def getStatus(c_1, c_2): # 0:ちょうどいい距離なのでそのまま # 1:遠すぎる # 2:近すぎる if rs.IsCircle(c_1) and rs.IsCircle(c_2): radius_1 = rs.CircleRadius(c_1) radius_2 = rs.CircleRadius(c_2) #print(radius_1) #print(radius_2) pt_1 = rs.CircleCenterPoint(c_1) pt_2 = rs.CircleCenterPoint(c_2) #print(pt_1) #print(pt_2) #追加スクリプト↓ dis_1_2 = rs.Distance(pt_1, pt_2) #print(dis_1_2) #追加スクリプト↑ if (dis_1_2 == radius_1 + radius_2): status = 0 if (radius_1 + radius_2 < dis_1_2): status = 1 if (dis_1_2 < radius_1 + radius_2): status = 2 return status #returnで「数値」を返している。
def GetFracture (): dx = rs.GetReal("Enter x-axis direction:") if not dx: dx = 0.0 print "x-axis direction: ", dx objs = rs.ObjectsByType(8,False) cir_objs = rs.ObjectsByType(4) #delete all circles for cur_obj in cir_objs: if rs.IsCircle(cur_obj): rs.DeleteObject(cur_obj) occor = [] radius = [] center = [] #for all surface for obj in objs: rs.UnselectAllObjects() rs.SelectObject(obj) rs.Command ("_Silhouette") created_objs = rs.LastCreatedObjects() #not a circle if len(created_objs) !=1: rs.DeleteObjects(created_objs) print "unvailded surface" continue created_objs = created_objs[0] #not a circle if not rs.IsCircle(created_objs): rs.DeleteObject(created_objs) print "unvailded surface, not circle" continue point = rs.CircleCenterPoint(created_objs) center.append(point) r = rs.CircleRadius(created_objs) radius.append(r) normal = rs.SurfaceNormal(obj,[0,0]) occor.append(GetDirDip(normal,dx)) rs.DeleteObject(created_objs) print center print occor print radius path = rs.DocumentPath() path_l = path.split("\\") path_l[len(path_l)-1] = "fracture.dat" file = open("\\".join(path_l),"w") file.write(str(len(occor))) file.write('\n') for i in range (len(occor)): file.write("%.15f " % center[i][0]) file.write("%.15f " % center[i][1]) file.write("%.15f " % center[i][2]) file.write ("%.15f " % occor[i][0]) file.write ("%.15f " % occor[i][1]) file.write ("%.15f " % radius[i]) file.write ("0.0001 0.1 30\n") file.close ()
def FromEdgetoPlane(): PointPlane = [] CurveIdList = [] Brep = [] edges = rs.GetEdgeCurves() if edges: for edgeinfo in edges: Brep.append(edgeinfo[1]) CurveIdList.append(edgeinfo[0]) for CurveId in CurveIdList: if rs.IsCircle(CurveId): Pt = rs.CircleCenterPoint(CurveId) Normal = rs.CurveNormal(CurveId) LenghtNormal = rs.VectorLength(Normal) LenghNormal = self.m_foronumero.Text LenghNormal = int(LenghNormal) Normal = (LenghNormal * Normal[0], LenghNormal * Normal[1], LenghNormal * Normal[2]) PtStill = rs.AddPoint(Pt) Ptmoved = rs.MoveObject(Pt, Normal) Ptmoved = rs.coerce3dpoint(Ptmoved) PtStill = rs.coerce3dpoint(PtStill) PointPlane.append([ PtStill[0], PtStill[1], PtStill[2], Normal[0], Normal[1], Normal[2] ]) #PointPlane.append([Ptmoved[0],Ptmoved[1],Ptmoved[2],Normal[0],Normal[1],Normal[2]]) return (PointPlane, Brep)
def getStatus(self, y_c_i): #TODO:getDistanse関数を使う if rs.IsCircle(self.circle_obj) and rs.IsCircle(y_c_i.circle_obj): radius_1 = rs.CircleRadius(self.circle_obj) radius_2 = rs.CircleRadius(y_c_i.circle_obj) m_p = rs.CircleCenterPoint(self.circle_obj) y_p = rs.CircleCenterPoint(y_c_i.circle_obj) dis_1_2 = rs.Distance(m_p, y_p) if (dis_1_2 == radius_1 + radius_2): status = 0 if (radius_1 + radius_2 < dis_1_2): status = 1 if (dis_1_2 < radius_1 + radius_2): status = 2 return status
def ExportLighthouseSensorsToJSON(filename): print "Writing", filename #objectIds = rs.GetObjects("Select Sensors",rs.filter.curves,True,True) #if( objectIds==None ): return3 # Find all circle and all lines in scene circles = [] lines = [] for obj in rs.AllObjects(): # Skip hidden objects, and invisible layers # TODO: Recuse up layet hierarchy? if rs.IsObjectHidden(obj): continue layer = rs.ObjectLayer(obj) if layer and not rs.IsLayerVisible(layer): continue if rs.IsCurve(obj): if rs.IsCircle(obj): circles.append((obj, rs.CircleCenterPoint(obj))) elif rs.IsLine(obj): verts = rs.PolylineVertices(obj) if len(verts) == 2: lines.append((obj, verts)) print 'found', len(circles), 'sensor candidates (circles) in scene' print 'found', len(lines), 'sensor candidates (normals) in scene' modelJSON = {'modelNormals': [], 'modelPoints': []} # TODO: Better sort order? Perhaps based on winding around origin? for circleObj, circleCenter in reversed(circles): for line, lineVerts in lines: pos, normal = GetSensorPosAndNormal(circleCenter, lineVerts) if pos is None: continue else: modelJSON['modelNormals'].append([float(x) for x in normal]) modelJSON['modelPoints'].append( [float(x) / 1000.0 for x in pos]) break modelJSON['channelMap'] = range(len(modelJSON['modelNormals'])) print "Extracted", len(modelJSON['channelMap']), "sensors" if len(modelJSON['modelNormals']) > 0: outputFile = file(filename, 'w') jsonText = json.dumps(modelJSON, indent=4, sort_keys=True) outputFile.write(jsonText) outputFile.close() print "Wrote", filename else: print "Error: No sensors found in scene"
def SetPlanarCurve(self, type="Any", guid=None): if (type == "Any"): prompt = "Select a planar pitch curve" elif (type == "Circle"): prompt = "Select the pitch circle" newCurve = rs.GetCurveObject(prompt, True, True) if guid is None else [guid] if (newCurve is None): Rhino.RhinoApp.WriteLine("Exit: No curve was selected") return False isPlanar = rs.IsCurvePlanar(newCurve[0]) if (isPlanar == False): newCurve = None Rhino.RhinoApp.WriteLine("Exit: Selected curve was not planar") return False self.curve = newCurve #Accept the curve into the object because the curve exists and it is planar self.isClosed = rs.IsCurveClosed(self.curve[0]) self.normal = rs.CurveNormal( self.curve[0]) #For non planar curves the script already exited. self.isCircle = rs.IsCircle(self.curve[0]) if (type == "Circle" and self.isCircle != True): Rhino.RhinoApp.WriteLine("Exit: Selected curve was not a circle") return False self.crvLen = rs.CurveLength(self.curve[0]) if (self.isCircle == True): Rhino.RhinoApp.WriteLine("Selected: Circle") self.origin = rs.CircleCenterPoint(self.curve[0]) self.plane = rs.PlaneFromNormal( self.origin, self.normal, rs.CurveStartPoint(self.curve[0]) - self.origin) #PlaneFromNormal(origin, normal, xaxis=None) self.SetPD() #Propagate the value updates self.SetBC() #Propagate the value updates return if (self.isClosed == True): Rhino.RhinoApp.WriteLine( "Selected: Closed non-circular planar curve") return else: Rhino.RhinoApp.WriteLine("Selected: Open planar curve")
def FromEdgetoPlane(): PointPlane = [] CurveIdList = [] Brep = [] edges = rs.GetEdgeCurves() if edges: for edgeinfo in edges: Brep.append(edgeinfo[1]) CurveIdList.append(edgeinfo[0]) # print CurveIdList for CurveId in CurveIdList: if rs.IsCircle(CurveId): # print "Sono un cerchio" Pt = rs.CircleCenterPoint(CurveId) Normal = rs.CurveNormal(CurveId) LenghtNormal = rs.VectorLength(Normal) LenghNormal = rs.GetString("give me the lengh of the hole", "100") LenghNormal = int(LenghNormal) Normal = (LenghNormal * Normal[0], LenghNormal * Normal[1], LenghNormal * Normal[2]) print Normal PtStill = rs.AddPoint(Pt) Ptmoved = rs.MoveObject(Pt, Normal) Ptmoved = rs.coerce3dpoint(Ptmoved) PtStill = rs.coerce3dpoint(PtStill) # print Ptmoved # print PtStill PointPlane.append([ PtStill[0], PtStill[1], PtStill[2], Normal[0], Normal[1], Normal[2] ]) #PointPlane.append([Ptmoved[0],Ptmoved[1],Ptmoved[2],Normal[0],Normal[1],Normal[2]]) return (PointPlane, Brep)