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client_ipc_sm.py
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client_ipc_sm.py
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#------------------------------------------------------------------------------
# This script downloads Spatial Mapping data from the HoloLens and displays it.
#------------------------------------------------------------------------------
import open3d as o3d
import hl2ss
import hl2ss_lnm
import hl2ss_3dcv
import hl2ss_sa
# Settings --------------------------------------------------------------------
# HoloLens address
host = '192.168.1.7'
# Maximum triangles per cubic meter
tpcm = 1000
# Data format
vpf = hl2ss.SM_VertexPositionFormat.R32G32B32A32Float
tif = hl2ss.SM_TriangleIndexFormat.R32Uint
vnf = hl2ss.SM_VertexNormalFormat.R32G32B32A32Float
# Include normals
normals = True
# include bounds
bounds = False
# Maximum number of active threads (on the HoloLens) to compute meshes
threads = 2
# Region of 3D space to sample (bounding box)
# All units are in meters
center = [0.0, 0.0, 0.0] # Position of the box
extents = [8.0, 8.0, 8.0] # Dimensions of the box
#------------------------------------------------------------------------------
# Download meshes -------------------------------------------------------------
# See
# https://learn.microsoft.com/en-us/windows/mixed-reality/develop/native/spatial-mapping-in-directx
# for details
client = hl2ss_lnm.ipc_sm(host, hl2ss.IPCPort.SPATIAL_MAPPING)
client.open()
client.create_observer()
volumes = hl2ss.sm_bounding_volume()
volumes.add_box(center, extents)
client.set_volumes(volumes)
surface_infos = client.get_observed_surfaces()
tasks = hl2ss.sm_mesh_task()
for surface_info in surface_infos:
tasks.add_task(surface_info.id, tpcm, vpf, tif, vnf, normals, bounds)
meshes = client.get_meshes(tasks, threads)
client.close()
print(f'Observed {len(surface_infos)} surfaces')
# Display meshes --------------------------------------------------------------
open3d_meshes = []
for index, mesh in meshes.items():
id_hex = surface_infos[index].id.hex()
timestamp = surface_infos[index].update_time
if (mesh is None):
print(f'Task {index}: surface id {id_hex} compute mesh failed')
continue
mesh.unpack(vpf, tif, vnf)
# Surface timestamps are given in Windows FILETIME (utc)
print(f'Task {index}: surface id {id_hex} @ {timestamp} has {mesh.vertex_positions.shape[0]} vertices {mesh.triangle_indices.shape[0]} triangles {mesh.vertex_normals.shape[0]} normals')
hl2ss_3dcv.sm_mesh_normalize(mesh)
open3d_mesh = hl2ss_sa.sm_mesh_to_open3d_triangle_mesh(mesh)
open3d_mesh = hl2ss_sa.open3d_triangle_mesh_swap_winding(open3d_mesh)
open3d_mesh.vertex_colors = open3d_mesh.vertex_normals
open3d_meshes.append(open3d_mesh)
o3d.visualization.draw_geometries(open3d_meshes, mesh_show_back_face=False)