I am in the following situation. I will make up a real world case to put things clear. Suppose I have to model a cube in 3d space, and this cube has a specific material: an object of type Cube contains a set of information about its spatial position, and also the type of material, as a string. This cube is passed around to many algorithms and classes, so that they can perform their tasks, such as rendering the cube.
For this to happen, these algorithms and classes require additional info about the object, namely, the material properties such as reflectiveness. These info are not specific to that object, but can be obtained by means of the current object data (namely, the material the cube is made of).
Technically, I have a database of materials, so I can always resolve the string declaration of the material for the specific cube into detailed info about that specific material. The renderer need these info, so I am in the following possible situations:
- I pass the cube and the database to the renderer, and let the renderer query the database, get the info about the material, and render the cube
- I make the database a global object, which can be queried regardless of the position in the code, saving the need to pass the database around, but creating an implicit dependency against the database
- I get data about the material, and stick it to the Cube object somehow, removing the need to pass around or even keep the database active any longer. Once I got the data, I'm off. This means that the Cube is added information at a later stage, being in a sort of invalid condition until these data are actually moved from the database into the cube.
- I consider the cube object self contained with its information, I also define another object with the data about the materials, and then create a new object containing a merge of these two information, something like a MaterialDescribedCube
Is there a known-good pattern for this kind of situation ?