,
**kwargs
):
FoamCase.__init__(self, path = path)
self.direction = direction
self.pressureInlet = pressureInlet
self.pressureOutlet = pressureOutlet
self.pressureInternal = pressureInternal
self.velocityInlet = velocityInlet
self.velocityOutlet = velocityOutlet
self.velocityInternal = velocityInternal
self.density = density
self.viscosityKinematic = viscosityKinematic
controlDict = F.ControlDict()
controlDict.update(
startFrom = "latestTime",
@ -27,7 +50,8 @@ class OnePhaseFlow(FoamCase):
fvSolution = F.FvSolution()
fvSolution["solvers"]["U"].update(
nSweeps = 2,
tolerance = 1e-08
tolerance = 1e-08,
smoother = "GaussSeidel"
)
fvSolution["solvers"]["Phi"] = dict(
solver = "GAMG",
@ -40,7 +64,7 @@ class OnePhaseFlow(FoamCase):
relTol = 0.01
)
fvSolution["potentialFlow"] = dict(
nNonOrthogonalCorrectors = 20,
nNonOrthogonalCorrectors = 13,
PhiRefCell = 0,
PhiRefPoint = 0,
PhiRefValue = 0,
@ -48,7 +72,7 @@ class OnePhaseFlow(FoamCase):
)
fvSolution["cache"] = { "grad(U)": None }
fvSolution["SIMPLE"].update(
nNonOrthogonalCorrectors = 10,
nNonOrthogonalCorrectors = 6,
residualControl = dict(
p = 1e-05,
U = 1e-05
@ -58,7 +82,7 @@ class OnePhaseFlow(FoamCase):
transportProperties = F.TransportProperties()
transportProperties.update(
nu = 1e-06
nu = self.viscosityKinematic
)
turbulenceProperties = F.TurbulenceProperties()
@ -72,22 +96,21 @@ class OnePhaseFlow(FoamCase):
u = F.U()
u["boundaryField"] = {}
# ISSUE: add proxy from geometry direction to outlet boundaryField.
for boundary in boundaries:
if boundary == "inlet":
p["boundaryField"][boundary] = dict(
type = "fixedValue",
value = uniform(1e-3)
value = uniform(self.pressureInlet / self.density)
)
u["boundaryField"][boundary] = dict(
type = "fixedValue",
value = uniform(array(direction) * -6e-5) # uniform([0, 0, -6e-5])
value = uniform(array(self.direction) * -6e-5)
)
elif boundary == "outlet":
p["boundaryField"][boundary] = dict(
type = "fixedValue",
value = uniform(0)
value = uniform(self.pressureOutlet / self.density)
)
u["boundaryField"][boundary] = dict(
type = "zeroGradient",
@ -173,13 +196,13 @@ class OnePhaseFlow(FoamCase):
"scale": [1e-5, 1e-5, 1e-5]
})
R.renumberMesh()
R.potentialFoam()
#R.potentialFoam()
self.read()
self.U["boundaryField"]["outlet"] = dict(
self.U["boundaryField"]["inlet"] = dict(
type = "pressureInletVelocity",
value = uniform([0, 0, 0])
value = uniform(self.velocityInlet)
)
self.write()

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@ -8,4 +8,4 @@ dependencies:
- poetry
- sqlite
- occt
- netgen
- l-nafaryus::netgen