Dynamic bleed area definition for printing of multi-dimensional substrates

The invention claimed is: 1. A method, comprising, by a processor: receiving a two-dimensional representation of a three-dimensional package, the representation comprising a plurality of facets; identifying an image that is to be printed on a first facet of the package; identifying a second facet of the package that has a functional relationship with the first facet; determining whether the functional relationship is that of a crease, an edge, or another functional relationship; automatically defining a bleed area corresponding to the functional relationship by accessing a rule set and applying the rule set to the determined functional relationship, so that the bleed area comprises an area in which the first image will be printed and that is outside of the location of the first facet, wherein the rule set comprises a plurality of rules for defining plurality of bleed areas based on a plurality of functional relationships; and saving, to a computer-readable memory, a package printing template that includes the defined bleed area. 2. The method of claim 1 , further comprising: identifying a plurality of additional facets having one or more images that are to be printed thereon; for each additional identified facet, determining whether the identified facet has a functional relationship with another facet, and if so automatically defining a bleed area for the identified facet based on its functional relationship; and saving each of the bleed areas defined for each additional identified facet to the package printing template. 3. The method of claim 2 , further comprising: receiving, via a user interface, a modified two-dimensional package representation, wherein the modified two-dimensional package representation modifies the functional relationships for at least one pair of the facets; automatically generating a revised bleed area for at least one of the facets based on the modified functional relationships; and saving each of the revised bleed areas to the package printing template. 4. The method of claim 1 , further comprising: by a package generating device, using the package printing template to generate a three-dimensional package flat by: printing the image on locations of the substrate that correspond to the first facet and the bleed area; applying a cut line to each location of the substrate that corresponds to an edge in the template; and applying a crease line to each location of the substrate that corresponds to a crease in the template. 5. The method of claim 1 , further comprising: determining that the functional relationship comprises a compression crease; defining the bleed area as an area that extends along the crease at a width that is at least as large as that of the crease; and requiring that the image be printed in the bleed area so that a portion of the image will be blended with a portion of a second image that is to be printed on the second facet. 6. The method of claim 1 , further comprising: determining that the functional relationship comprises an edge; and defining the bleed area as an area in which a portion of the image will extend into a substrate portion that will be cut away and not included in the package. 7. The method of claim 1 , further comprising: determining that the functional relationship comprises a compression crease; defining the bleed area as an area that extends along the crease at a width that is at least as large as that of the crease; and requiring that the image be printed in the bleed area so that it fades as a linear function of distance as it moves into the bleed area and away from the first facet. 8. The method of claim 1 , further comprising: determining that the functional relationship comprises a partial cut or a perforation; defining the bleed area as an area that extends along the crease at a width that is at least as large as that of the crease; and requiring that the image be printed in the bleed area so that it fades as a linear function of distance as it moves into the bleed area and reaches a zero point at or before the location of the partial cut. 9. The method of claim 1 , further comprising: determining that the functional relationship comprises a partial cut or a perforation; defining the bleed area as an area that extends along the crease at a width that is at least as large as that of the crease; and requiring that the image be printed in the bleed area so that it fades as a linear function of distance to a first color that is a metameric match of a color of an interior of a substrate of the three-dimensional package, as it moves into the bleed area and reaches a zero point after the location of the perforation. 10. The method of claim 1 , further comprising: determining that the functional relationship comprises a flap and a cut-away section; defining the bleed area as an area of the flap; and requiring that the image be printed in the bleed area so that it is positioned to appear through the cut-away section when the package is folded into a three-dimensional form. 11. A system for defining a three-dimensional structure, comprising: a processor; and a memory containing programming instructions that, when executed, are configured to instruct the processor to: receive a two-dimensional representation of a three-dimensional structure, wherein the representation comprises a plurality of facets, identify an image that is to be printed on a first facet of the structure, identify a second facet of the structure that has a functional relationship with the first facet, determine whether the functional relationship is that of a crease, an edge, or another functional relationship, automatically define a bleed area corresponding to the functional relationship by accessing a rule set and apply the rule set to the determined functional relationship, so that the bleed area comprises an area in which the first image will be printed and that is outside of the location of the first facet, wherein the rule set comprises a plurality of rules for defining a plurality of bleed areas based on a plurality of functional relationships, and save, to a computer-readable memory, a three dimensional structure printing template that includes the defined bleed area. 12. The system of claim 11 , further comprising additional programming instructions that, when executed, are configured to instruct the processor to: identify a plurality of additional facets having one or more images that are to be printed thereon; for each additional identified facet, determine whether the identified facet has a functional relationship with another facet, and if so automatically define a bleed area for the identified facet based on its functional relationship; and save each of the bleed areas defined for each additional identified facet to the printing template. 13. The system of claim 12 , further comprising: a user interface; and additional programming instructions that, when executed, are configured to instruct the processor to: receive, via the user interface, a modified two-dimensional representation, wherein the modified two-dimensional representation modifies the functional relationships for at least one pair of the facets, automatically generate a revised bleed area for at least one of the facets based on the modified functional relationships, and save each of the revised bleed areas to the printing template. 14. The system of claim 11 , further comprising: a package generating device comprising a printing device, a cutting device, a creasing device and a processor; and additional programming instructions that, when executed, are