import bpy from .materials import floor_mat def get_trajectory(data, is_mesh): if is_mesh: # mean of the vertices trajectory = data[:, :, [0, 1]].mean(1) else: # get the root joint trajectory = data[:, 0, [0, 1]] return trajectory def plot_floor(data, big_plane=True): # Create a floor minx, miny, _ = data.min(axis=(0, 1)) maxx, maxy, _ = data.max(axis=(0, 1)) minz = 0 location = ((maxx + minx)/2, (maxy + miny)/2, 0) # a little bit bigger scale = (1.08*(maxx - minx)/2, 1.08*(maxy - miny)/2, 1) bpy.ops.mesh.primitive_plane_add(size=2, enter_editmode=False, align='WORLD', location=location, scale=(1, 1, 1)) bpy.ops.transform.resize(value=scale, orient_type='GLOBAL', orient_matrix=((1, 0, 0), (0, 1, 0), (0, 0, 1)), orient_matrix_type='GLOBAL', constraint_axis=(False, True, False), mirror=True, use_proportional_edit=False, proportional_edit_falloff='SMOOTH', proportional_size=1, use_proportional_connected=False, use_proportional_projected=False, release_confirm=True) obj = bpy.data.objects["Plane"] obj.name = "SmallPlane" obj.data.name = "SmallPlane" if not big_plane: obj.active_material = floor_mat(color=(0.2, 0.2, 0.2, 1)) else: obj.active_material = floor_mat(color=(0.1, 0.1, 0.1, 1)) if big_plane: location = ((maxx + minx)/2, (maxy + miny)/2, -0.01) bpy.ops.mesh.primitive_plane_add(size=2, enter_editmode=False, align='WORLD', location=location, scale=(1, 1, 1)) bpy.ops.transform.resize(value=[2*x for x in scale], orient_type='GLOBAL', orient_matrix=((1, 0, 0), (0, 1, 0), (0, 0, 1)), orient_matrix_type='GLOBAL', constraint_axis=(False, True, False), mirror=True, use_proportional_edit=False, proportional_edit_falloff='SMOOTH', proportional_size=1, use_proportional_connected=False, use_proportional_projected=False, release_confirm=True) obj = bpy.data.objects["Plane"] obj.name = "BigPlane" obj.data.name = "BigPlane" obj.active_material = floor_mat(color=(0.2, 0.2, 0.2, 1)) def show_traj(coords): pass # create the Curve Datablock # curveData = bpy.data.curves.new('myCurve', type='CURVE') # curveData.dimensions = '3D' # curveData.resolution_u = 2 # # map coords to spline # polyline = curveData.splines.new('POLY') # polyline.points.add(len(coords)-1) # for i, coord in enumerate(coords): # x, y = coord # polyline.points[i].co = (x, y, 0.001, 1) # # create Object # curveOB = bpy.data.objects.new('myCurve', curveData) # curveData.bevel_depth = 0.01 # bpy.context.collection.objects.link(curveOB)