# IfcOpenShell - IFC toolkit and geometry engine # Copyright (C) 2022 Dion Moult # # This file is part of IfcOpenShell. # # IfcOpenShell is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # IfcOpenShell is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with IfcOpenShell. If not, see . import ifcopenshell.util.unit class Usecase: def __init__(self, file, outer_profile=None, inner_profiles=None, name=None): """Adds a new arbitrary polyline-based profile with voids The outer profile is represented as a polyline defined by a list of coordinates. Only straight segments are allowed. Coordinates must be provided in SI meters. To represent a closed curve, the first and last coordinate must be identical. The inner profiles are represented as a list of polylines. Every polyline in defined by a list of coordinates. Only straight segments are allowed. Coordinates must be provided in SI meters. :param outer_profile: A list of coordinates :type profile: list[float] :param inner_profiles: A list of polylines :type profile: list[list[float]] :param name: If the profile is semantically significant (i.e. to be managed and reused by the user) then it must be named. Otherwise, this may be left as none. :type name: str, optional :return: The newly created IfcArbitraryProfileDefWithVoids :rtype: ifcopenshell.entity_instance.entity_instance Example: .. code:: python # A 400mm by 400mm square with a 200mm by 200mm hole in it. square_with_hole = ifcopenshell.api.run("profile.add_arbitrary_profile_with_voids", model, outer_profile=[(0., 0.), (.4, 0.), (.4, .4), (0., .4), (0., 0.)], inner_profiles=[[(0.1, 0.1), (0.3, 0.1), (0.3, 0.3), (0.1, 0.3), (0.1, 0.1)]], name="SK01 Hole Profile") """ self.file = file self.settings = {"outer_profile": outer_profile, "inner_profiles": inner_profiles, "name": name} def execute(self): self.settings["unit_scale"] = ifcopenshell.util.unit.calculate_unit_scale(self.file) outer_points = [self.convert_si_to_unit(p) for p in self.settings["outer_profile"]] inner_points = [] for inner_profile in self.settings["inner_profiles"]: inner_points.append([self.convert_si_to_unit(p) for p in inner_profile]) if self.file.schema == "IFC2X3": outer_curve = self.file.createIfcPolyline([self.file.createIfcCartesianPoint(p) for p in outer_points]) inner_curves = [] for inner_point in inner_points: inner_curves.append(self.file.createIfcPolyline([self.file.createIfcCartesianPoint(p) for p in inner_point]) else: outer_curve = self.file.createIfcIndexedPolyCurve(self.file.createIfcCartesianPointList3D(outer_points)) inner_curves = [] for inner_point in inner_points: inner_curves.append(self.file.createIfcIndexedPolyCurve(self.file.createIfcCartesianPointList3D(inner_point))) return self.file.createIfcArbitraryProfileDefWithVoids("AREA", self.settings["name"], outer_curve, inner_curves) def convert_si_to_unit(self, co): if isinstance(co, (tuple, list)): return [self.convert_si_to_unit(o) for o in co] return co / self.settings["unit_scale"]