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scriptSalome.py
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from __future__ import division
from __future__ import print_function
import os
import time
import json
import salome
import salome_notebook
import salome_version
import numpy as np
import itertools
flatten = itertools.chain.from_iterable
class MODEL:
def __init__(self, dataFilename, medFilename, meshSize):
self.dataFilename = dataFilename
self.medFilename = medFilename
self.meshSize = meshSize
self.tolLoc = 0
self.mesh = None
self.meshNodes = None
self.create()
def getGroupName(self, name):
info = name.split("|")
sortName = "".join(c for c in info[0] if c.isupper())
return str(sortName + "_" + info[1])
def makePoint(self, pl):
"""Function to define a Point from
a polyline (list of 1 point)"""
(x, y, z) = pl
return self.geompy.MakeVertex(x, y, z)
def makeLine(self, pl):
"""Function to define a Line from
a polyline (list of 2 points)"""
(x, y, z) = pl[0]
P1 = self.geompy.MakeVertex(x, y, z)
(x, y, z) = pl[1]
P2 = self.geompy.MakeVertex(x, y, z)
return self.geompy.MakeLineTwoPnt(P1, P2)
def makeFace(self, pl):
"""Function to define a Face from
a polyline (list of points)"""
pointList = [None for _ in range(len(pl))]
for ip, (x, y, z) in enumerate(pl):
pointList[ip] = self.geompy.MakeVertex(x, y, z)
LineList = [None for _ in range(len(pl))]
for ip, P2 in enumerate(pointList):
P1 = pointList[ip - 1]
LineList[ip] = self.geompy.MakeLineTwoPnt(P1, P2)
return self.geompy.MakeFaceWires(LineList, 1)
def makeObject(self, geometry, geometryType):
if geometryType == "point":
return self.makePoint(geometry)
if geometryType == "line":
return self.makeLine(geometry)
if geometryType == "surface":
return self.makeFace(geometry)
def makePartition(self, objects, geometryType):
if geometryType == "point":
shapeType = "VERTEX"
if geometryType == "line":
shapeType = "EDGE"
if geometryType == "surface":
shapeType = "FACE"
return self.geompy.MakePartition(
objects, [], [], [], self.geompy.ShapeType[shapeType], 0, [], 1
)
def getLinkGeometry(self, ecc, orientation, finalPoint):
vector = np.array(orientation).transpose().dot(ecc["vector"])
initialPoint = (np.array(finalPoint) - vector).tolist()
return [initialPoint, finalPoint]
def length(self, geometry):
return (
(geometry[1][0] - geometry[0][0]) ** 2
+ (geometry[1][1] - geometry[0][1]) ** 2
+ (geometry[1][2] - geometry[0][2]) ** 2
) ** 0.5
def create(self):
# Read data from input file
with open(self.dataFilename) as dataFile:
data = json.load(dataFile)
elements = data["elements"]
connections = data["connections"]
# --> Delete this reference data and repopulate it with the objects
# while going through elements
for conn in connections:
conn["relatedElements"] = []
# End <--
meshSize = self.meshSize
dec = 7 # 4 decimals for length in mm
tol = 10 ** (-dec - 3 + 1)
self.tolLoc = tol * 10 * 2
tolLoc = self.tolLoc
NEW_SALOME = int(salome_version.getVersion()[0]) >= 9
salome.salome_init()
theStudy = salome.myStudy
notebook = salome_notebook.NoteBook(theStudy)
###
### GEOM component
###
import GEOM
from salome.geom import geomBuilder
import math
import SALOMEDS
gg = salome.ImportComponentGUI("GEOM")
if NEW_SALOME:
geompy = geomBuilder.New()
else:
geompy = geomBuilder.New(theStudy)
self.geompy = geompy
O = geompy.MakeVertex(0, 0, 0)
OX = geompy.MakeVectorDXDYDZ(1, 0, 0)
OY = geompy.MakeVectorDXDYDZ(0, 1, 0)
OZ = geompy.MakeVectorDXDYDZ(0, 0, 1)
geompy.addToStudy(O, "O")
geompy.addToStudy(OX, "OX")
geompy.addToStudy(OY, "OY")
geompy.addToStudy(OZ, "OZ")
if len([e for e in elements if e["geometryType"] == "line"]) > 0:
buildingShapeType = "EDGE"
if len([e for e in elements if e["geometryType"] == "surface"]) > 0:
buildingShapeType = "FACE"
### Define entities ###
start_time = time.time()
print("Defining Object Geometry")
init_time = start_time
# Loop 1
for el in elements:
el["elemObj"] = self.makeObject(el["geometry"], el["geometryType"])
el["connObjs"] = [None for _ in el["connections"]]
el["linkObjs"] = [None for _ in el["connections"]]
el["linkPointObjs"] = [[None, None] for _ in el["connections"]]
for j, rel in enumerate(el["connections"]):
conn = [
c for c in connections if c["ifcName"] == rel["relatedConnection"]
][0]
if rel["eccentricity"]:
rel["index"] = len(conn["relatedElements"]) + 1
conn["relatedElements"].append(rel)
if not rel["eccentricity"]:
el["connObjs"][j] = self.makeObject(
conn["geometry"], conn["geometryType"]
)
else:
if conn["geometryType"] == "point":
geometry = self.getLinkGeometry(
rel["eccentricity"], el["orientation"], conn["geometry"]
)
el["connObjs"][j] = self.makeObject(
geometry[0], conn["geometryType"]
)
el["linkPointObjs"][j][0] = self.geompy.MakeVertex(
geometry[0][0], geometry[0][1], geometry[0][2]
)
el["linkPointObjs"][j][1] = self.geompy.MakeVertex(
geometry[1][0], geometry[1][1], geometry[1][2]
)
el["linkObjs"][j] = self.geompy.MakeLineTwoPnt(
el["linkPointObjs"][j][0], el["linkPointObjs"][j][1]
)
else:
print(
"Eccentricity defined for a %s geometryType"
% conn["geometryType"]
)
el["partObj"] = self.makePartition(
[el["elemObj"]] + el["connObjs"], el["geometryType"]
)
el["elemObj"] = geompy.GetInPlace(el["partObj"], el["elemObj"])
for j, rel in enumerate(el["connections"]):
el["connObjs"][j] = geompy.GetInPlace(el["partObj"], el["connObjs"][j])
for conn in connections:
conn["connObj"] = self.makeObject(conn["geometry"], conn["geometryType"])
# Make assemble of Building Object
bldObjs = []
bldObjs.extend([el["partObj"] for el in elements])
bldObjs.extend(
flatten([[link for link in el["linkObjs"] if link] for el in elements])
)
bldObjs.extend([conn["connObj"] for conn in connections])
bldComp = geompy.MakeCompound(bldObjs)
# bldComp = geompy.MakePartition(bldObjs, [], [], [], self.geompy.ShapeType[buildingShapeType], 0, [], 1)
geompy.addToStudy(bldComp, "bldComp")
# Loop 2
for el in elements:
# geompy.addToStudy(el['partObj'], self.getGroupName(el['ifcName']))
geompy.addToStudyInFather(
el["partObj"], el["elemObj"], self.getGroupName(el["ifcName"])
)
for j, rel in enumerate(el["connections"]):
conn = [
c for c in connections if c["ifcName"] == rel["relatedConnection"]
][0]
rel["conn_string"] = None
if conn["geometryType"] == "point":
rel["conn_string"] = "_0DC_"
if conn["geometryType"] == "line":
rel["conn_string"] = "_1DC_"
if conn["geometryType"] == "surface":
rel["conn_string"] = "_2DC_"
geompy.addToStudyInFather(
el["partObj"],
el["connObjs"][j],
self.getGroupName(el["ifcName"])
+ rel["conn_string"]
+ self.getGroupName(rel["relatedConnection"]),
)
if rel["eccentricity"]:
pass
# geompy.addToStudy(el['linkObjs'][j], self.getGroupName(el['ifcName']) + '_1DR_' + self.getGroupName(rel['relatedConnection']))
# geompy.addToStudyInFather(el['linkObjs'][j], el['linkPointObjs'][j][0], self.getGroupName(rel['relatedConnection']) + '_0DC_' + self.getGroupName(el['ifcName']))
# geompy.addToStudyInFather(el['linkObjs'][j], el['linkPointObjs'][j][0], self.getGroupName(rel['relatedConnection']) + '_0DC_%g' % rel['index'])
for conn in connections:
# geompy.addToStudy(conn['connObj'], self.getGroupName(conn['ifcName']))
geompy.addToStudyInFather(
conn["connObj"], conn["connObj"], self.getGroupName(conn["ifcName"])
)
elapsed_time = time.time() - init_time
init_time += elapsed_time
print("Building Geometry Defined in %g sec" % (elapsed_time))
# Define and add groups for all curve and surface members
if len([e for e in elements if e["geometryType"] == "line"]) > 0:
# Make compound of requested group
compoundTemp = geompy.MakeCompound(
[e["elemObj"] for e in elements if e["geometryType"] == "line"]
)
# Define group object and add to study
curveCompound = geompy.GetInPlace(bldComp, compoundTemp)
geompy.addToStudyInFather(bldComp, curveCompound, "CurveMembers")
if len([e for e in elements if e["geometryType"] == "surface"]) > 0:
# Make compound of requested group
compoundTemp = geompy.MakeCompound(
[e["elemObj"] for e in elements if e["geometryType"] == "surface"]
)
# Define group object and add to study
surfaceCompound = geompy.GetInPlace(bldComp, compoundTemp)
geompy.addToStudyInFather(bldComp, surfaceCompound, "SurfaceMembers")
# Loop 3
for el in elements:
# el['partObj'] = geompy.RestoreGivenSubShapes(bldComp, [el['partObj']], GEOM.FSM_GetInPlace, False, False)[0]
geompy.addToStudyInFather(
bldComp, el["elemObj"], self.getGroupName(el["ifcName"])
)
for j, rel in enumerate(el["connections"]):
geompy.addToStudyInFather(
bldComp,
el["connObjs"][j],
self.getGroupName(el["ifcName"])
+ rel["conn_string"]
+ self.getGroupName(rel["relatedConnection"]),
)
if rel["eccentricity"]: # point geometry
geompy.addToStudyInFather(
bldComp,
el["linkObjs"][j],
self.getGroupName(el["ifcName"])
+ "_1DR_"
+ self.getGroupName(rel["relatedConnection"]),
)
geompy.addToStudyInFather(
bldComp,
el["linkPointObjs"][j][0],
self.getGroupName(rel["relatedConnection"])
+ "_0DC_"
+ self.getGroupName(el["ifcName"]),
)
geompy.addToStudyInFather(
bldComp,
el["linkPointObjs"][j][1],
self.getGroupName(rel["relatedConnection"])
+ "_0DC_%g" % rel["index"],
)
for conn in connections:
# conn['connObj'] = geompy.RestoreGivenSubShapes(bldComp, [conn['connObj']], GEOM.FSM_GetInPlace, False, False)[0]
geompy.addToStudyInFather(
bldComp, conn["connObj"], self.getGroupName(conn["ifcName"])
)
elapsed_time = time.time() - init_time
init_time += elapsed_time
print("Building Geometry Groups Defined in %g sec" % (elapsed_time))
###
### SMESH component
###
import SMESH
from salome.smesh import smeshBuilder
print("Defining Mesh Components")
if NEW_SALOME:
smesh = smeshBuilder.New()
else:
smesh = smeshBuilder.New(theStudy)
bldMesh = smesh.Mesh(bldComp)
Regular_1D = bldMesh.Segment()
Local_Length_1 = Regular_1D.LocalLength(meshSize, None, tolLoc)
if buildingShapeType == "FACE":
NETGEN2D_ONLY = bldMesh.Triangle(algo=smeshBuilder.NETGEN_2D)
NETGEN2D_Pars = NETGEN2D_ONLY.Parameters()
NETGEN2D_Pars.SetMaxSize(meshSize)
NETGEN2D_Pars.SetOptimize(1)
NETGEN2D_Pars.SetFineness(2)
NETGEN2D_Pars.SetMinSize(meshSize / 5.0)
NETGEN2D_Pars.SetUseSurfaceCurvature(1)
NETGEN2D_Pars.SetQuadAllowed(1)
NETGEN2D_Pars.SetSecondOrder(0)
NETGEN2D_Pars.SetFuseEdges(254)
isDone = bldMesh.Compute()
## Set names of Mesh objects
smesh.SetName(Regular_1D.GetAlgorithm(), "Regular_1D")
smesh.SetName(Local_Length_1, "Local_Length_1")
if buildingShapeType == "FACE":
smesh.SetName(NETGEN2D_ONLY.GetAlgorithm(), "NETGEN2D_ONLY")
smesh.SetName(NETGEN2D_Pars, "NETGEN2D_Pars")
smesh.SetName(bldMesh.GetMesh(), "bldMesh")
elapsed_time = time.time() - init_time
init_time += elapsed_time
print("Meshing Operations Completed in %g sec" % (elapsed_time))
# Define and add groups for all curve and surface members
if len([e for e in elements if e["geometryType"] == "line"]) > 0:
tempgroup = bldMesh.GroupOnGeom(curveCompound, "CurveMembers", SMESH.EDGE)
smesh.SetName(tempgroup, "CurveMembers")
if len([e for e in elements if e["geometryType"] == "surface"]) > 0:
tempgroup = bldMesh.GroupOnGeom(
surfaceCompound, "SurfaceMembers", SMESH.FACE
)
smesh.SetName(tempgroup, "SurfaceMembers")
# Define groups in Mesh
for el in elements:
if el["geometryType"] == "line":
shapeType = SMESH.EDGE
if el["geometryType"] == "surface":
shapeType = SMESH.FACE
tempgroup = bldMesh.GroupOnGeom(
el["elemObj"], self.getGroupName(el["ifcName"]), shapeType
)
smesh.SetName(tempgroup, self.getGroupName(el["ifcName"]))
for j, rel in enumerate(el["connections"]):
tempgroup = bldMesh.GroupOnGeom(
el["connObjs"][j],
self.getGroupName(el["ifcName"])
+ rel["conn_string"]
+ self.getGroupName(rel["relatedConnection"]),
SMESH.NODE,
)
smesh.SetName(
tempgroup,
self.getGroupName(el["ifcName"])
+ rel["conn_string"]
+ self.getGroupName(rel["relatedConnection"]),
)
rel["node"] = (
bldMesh.GetIDSource(tempgroup.GetNodeIDs(), SMESH.NODE)
).GetIDs()[0]
if rel["eccentricity"]:
tempgroup = bldMesh.GroupOnGeom(
el["linkObjs"][j],
self.getGroupName(el["ifcName"])
+ "_1DR_"
+ self.getGroupName(rel["relatedConnection"]),
SMESH.EDGE,
)
smesh.SetName(
tempgroup,
self.getGroupName(el["ifcName"])
+ "_1DR_"
+ self.getGroupName(rel["relatedConnection"]),
)
tempgroup = bldMesh.GroupOnGeom(
el["linkPointObjs"][j][0],
self.getGroupName(rel["relatedConnection"])
+ "_0DC_"
+ self.getGroupName(el["ifcName"]),
SMESH.NODE,
)
smesh.SetName(
tempgroup,
self.getGroupName(rel["relatedConnection"])
+ "_0DC_"
+ self.getGroupName(el["ifcName"]),
)
rel["eccNode"] = (
bldMesh.GetIDSource(tempgroup.GetNodeIDs(), SMESH.NODE)
).GetIDs()[0]
tempgroup = bldMesh.GroupOnGeom(
el["linkPointObjs"][j][1],
self.getGroupName(rel["relatedConnection"])
+ "_0DC_"
+ self.getGroupName(rel["relatedConnection"]),
SMESH.NODE,
)
smesh.SetName(
tempgroup,
self.getGroupName(rel["relatedConnection"])
+ "_0DC_%g" % rel["index"],
)
for conn in connections:
tempgroup = bldMesh.GroupOnGeom(
conn["connObj"], self.getGroupName(conn["ifcName"]), SMESH.NODE
)
smesh.SetName(tempgroup, self.getGroupName(conn["ifcName"]))
nodesId = bldMesh.GetIDSource(tempgroup.GetNodeIDs(), SMESH.NODE)
tempgroup = bldMesh.Add0DElementsToAllNodes(
nodesId, self.getGroupName(conn["ifcName"])
)
smesh.SetName(tempgroup, self.getGroupName(conn["ifcName"] + "_0D"))
if conn["geometryType"] == "point":
conn["node"] = nodesId.GetIDs()[0]
if conn["geometryType"] == "line":
tempgroup = bldMesh.GroupOnGeom(
conn["connObj"], self.getGroupName(conn["ifcName"]), SMESH.EDGE
)
smesh.SetName(tempgroup, self.getGroupName(conn["ifcName"]))
if conn["geometryType"] == "surface":
tempgroup = bldMesh.GroupOnGeom(
conn["connObj"], self.getGroupName(conn["ifcName"]), SMESH.FACE
)
smesh.SetName(tempgroup, self.getGroupName(conn["ifcName"]))
# create 1D SEG2 spring elements
for el in elements:
for j, rel in enumerate(el["connections"]):
conn = [
c for c in connections if c["ifcName"] == rel["relatedConnection"]
][0]
if conn["geometryType"] == "point":
grpName = bldMesh.CreateEmptyGroup(
SMESH.EDGE,
self.getGroupName(el["ifcName"])
+ "_1DS_"
+ self.getGroupName(rel["relatedConnection"]),
)
smesh.SetName(
grpName,
self.getGroupName(el["ifcName"])
+ "_1DS_"
+ self.getGroupName(rel["relatedConnection"]),
)
if not rel["eccentricity"]:
conn = [
conn
for conn in connections
if conn["ifcName"] == rel["relatedConnection"]
][0]
grpName.Add([bldMesh.AddEdge([conn["node"], rel["node"]])])
else:
grpName.Add([bldMesh.AddEdge([rel["eccNode"], rel["node"]])])
self.mesh = bldMesh
self.meshNodes = bldMesh.GetNodesId()
elapsed_time = time.time() - init_time
init_time += elapsed_time
print("Mesh Groups Defined in %g sec" % (elapsed_time))
try:
if NEW_SALOME:
bldMesh.ExportMED(
self.medFilename,
auto_groups=0,
minor=40,
overwrite=1,
meshPart=None,
autoDimension=0,
)
else:
bldMesh.ExportMED(self.medFilename, 0, SMESH.MED_V2_2, 1, None, 0)
except:
print("ExportMED() failed. Invalid file name?")
if salome.sg.hasDesktop():
if NEW_SALOME:
salome.sg.updateObjBrowser()
else:
salome.sg.updateObjBrowser(1)
elapsed_time = init_time - start_time
print("ALL Operations Completed in %g sec" % (elapsed_time))
if __name__ == "__main__":
fileNames = ["structure_01"]
files = fileNames
meshSize = 0.1
for fileName in files:
BASE_PATH = "/home/jesusbill/Dev-Projects/github.com/IfcOpenShell/analysis-models/models/"
DATAFILENAME = BASE_PATH + fileName + "/" + fileName + ".json"
MEDFILENAME = BASE_PATH + fileName + "/" + fileName + ".med"
model = MODEL(DATAFILENAME, MEDFILENAME, meshSize)