def main(): surface = [] pt1 = [RhinoConvert.FromVectorToRhPoint(face.A) for face in _face] pt2 = [RhinoConvert.FromVectorToRhPoint(face.B) for face in _face] pt3 = [RhinoConvert.FromVectorToRhPoint(face.C) for face in _face] pt4 = [RhinoConvert.FromVectorToRhPoint(face.D) for face in _face] for p1, p2, p3, p4 in zip(pt1, pt2, pt3, pt4): surface.append( rc.Geometry.Brep.CreateFromCornerPoints(p1, p2, p3, p4, 0.01)) return surface
def main(): if _point != None: inx_point = [RhinoConvert.ConvertToOrigin(pt) for pt in _point] return inx_point else: return
def main(): if _point != None: inx_point = [RhinoConvert.FromRhPointToVector(pt) for pt in _point] return inx_point else: return
def main(): if _geometry != None: inx_facegroup = [ RhinoConvert.FromRhMeshToFacegroup(geo) for geo in _geometry ] return inx_facegroup else: return
def main(): if _edt: edt, edx = get_file_path(_edt) variable = 1 if _variable_ == None else _variable_ if base_point_: origin = RhinoConvert.FromRhPointToVector(base_point_) output = GridOutput(edx, origin) else: output = GridOutput(edx) project_name = output.ProjectName date = output.SimulationDate time = output.SimulationTime variables = output.VariableName selected_variable = output.VariableName[variable] print("Grid: {0}, {1}, {2}".format(output.NumX, output.NumY, output.NumZ)) if output.DataContent not in [1, 5, 11]: print( "Please, connect an edt file.\nYou can read Atmosphere, Radiation, Comfort." ) return [None] * 7 if _run_it and _z_mask: values = List[int](_z_mask) facades = output.GetFacades(Direction.Z) output.SetValuesFromBinary(edt, facades, variable) # filter facades = Facade.GetFacadesFilterByZmask(facades, values, output.NumZ) if min_ != None and max_ != None: facades = Facade.GetFacadesByThreshold(facades, min_, max_) # get values values = Facade.GetValueZFromFacades(facades) # get geometry face = Facade.GetFacesFromFacades(facades) return variables, project_name, date, time, selected_variable, face, values return variables, project_name, date, time, selected_variable, None, None else: return [None] * 7
def main(): if _edt: edt, edx = get_file_path(_edt) variable = 1 if _variable_ == None else _variable_ if base_point_: origin = RhinoConvert.FromRhPointToVector(base_point_) output = GridOutput(edx, origin) else: output = GridOutput(edx) project_name = output.ProjectName date = output.SimulationDate time = output.SimulationTime variables = output.VariableName selected_variable = output.VariableName[variable] print("Grid: {0}, {1}, {2}".format(output.NumX, output.NumY, output.NumZ)) if output.DataContent != 6: print("Please, connect a file of dynamic output of vegetation.") return [None] * 7 if _run_it and output.DataContent == 6: dir = Direction.Z facades = output.GetFacades(dir) output.SetValuesFromBinary(edt, facades, variable) # filter facades = Facade.GetFacadesByDirection(facades, dir) if min_ != None and max_ != None: facades = Facade.GetFacadesByThreshold(facades, min_, max_) # get values values = Facade.GetValueZFromFacades(facades) # get geometry face = Facade.GetFacesFromFacades(facades) return variables, project_name, date, time, selected_variable, face, values return variables, project_name, date, time, selected_variable, None, None else: return [None] * 7
def main(): if _point: origin = RhinoConvert.FromRhPointToVector(_point) dim_x = _dim_x_ if _dim_x_ else 3.0 dim_y = _dim_y_ if _dim_y_ else 3.0 dim_z = _dim_z_ if _dim_z_ else 3.0 num_x = _num_x_ if _num_x_ else 50 num_y = _num_y_ if _num_y_ else 50 num_z = _num_z_ if _num_z_ else 40 dimension = CellDimension(dim_x, dim_y, dim_z) size = Size(origin, dimension, num_x, num_y, num_z) return size else: return
def main(): if _edt: edt, edx = get_file_path(_edt) variable = 1 if _variable_ == None else _variable_ if _dir_ == 1: dir = Direction.Y elif _dir_ == 2: dir = Direction.Z else: dir = Direction.X if base_point_: origin = RhinoConvert.FromRhPointToVector(base_point_) output = BuildingOutput(edx, origin) else: output = BuildingOutput(edx) project_name = output.ProjectName date = output.SimulationDate time = output.SimulationTime variables = output.VariableName selected_variable = output.VariableName[variable] print("Grid: {0}, {1}, {2}".format(output.NumX, output.NumY, output.NumZ)) if output.DataContent not in [7, 10]: print( "Please, connect a file of dynamic output of buildings or solaraccess SAFAC." ) return [None] * 7 if _run_it: facades = output.GetFacades(dir) output.SetValuesFromBinary(edt, facades, variable) # filter facades = Facade.GetFacadesByDirection(facades, dir) if min_ != None and max_ != None: facades = Facade.GetFacadesByThreshold(facades, min_, max_, dir) # get values from facades if _dir_ == 1: values = Facade.GetValueYFromFacades(facades) elif _dir_ == 2: values = Facade.GetValueZFromFacades(facades) else: values = Facade.GetValueXFromFacades(facades) # get geometry face = Facade.GetFacesFromFacades(facades) return variables, project_name, date, time, selected_variable, face, values return variables, project_name, date, time, selected_variable, None, None else: return [None] * 7
def main(): if _edt: edt, edx = get_file_path(_edt) variable = 1 if _variable_ == None else _variable_ index = 0 if _index_ == None else _index_ if _dir_ == 1: dir = Direction.Y elif _dir_ == 2: dir = Direction.Z else: dir = Direction.X if base_point_: origin = RhinoConvert.FromRhPointToVector(base_point_) output = GridOutput(edx, origin) else: output = GridOutput(edx) project_name = output.ProjectName date = output.SimulationDate time = output.SimulationTime variables = output.VariableName selected_variable = output.VariableName[variable] print("Grid: {0}, {1}, {2}".format(output.NumX, output.NumY, output.NumZ)) if output.DataContent not in [1, 2, 3, 5, 8, 11]: print( "Please, connect an edt file.\nYou can read Atmosphere, Surface, Soil, Radiation, SolarAccess, Comfort" ) return [None] * 7 if _run_it: # Surface if output.DataContent in [2, 8]: index = 0 dir = Direction.Z elif output.DataContent == 3: dir = Direction.Z facades = output.GetFacades(dir) output.SetValuesFromBinary(edt, facades, variable) # filter facades = Facade.GetSliceByPixelCoordinate(facades, index, dir) if min_ != None and max_ != None: facades = Facade.GetFacadesByThreshold(facades, min_, max_) # get values from facades values = Facade.GetValueZFromFacades(facades) # get geometry face = Facade.GetFacesFromFacades(facades) return variables, project_name, date, time, selected_variable, face, values return variables, project_name, date, time, selected_variable, None, None else: return [None] * 7
def main(): return RhinoConvert.FromFacesToMesh(List[Face](_face))