I want to cast a sphere to a cube, but when I add the modifier, it seems like a cilinder inside a cube.... why?
My Cast modifier settings are: Factor=1, Radius=0, Size=0 , as I saw on a guide (I want to keep the same dimensions)
$\begingroup$
$\endgroup$
0
Add a comment
|
1 Answer
$\begingroup$
$\endgroup$
3
The image above shows a blue mesh with a sphere shape, hereafter the blue sphere. It is symmetric about the 3 axis similar to a cube. Note the red faces have a 3 face corner not a 4 face corner. Not a UV Sphere. The mesh will work symmetrically along x, y, z axis with a cast cuboid modifier.
In the image in your original question concentric rings of the UV Sphere are placed along the z-axis. Speaking about the default situation. So the there is an asymmetry regarding the z-axis. So the [cast] modifier mathematics amplifies this asymmetry. You will get slightly better results if you subdivide your mesh again.
You can edit the blue sphere in [edit] mode and rotate 90 on the y axis. The asymmetry deformation will be rotated as well.
Here is the same blue sphere shaped mesh with a cast modifier. Note again the red faces which form a 3 face corner of a cube.
To create a NON-UV sphere shaped mesh. Create a cube. In [edit] mode loop cut on with 7 or so divisions. Loop Cut on all three axis XYZ. Menu Transform ..... Transform to Sphere.
Yes, start with cube, transform to sphere shape, cast back to cuboid.
Additional Notes Please welcome Carlo
Cast modifier basically projects the object vertices along their normals to the target shape's surface. It is the same thing you would get by using a Shrinkwrap modifier pointing to a scene object.
By enabling Vertex normals in Edit mode, you can see on what surface each vertex will be translated to.
There is no vertex pointing toward the box's corner.
Conclusions: To better approximate a cube, the starting sphere should have enough vertex density whose vertex normals point to the cube edges and corners. So for better results you can:
- Increase the number of vertices
- Use a different starting topology
answered Sep 4, 2015 at 16:28
-
$\begingroup$ @Carlo Yes. You have been reserved a space [after] what I have already written. $\endgroup$ Commented Sep 4, 2015 at 17:16
-
$\begingroup$ Thanks, I've added my "unmissable" stuff. Feel free to change or rearrange things in order to provide a higher coherence level to the answer. $\endgroup$– CarloCommented Sep 4, 2015 at 17:35
-
$\begingroup$ @Carlo please change the word you wrote ..... [project] to [projects] $\endgroup$ Commented Sep 5, 2015 at 6:28