def calc_solid(face_footprint, range_floors, flr2flr_height):
# create faces for every floor and extrude the solid
moved_face_list = []
for floor_counter in range_floors:
dist2mve = floor_counter * flr2flr_height
# get midpt of face
orig_pt = calculate.face_midpt(face_footprint)
# move the pt 1 level up
dest_pt = modify.move_pt(orig_pt, (0, 0, 1), dist2mve)
moved_face = modify.move(orig_pt, dest_pt, face_footprint)
moved_face_list.append(moved_face)
# make checks to satisfy a closed geometry also called a shell
vertical_shell = construct.make_loft(moved_face_list)
vertical_face_list = fetch.topo_explorer(vertical_shell, "face")
roof = moved_face_list[-1]
footprint = moved_face_list[0]
all_faces = []
all_faces.append(footprint)
all_faces.extend(vertical_face_list)
all_faces.append(roof)
building_shell_list = construct.sew_faces(all_faces)
# make sure all the normals are correct (they are pointing out)
bldg_solid = construct.make_solid(building_shell_list[0])
bldg_solid = modify.fix_close_solid(bldg_solid)
##dO this to visualize progress while debugging!:
#face_list = fetch.geom_explorer(bldg_solid, "face")
# edges = calculate.visualise_face_normal_as_edges(face_list,5)
# construct.visualise([face_list,edges],["WHITE","BLACK"])
return bldg_solid
def cal_face_list(floor_counter):
dist2mve = floor_counter * floor_to_floor_height
# get midpt of face
orig_pt = calculate.face_midpt(face_footprint)
# move the pt 1 level up
dest_pt = modify.move_pt(orig_pt, (0, 0, 1), dist2mve)
moved_face = modify.move(orig_pt, dest_pt, face_footprint)
return moved_face
def calc_windows_walls(facade_list, wwr, potentially_intersecting_solids):
window_list = []
wall_list = []
normals_win = []
normals_wall = []
wall_intersects = []
number_intersecting_solids = len(potentially_intersecting_solids)
for surface_facade in facade_list:
# get coordinates of surface
ref_pypt = calculate.face_midpt(surface_facade)
standard_normal = calculate.face_normal(
surface_facade) # to avoid problems with fuzzy normals
# evaluate if the surface intersects any other solid (important to erase non-active surfaces in the building
# simulation model)
point_to_evaluate = modify.move_pt(ref_pypt, standard_normal,
0.1) # tol of 10cm
if number_intersecting_solids:
# flag weather it intersects a surrounding geometry
intersects = np.vectorize(calc_intersection_face_solid)(repeat(
point_to_evaluate,
number_intersecting_solids), potentially_intersecting_solids)
intersects = sum(intersects)
else:
intersects = 0
if intersects > 0: # the face intersects so it is a wall
wall_list.append(surface_facade)
normals_wall.append(standard_normal)
wall_intersects.append(1)
else:
# offset the facade to create a window according to the wwr
if 0.0 < wwr < 1.0:
# for window
window = create_windows(surface_facade, wwr, ref_pypt)
window_list.append(window)
normals_win.append(standard_normal)
# for walls
hollowed_facade, hole_facade = create_hollowed_facade(
surface_facade,
window) # accounts for hole created by window
wall_intersects.extend([intersects] * len(hollowed_facade))
wall_list.extend(hollowed_facade)
normals_wall.extend([standard_normal] * len(hollowed_facade))
elif wwr == 1.0:
window_list.append(surface_facade)
normals_win.append(standard_normal)
else:
wall_list.append(surface_facade)
normals_wall.append(standard_normal)
wall_intersects.append(intersects)
return window_list, wall_list, normals_win, normals_wall, wall_intersects
def building_2d_to_3d(citygml_writer, zone_shp_path, district_shp_path,
tin_occface_list, height_col, nfloor_col):
"""
This script extrudes buildings from the shapefile and creates intermediate floors.
:param citygml_writer: the cityGML object to which the buildings are gonna be created.
:param district_shp_path: path to the shapefile to be extruded of the district
:param tin_occface_list: the faces of the terrain, to be used to put the buildings on top.
:param height_col:
:param nfloor_col:
:return:
"""
# read district shapefile and names of buildings of the zone of analysis
district_building_records = gdf.from_file(district_shp_path).set_index(
'Name')
district_building_names = district_building_records.index.values
zone_building_names = gdf.from_file(zone_shp_path)['Name'].values
#make shell out of tin_occface_list and create OCC object
terrain_shell = construct.sew_faces(tin_occface_list)[0]
terrain_intersection_curves = IntCurvesFace_ShapeIntersector()
terrain_intersection_curves.Load(terrain_shell, 1e-6)
bsolid_list = []
#create the buildings in 3D
for name in district_building_names:
height = float(district_building_records.loc[name, height_col])
nfloors = int(district_building_records.loc[name, nfloor_col])
# Make floors only for the buildings of the zone of interest
# for the rest just consider one high floor.
# simplify geometry tol =1 for buildings of interest, tol = 5 for surroundings
if name in zone_building_names:
range_floors = range(nfloors + 1)
floor_to_floor_height = height / nfloors
geometry = district_building_records.ix[name].geometry.simplify(
1, preserve_topology=True)
else:
range_floors = [0, 1]
floor_to_floor_height = height
geometry = district_building_records.ix[name].geometry.simplify(
5, preserve_topology=True)
point_list_2D = list(geometry.exterior.coords)
point_list_3D = [(a, b, 0)
for (a, b) in point_list_2D] # add 0 elevation
#creating floor surface in pythonocc
face = construct.make_polygon(point_list_3D)
#get the midpt of the face
face_midpt = calculate.face_midpt(face)
#project the face_midpt to the terrain and get the elevation
inter_pt, inter_face = calc_intersection(terrain_intersection_curves,
face_midpt, (0, 0, 1))
loc_pt = (inter_pt.X(), inter_pt.Y(), inter_pt.Z())
#reconstruct the footprint with the elevation
face = fetch.topo2topotype(modify.move(face_midpt, loc_pt, face))
moved_face_list = []
for floor_counter in range_floors:
dist2mve = floor_counter * floor_to_floor_height
#get midpt of face
orig_pt = calculate.face_midpt(face)
#move the pt 1 level up
dest_pt = modify.move_pt(orig_pt, (0, 0, 1), dist2mve)
moved_face = modify.move(orig_pt, dest_pt, face)
moved_face_list.append(moved_face)
#loft all the faces and form a solid
vertical_shell = construct.make_loft(moved_face_list)
vertical_face_list = fetch.topo_explorer(vertical_shell, "face")
roof = moved_face_list[-1]
footprint = moved_face_list[0]
all_faces = []
all_faces.append(footprint)
all_faces.extend(vertical_face_list)
all_faces.append(roof)
bldg_shell_list = construct.sew_faces(all_faces)
# make sure all the normals are correct (they are pointing out)
if bldg_shell_list:
bldg_solid = construct.make_solid(bldg_shell_list[0])
bldg_solid = modify.fix_close_solid(bldg_solid)
bsolid_list.append(bldg_solid)
occface_list = fetch.topo_explorer(bldg_solid, "face")
geometry_list = gml3dmodel.write_gml_srf_member(occface_list)
citygml_writer.add_building("lod1", name, geometry_list)
return bsolid_list