![]() Textures for the facades were created from photos of building exteriors and walls taken by the team. In SketchUp, textures were added to building facades to make them appear realistic. Maybe this is the ultimate source of the issue. The multipatch feature was exported as a COLLADA file, a 3D interchange format that is compatible with SketchUp. Rotate: Rotate a multipatch feature to change the direction its facing. Move: Relocate your multipatch features by interactively moving them or using precise distances. Unfortunately, the resolution of the data the multipatch is based off of is quite coarse at ~8km. The list below represents common editing tasks for multipatch features: Attribute Editor: Create and maintain attributes for your multipatch features. The screenshots below are the subsequent service layers in a WAB (dev edition) application. Multipatch features are 3D objects that represent a collection of patches to present boundary (or outer surface) of a 3D feature. The image below shows the multipatch icon. Credit: ArcGIS Also, the icon next to a multipatch feature is a 3D feature. Multipatches can be 3D surfaces or 3D solids (volumes). ![]() The extruded layer was then converted to a multipatch via the Layer 3D to Feature Class tool. Multipatch features are 3D objects that represent a collection of patches to present boundary (or outer surface) of a 3D feature. The multipatch was created by extruding the features to a depth from surface field in ArcPro (relative to ground). Is there a way to mask out portions of the multipatch that are above ground level or force the surface of the multipatch to align with the terrain service? The subsurface portions of the multipatch work great. Is there a workflow that could allow for me to align an extruded polygon feature class with a 3D elevation layer (ESRI Terrain 3D)? I am trying to use a multipatch to model subsurface characteristics, though the multipatch does not align with the surface. GetMessages ( 2 )) # Return python error messages for script tool or Python Window arcpy. The geometry of geodatabase features can be expressed in world-wide. Layer 3D to Feature Class is the tool we will use to convert the extruded features to a Multipatch feature class. Syntax 3DToFeatureClass(in_feature_layer, out_feature_class, \n '. A 3D model in a geodatabase is stored as a Multipatch object which is an arrangement. The position of these 2D symbols are dynamically oriented to face the camera position in a 3D scene, so they have no fixed orientation that can be used for exporting.Įnvironment settings for XYZ tolerance and resolution are only supported when the output is a line feature. Extrude the 2D features, using the attribute height field, to display them in 3D.
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