Suppose I want to be able to show 3D models of an object in a 3D program, but the shape of this mesh is governed by a number of parameters (a, b, c..) such that an instance can have any of several thousand possible combinations.
Imagine for example a library of bolts, where the basic shape of a bolt could easily be drawn in a standard CAD program for one specific instance of a bolt (a certain length, diameter, head diameter), but rather than having to create thousands of nearly equal model files for all permutations I'd like to create the meshes as "dynamic" or "parametric". Note that a simple scale of the entire model or even a part of the model will not be enough. Individual vertices will have to basically have dynamic positions
(x,y,z) = f(a, b, c)
The solution to this problem probably requires both a file format (to encode the dynamic template model into a file) and some code to apply the parameters and get the final model. I know AutoCad has what is known as "dynamic blocks", but I don't know if they could be parsed and used in a standalone application.
The only solution I have come up with so far is to draw the model in a standard CAD format, in a normalized coordinate system with integer coordinates so that various planes of the model line up with known coordinates, and then I'd code a mapping so that e.g. any coordinate (x,y,3) would be mapped to
(x,y,a) for example. This is fairly limited in that it only allows for mapping of planar sections, and the model itself would consist of both the file and set of external hard coded mappings for that file.
The model needs to be aquired explicitly, i.e. I can't use "implicit" transforms such as using a skeleton and vertex shader in the visuzalization step only, since I need to be able to save the final transformed mesh.
The visualization will be done using Direct3D9, the code is C#/.NET 4.0