Transform Orientations — Blender Manual 0.1 documentation

Orientations affect the behavior of Transformations: Location, Rotation, and Scale. You will see an effect on the 3D Manipulator (the widget in the center of the selection), as well as on transformation constraints (like axis locking). This means that, when you hit g-x, it will constrain to the global x-axis, but if you hit g-x-x it will constrain to your Transform Orientations x-axis. The Orientations options can be set on the 3D View’s header (or “footer”, since it is at the bottom of the view by default), or with alt-Space or through the Orientation menu in a 3D view header. In addition to the four built-in options, you can define a FIXME(TODO: Internal Link, [[#Custom_Orientations|Custom Orientation]] ). The manipulator matches the global axis. When using the Global orientation, the orientation’s x,y,z matches world’s x,y,z axis. When this mode is selected, the local coordinates of the object are subjected to the Global coordinates. This is good to place objects in the scene. To constrain an axis, hit g and the desired axis. To constrain to a local axis, hit the desired axis two times. The difference between Global and Local, is more noticeable when you have an object in which the origin is not located at the exact center of the object, and doesn’t match the Global coordinates. The manipulator matches the object axis. Notice that, here, the Manipulator is at a slight tilt (it is most visible on the object’s y-axis, the green arrow). This is due to our 15º rotation of the object. This demonstrates the difference between local coordinates and global coordinates. If we had rotated the object 90º along its x-axis, we would see that the object’s “Up” is the world’s “Forward” – or the object’s z-axis would now be the world’s y-axis. This orientation has an effect on many parts of the interface, so it is important to understand the distinction. The z-axis of the manipulator will match the normal vector of the selected object. In Object Mode, this is equivalent to Local Orientation, but in Edit Mode, it becomes more interesting. As you see, the light blue lines indicate the faces’ normals, and the darker blue lines indicate the vertex normals (these were turned on in the n Properties Panel under Mesh Display ‣ Normals ‣ Face and Vertex). Selecting any given face will cause our Manipulator’s z-axis to align with that normal. The same goes for Vertex Select Mode. Edge Select is different–A selected Edge has the z-axis aligned with it (so you will have to look at the Manipulator widget to determine the direction of x and y). If you select several elements, it will orient towards the average of those normals. A great example of how this is useful is in Vertex Select Mode: Pick a vertex and then do g-z-z to tug it away from the mesh and shove it into the mesh. To make this even more useful, select a nearby vertex and hit Shift-r to repeat the same movement—except along that second vertex’s normal instead. Gimbal’s behavior highly depends on the Rotation Mode that you are in (accessible in the n Properties Panel in the 3D View, in top section, Transform). XYZ Euler In the other Euler rotation modes, the last axis applied will be the one for which the Manipulator stays fixed. So, for YZX Euler, the x-axis of the Manipulator will be the same as the global x-axis. You can define custom transform orientations, using object or mesh elements. Custom transform orientations defined from objects use the local orientation of the object whereas those defined from selected mesh elements (vertices, edges, faces) use the normal orientation of the selection. The Transform Orientations panel, found in the “n Properties Panel,” can be used to manage transform orientations: selecting the active orientation, adding and deleting custom orientations. The default name for these orientations comes from whatever you have selected. If an edge, it will be titled, “Edge,” if an object, it will take that object’s name, etc. The Toolshelf (t in the 3D View) allows you to rename the custom orientation after you hit Ctrl-Alt-Space. The technique of creating custom orientations can become important in creating precise meshes. In Figure 1, to achieve this effect: Source.


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Last Modified: April 18, 2016 @ 2:06 pm