3D printing with custom surface reflectance

We claim: 1. A 3D printing method, comprising: providing a diffuse base layer; printing a layer of transparent material comprising a surface with a plurality of micro-structures, wherein the micro-structures are configured based on a 3D model defining a geometry corresponding to a numerical representation of a target reflectance; and forming a 3D printed object by attaching the layer of transparent material to the diffuse base layer with the micro-structures facing away from the diffuse base layer to define reflectance for the 3D printed object. 2. The method of claim 1 , wherein the providing, the printing, and the forming are performed by a single multi-material 3D printer. 3. The method of claim 1 , further comprising measuring reflectances of printing materials available for the diffuse base layer and the layer of transparent material and, based on the measured reflectances, optimizing the geometry of the micro-structures to reproduce the numerical representation. 4. The method of claim 1 , wherein the numerical representation comprises a normal distribution function (NDF). 5. The method of claim 4 , wherein the geometry of each of the micro-structures is provided by performing a Voronoi optimization. 6. The method of claim 5 , wherein each of the micro-structures comprises a base with one or more sidewalls extending outward from the base and wherein outer surfaces of the one or more sidewalls comprises a plurality of facets. 7. The method of claim 6 , wherein the facets each have substantially equal areas. 8. The method of claim 6 , wherein the base is circular or oval in shape, whereby the body is dome shaped. 9. A 3D printing method, comprising: providing a diffuse base layer; printing a layer of transparent material comprising a surface with a plurality of micro-structures, wherein the micro-structures are configured based on a 3D model defining a geometry corresponding to a numerical representation of a target reflectance; forming a 3D printed object by attaching the layer of transparent material to the diffuse base layer with the micro-structures facing away from the diffuse base layer to define reflectance for the 3D printed object, wherein the providing, the printing, and the forming are performed by a single multi-material 3D printer; measuring reflectances of printing materials available for the diffuse base layer and the layer of transparent material; and based on the measured reflectances, optimizing the geometry of the micro-structures to reproduce the numerical representation. 10. The method of claim 9 , wherein the numerical representation comprises a normal distribution function (NDF) and wherein the geometry of each of the micro-structures is provided by performing a Voronoi optimization. 11. The method of claim 10 , wherein each of the micro-structures comprises a base with one or more sidewalls extending outward from the base and wherein outer surfaces of the one or more sidewalls comprises a plurality of facets, wherein the facets each have substantially equal areas, and wherein the base is circular or oval in shape, whereby the body is dome shaped.